tag:blogger.com,1999:blog-18005803242621891372024-03-21T20:37:44.232-07:00เอ็นไซม์เพื่อชีวิต Enzymes4lifeสนใจ ติดต่อ 08-1707-3486pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.comBlogger6125tag:blogger.com,1999:blog-1800580324262189137.post-86799270332245660852011-05-09T01:50:00.000-07:002011-05-09T01:58:30.976-07:00เอ็นไซม์เพื่อชีวิต<div class="separator" style="clear: both; text-align: center;"></div><table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto; text-align: center;"><tbody>
<tr><td style="text-align: center;"><img alt="" height="204" 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<div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"> <span style="font-family: "Times New Roman","serif"; font-size: 12pt;"></span><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 14pt;">เอ็นไซม์ เจนิฟู้ด (</span></b><b><span style="color: #0070c0; font-family: "Times New Roman","serif"; font-size: 14pt;">GenuFood</span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 14pt;">) </span></b><b><span lang="TH" style="color: #0070c0; font-family: "Times New Roman","serif"; font-size: 14pt;"> </span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 14pt;">เจนิฟู้ด เอ็นไซม์นายพลคนขอนแก่น</span></b><b><span style="color: #0070c0; font-family: "Times New Roman","serif"; font-size: 14pt;"></span></b></div><br />
<div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 20pt;">ขายเอ็นไซม์100% (ของแท้พันเปอร์เซ็นต์) </span></b><b><span style="color: red; font-family: "Times New Roman","serif"; font-size: 20pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="background: none repeat scroll 0% 0% yellow; color: red; font-family: "Cordia New","sans-serif"; font-size: 48pt;">ราคาลดพิเศษ</span></b><b><span style="font-family: "Times New Roman","serif"; font-size: 12pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;">กล่องใหญ่60ซอง </span></b><b><span lang="TH" style="color: black; font-family: "Cordia New","sans-serif"; font-size: 20pt;">4000</span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;"> บาท ขาย </span></b><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 20pt;">3600</span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;"> บาท</span></b><b><span style="color: #0070c0; font-family: "Times New Roman","serif"; font-size: 20pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;">กล่องเล็ก 30ซอง </span></b><b><span lang="TH" style="color: black; font-family: "Cordia New","sans-serif"; font-size: 20pt;"> 2200</span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;"> บาท ขาย </span></b><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 20pt;">1800</span></b><b><span lang="TH" style="color: #0070c0; font-family: "Cordia New","sans-serif"; font-size: 20pt;"> บาท</span></b><b><span style="color: #0070c0; font-family: "Times New Roman","serif"; font-size: 20pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 20pt;">แถม ดีท็อกซ์ลำไส้ ฟรี..ฟรี..</span></b><b><span style="color: red; font-family: "Times New Roman","serif"; font-size: 20pt;"></span></b></div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><b><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 16pt;"> </span></b><b><span style="font-family: "Times New Roman","serif"; font-size: 16pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: #00b0f0; font-family: "Cordia New","sans-serif"; font-size: 48pt;">ติดต่อ</span></b><b><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 48pt;"> <span style="color: #943634;">081-707-3486</span></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">รับประกันยินดีคืนเงิน</span></b><b><span style="font-family: "Times New Roman","serif"; font-size: 14pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">สินค้าทุกชิ้นจัดส่งตรงจากบริษัท โดยตัวแทนบริษัท</span></b><br />
<b><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">ชำระเงินเมื่อสินค้าถึงมือท่านเท่านั้น </span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 48pt;">ของแท้ ราคาถูก</span></b><b><span style="color: red; font-family: "Times New Roman","serif"; font-size: 48pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><b><span lang="TH" style="color: red; font-family: "Cordia New","sans-serif"; font-size: 48pt;">จัดส่งฟรีทั่วประเทศ</span></b><b><span style="color: red; font-family: "Times New Roman","serif"; font-size: 48pt;"></span></b></div><div align="center" class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm; text-align: center;"><br />
</div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">ผลิตโดย </span><span style="font-family: "Times New Roman","serif"; font-size: 14pt;">: </span><span lang="TH" style="color: #1f497d; font-family: "Cordia New","sans-serif"; font-size: 14pt;">ออริโก ไบโอเทคเคมีคอลเทดโนโลยี อิงค์</span><span style="color: #1f497d; font-family: "Times New Roman","serif"; font-size: 14pt;"></span></div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><span lang="TH" style="color: #1f497d; font-family: "Cordia New","sans-serif"; font-size: 14pt;"> นิคมอุตสาหกรรมย่งอัน เมืองเกาสง ประเทศไต้หวั</span><span lang="TH" style="color: #548dd4; font-family: "Cordia New","sans-serif"; font-size: 14pt;">น</span><span style="color: #002060; font-family: "Times New Roman","serif"; font-size: 14pt;"></span></div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">ผู้นำเข้า</span><span style="font-family: "Times New Roman","serif"; font-size: 14pt;">: </span><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;">บริษัทเบสไฟว์ อินเตอร์เทรด จำกัด </span><span style="font-family: "Times New Roman","serif"; font-size: 14pt;"></span></div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><span lang="TH" style="font-family: "Cordia New","sans-serif"; font-size: 14pt;"> 135/53-55 อาคารอมรพันธุ์ 205ทาวเวอร์2 ชั้น18 ซอยรัชดาภิเษก7(นาทอง) ถนนรัชดาภิเษก ดินแดง กรุงเทพฯ </span><span style="font-family: "Times New Roman","serif"; font-size: 14pt;"></span></div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><br />
</div><div class="MsoNormal" style="line-height: normal; margin-bottom: .0001pt; margin-bottom: 0cm;"><span lang="TH" style="background: none repeat scroll 0% 0% yellow; color: red; font-family: "Cordia New","sans-serif"; font-size: 12pt;">ขายเอ็นไซม์ ซื้อเอ็นไซม์ เอนไซม์เจนิฟู้ด </span><span style="background: none repeat scroll 0% 0% yellow; color: red; font-family: "Times New Roman","serif"; font-size: 12pt;">Genufood </span><span lang="TH" style="background: none repeat scroll 0% 0% yellow; color: red; font-family: "Cordia New","sans-serif"; font-size: 12pt;">เอ็นไซม์เจนิฟู้ด พลังแห่งเอ็นไซม์บำบัด เอ็นไซม์เพื่อชีวิต เจนิฟู้ด เอ็นไซม์นายพลคน ขอนแก่น ราคาเอ็นไซม์ เอ็นไซม์ราคาถูก โปรโมชั่นเอ็นไซม์ โครงการฟื้นพูสุขภาพของนายพลคนขอนแก่น ความรู้เรื่องเอ็นไซม์ เอ็นไซม์คืออะไร เอ็นไซม์กับบทสุดท้ายของชีวิต บำบัดโรคด้วยเอ็นไซม์ เอ็นไซม์เจนิฟู้ด เอ็นไซม์ เอ็นไซม์กับการรักษาสุขภาพ ดูแลร่างกายด้วยเอ็นไซม์ เอ็นไซม์ราคาถูก เอ็นไซม์ของแท้100%</span><span style="color: red; font-family: "Times New Roman","serif"; font-size: 12pt;"></span></div><div class="MsoNormal"><br />
</div>pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0tag:blogger.com,1999:blog-1800580324262189137.post-45889444276011963232011-04-25T20:37:00.000-07:002011-04-25T20:37:57.378-07:00เอนไซม์เพื่อชีวิต :ที่มา และประวัติ<h1>เอนไซม์เพื่อชีวิต</h1><div style="text-align: center;"> </div><div style="text-align: center;"><strong>เอนไซม์เพื่อชีวิต</strong><strong> </strong></div><div style="text-align: center;"><strong>(</strong><strong>Enzyme for Life)</strong></div><div style="text-align: right;"><strong> </strong></div><div style="text-align: right;"><strong>ว่าที่ร.ต. จาตุรงค์ จงจีน</strong></div><div style="text-align: right;"><strong>สาขาชีววิทยา คณะวิทยาศาสตร์ มหาวิทยาลัยราชภัฏอุบลราชธานี</strong></div><strong> </strong><br />
<strong>ความรู้เกี่ยวกับเอนไซม์</strong><br />
เมื่อประมาณ 200 ปีที่ผ่านมา มนุษย์ได้เริ่มรู้จักเอนไซม์ เพราะมีการใช้ส่าเหล้า หรือยีสต์ (yeast) มาหมักน้ำตาลทำให้เกิดแอลกอฮอล์ขึ้นมา แต่ก็ยังไม่ทราบว่า “อะไรก่อให้เกิดการเปลี่ยนแปลงนี้” จึงเรียกว่า “สิ่งที่อยู่ในส่าเหล้า” ซึ่งมาจากคำว่า In-Yeast และเปลี่ยนมาเรียกเป็น เอนไซม์ โดยคำว่า ไซม์ (Zyme) มาจากยีสต์ และอิน (In) ก็มาเป็น เอน (En) มารวมกับเป็นคำว่า เอนไซม์<br />
ในอดีตชาวอียิปต์โบราณเชื่อว่ามีพลังที่ลึกลับและมองไม่เห็น ซึ่งสามารถเปลี่ยนแปลงสิ่งหนึ่งให้กลายเป็นอีกสิ่งหนึ่งได้ เช่น จากนมให้เปลี่ยนเป็นเนยแข็ง น้ำ องุ่นเปลี่ยนเป็นไวน์ เป็นต้น ซึ่งต่อมานักวิทยาศาสตร์จึงทราบว่าสิ่งมหัศจรรย์นั้นที่แท้ก็คือ เอนไซม์ นั่นเอง<br />
เอนไซม์ คือ ตัวเร่งปฏิกิริยาเคมีที่เกิดในสิ่งมีชีวิต (biocatalyst) ทำให้อัตราเร็วของปฏิกิริยาเพิ่มสูงขึ้นได้ถึง 108 – 1014 เท่าของปฏิกิริยาเดิมที่ไม่มีเอนไซม์ เป็นตัวเร่ง ในปฏิกิริยาที่มีเอนไซม์เป็นตัวเร่งนั้น สารที่เข้าทำปฏิกิริยากัน (reactant) มีชื่อเรียกว่าซับสเตรต (substrate) โดยส่วนใหญ่แล้วเอนไซม์ชนิดหนึ่งๆ จะสามารถเร่งปฏิกิริยาที่มีซับสเตรตชนิดใดชนิดหนึ่งโดยเฉพาะเท่านั้น นั้นคือ เอนไซม์เป็นตัวเร่งที่มีความจำเพาะต่อซับสเตรต และเอนไซม์ส่วนใหญ่เป็นโปรตีนที่มีลักษณะเป็นก้อนกลม (globular protein) ความสามารถในการทำงานของเอนไซม์จะขึ้นอยู่กับโครงรูปของโปรตีน<br />
นักชีวเคมีชื่อ ไมเคิลลิส และ เมนเทน (Michaelis and Menten) ได้อธิบายไว้ว่า เมื่อเอนไซม์เข้าทำปฏิกิริยากัน เอนไซม์จะจับกับสารตั้งต้นอย่างสนิทเหมือนกับ “แม่กุญแจกับลูกกุญแจ” โดยคุณสมบัติดังกล่าวจะทำให้เกิดสารประกอบเชิงซ้อนของเอนไซม์กับผลผลิต (enzyme product complex)<br />
ในปี ค.ศ. 1894 อีมิล ฟิชเชอร์ ได้เสนอสมมติฐาน แม่กุญแจ-ลูกกุญแจ (lock and key hypothesis) หรือแบบจำลองแม่กุญแจกับลูกกุญแจ (lock and key model) ตามแนวความคิดแบบจำลองแม่กุญแจกับลูกกุญแจนั้นเอนไซม์เปรียบได้กับลูกกุญแจ และซับสเตรตเปรียบได้กับแม่กุญแจซึ่งจะเกิดการเปลี่ยนแปลงเมื่อไขด้วยลูก กุญแจโดยแม่กุญแจจะต้องมีรูปร่างพอเหมาะกับเอกทีฟไซด์ของลูกกุญแจเท่านั้น จึงจะรวมกับเอนไซม์และเกิดปฏิกิริยากลายเป็นผลิตภัณฑ์ นอกจากนี้เอนไซม์ยังสามารถเร่งปฏิกิริยาย้อนกลับได้ กล่าวคือ เอนไซม์เปลี่ยนซับสเตรตให้กลายเป็นผลิตภัณฑ์ และสามารถเปลี่ยนผลิตภัณฑ์ให้เป็นซับสเตรตดังเดิมได้<br />
ในปี ค.ศ.1959 คอชแลนด์ ได้เสนอสมมติฐานเหนี่ยวนำ (induced fit hypothesis) หรือแบบจำลองการเหนี่ยวนำ (induced fitmodel) กล่าวว่าเอกทีฟไซด์จะสามารถยืดยุ่นและเปลี่ยนภาพได้ โดยเมื่อซับสเตรตเข้าใกล้บริเวณเอกทีฟไซด์ของเอนไซม์ ซับสเตรตจะเหนี่ยวนำให้เอนไซม์เปลี่ยนลักษณะโครงรูปบริเวณเอกทีฟไซด์ให้มี ขนาดและรูปร่างพอเหมาะที่จะรวมกับซับสเตรตได้<br />
<a href="http://www.sci.ubru.ac.th/bio/wordpress/wp-content/uploads/2010/03/Enzyme.jpg"><img alt="" class="aligncenter size-full wp-image-9" height="186" src="http://www.sci.ubru.ac.th/bio/wordpress/wp-content/uploads/2010/03/Enzyme.jpg" title="Enzyme" width="543" /></a><br />
<div style="text-align: center;"><strong>กลไกการทำงานของเอนไซม์</strong></div><strong> </strong><br />
<strong>บิดาแห่งวิชาเอนไซม์ </strong><br />
ผู้ที่เรียนวิชาเอนไซม์ (Enzymology) ทุกคนจะต้องรู้จักชื่อ ดร.นายแพทย์ เอดเวิด โฮเวล (เป็น “แพทย์” และได้รับปริญญาเอกเป็น “ดอกเตอร์” ด้วย) ในฐานะผู้บุกเบิกความรู้เรื่อง “เอนไซม์” มายาวนานนับตั้งแต่ ค.ศ. 1930 (พ.ศ. 2473) โดยเริ่มจากการประกอบวิชาชีพแพทย์ พร้อมกับการศึกษาความลี้ลับของเอนไซม์ที่มาจากพืชและจากจุลินทรีย์ โดยพบว่ามีคุณสมบัติเช่นเดียวกับเอนไซม์ย่อยอาหารที่ผลิตในร่างกายมนุษย์ และสามารถทำงานทดแทนกันได้<br />
จากผลสำเร็จของการวิจัย ดร.โฮเวลจึงได้ผลิตเอนไซม์ขึ้นมาใช้กับผู้ป่วย โดยทำเป็นอาหารเสริม เพื่อประกอบการรักษาโรคต่างๆ และพบว่า การใช้เอนไซม์เสริมนั้นได้ผลดีมากๆ ความสำเร็จชิ้นนี้ทำให้ ดร.โฮเวลได้รู้ถึงความสำคัญของเอนไซม์ชนิดต่างๆ รวมทั้งวิธีสร้างตำรับหรือสูตรของเอนไซม์เสริมที่เมาะสม และยังได้เขียนตำราเกี่ยวกับวิชาโภชนาการที่สำคัญรวม 3 เล่ม ซึ่งนักวิทยาศาสตร์ยังนำมาใช้อ้างอิงจนทุกวันนี้ จึงสามารถกล่าวได้ว่า ดร.โฮเวล คือ “บิดาแห่งวิชาเอนไซม์”<br />
<strong>เอนไซม์สำคัญกว่าแก๊สออกซิเจนที่ใช้หายใจ</strong><br />
<strong> </strong>สิ่งมีชีวิตทุกชนิดที่ปราศจากเอนไซม์จะไม่สามารถดำรง ชีพอยู่ได้ แต่ถ้าเราพูดว่าอากาศ หรือ แก๊สออกซิเจนมีความสำคัญมากในมนุษย์และสิ่งมีชีวิตชนิดอื่นๆ แท้จริงแล้วเป็นเพียงแค่ความสำคัญในระดับหนึ่งเท่านั้นเอง เพราะความจริงแก๊สออกซิเจนที่เราจำเป็นต้องใช้ในการหายใจ เกิดจากปฏิกิริยาเคมีในพืชใบเขียวซึ่งมีเอนไซม์เป็นตัวเร่ง โดยเปลี่ยนแก๊สคาร์บอนไดออกไซด์ (CO<sub>2</sub>) ให้เป็นแก๊สออกซิเจน (O<sub>2</sub>) ต้นไม้และพืชทั้งหลายสามารถผลิตเอนไซม์ที่จะใช้ในการทำปฏิกิริยาดังกล่าวได้ โดยตัวเอง และใช้เอนไซม์เหล่านี้มาสลายแก๊สคาร์บอนไดออกไซด์อีกต่อหนึ่ง ให้มาเป็นแก๊สออกซิเจนโดยปฏิกิริยาที่เกิดขึ้นทั้งหมดนี้ก็ต้องใช้เอนไซม์ เป็นตัวช่วย และทำให้สิ่งมีชีวิตสามารถใช้ออกซิเจนเพื่อการดำรงชีพต่อไป<br />
<strong>เอนไซม์สำคัญกว่าวิตามินหรือเกลือแร่</strong><br />
เอนไซม์จำเป็นสำหรับทุกปฏิกิริยาเคมีในร่างกาย เซลล์ทั้ง 60 ล้านล้านเซลล์ต้องใช้เอนไซม์เพื่อเร่งปฏิกิริยานี้ ถ้าไม่มีเอนไซม์ วิตามิน เกลือแร่ในร่างกายก็ไม่สามารถทำอะไรได้เลย เพราะสารต่างๆ ดังกล่าวคือ ตัวร่วมกับเอนไซม์ (coenzyme) ในการสร้างสรรค์สิ่งต่างๆ ทั้งเซลล์ อวัยวะและร่างกาย จนสุดท้ายคือการสร้างสิ่งมีชีวิต เมื่อไม่มีเอนไซม์ให้ร่วมทำปฏิกิริยา วิตามินและเกลือแร่เหล่านั้นก็ไร้ประโยชน์ เป็นเพียงแค่เศษผงธรรมดาในร่างกาย<br />
<strong>เอนไซม์กับความสำคัญในร่างกาย</strong><br />
<strong> </strong>นักชีวเคมีเชื่อว่าเอนไซม์ที่ผลิตขึ้นในร่างกายแต่ละ คนนั้นมีจำนวนจำกัด ดังนั้นจึงต้องประหยัดเพื่อจะได้มีเอนไซม์ไว้ใช้ให้นานที่สุด ถ้าต้องการมีอายุยืนยาวและสุขภาพดี ต้องอาศัยเมแทบอลิก เอนไซม์ (Metabolic Enzyme) หรือเอนไซม์สำหรับการเผาผลาญอาหาร ซึ่งมีส่วนสำคัญในการซ่อมแซมและสร้างเซลล์ในส่วนต่างๆ ของร่างกาย เป็นภูมิต้านทานโรค ป้องกันความเสื่อมโทรมในร่างกาย แต่กฎของธรรมชาติให้ไว้ว่า ถ้าเอนไซม์ในการย่อยสลายสารอาหารไม่เพียงพอ ร่างกายต้องดึง เมแทบอลิกเอนไซม์ออกมาใช้ ซึ่งสะสมไว้ในเซลล์ต่างๆ เพื่อนำมาทำงานที่ต่ำชั้นกว่า คือ ย่อยอาหาร ทำให้เมแทบอลิกเอนไซม์หมดไป จึงทำให้พลังของชีวิตไม่เพียงพอทีจะดำรงชีพ และเป็นอันตรายต่อชีวิตได้ง่าย<br />
ดร.เอดเวิด โฮเวล ได้ให้ข้อสังเกตไว้ว่า เอนไซม์ก็เหมือนเม็ดเงินในธนาคาร คนทั่วไปเบิกเอนไซม์จากธนาคารเอนไซม์ของตนออกมาใช้และไม่ค่อยหามาฝากกลับ คืน จึงทำให้เอนไซม์หมดไป และจะเป็นการกระทำที่ฉลาดมาก ถ้าเราจะพยายามกักตุนเอนไซม์ที่เราผลิตเองในร่างกายเอาไว้ และหาเอนไซม์จากภายนอกมาใช้แทน ผลการศึกษาโดยนักวิทยาศาสตร์ต่างก็สรุปออกมาว่า เอนไซม์คือ “สมบัติที่มีค่าของชีวิต และมีอย่างจำกัด จงใช้อย่างประหยัด”<br />
<strong> </strong><br />
<strong>เอนไซม์กับวิธีการใช้อย่างประหยัด</strong><br />
<strong> </strong>นักวิทยาศาสตร์บางท่านเชื่อว่า ถ้าเราลดจำนวนอาหารลง เราก็จะไม่สิ้นเปลืองเอนไซม์ กล่าวคือ เราจะตายช้าลง เพราะจะมีเมแทบอลิกเอนไซม์มากขึ้น เนื่องจากไม่ต้องไปช่วยในการย่อยอาหาร สามารถนำไปใช้ซ่อมแซมร่างกายให้แข็งแรง ตัวอย่างเช่น สัตว์บางชนิด (หมาและแมว) เวลาป่วยมันจะหยุดกินอาหาร และพยายามออกไปกินต้นหญ้าบางอย่าง เพราะสัตว์มีสัญชาตญาณที่จะประหยัดเอนไซม์ โดยหยุดกิจกรรมการกินอาหารและหาเอนไซม์จากพืชมาช่วยในระบบร่างกาย ใช่ว่าหมาและแมวจะฉลาดกว่ามนุษย์ แต่เป็นกฎของการอยู่รอด (Law of Survival) ซึ่งธรรมชาติเป็นผู้กำหนด ทำให้สัตว์ต้องกระทำอย่างนั้นด้วยสัญชาตญาณเพื่อการดำรงเผ่าพันธุ์ไว้<br />
<strong> </strong><br />
<strong>เอนไซม์กับชีวิตที่ยืนยาว </strong><br />
<strong> </strong>ถ้าเอนไซม์ในร่างกายมีมากพอ มนุษย์อาจมีอายุยืนถึง 120 ปีได้ เพราะเซลล์ในร่างกายสามารถแบ่งตัวได้ตามกำหนดของนาฬิกาชีวิต ถ้าเอนไซม์ในร่างกายมีระดับต่ำ โอกาสที่จะป่วยเป็นโรคเรื้อรังต่างๆ เกิดขึ้นได้ง่ายมาก ดร.ฮัมบาท แซนติลโล ได้เขียนไว้ในหนังสือชื่อ “เอนไซม์ในอาหาร” ว่า คนเราแต่ละคนหรือสิ่งมีชีวิตทั้งหลายควรพิจารณาว่าที่แท้จริง สุขภาพ ของเขาคือปฏิกิริยาเคมีของเอนไซม์ที่บูรณาการเข้าด้วยกันอย่างมีระบบ จึงทำให้ทุกเซลล์ของร่างกายดำเนินไปอย่างปกติสุข<br />
นักวิจัยยังพบว่าผู้ป่วยที่เป็นมะเร็งจะมีระดับเอนไซม์ในเลือดต่ำกว่า ปกติทุกราย อย่างไรก็ดีผู้ที่ต้องการมีอายุยืนและสุขภาพแข็งแรง นอกจากจะระวังในเรื่องการกินอาหารสดและอุดมไปด้วยเอนไซม์แล้ว ยังต้องรักษาสุขภาพด้านอื่นๆ ด้วย เช่น ออกกำลังกาย ไม่สูบบุหรี่ ไม่ดื่มเหล้า มีทัศนคติที่ดีในการดำรงชีวิต เป็นต้น และท่านจะมีชีวิตที่ยืนยาวตราบเท่าที่ร่างกายท่านยังมีการทำงานของเอนไซม์ ตามปกติ<br />
<strong>เอนไซม์กับบทสุดท้ายของชีวิต</strong><br />
ท่านคงไม่ทราบว่า ความตายมารอและอาศัยอยู่กับท่านนับตั้งแต่ท่านได้เกิดและมีชีวิตตลอดมา แท้จริงแล้วร่างกายคนเรามีเอนไซม์อยู่กลุ่มหนึ่งชื่อ คาเทพซิน (Cathepsin) สะสมอยู่ในร่างกายมาตั้งแต่เกิด โดยจับคู่อยู่กับตัวยับยั้งหรือตัวที่มีหน้าที่บังคับมัน ไม่ยอมให้เอนไซม์คาเทพซินทำงานได้จนกว่าจะถึงเวลาที่กำหนด เอนไซม์ตัวนี้ธรรมชาติได้สร้างไว้กับมนุษย์เพื่อใช้เมื่อตาย โดยจะย่อยซากศพให้เน่าเปื่อยจนเหลือแต่กระดูกในที่สุด แต่ในขณะที่เรายังมีชีวิตอยู่นั้น ตัวยับยั้งจะทำหน้าที่อย่างเข้มแข็งและสุดความสามารถ เพื่อไม่ให้เอนไซม์คาเทพซินย่อยตัวเราทั้งเป็น แต่สังขารเป็นสิ่งไม่เที่ยง เมื่อท่านตายไปแล้วตัวยับยั้งก็หยุดทำงานไป เมื่อสภาพแวดล้อมของร่างกายเกิดการเปลี่ยนแปลง เอนไซม์คาเทพซินก็ถือโอกาสอันมีค่าแผลงฤทธิ์ของมันอย่างเต็มที่ ย่อยสลายร่างที่ไร้วิญญาณ ไม่มีวามรู้สึก จนศพเน่าเปื่อยไปในที่สุด แต่ในปัจจุบันแพทย์และนักวิทยาศาสตร์ใช้การแช่แข็งด้วยความเย็นจัดเก็บร่าง ของศพเอาไว้ ไม่ยอมให้ตัวยับยั้งสลายไปกับสังขาร ทำให้ตัวยับยั้งจึงยังคงอยู่เพื่อทำหน้าที่เป็นตัวห้ามเอนไซม์คาเทพซินต่อ ไป<br />
<div style="text-align: left;"> </div><div style="text-align: center;"><strong>เอกสารอ้างอิง</strong><strong> </strong></div><strong> </strong><br />
ปราณี อ่านเปรื่อง. <strong>เอนไซม์ทางอาหาร. </strong>กรุงเทพฯ: จุฬาลงกรณ์มหาวิทยาลัย, 2534<br />
พัชรา วีระกะลัส. <strong>เอนไซม์</strong>. พิมพ์ครั้งที่ 2. กรุงเทพฯ: จุฬาลงกรณ์มหาวิทยาลัย, 2543<br />
รัชนี ตัณฑะพานิชกุล. <strong>เคมีอาหาร. </strong>กรุงเทพฯ : โรงพิมพ์ชวนชม, 2535.<br />
สมศักดิ์ วรคามิน. <strong>เอนไซม์ กุญแจแห่งชีวิต. </strong>พิมพ์ครั้งที่ 2. กรุงเทพ: สามเจริญพานิชย์ (กรุงเทพ) จำกัด, 2550pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0tag:blogger.com,1999:blog-1800580324262189137.post-8171495613020990792011-04-25T08:05:00.000-07:002011-04-25T08:05:15.899-07:00<h2 class="title" style="color: red; font-weight: normal;"><b><span style="font-size: x-large;">พลังแห่งเอนไซม์บำบัด</span></b></h2><span class="Apple-style-span" style="color: #cc33cc;">เอนไซม์บำบัด หรือเอนไซม์เสริม สามารถพลิกชีวิตของให้ท่านให้ดีขึ้นอย่างไร</span><div><span class="Apple-style-span" style="color: #cc33cc;"><br />
</span></div><div><span class="Apple-style-span" style="color: #cc33cc;">เอนไซม์ คือ สารโปรตีน เป็นตัวเร่งการทำงานของระบบต่าง ๆ ในสิ่งมีชีวิต ทำให้เซลล์เป็นล้าน ๆ เซลล์,เนื้อเยื่อ,ของเหลว, และอวัยวะต่างๆในร่างกายทำงานได้อย่างปกติ</span></div><div><br />
</div><div><span class="Apple-style-span" style="color: red;">หากร่างกายขาดเอนไซม์หรือปริมาณเอนไซม์ลดลง</span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;">จะ ทำให้การทำงานของระบบต่างๆ เช่น การย่อยอาหาร การขับถ่าย การซ่อมแซมส่วนที่สึกหรอ การขจัดสารพิษของร่างกาย ระบบภูมิคุ้มกัน ระบบหลอดเลือดในร่างกายไม่ปกติ</span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><br />
</span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;">หน้าที่ของเอนไซม์</span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยย่อยอาหารเพื่อให้ได้สารอาหาร </span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">- ช่วยดูดซึมและนำพาสารอาหาร </span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">- ซ่อมแซมส่วนที่สึกหรอ</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยเผาผลาญพลังงาน/ย่อยสลายไขมัน</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วนในการทำงานของระบบภูมิคุ้มกัน</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยป้องกันการอักเสบ/ติดเชื้อ</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ขจัดสารพิษของร่างกาย/ช่วยต้านอนุมูลอิสระ</span></span></span></span></div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ทำให้ฮอร์โมน วิตามิน เกลือแร่ และสารอื่นทำงานตามคุณสมบัติ</span></span></span></span><br />
<br />
<div><span class="Apple-style-span" style="color: #006600;"><b>ท่านใดที่ควรใช้เอนไซม์</b></span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ต้องการฟื้นฟูสุขภาพร่างกายให้แข็งแรง</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ภูมิต้านทานอ่อน และมักติดเชื้อง่าย เช่นวัณโรค โรคเอดส์</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ป่วยก่อน - หลัง ผ่าตัด</span></div><div><span class="Apple-style-span" style="color: #333333;">-สตรีก่อน- หลังคลอด</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่มีประสิทธิภาพตับไม่ดี เหนื่อยง่าย เช่น ตับอักเสบ</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ทีีมีประสาทอ่อน ไม่ปกติ ตกใจง่าย เบื่ออาหาร</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่กระเพาะ ลำไส้ไม่ดีแต่กำเนิด ทำให้ผอมแห้ง แรงน้อย</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ร่างกายแก่ก่อนวัย เจ็บป่วยบ่อย</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่มีอาการติดเชื้อแปลก ๆ ทำให้ร่างกายเจ็บออดๆ แอดๆ</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่อยู่ในสภาวะที่เสี่ยงต่อโรคกรรมพันธุ์เช่น มีญาติเป็นเบาหวาน</span></div><div><span class="Apple-style-span" style="color: #333333;"> มะเร็ง ปัญญาอ่อน โรคเลือด </span></div><div><span class="Apple-style-span" style="color: #333333;"> </span></div><h3 class="post-title entry-title"> <span style="font-size: x-large;"><span style="color: red;">ทำไมต้องกินเอนไซม์</span> </span></h3><div class="post-header"> </div><div style="background-color: magenta; color: black; text-align: center;"><span style="font-size: large;">เอนไซม์เสริม (Enzyme Supplement)</span><br />
</div><br />
<br />
<span style="color: blue;">ปู่ ย่า ตา ยาย มีอายุยืนยาวอยู่กันมาได้ไม่ต้องกินอาหารเสริมหรือกินเอนไซม์เสริม ถือว่าโชคดี เพราะเกิดมาในขณะที่สิ่งแวดล้อมสะอาด อาหารสด ไม่มีการใช้ยาฆ่าแมลง ไม่มีการเติมสารเคมีให้พืชผัก ถ้าเราไปอ่านรายงานสถิติชีพของกระทรวงสาธารณสุข ย้อนหลังกลับไป จะพบว่าโรคหัวใจ เบาหวาน ข้ออักเสบ และมะเร็งในสมัยนั้น แทบจะไม่มีให้เห็น ซึ่งคำว่ามะเร็งในสมัยนั้น จะเป็นคำที่แปลกประหลาดไม่เคยได้ยินมาก่อน</span><br style="color: blue;" /> <br style="color: blue;" /> <br style="color: blue;" /> <div style="color: blue; text-align: center;"><span style="background-color: yellow; font-size: large;">เหตุผลสำคัญที่จำเป็นต้องกินเอนไซม์เสริม</span><br />
</div><div style="color: blue; text-align: center;"><span style="background-color: #fce5cd; font-size: large;"></span><br />
</div><div style="color: blue; text-align: center;"><span style="background-color: yellow; font-size: large;">ร่างกายผลิตเอนไซม์ได้น้อยลงเมื่ออายุมากขึ้น</span><br />
</div><br style="color: blue;" /><span style="color: blue;"> การทดลองที่โรงพยาบาลไมเคิลรีส (Michael Reese) สหรัฐอเมริกา ที่แสดงให้เห็นว่าเอนไซม์ (อไมเลส) ในน้ำลายของคนเราเมื่อวัยหนุ่มสาว (21-31 ปี) มีมากกว่าคนชรา (61-100 ปี) ถึง 30 เท่า ไม่มีปัญหาการย่อยอาหาร แต่เมื่อแก่ตัวลงกลับกินไม่ได้ เพราะเอนไซม์ย่อยอาหารเจือจางลง ทำให้อาการผิดปกติต่างๆ เพิ่มมากขึ้น</span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> การศึกษาของบาร์โตส และโกรช (Bartosและ Groh)โดยใช้ยากระตุ้นน้ำย่อยจากตับอ่อนแล้วมาวัดหาจำนวนเอนไซม์ (อไมเลส)พบว่า คนแก่จะมีเอนไซม์ออกมาน้อยกว่าคนหนุ่มสาวมาก เมตาบอลิคเอนไซม์ในเซลล์ต่างๆ ก็จะพลอยลดต่ำลงตาม ความชราก็จะปรากฎโฉมให้เห็นเร็วขึ้นเท่านั้น</span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> ตับอ่อนของมนุษย์มีน้ำหนักเพียง 3 ออนซ์ แต่ต้องทำงานหนักตลอดชีวิต มีผู้เปรียบเทียบไว้ว่า ตับอ่อนที่ผลิตเอนไซม์ก็เหมือนกับแม่พิมพ์ (Mold) ที่ใช้ปั๊มวัตถุดิบให้เป็นสินค้ารูปร่างต่างๆ เช่น ถ้วยแก้ว แม่พิมพ์ในอุตสาหกรรมก็มีอายุการใช้งาน ใช้นานๆ การปั๊ม จะลด จนต้องเลิกใช้งาน ตับอ่อนก็เช่นกัน ถ้าต้องปั๊มเอนไซม์ออกมามากๆ ก็ต้องหมดอายุเช่นกัน เราจึงควรจะให้ตับอ่อนของเราหมดอายุช้าที่สุดเท่าที่จะทำได้ เพื่อประโยชน์ของสุขภาพตนเอง (The mold is good for number of copies before it has to be replaced)</span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> การหุงต้ม การเตรียมอาหาร และการเก็บอาหารเป็นต้นเหตุที่ทำลายเอนไซม์ที่มีอยู่ในอาหารทำให้อาหารที่ กินไม่มีเอนไซม์ จำเป็นต้องใช้เอนไซม์ย่อยอาหารที่ร่างกายต้องผลิตออกมาเองจำนวนมาก ทำให้สิ้นเปลือง นอกจากนี้จำนวนเอนไซม์ที่ควรจะมีในอาหารตามธรรมชาติ ก็ต่ำกว่าที่ควรจะเป็น เนื่องจากในดินไม่มีแร่ธาตุเหมือนในอดีต การใช้รังสีเพื่อถนอมอาหาร การใส่สารกันเสีย การบรรจุกระป๋อง การใช้แก๊สบ่มผลไม้ ฯลฯ ล้วนทำให้เอนไซม์ในอาหารถูกทำลาย จำเป็นต้องกินอาหารเสริมและเอนไซม์เสริมเพื่อชดเชย และช่วยไม่ให้ร่างกายต้องผลิตเอนไซม์เพิ่มออกมา</span><br style="color: blue;" /><span style="color: blue;"> ทารกกินนมแม่ ได้เอนไซม์จากอาหาร (นมแม่)สมบูรณ์</span><br style="color: blue;" /><span style="color: blue;"> นมผง นมสดที่ใช้ความร้อนทำลายเชื้อโรค นมข้นหวาน ล้วนเป็นอาหาร (ของเด็กทารก) ที่ไม่มีเอนไซม์เหลืออยู่ เป็นต้นเหตุให้มีอาหารที่ย่อยไม่หมดไปหมักหมนในลำไส้ใหญ่ เกิดสารพิษซึมเข้าสู่กระแสโลหิต ทำให้เด็กเจ็บป่วยง่าย มีการเก็บข้อมูลพบว่าเด็กที่กินนมขวด มีอันตรายสูงกว่าเด็กที่กินนมแม่ถึง 56 เท่า</span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> Dr.Andre Hakanson จากมหาวิทยาลัยลุนด์ สวีเดน ค้นพบว่า ถ้าเขาเติมนมแม่ลงไปในเซลล์มะเร็งที่เพาะเลี้ยงไว้ที่เจริญงอกงามอยู่จะตาย หมด เซลล์ดีๆ จะไม่ถูกทำลายเลย และพบว่าการกินอาหารสดนี้เป็นประโยชน์เพราะมีเอนไซม์ ถ้ากินอาหารสดไม่ได้หรือไม่พอก็ควรกินเอนไซม์เสริมเข้าไปช่วย</span><br style="color: blue;" /><span style="color: blue;"> มีตัวห้ามการทำงานของเอนไซม์อยู่ในอาหารตามธรรมชาติ เป็นจำนวนมาก (Natural Enzyme Inhibitor) </span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> อาหารที่มนุษย์กินทุกชนิดจะมีตัวห้าม ทั้งนี้เพื่อประโยชน์ของพืชและสัตว์ที่จะควบคุมและป้องกันไม่ให้เอนไซม์ย่อย และทำร้ายตัวมันเอง หรือเกิดจากสภาพสิ่งแวดล้อมบางอย่างเปลี่ยนแปลงไป หรือได้พาเอนไซม์ไปส่งถึงจุดมุ่งหมาย เมื่อเอนไซม์ขาดตัวควบคุมหรือขาดตัวห้าม เอนไซม์ก็จะเริ่มทำงานตามหน้าที่และบทบาทของมันอย่างสบาย</span><br style="color: blue;" /> <br style="color: blue;" /><span style="color: blue;"> อาหารประเภทถั่วชนิดต่างๆ เมล็ดพืช ยอดผักหรือผลไม้ที่ยังอ่อน จะเป็นกลุ่มที่มีตัวห้ามการทำงานของเอนไซม์อยู่มาก ดังนั้นการกินถั่วดิบๆ จึงทำให้เกิดอันตราย เพราะได้รับตัวห้ามเข้าไปมาก จนยับยั้งการทำงานหรืออาจทำลายเอนไซม์ของร่างกายได้อีกด้วย </span><div style="color: blue;"><span class="Apple-style-span"> </span></div>pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0tag:blogger.com,1999:blog-1800580324262189137.post-52369111460923330012011-04-25T07:49:00.000-07:002011-04-25T08:07:33.762-07:00<h2 class="title" style="font-weight: normal;"><span style="font-size: x-large;"><b>พลังแห่งเอนไซม์บำบัด</b></span></h2><span class="Apple-style-span" style="color: #cc33cc;">เอนไซม์บำบัด หรือเอนไซม์เสริม สามารถพลิกชีวิตของให้ท่านให้ดีขึ้นอย่างไร</span><br />
<div><span class="Apple-style-span" style="color: #cc33cc;"><br />
</span></div><div><span class="Apple-style-span" style="color: #cc33cc;">เอนไซม์ คือ สารโปรตีน เป็นตัวเร่งการทำงานของระบบต่าง ๆ ในสิ่งมีชีวิต ทำให้เซลล์เป็นล้าน ๆ เซลล์,เนื้อเยื่อ,ของเหลว, และอวัยวะต่างๆในร่างกายทำงานได้อย่างปกติ</span></div><div><br />
</div><div><span class="Apple-style-span" style="color: red;">หากร่างกายขาดเอนไซม์หรือปริมาณเอนไซม์ลดลง</span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;">จะ ทำให้การทำงานของระบบต่างๆ เช่น การย่อยอาหาร การขับถ่าย การซ่อมแซมส่วนที่สึกหรอ การขจัดสารพิษของร่างกาย ระบบภูมิคุ้มกัน ระบบหลอดเลือดในร่างกายไม่ปกติ</span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><br />
</span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;">หน้าที่ของเอนไซม์</span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยย่อยอาหารเพื่อให้ได้สารอาหาร </span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">- ช่วยดูดซึมและนำพาสารอาหาร </span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">- ซ่อมแซมส่วนที่สึกหรอ</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยเผาผลาญพลังงาน/ย่อยสลายไขมัน</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วนในการทำงานของระบบภูมิคุ้มกัน</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ช่วยป้องกันการอักเสบ/ติดเชื้อ</span></span></span></span></div><div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ขจัดสารพิษของร่างกาย/ช่วยต้านอนุมูลอิสระ</span></span></span></span></div><span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;">-ทำให้ฮอร์โมน วิตามิน เกลือแร่ และสารอื่นทำงานตามคุณสมบัติ</span></span></span></span><br />
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<span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;"> </span></span></span></span><br />
<div><span class="Apple-style-span" style="color: #006600;"><b>ท่านใดที่ควรใช้เอนไซม์</b></span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ต้องการฟื้นฟูสุขภาพร่างกายให้แข็งแรง</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ภูมิต้านทานอ่อน และมักติดเชื้อง่าย เช่นวัณโรค โรคเอดส์</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ป่วยก่อน - หลัง ผ่าตัด</span></div><div><span class="Apple-style-span" style="color: #333333;">-สตรีก่อน- หลังคลอด</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่มีประสิทธิภาพตับไม่ดี เหนื่อยง่าย เช่น ตับอักเสบ</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ทีีมีประสาทอ่อน ไม่ปกติ ตกใจง่าย เบื่ออาหาร</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่กระเพาะ ลำไส้ไม่ดีแต่กำเนิด ทำให้ผอมแห้ง แรงน้อย</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่ร่างกายแก่ก่อนวัย เจ็บป่วยบ่อย</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่มีอาการติดเชื้อแปลก ๆ ทำให้ร่างกายเจ็บออดๆ แอดๆ</span></div><div><span class="Apple-style-span" style="color: #333333;">-ผู้ที่อยู่ในสภาวะที่เสี่ยงต่อโรคกรรมพันธุ์เช่น มีญาติเป็นเบาหวาน</span></div><div><span class="Apple-style-span" style="color: #333333;"> มะเร็ง ปัญญาอ่อน โรคเลือด </span></div><h3 class="post-title entry-title">ทำไมต้องกินเอนไซม์ </h3><div class="post-header"></div><div style="text-align: center;"><span style="background-color: #eeeeee; color: purple; font-size: large;">เอนไซม์เสริม (Enzyme Supplement)</span></div><br />
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ปู่ ย่า ตา ยาย มีอายุยืนยาวอยู่กันมาได้ไม่ต้องกินอาหารเสริมหรือกินเอนไซม์เสริม ถือว่าโชคดี เพราะเกิดมาในขณะที่สิ่งแวดล้อมสะอาด อาหารสด ไม่มีการใช้ยาฆ่าแมลง ไม่มีการเติมสารเคมีให้พืชผัก ถ้าเราไปอ่านรายงานสถิติชีพของกระทรวงสาธารณสุข ย้อนหลังกลับไป จะพบว่าโรคหัวใจ เบาหวาน ข้ออักเสบ และมะเร็งในสมัยนั้น แทบจะไม่มีให้เห็น ซึ่งคำว่ามะเร็งในสมัยนั้น จะเป็นคำที่แปลกประหลาดไม่เคยได้ยินมาก่อน<br />
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<div style="color: red; text-align: center;"><span style="background-color: #fce5cd; font-size: large;">เหตุผลสำคัญที่จำเป็นต้องกินเอนไซม์เสริม</span></div><div style="color: red; text-align: center;"><span style="background-color: #fce5cd; font-size: large;"></span></div><div style="text-align: center;"><span style="background-color: #fce5cd; color: orange; font-size: large;"><span style="background-color: yellow; color: red;">ร่างกายผลิตเอนไซม์ได้น้อยลงเมื่ออายุมากขึ้น</span><span><span style="background-color: red;"></span></span></span></div><br />
การทดลองที่โรงพยาบาลไมเคิลรีส (Michael Reese) สหรัฐอเมริกา ที่แสดงให้เห็นว่าเอนไซม์ (อไมเลส) ในน้ำลายของคนเราเมื่อวัยหนุ่มสาว (21-31 ปี) มีมากกว่าคนชรา (61-100 ปี) ถึง 30 เท่า ไม่มีปัญหาการย่อยอาหาร แต่เมื่อแก่ตัวลงกลับกินไม่ได้ เพราะเอนไซม์ย่อยอาหารเจือจางลง ทำให้อาการผิดปกติต่างๆ เพิ่มมากขึ้น<br />
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การศึกษาของบาร์โตส และโกรช (Bartosและ Groh)โดยใช้ยากระตุ้นน้ำย่อยจากตับอ่อนแล้วมาวัดหาจำนวนเอนไซม์ (อไมเลส)พบว่า คนแก่จะมีเอนไซม์ออกมาน้อยกว่าคนหนุ่มสาวมาก เมตาบอลิคเอนไซม์ในเซลล์ต่างๆ ก็จะพลอยลดต่ำลงตาม ความชราก็จะปรากฎโฉมให้เห็นเร็วขึ้นเท่านั้น<br />
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ตับอ่อนของมนุษย์มีน้ำหนักเพียง 3 ออนซ์ แต่ต้องทำงานหนักตลอดชีวิต มีผู้เปรียบเทียบไว้ว่า ตับอ่อนที่ผลิตเอนไซม์ก็เหมือนกับแม่พิมพ์ (Mold) ที่ใช้ปั๊มวัตถุดิบให้เป็นสินค้ารูปร่างต่างๆ เช่น ถ้วยแก้ว แม่พิมพ์ในอุตสาหกรรมก็มีอายุการใช้งาน ใช้นานๆ การปั๊ม จะลด จนต้องเลิกใช้งาน ตับอ่อนก็เช่นกัน ถ้าต้องปั๊มเอนไซม์ออกมามากๆ ก็ต้องหมดอายุเช่นกัน เราจึงควรจะให้ตับอ่อนของเราหมดอายุช้าที่สุดเท่าที่จะทำได้ เพื่อประโยชน์ของสุขภาพตนเอง (The mold is good for number of copies before it has to be replaced)<br />
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การหุงต้ม การเตรียมอาหาร และการเก็บอาหารเป็นต้นเหตุที่ทำลายเอนไซม์ที่มีอยู่ในอาหารทำให้อาหารที่ กินไม่มีเอนไซม์ จำเป็นต้องใช้เอนไซม์ย่อยอาหารที่ร่างกายต้องผลิตออกมาเองจำนวนมาก ทำให้สิ้นเปลือง นอกจากนี้จำนวนเอนไซม์ที่ควรจะมีในอาหารตามธรรมชาติ ก็ต่ำกว่าที่ควรจะเป็น เนื่องจากในดินไม่มีแร่ธาตุเหมือนในอดีต การใช้รังสีเพื่อถนอมอาหาร การใส่สารกันเสีย การบรรจุกระป๋อง การใช้แก๊สบ่มผลไม้ ฯลฯ ล้วนทำให้เอนไซม์ในอาหารถูกทำลาย จำเป็นต้องกินอาหารเสริมและเอนไซม์เสริมเพื่อชดเชย และช่วยไม่ให้ร่างกายต้องผลิตเอนไซม์เพิ่มออกมา<br />
ทารกกินนมแม่ ได้เอนไซม์จากอาหาร (นมแม่)สมบูรณ์<br />
นมผง นมสดที่ใช้ความร้อนทำลายเชื้อโรค นมข้นหวาน ล้วนเป็นอาหาร (ของเด็กทารก) ที่ไม่มีเอนไซม์เหลืออยู่ เป็นต้นเหตุให้มีอาหารที่ย่อยไม่หมดไปหมักหมนในลำไส้ใหญ่ เกิดสารพิษซึมเข้าสู่กระแสโลหิต ทำให้เด็กเจ็บป่วยง่าย มีการเก็บข้อมูลพบว่าเด็กที่กินนมขวด มีอันตรายสูงกว่าเด็กที่กินนมแม่ถึง 56 เท่า<br />
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Dr.Andre Hakanson จากมหาวิทยาลัยลุนด์ สวีเดน ค้นพบว่า ถ้าเขาเติมนมแม่ลงไปในเซลล์มะเร็งที่เพาะเลี้ยงไว้ที่เจริญงอกงามอยู่จะตาย หมด เซลล์ดีๆ จะไม่ถูกทำลายเลย และพบว่าการกินอาหารสดนี้เป็นประโยชน์เพราะมีเอนไซม์ ถ้ากินอาหารสดไม่ได้หรือไม่พอก็ควรกินเอนไซม์เสริมเข้าไปช่วย<br />
มีตัวห้ามการทำงานของเอนไซม์อยู่ในอาหารตามธรรมชาติ เป็นจำนวนมาก (Natural Enzyme Inhibitor) <br />
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อาหารที่มนุษย์กินทุกชนิดจะมีตัวห้าม ทั้งนี้เพื่อประโยชน์ของพืชและสัตว์ที่จะควบคุมและป้องกันไม่ให้เอนไซม์ย่อย และทำร้ายตัวมันเอง หรือเกิดจากสภาพสิ่งแวดล้อมบางอย่างเปลี่ยนแปลงไป หรือได้พาเอนไซม์ไปส่งถึงจุดมุ่งหมาย เมื่อเอนไซม์ขาดตัวควบคุมหรือขาดตัวห้าม เอนไซม์ก็จะเริ่มทำงานตามหน้าที่และบทบาทของมันอย่างสบาย<br />
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อาหารประเภทถั่วชนิดต่างๆ เมล็ดพืช ยอดผักหรือผลไม้ที่ยังอ่อน จะเป็นกลุ่มที่มีตัวห้ามการทำงานของเอนไซม์อยู่มาก ดังนั้นการกินถั่วดิบๆ จึงทำให้เกิดอันตราย เพราะได้รับตัวห้ามเข้าไปมาก จนยับยั้งการทำงานหรืออาจทำลายเอนไซม์ของร่างกายได้อีกด้วย<span class="Apple-style-span" style="color: red;"><span class="Apple-style-span" style="color: black;"><span class="Apple-style-span" style="color: #cc0000;"><span class="Apple-style-span" style="color: #3333ff;"><br />
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</span></span></span></span>pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0tag:blogger.com,1999:blog-1800580324262189137.post-62192819522439653592011-04-25T03:22:00.000-07:002011-05-08T22:31:16.922-07:00เอ็นไซม์ คือ อะไร???<span class="Apple-style-span" style="border-collapse: separate; color: black; font-family: 'Times New Roman'; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"></span><br />
<div align="center" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt; text-align: center;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="font-size: 20pt;">เอนไซม์</span></span></div><div align="center" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt; text-align: center;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div align="left" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt 81pt; text-align: justify; text-indent: -18pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="color: blue; font-size: 16pt;"><a href="http://web.agri.cmu.ac.th/hort/course/359311/PPHY3_enzyme.htm#BAL" style="color: blue; text-decoration: none;">โค<span class="SpellE">แฟคเตอร์</span></a></span></span></div><div align="left" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt 81pt; text-align: justify; text-indent: -18pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="color: blue; font-size: 16pt;"><a href="http://web.agri.cmu.ac.th/hort/course/359311/PPHY3_enzyme.htm#Isoenzymes" style="color: blue; text-decoration: none;">ไอโซเอนไซม์</a></span></span></div><div align="left" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt 81pt; text-align: justify; text-indent: -18pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="color: blue; font-size: 16pt;"><a href="http://web.agri.cmu.ac.th/hort/course/359311/PPHY3_enzyme.htm#mech" style="color: blue; text-decoration: none;">กลไกในการทำงานของเอนไซม</a>์</span></span></div><div align="left" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt 81pt; text-align: justify; text-indent: -18pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="color: blue; font-size: 16pt;"><a href="http://web.agri.cmu.ac.th/hort/course/359311/PPHY3_enzyme.htm#Denaturation" style="color: blue; text-decoration: none;">การเสื่อมสภาพของเอนไซม์</a></span></span></div><div align="left" class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt 81pt; text-align: justify; text-indent: -18pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span lang="TH" style="color: blue; font-size: 16pt;"><a href="http://web.agri.cmu.ac.th/hort/course/359311/PPHY3_enzyme.htm#enzymefactor" style="color: blue; text-decoration: none;">ปัจจัยที่มีผลต่อการทำงานของเอนไซม์</a></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; font-size: 14pt; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: 16pt;"> <span style="font-size: large;"> <span lang="TH"><span class="Apple-converted-space"> </span>เอนไซม์จะมีอยู่มากมายหลายชนิด และอยู่ในส่วนต่าง</span></span></span><span style="font-size: large;"><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ<span class="Apple-converted-space"> </span></span> <span lang="TH">ของเซลล์<span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น<span class="Apple-converted-space"> </span></span> <span lang="TH">รวมอยู่กับ</span> <span class="Apple-converted-space"> </span><span lang="TH">ผนังเซลล์<span class="Apple-converted-space"> </span></span> <span lang="TH">เยื่อหุ้มเซลล์ ไรโบโซม และในไมโค<span class="SpellE">รบอดี้ส์</span><span class="Apple-converted-space"> </span>เป็นต้น<span class="Apple-converted-space"> </span></span> <span lang="TH">โดยที่เอนไซม์แต่ละชนิดจะมีที่อยู่ที่</span> <span class="Apple-converted-space"> </span><span lang="TH">แน่นอน</span> <span lang="TH"><span class="Apple-converted-space"> </span>ไม่รวมกับเอนไซม์ช</span><span style="font-size: small;"><span lang="TH">นิดอื่น<span class="Apple-converted-space"> </span></span></span><span lang="TH">ๆ เช่น<span class="Apple-converted-space"> </span></span> <span lang="TH">เอนไซม์ที่เกี่ยวข้องกับการสังเคราะห์แสงจะอยู่ภายใน</span> <span class="Apple-converted-space"> </span><span lang="TH">คลอ<span class="SpellE">โรพลาสต์</span></span> <span lang="TH"><span class="Apple-converted-space"> </span>เอนไซม์ที่ใช้ในการหายใจจะอยู่ในไมโตคอนเด<span class="SpellE">รีย</span><span class="Apple-converted-space"> </span></span> <span lang="TH">และเอนไซม์ที่เกี่ยวข้องกับการสังเคราะห์<span class="Apple-converted-space"> </span></span> <span class="GramE">DNA <span lang="TH">และ</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> RNA <span lang="TH">จะอยู่ในนิวเคลียส</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์หลายชนิดจะมีชื่อตามสารเริ่มต้น<span class="Apple-converted-space"> </span></span>(Substrate) <span class="Apple-converted-space"> </span><span lang="TH">ลงท้ายด้วย</span><span class="GramE"> -</span><span class="SpellE">ase</span><span class="Apple-converted-space"> </span><span lang="TH">เช่น<span class="Apple-converted-space"> </span><span class="SpellE">ฟอสฟาเตส</span><span class="Apple-converted-space"> </span></span>(<span class="SpellE">Phosphatase</span>)<span class="Apple-converted-space"> </span><span class="SpellE"><span lang="TH">และอะมัยเลส</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span>(Amylase)<span class="Apple-converted-space"> </span><span lang="TH">เป็นต้น<span class="Apple-converted-space"> </span></span> <span lang="TH">แต่ก็มีเอนไซม์บางชนิดที่ชื่ออาจจะไม่เกี่ยวข้องกับสารเริ่มต้น เช่น คะ<span class="SpellE">ตาเลส</span><span class="Apple-converted-space"> </span></span>(<span class="SpellE">Catalase</span>)</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์ จะทำหน้าที่ควบคุมขั้นตอนของปฏิกิริยาต่างๆ ทางเมตาบอ<span class="SpellE">ลิสม์</span><span class="Apple-converted-space"> </span>ซึ่งผลิตภัณฑ์<span class="Apple-converted-space"> </span></span> (Product) <span lang="TH">ที่ได้อาจจะเปลี่ยนไปทันทีโดยเอนไซม์อีกชนิดหนึ่งก็ได้<span class="Apple-converted-space"> </span></span> <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์ประกอบด้วยโปรตีนเป็นส่วนประกอบใหญ่ และอาจจะมีส่วนที่ไม่ใช่โปรตีนรวมอยู่ด้วย ดังนั้นเอนไซม์จึงมีโครงสร้างย่อยเป็น<span class="Apple-converted-space"> </span><span class="SpellE">กรดอะ</span>มิโน<span class="Apple-converted-space"> </span></span>(Amino acid)<span class="Apple-converted-space"> </span><span lang="TH">หลายชนิดมาต่อกันเป็นลูกโซ่ยาวด้วยแขนที่เรียกว่า<span class="SpellE">เพปไทด์</span><span class="Apple-converted-space"> </span></span>(Peptide bond) <span class="Apple-converted-space"> </span><span lang="TH">ส่วนประกอบที่ไม่ใช่โปรตีนของเอนไซม์อาจจะเป็นกลุ่ม<span class="SpellE">พรอสธีติค</span><span class="Apple-converted-space"> </span></span>(Prosthetic Group)<span class="Apple-converted-space"> </span><span lang="TH">โคเอนไซม์<span class="Apple-converted-space"> </span></span>(Co-enzyme)<span class="Apple-converted-space"> </span><span lang="TH">และวิตามิน<span class="Apple-converted-space"> </span></span>(Vitamin)<span class="Apple-converted-space"> </span><span lang="TH">ซึ่งมักรวมเรียกว่า โค<span class="SpellE">แฟคเตอร์</span><span class="Apple-converted-space"> </span></span>(Cofactors)</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">โค<span class="SpellE">แฟคเตอร์</span></span><a href="http://www.blogger.com/post-edit.g?blogID=1800580324262189137&postID=6219281952243965359" name="BAL"></a></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span> <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์บางชนิด</span> <span lang="TH"><span class="Apple-converted-space"> </span>จะเร่งปฏิกิริยาได้เมื่อมีโครงสร้างที่ไม่ใช่โปรตีนมาเกี่ยวข้อง<span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งมักจะเรียกว่า โค<span class="SpellE">แฟคเตอร์</span><span class="Apple-converted-space"> </span>ซึ่งอาจจะ<span class="SpellE">เป็นอิ</span>ออนของโลหะ เช่น<span class="Apple-converted-space"> </span></span>Mg<sup>+2</sup> Fe<sup>+2</sup> Cu<sup>+2</sup> K<sup>+</sup> Na<sup>+</sup><span class="Apple-converted-space"> </span><span lang="TH">หรือ โมเลกุลของสารอินทรีย์ ซึ่งเรียกว่า โคเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น<span class="Apple-converted-space"> </span></span> NADP FAD FMN<span class="Apple-converted-space"> </span><span lang="TH">หรือ<span class="Apple-converted-space"> </span></span>ATP<span class="Apple-converted-space"> </span><span lang="TH">โค<span class="SpellE">แฟคเตอร์</span>มักจะทนต่อความร้อนได้ ในขณะที่เอนไซม์จะหมดสภาพเมื่อได้รับความร้อน</span> <span lang="TH"><span class="Apple-converted-space"> </span>ส่วนประกอบที่ประกอบด้วยโค<span class="SpellE">แฟคเตอร์</span>และเอนไซม์นี้รวมเรียกว่า<span class="Apple-converted-space"> </span><span class="SpellE">โฮโล</span>เอนไซม์<span class="Apple-converted-space"> </span></span>(<span class="SpellE">Holoenzyme</span>) <span lang="TH">ซึ่งเมื่อกำจัดโค<span class="SpellE">แฟคเตอร์</span>ออกไปแล้วจะเหลือเฉพาะส่วนของโปรตีนที่ไม่สามารถเร่งปฏิกิริยาได้ เรียกว่า<span class="SpellE">อะ</span>โพเอนไซม์<span class="Apple-converted-space"> </span></span>(<span class="SpellE">Apoenzyme</span>) <span class="Apple-converted-space"> </span><span lang="TH">ส่วน</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">โค<span class="SpellE">แฟคเตอร์</span></span> <span lang="TH"><span class="Apple-converted-space"> </span>อาจจะเรียกว่า<span class="Apple-converted-space"> </span></span>Prosthetic group<span class="Apple-converted-space"> </span><br />
<span lang="TH"> <span class="Apple-converted-space"> </span> <span class="Apple-converted-space"> </span></span><span lang="TH">เอนไซม์ที่มีโค<span class="SpellE">แฟคเตอร์เป็นอิ</span>ออนของโลหะนั้นอาจจะเรียกว่า<span class="Apple-converted-space"> </span><span class="SpellE">เมทัลโล</span>เอนไซม์<span class="Apple-converted-space"> </span></span>(<span class="SpellE">Metalloenzyme</span>) <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์บางชนิดมีโค<span class="SpellE">แฟคเตอร์</span>เป็นวิตามินซึ่งมีความจำเป็นต่อเซลล์<span class="Apple-converted-space"> </span></span> <span lang="TH">โคเอนไซม์มักจะมีหน้าที่ในการเป็น</span><span class="SpellE">intermediale</span><span class="Apple-converted-space"> </span>carrier<span class="Apple-converted-space"> </span><span lang="TH">หรือเป็น<span class="Apple-converted-space"> </span></span>functional group<span class="Apple-converted-space"> </span><span lang="TH">ของอะตอม<span class="Apple-converted-space"> </span></span> <span lang="TH">หรืออี<span class="SpellE">เลคต</span>รอน ในกรณีที่โคเอนไซม์ติดอยู่กับเอนไซม์แน่นมากจะเรียกว่ากลุ่ม<span class="SpellE">พรอสธีติค</span><span class="Apple-converted-space"> </span>โดยจะเกาะอยู่กับเอนไซม์แบบแขนโควา<span class="SpellE">เลนท์</span><span class="Apple-converted-space"> </span></span>(Covalent bond)</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH"> <span class="Apple-converted-space"> </span>เอนไซม์ที่ต้องการโค<span class="SpellE">แฟคเตอร์เป็นอิ</span>ออนของโลหะเช่นไซโตโครม ออกซิ<span class="SpellE">เดส</span><span class="Apple-converted-space"> </span></span>(<span class="SpellE">Cytochrome</span><span class="Apple-converted-space"> </span><span class="SpellE">oxidase</span>)<span class="Apple-converted-space"> </span><span lang="TH">ต้องการ<span class="Apple-converted-space"> </span></span>Cu<sup>+2</sup><span class="Apple-converted-space"> </span><span lang="TH">ไพรูเวท<span class="Apple-converted-space"> </span><span class="SpellE">ไคเนส</span><span class="Apple-converted-space"> </span></span>(<span class="SpellE"><span class="GramE">Pyruvate</span></span><span class="GramE"><span class="Apple-converted-space"> </span> <span class="SpellE">Kinase</span></span>)<span class="Apple-converted-space"> </span><span lang="TH">ต้องการ<span class="Apple-converted-space"> </span></span>K<sup>+</sup><span class="Apple-converted-space"> </span><span lang="TH">และ<span class="Apple-converted-space"> </span></span>Mg<sup>+2</sup><span lang="TH">เป็นต้น</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><a href="http://www.blogger.com/post-edit.g?blogID=1800580324262189137&postID=6219281952243965359" name="Isoenzymes"></a><span lang="TH">ไอโซเอนไซม์<span class="Apple-converted-space"> </span></span>(<span class="SpellE">Isoenzymes</span>)</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ไอโซเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">หรือไอโซ<span class="SpellE">ไซม์</span><span class="Apple-converted-space"> </span></span> (<span class="SpellE">Isozymes</span>) <span lang="TH">เป็นเอนไซม์ชนิดเดียวกัน</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">มีน้ำหนักโมเลกุลเท่ากัน<span class="Apple-converted-space"> </span><span class="GramE">มีการเรียงตัวของ<span class="SpellE">กรดอะ</span>มิโนคล้ายคลึงกัน<span class="Apple-converted-space"> </span><span lang="EN-US"> </span>แต่อาจจะแตกต่างกันเล็กน้อย</span><span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งการที่มีการเรียงตัวของ<span class="SpellE">กรดอะ</span>มิโนต่างกันนี้ทำให้เมื่อแยกเอนไซม์โดยวิธีทาง<span class="Apple-converted-space"> </span><span class="SpellE">อีเลคโตรโฟ</span>รี<span class="SpellE">ซิส</span><span class="Apple-converted-space"> </span></span>(Electrophoresis)<span class="Apple-converted-space"> </span><span lang="TH">แล้วจะทำให้ไอโซ<span class="SpellE">ไซม์</span>แยกออกจากกัน การที่พืชมีไอโซเอนไซม์นี้ ทำให้เอนไซม์ชนิดนี้สามารถทำงานได้ในสภาพแวดล้อมที่ต่างกัน<span class="Apple-converted-space"> </span></span> <span lang="TH">ในเซลล์หนึ่งจะมีไอโซเอนไซม์หลายไอโซเอนไซม์</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify; text-indent: 70.9pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span class="SpellE"><span lang="TH">อีเลคโตรโฟ</span></span><span lang="TH">รี<span class="SpellE">ซิส</span><span class="Apple-converted-space"> </span>เป็นเทคนิคที่ใช้ในการแยกโปรตีน<span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งเทคนิคนี้นำมาสู่การค้นพบเอนไซม์จำนวนมาก<span class="Apple-converted-space"> </span></span> <span class="SpellE"><span lang="TH">อีเลคโตรโฟ</span></span><span lang="TH">รี<span class="SpellE">ซิส</span>สามารถแยกโปรตีนหรือโมเลกุลอื่นที่มีประจุในสนามไฟฟ้า<span class="Apple-converted-space"> </span></span> <span lang="TH">โดยใช้ส่วนผสมของเอนไซม์หลายชนิดไว้ในตัวกลางที่เฉื่อย<span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น<span class="Apple-converted-space"> </span></span> Starch gel<span class="Apple-converted-space"> </span><span lang="TH">หรือ<span class="Apple-converted-space"> </span></span>Column<span class="Apple-converted-space"> </span><span class="SpellE">polyacrylamide</span><span class="Apple-converted-space"> </span>gel<span class="Apple-converted-space"> </span><span lang="TH">หรือ<span class="Apple-converted-space"> </span></span>Slab<span class="Apple-converted-space"> </span><span class="SpellE">polyacrylamide</span><span class="Apple-converted-space"> </span><span class="GramE">gel <span lang="TH">ในบัฟเฟอร์ที่ควบคุม</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> pH<span class="Apple-converted-space"> </span><span lang="TH">ได้<span class="Apple-converted-space"> </span></span> R group<span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์จะเกิดการ</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">แตกตัวเมื่อ<span class="Apple-converted-space"> </span></span>pH <span lang="TH">เปลี่ยนไป เช่น ที่<span class="Apple-converted-space"> </span></span>pH 7<span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์ที่มีกรด<span class="SpellE">แอสพาติก</span><span class="Apple-converted-space"> </span>และกรดกลูตามิค จะมีประจุรวมเป็นลบ เพราะ<span class="SpellE">คาร์</span>บอกซิ<span class="SpellE">ลแตก</span>ตัว ส่วนเอนไซม์ที่<span class="SpellE">มีไลซีน</span>และ<span class="SpellE">อาร์จีนีน</span>มากจะมีประจุรวมเป็นบวก ที่<span class="Apple-converted-space"> </span></span>pH 7</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">เนื่องจากเอนไซม์แต่ละชนิดที่รวมกันอยู่จะมีประจุต่างกันที่<span class="Apple-converted-space"> </span></span> <span class="GramE">pH</span><span class="Apple-converted-space"> </span><span lang="TH">หนึ่ง</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ<span class="Apple-converted-space"> </span></span> <span class="Apple-converted-space"> </span><span lang="TH">ถ้าความแตกต่างนี้มีมากพอ เอนไซม์จะถูกแยกออกจากกันเมื่อมีการผ่านกระแสไฟฟ้าจากขั้วลบจากปลายด้านหนึ่งของ<span class="Apple-converted-space"> </span></span> Gel<span class="Apple-converted-space"> </span><span lang="TH">ไปยังขั้วบวกซึ่งอยู่ที่อีกปลายหนึ่งของ<span class="Apple-converted-space"> </span></span>Gel <span class="Apple-converted-space"> </span><span lang="TH">เอนไซม์จะเคลื่อนที่ลงมาในระยะที่ต่างกันในสนามไฟฟ้าขึ้นอยู่กับประจุรวม เมื่อศึกษาการแยกเอนไซม์โดยวิธีนี้ มักจะพบว่ามีเอนไซม์ชนิดเดียวกันเคลื่อนที่ได้ในระยะทางที่ต่างกัน</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">โดยที่เอนไซม์เหล่านี้เปลี่ยนสารเริ่มต้นตัวเดียวกัน ให้เป็นผลิตภัณฑ์ชนิดเดียวกันด้วยเอนไซม์เหล่านี้เรียกว่า ไอโซเอนไซม์</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 36pt; text-align: justify; text-indent: 36pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 36pt; text-align: justify; text-indent: 36pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span lang="TH">กลไกในการทำงานของเอนไซม์</span><a href="http://www.blogger.com/post-edit.g?blogID=1800580324262189137&postID=6219281952243965359" id="mech" name="mech"></a></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ในการเกิดปฏิกิริยาทางเคมีนั้น โมเลกุลที่จะเข้าสู่ปฏิกิริยาได้ ตามปกติจะต้องมี</span> <span lang="TH"><span class="Apple-converted-space"> </span>พลังงานสูง<span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งโมเลกุลเหล่านี้จะมีพลังงานสูงขึ้นได้<span class="Apple-converted-space"> </span></span> <span lang="TH">ในบางครั้งโดยการชนกันของโมเลกุล<span class="Apple-converted-space"> </span></span> <span lang="TH">นอกจากนั้นการเพิ่มอุณหภูมิให้กับสารเคมีจะทำให้จำนวนโมเลกุลที่มีพลังงานสูงเพิ่มขึ้นมาก จึงทำให้โมเลกุลเกิดการชนกันมากขึ้น ปฏิกิริยาจึงเกิดเร็วในการเกิดปฏิกิริยาทางเคมีนั้นถ้าไม่มีอุณหภูมิสูงเข้ามา</span> <span lang="TH"><span class="Apple-converted-space"> </span>เกี่ยวข้อง เอนไซม์จะช่วยเพิ่มอัตราการเกิดปฏิกิริยาให้เร็วขึ้นได้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ในการเกิดปฏิกิริยาเคมีนั้น สารเริ่มต้นจะต้องเปลี่ยนเป็นผลิตภัณฑ์ ซึ่งในการเปลี่ยนนี้จะต้องใช้พลังงานจำนวนหนึ่งเรียกว่า<span class="Apple-converted-space"> </span></span>Energy of Activation<span class="Apple-converted-space"> </span><span lang="TH">การเพิ่มอุณหภูมิจะเพิ่มจำนวนโมเลกุลที่มีพลังงานสูงขึ้น ทำให้โมเลกุลอยู่ในสภาพที่เรียกว่า<span class="Apple-converted-space"> </span></span>Transition state<span class="Apple-converted-space"> </span><span lang="TH">ซึ่งเป็นสภาพที่<span class="Apple-converted-space"> </span></span>chemical bond<span class="Apple-converted-space"> </span><span lang="TH">ของโมเลกุลจะแตกออกเพื่อสร้างโมเลกุลของผลิตภัณฑ์ขึ้นมา ทำให้เกิดปฏิกิริยาได้<span class="Apple-converted-space"> </span></span> <span lang="TH">ส่วนเอนไซม์จะลดความต้องการ<span class="Apple-converted-space"> </span></span>Energy of Activation<span class="Apple-converted-space"> </span><span lang="TH">ลง ซึ่งก็คือเพิ่มจำนวนโมเลกุลที่จะทำปฏิกิริยาได้ให้มากขึ้น การที่เอนไซม์ทำให้<span class="Apple-converted-space"> </span></span> Energy of Activation <span lang="TH">ลดลงได้นี้ยังไม่เป็นที่เข้าใจเด่นชัดนัก<span class="Apple-converted-space"> </span></span> <span lang="TH">แต่พอจะทราบว่าเอนไซม์จะรวมตัวกับสารเริ่มต้นเกิดเป็น เอนไซม์</span>-<span lang="TH">สารเริ่มต้น<span class="Apple-converted-space"> </span></span>(Enzyme-Substrate Complex)<span class="Apple-converted-space"> </span><span lang="TH">ซึ่งการเกิดเอนไซม์</span>-<span lang="TH">สารเริ่มต้น เกาะกันขึ้นมานี้ ทำให้แขนที่เกาะกันของสารเริ่มต้นหัก แล้วเกิดการจับกันใหม่เป็นผลิตภัณฑ์ได้เร็วกว่าการไม่ใช้เอนไซม์</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">อัตราเร่งปฏิกิริยาทางเคมีจะเพิ่มขึ้นได้สองทาง<span class="Apple-converted-space"> </span></span> <span lang="TH">ได้แก่<span class="Apple-converted-space"> </span></span> <span lang="TH">การเพิ่มอุณหภูมิ เนื่องจากอุณหภูมิเพิ่มพลังงานให้แก่โมเลกุลของสารเริ่มต้นปฏิกิริยาให้อยู่ใน<span class="Apple-converted-space"> </span></span><span class="GramE">transition</span><span class="Apple-converted-space"> </span>state<span class="Apple-converted-space"> </span><span lang="TH">ปฏิกิริยาหลายปฏิกิริยามีอัตราเพิ่มขึ้นเป็นเท่าตัวเมื่ออุณหภูมิเพิ่มขึ้น<span class="Apple-converted-space"> </span></span>10 <span class="Apple-converted-space"> </span><span lang="TH">องศาเซลเซียส<span class="Apple-converted-space"> </span></span> <span lang="TH">อีกทางหนึ่งในการเพิ่มอัตราเร่งของปฏิกิริยาได้แก่</span> <span lang="TH"><span class="Apple-converted-space"> </span>การเติมตัวเร่งหรือคะ<span class="SpellE">ตะไลซ์</span><span class="Apple-converted-space"> </span></span> (catalyst)<span class="Apple-converted-space"> </span><span lang="TH">ตัวเร่งนี้จะรวมตัวกับสารเริ่มต้นปฏิกิริยาให้อยู่ในสภาพ<span class="Apple-converted-space"> </span></span>transition state<span class="Apple-converted-space"> </span><span lang="TH">ซึ่งต้องการพลังงานน้อยกว่าตอนที่ไม่มีตัวเร่ง</span> <span lang="TH"><span class="Apple-converted-space"> </span>ดังนั้นตัวเร่งจะทำความต้องการพลังงานลดลง</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ในการเกิด เอนไซม์</span>-<span lang="TH">สารเริ่มต้น นี้มีสมมุติฐานอธิบายอยู่<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span class="GramE"><span lang="TH">ความคิดด้วยกัน<span class="Apple-converted-space"> </span></span><span lang="TH"> คือ</span></span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 1.<span class="Apple-converted-space"> </span><span lang="TH">สมมุติฐาน</span><span class="GramE"> <span lang="TH"><span class="Apple-converted-space"> </span>แม่กุญแจและลูกกุญแจ</span></span><span class="Apple-converted-space"> </span>(Lock and Key) <span lang="TH">อธิบายโดย<span class="Apple-converted-space"> </span></span>Emil Fischer<span class="Apple-converted-space"> </span><span lang="TH">ในปี ค</span>.<span lang="TH">ศ</span>. 1884<span class="Apple-converted-space"> </span><span lang="TH">ว่า โครงสร้างการเกิด เอนไซม์</span>-<span lang="TH">สารเริ่มต้นนี้<span class="Apple-converted-space"> </span></span> <span lang="TH">จะเป็นโครงสร้างที่ไม่ยืดหยุ่น<span class="Apple-converted-space"> </span></span> <span lang="TH">โดยที่</span> <span lang="TH"><span class="Apple-converted-space"> </span>เอนไซม์โมเลกุลจะมีส่วนหนึ่งที่จะรวมกับสารเริ่มต้นได้<span class="Apple-converted-space"> </span></span> <span lang="TH">ทำให้สารเริ่มต้นเปลี่ยนเป็นผลิตภัณฑ์ ซึ่งส่วนนั้นเรียกว่า<span class="Apple-converted-space"> </span></span>Active Site<span class="Apple-converted-space"> </span><span lang="TH">และส่วนนี้เป็นส่วนที่ไม่ยืดหยุ่น และมีความเฉพาะเจาะจงต่อสารเริ่มต้น</span><span class="style1"><span class="Apple-converted-space"> </span></span><span lang="TH">จึงเป็นการยากที่จะอธิบายถึงการเกิดปฏิกิริยาผันกลับ<span class="Apple-converted-space"> </span></span>(Reversibility)<span lang="TH">เนื่องจากผลิตภัณฑ์จะไม่สามารถรวมกับ<span class="Apple-converted-space"> </span></span>Active Site<span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์ได้ เพราะโครงสร้างต่างจากสารเริ่มต้น</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 2. <span class="Apple-converted-space"> </span><span lang="TH">สมมุติฐาน<span class="Apple-converted-space"> </span></span>Induced-fit <span class="Apple-converted-space"> </span><span lang="TH">อธิบายในปี ค</span>.<span lang="TH">ศ</span>.<span class="Apple-converted-space"> </span><span class="GramE">1973 <span lang="TH">โดย</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> D.F.<span class="Apple-converted-space"> </span><span class="SpellE">Koshland</span><span class="Apple-converted-space"> </span> <span lang="TH">ว่า<span class="Apple-converted-space"> </span></span>Active Site <span lang="TH">ของเอนไซม์สามารถถูกเหนี่ยวนำให้เปลี่ยนรูปร่างได้ เมื่ออยู่ใกล้กับสารเริ่มต้นหรือผลิตภัณฑ์</span> <span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">เพื่อจะได้รวมกับสารเริ่มต้นหรือผลิตภัณฑ์ก็ได้</span> <span lang="TH"><span class="Apple-converted-space"> </span>นอกจากเอนไซม์จะเปลี่ยนรูปร่างแล้ว โครงสร้างของสารเริ่มต้นก็เปลี่ยนไปด้วย เพื่อจะได้พอดีกับ<span class="Apple-converted-space"> </span></span>Active Site<span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">แม้ว่าจะมีจำนวน เอนไซม์</span>-<span lang="TH">สารเริ่มต้น ที่ได้รับการศึกษาไม่มากนัก แต่ก็เป็นที่เข้าใจกันว่าแขนที่จะเกาะกันของเอนไซม์</span>-<span lang="TH">สารเริ่มต้นนั้นอาจจะเป็น<span class="Apple-converted-space"> </span></span> <span lang="TH">โควา<span class="SpellE">เลนท์</span><span class="Apple-converted-space"> </span></span>(Covalent<span class="GramE">) <span lang="TH">ไอออน<span class="SpellE">นิค</span></span></span><span lang="TH"><span class="Apple-converted-space"> </span></span>(Ionic)<span class="Apple-converted-space"> </span><span lang="TH">ไฮโดรเจน<span class="Apple-converted-space"> </span></span>(Hydrogen)<span class="Apple-converted-space"> </span><span lang="TH">หรือ แวน</span> <span class="SpellE"><span lang="TH">เดอ</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> <span class="SpellE"><span lang="TH">วัลส์</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span>(Van<span class="Apple-converted-space"> </span><span class="SpellE">der</span><span class="Apple-converted-space"> </span><span class="SpellE">Waals</span>)<span class="Apple-converted-space"> </span><span lang="TH">ก็ได้ แขนแบบโควา<span class="SpellE">เลนท์</span>และไอออน<span class="SpellE">นิค</span><span class="Apple-converted-space"> </span></span> <span lang="TH">เป็นแขนที่สำคัญที่สุดสำหรับการเกิดปฏิกิริยา<span class="Apple-converted-space"> </span></span> <span lang="TH">แต่ถึงแม้ว่าแขนแบบโควา<span class="SpellE">เลนท์</span><span class="Apple-converted-space"> </span>ซึ่งแข็งแรงจะเกิดขึ้นมา แต่ตามปกติก็จะหักอย่างรวดเร็วแล้วก็ให้ผลิตภัณฑ์ออกมา</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 36pt; text-align: justify; text-indent: 36pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span lang="TH">การเสื่อมสภาพของเอนไซม์<span class="Apple-converted-space"> </span></span>(<span class="SpellE">Denaturation</span>)<a href="http://www.blogger.com/post-edit.g?blogID=1800580324262189137&postID=6219281952243965359" name="Denaturation"></a></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">เมื่อโครงสร้างของเอนไซม์เปลี่ยนไปจนสารเริ่มต้นรวมกับเอนไซม์ที่<span class="Apple-converted-space"> </span></span>Active Site <span lang="TH">ไม่ได้ จะทำให้คุณสมบัติในการเร่งปฏิกิริยาของเอนไซม์หมดไป<span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งมีปัจจัยหลายอย่างทำให้เกิดการหมดสภาพของเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">มีหลายกรณีที่เมื่อเอนไซม์เกิดการเสื่อมสภาพไปแล้ว ไม่สามารถจะกลับคืนมาสู่สภาพที่ทำงานได้อีก เช่น กรณีที่ได้รับอุณหภูมิสูงทั้งนี้เพราะอุณหภูมิสูงจะทำให้เกิดการสร้างแขนชนิด โควา<span class="SpellE">เลนท์</span>ระหว่างลูกโซ่ โพลี<span class="SpellE">เพปไทด์</span><span class="Apple-converted-space"> </span></span>(<span class="GramE">Polypeptide chain</span>)<span class="Apple-converted-space"> </span><span lang="TH">หรือในลูกโซ่โพลี<span class="SpellE">เพปไทด์</span>เดียวกัน<span class="Apple-converted-space"> </span></span> <span lang="TH">และแขนเหล่านี้จะมีความคงตัวมากจนไม่สามารถทำให้แตกหักได้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ดังนั้น ในการสกัดเอนไซม์ออกจากพืช หรือการทำให้เอนไซม์บริสุทธิ์<span class="Apple-converted-space"> </span></span> <span lang="TH">จึงมักต้องทำใน</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ที่</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ มีอุณหภูมิต่ำ เพื่อป้องกันการเสื่อมสภาพของเอนไซม์จากความร้อน ทั้ง</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ ที่ถ้าเอนไซม์อยู่ในเซลล์อาจจะทนต่ออุณหภูมิสูงระดับหนึ่งได้</span> <span lang="TH">แต่เมื่อสกัดออกจากเซลล์ความทนทานต่ออุณหภูมิสูงจะลดลง ซึ่งยังไม่เข้าใจนักว่าเป็นเพราะเหตุใด<span class="Apple-converted-space"> </span></span> <span lang="TH">แต่คาดกันว่าอาจจะเป็นเพราะในระหว่างการสกัดเอนไซม์นั้นได้กำจัดสารป้องกันเอนไซม์ออกไปหรืออาจทำให้สารดังกล่าวเจือจางลง</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ออกซิเจน</span> <span lang="TH"><span class="Apple-converted-space"> </span></span> <span lang="TH">และสารที่เป็นสารออกซิไดซ์สามารถทำให้เอนไซม์หลายชนิดเสื่อมสภาพได้ โดยมักจะทำให้เกิดไดซัลไฟด์ บริดจ์<span class="Apple-converted-space"> </span></span>(Disulfide Bridges)<span class="Apple-converted-space"> </span><span class="GramE"><span lang="TH">ในลูกโซ่โพลี<span class="SpellE">เพปไทด์</span>ที่มี<span class="Apple-converted-space"> </span></span> -</span>SH<span class="Apple-converted-space"> </span><span lang="TH">ของกรด</span> <span lang="TH"><span class="Apple-converted-space"> </span><span class="SpellE">อะ</span>มิโน ซีสตี<span class="SpellE">อีน</span><span class="Apple-converted-space"> </span></span> (<span class="SpellE">Cysteine</span>) <span lang="TH">สาร<span class="SpellE">รีดิวซ์</span>สามารถทำให้เอนไซม์เสื่อมสภาพได้ในเหตุผลตรงกันข้ามคือ</span> <span lang="TH"><span class="Apple-converted-space"> </span>จะไปทำลายไดซัลไฟด์ บริดจ์<span class="Apple-converted-space"> </span></span> <span lang="TH">เกิดเป็น<span class="Apple-converted-space"> </span></span>-SH 2<span class="Apple-converted-space"> </span><span lang="TH">กลุ่ม นอกจากนั้นโลหะหนัก</span> <span lang="TH"><span class="Apple-converted-space"> </span>เช่น<span class="Apple-converted-space"> </span></span>Ag<sup>+</sup> Hg<sup>+2</sup><span class="Apple-converted-space"> </span><span lang="TH">และ<span class="Apple-converted-space"> </span></span>Pb<sup>+2<span class="Apple-converted-space"> </span></sup> <span lang="TH">ก็สามารถทำให้เอนไซม์เสื่อมสภาพได้เช่นกัน</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ในสภาพที่แห้ง<span class="Apple-converted-space"> </span></span> <span lang="TH">เอนไซม์จะมีความคงทนต่ออุณหภูมิสูงดีกว่าในสภาพที่มีน้ำมาก และด้วยเหตุนี้เมล็ดที่แห้งหรือสปอร์ของเชื้อราและแบคทีเรียที่แห้ง จึงต้านทานต่ออุณหภูมิสูง ดังนั้นในการฆ่าสปอร์ของเชื้อราและแบคทีเรีย<span class="Apple-converted-space"> </span></span> <span lang="TH">การใช้ความร้อนชื้นจากหม้อนึ่งอัดไอน้ำ จึงมีประสิทธิภาพดี</span> <span lang="TH"><span class="Apple-converted-space"> </span>นอกจากนั้นในสภาพที่แห้งเมล็ดและสปอร์ที่แห้งยังทนต่ออุณหภูมิต่ำในระหว่างฤดูหนาวได้ดีเช่นกัน</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 36pt; text-align: justify; text-indent: 36pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span lang="TH">ปัจจัยที่มีผลต่อการทำงานของเอนไซม์</span><a href="http://www.blogger.com/post-edit.g?blogID=1800580324262189137&postID=6219281952243965359" name="enzymefactor"></a></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 1.<span class="Apple-converted-space"> </span><span lang="TH">ความเข้มข้นของเอนไซม์และสารเริ่มต้น</span> <span lang="TH"><span class="Apple-converted-space"> </span>การเร่งปฏิกิริยาของเอนไซม์ จะต้องมีการรวมตัวกันของ เอนไซม์</span>-<span lang="TH">สารเริ่มต้น อัตราเร็วของปฏิกิริยาจะขึ้นอยู่กับจำนวนการชนกันของโมเลกุลทั้งสอง ถ้ามีสารเริ่มต้นพอเพียง<span class="Apple-converted-space"> </span></span> <span lang="TH">เมื่อเพิ่มความเข้มข้นของเอนไซม์เป็นสองเท่าจะทำให้อัตราเร็วเพิ่มขึ้นไปเป็น<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">เท่าด้วย แต่เมื่อมีการเพิ่มปริมาณเอนไซม์ต่อไปเรื่อย</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ</span> <span lang="TH"><span class="Apple-converted-space"> </span>อัตราการเกิดปฏิกิริยาเป็นแนวระนาบเพราะสารเริ่มต้นเริ่มหมดไป ทำให้เป็นตัวจำกัดการเกิดปฏิกิริยาได้<span class="Apple-converted-space"> </span></span><span lang="TH">อัตราเร็วของการเกิดปฏิกิริยาขึ้นอยู่กับการชนกันของโมเลกุล ซึ่งจะชนกันมากขึ้นเมื่อปริมาณเอนไซม์หรือสารเริ่มต้นมากขึ้น</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">อัตราการเกิดปฏิกิริยาดังกล่าวข้างต้นนั้น<span class="Apple-converted-space"> </span></span> <span lang="TH">ถ้าให้เอนไซม์เป็นตัวคงที่และเพิ่มปริมาณสารเริ่มต้นขึ้นเรื่อยๆ นั้น<span class="Apple-converted-space"> </span> ปฏิกิริยาได้เป็น<span class="Apple-converted-space"> </span></span>3<span class="Apple-converted-space"> </span><span lang="TH">ระยะ คือ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ระยะที่<span class="Apple-converted-space"> </span></span>1 <span lang="TH">อัตราเร็วของปฏิกิริยาเป็นสัดส่วนโดยตรงต่อความเข้มข้นของสารเริ่มต้น</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 120.5pt; text-align: justify; text-indent: -49.6pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span lang="TH">ระยะที่<span class="Apple-converted-space"> </span></span>2 <span class="Apple-converted-space"> </span><span lang="TH">อัตราเร็วของปฏิกิริยาเริ่มลดลงเนื่องจากปริมาณของเอนไซม์เริ่มเป็นตัว</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 120.5pt; text-align: justify; text-indent: -49.6pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">จำกัด</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt 34.9pt; text-align: justify; text-indent: 36pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"><span lang="TH">ระยะที่<span class="Apple-converted-space"> </span></span>3 <span class="Apple-converted-space"> </span><span lang="TH">อัตราเร็วถึงจุดอิ่มตัว</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="GramE">Km <span lang="TH">หรือ</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> <span class="SpellE">Michaelis-MentenConstant</span><span class="Apple-converted-space"> </span> <span lang="TH">คือค่าความเข้มข้นของสารเริ่มต้นที่ทำให้อัตราเร็วของปฏิกิริยาเป็นครึ่งหนึ่งของความเร็วสูงสุด<span class="Apple-converted-space"> </span></span> <span class="Apple-converted-space"> </span><span lang="TH">ค่า<span class="Apple-converted-space"> </span></span>Km<span class="Apple-converted-space"> </span><span lang="TH">สามารถบ่งบอกถึงความเร็วในการรวมตัวของเอนไซม์และสารเริ่มต้น<span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น ถ้าเปรียบเทียบสารเริ่มต้นสองชนิด ว่าชนิดใดจะรวมตัวกับเอนไซม์ได้ดีกว่านั้นสามารถดูจากค่า<span class="Apple-converted-space"> </span></span> 1/ Km</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ถ้าสารเริ่มต้นชนิดที่<span class="Apple-converted-space"> </span></span>1<span class="Apple-converted-space"> </span><span lang="TH">มีค่า</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>km = 0.25 M</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">และสารเริ่มต้นชนิดที่<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">มีค่า</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>km = 0.4<span class="GramE"> M</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">พบว่าค่า</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>1/ Km<span class="GramE"> <span class="Apple-converted-space"> </span><span lang="TH">ของสารที่</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span>1 = 4<span class="Apple-converted-space"> </span><span lang="TH">และ</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>1/ Km <span class="Apple-converted-space"> </span><span lang="TH">ของสารที่<span class="Apple-converted-space"> </span></span>2 = 2.5</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span lang="TH">แสดงว่า</span> <span lang="TH"><span class="Apple-converted-space"> </span>สารเริ่มต้นชนิดที่<span class="Apple-converted-space"> </span></span>1<span class="Apple-converted-space"> </span><span lang="TH">จะรวมตัวกับเอนไซม์ได้ดีกว่าสารเริ่มต้นชนิดที่<span class="Apple-converted-space"> </span></span>2 </span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">ค่า<span class="Apple-converted-space"> </span></span>Km<span class="Apple-converted-space"> </span><span lang="TH">ขึ้นอยู่กับชนิดของโคเอนไซม์ ความเป็นกรดด่างและอุณหภูมิ</span><span class="GramE"> <span lang="TH"><span class="Apple-converted-space"> </span>ค่า</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span>Km<span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์ที่พบในปัจจุบันอยู่ในช่วง<span class="Apple-converted-space"> </span></span>10<sup>-3</sup><span class="Apple-converted-space"> </span><span lang="TH">ถึง<span class="Apple-converted-space"> </span></span>10<sup>-7</sup><span class="Apple-converted-space"> </span>M<span class="Apple-converted-space"> </span><span lang="TH">ถ้าเอนไซม์ชนิดเดียวกันสามารถทำปฏิกิริยาได้กับสารเริ่มต้น<span class="Apple-converted-space"> </span></span> 2 <span lang="TH">ชนิด ค่า<span class="Apple-converted-space"> </span></span> Km <span lang="TH">ของเอนไซม์จะต่างกันตามชนิดของสารเริ่มต้นด้วย การที่ค่า<span class="Apple-converted-space"> </span></span>Km<span class="Apple-converted-space"> </span><span lang="TH">ต่ำแสดงให้เห็นว่าเอนไซม์</span>-<span lang="TH">สารเริ่มต้น จะค่อนข้างอยู่ตัว<span class="Apple-converted-space"> </span></span> <span lang="TH">หรือนั่นคือถ้ามีสารเริ่มต้นสองชนิดที่คล้ายกันเอนไซม์จะเข้าทำปฏิกิริยากับสารเริ่มต้นซึ่งมีค่า<span class="Apple-converted-space"> </span></span>Km<span class="Apple-converted-space"> </span><span lang="TH">ต่ำ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 2.<span class="Apple-converted-space"> </span><span lang="TH">ความเป็นกรดด่าง<span class="Apple-converted-space"> </span></span>(pH) <span class="Apple-converted-space"> </span><span class="GramE">pH <span lang="TH">ของสารละลายจะมีผลต่อการเกิดปฏิกิริยาของเอนไซม์ในหลายด้านตามปกติเอนไซม์แต่ละชนิดจะมี</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> pH <span lang="TH">ที่เหมาะสมในการทำงาน ซึ่งการทำงานของเอนไซม์จะลดลงเมื่อ<span class="Apple-converted-space"> </span></span>pH<span class="Apple-converted-space"> </span><span lang="TH">สูงหรือต่ำกว่า</span>pH<span class="Apple-converted-space"> </span><span lang="TH">ที่เหมาะสม<span class="Apple-converted-space"> </span></span>pH<span class="Apple-converted-space"> </span><span lang="TH">ที่เหมาะสมของเอนไซม์ส่วนใหญ่จะอยู่ในช่วง<span class="Apple-converted-space"> </span></span>6-8<span class="Apple-converted-space"> </span><span lang="TH">การที่<span class="Apple-converted-space"> </span></span>pH<span class="Apple-converted-space"> </span><span lang="TH">สูงมากหรือต่ำมาก</span> <span lang="TH"><span class="Apple-converted-space"> </span>จะทำให้เอนไซม์เสื่อมสภาพ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">เนื่องจากเอนไซม์ประกอบด้วยกลุ่ม<span class="Apple-converted-space"> </span></span>(<span class="SpellE"><span lang="TH">อะ</span></span><span lang="TH">มิโน</span>)<span class="Apple-converted-space"> </span><span lang="TH">และ<span class="Apple-converted-space"> </span></span>(<span class="SpellE"><span lang="TH">คาร์</span></span><span lang="TH">บอก<span class="SpellE">ซิล</span></span>)<span class="Apple-converted-space"> </span><span class="GramE"><span lang="TH">เมื่อมีการเปลี่ยนแปลงประจุของไฮโดรเจนไอออนในสารละลาย<span class="Apple-converted-space"> </span></span> <span lang="TH">ทำให้มีการเปลี่ยนแปลง</span></span><span lang="TH"><span class="Apple-converted-space"> </span>ดังนี้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="GramE">pH</span><span class="Apple-converted-space"> </span><span lang="TH">ลดลง</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- NH<sub>2</sub><sup> <span class="Apple-converted-space"> </span></sup> <span lang="TH">กลายเป็น</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- NH<sub>3</sub><sup>+</sup></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span class="GramE">pH</span><span class="Apple-converted-space"> </span><span lang="TH">เพิ่มขึ้น</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- COOH <span class="Apple-converted-space"> </span><span lang="TH">กลายเป็น</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- COO-</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span class="GramE">pH</span><span class="Apple-converted-space"> </span><span lang="TH">อยู่ที่<span class="Apple-converted-space"> </span></span><span class="SpellE">isoelectric</span><span class="Apple-converted-space"> </span>point</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> - NH<sub>2</sub> <span class="Apple-converted-space"> </span><span lang="TH">ยังคงเป็น</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- NH<sub>2</sub></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> - COOH <span class="Apple-converted-space"> </span><span lang="TH">ยังคงเป็น</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>- COOH</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span class="Apple-converted-space"> </span><span lang="TH">นอกจาก<span class="Apple-converted-space"> </span></span><span class="GramE">pH</span><span class="Apple-converted-space"> </span><span lang="TH">จะทำให้เกิดการเสื่อมสภาพของเอนไซม์แล้ว</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>pH <span lang="TH">ยังมีผลต่ออัตราการเกิดปฏิกิริยาอีก<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">ทาง คือ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 2.1<span class="Apple-converted-space"> </span><span lang="TH">กิจกรรมของเอนไซม์จะขึ้นอยู่กับการปรากฏของ<span class="SpellE">กลุ่มอะ</span>มิโน</span> <span lang="TH"><span class="Apple-converted-space"> </span>และกลุ่ม</span><span class="GramE"> <span lang="TH"><span class="Apple-converted-space"> </span><span class="SpellE">คาร์</span>บอก<span class="SpellE">ซิล</span></span></span><span lang="TH"><span class="Apple-converted-space"> </span>ซึ่งทั้ง<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">กลุ่มอาจจะมีประจุหรือไม่มีประจุก็ได้<span class="Apple-converted-space"> </span></span> <span lang="TH">แต่เอนไซม์จะทำงานได้ดีเพียงเมื่อกลุ่มทั้ง</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">มีประจุหรือไม่มีประจุแล้วแต่ชนิดของเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">ถ้าเอนไซม์ทำงานได้ดีเมื่อ<span class="SpellE">กลุ่มอะ</span>มิโนไม่มีประจุ</span> <span lang="TH"><span class="Apple-converted-space"> </span></span> pH<span class="Apple-converted-space"> </span><span lang="TH">ที่เหมาะสมต่อการทำงานของเอนไซม์ชนิดนี้มักจะสูง ในขณะที่ถ้าเอนไซม์ทำงานได้ดี เมื่อ<span class="SpellE">คาร์</span>บอกซิ<span class="SpellE">ลเป็น</span>กลาง</span> <span lang="TH"><span class="Apple-converted-space"> </span></span>pH<span class="Apple-converted-space"> </span><span lang="TH">ที่เหมาะสมจะต่ำ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 2.2 pH<span class="Apple-converted-space"> </span><span lang="TH">ควบคุมการแตกตัวของสารเริ่มต้น<span class="Apple-converted-space"> </span></span> <span class="Apple-converted-space"> </span><span lang="TH">ซึ่งมีหลายปฏิกิริยาต้องเกิดการแตกตัวของสารเริ่มต้นก่อน ปฏิกิริยาจึงจะดำเนินต่อไปได้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 3.<span class="Apple-converted-space"> </span><span lang="TH">อุณหภูมิ</span><span class="GramE"> <span lang="TH"><span class="Apple-converted-space"> </span>การเพิ่มอุณหภูมิจะทำให้พลังงานจลน์เพิ่มขึ้น</span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งจะส่งผลให้ปฏิกิริยาเพิ่มขึ้นด้วย<span class="Apple-converted-space"> </span></span> <span lang="TH">อัตราการเพิ่มความเร็วของปฏิกิริยาคำนวณได้จากค่า<span class="Apple-converted-space"> </span></span> Q<sub>10 </sub> <span lang="TH">หรือ<span class="Apple-converted-space"> </span></span>Temperature Quotient <span class="Apple-converted-space"> </span><span lang="TH">ค่า<span class="Apple-converted-space"> </span></span>Q<sub>10</sub><span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์มักจะมีค่ามากกว่า<span class="Apple-converted-space"> </span></span>1<span class="Apple-converted-space"> </span><span lang="TH">ขึ้นไป</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> Q<sub>10</sub><span class="GramE"> =</span> <span class="Apple-converted-space"> </span><u><span lang="TH">อัตราเร็วของปฏิกิริยาที่อุณหภูมิ<span class="Apple-converted-space"> </span></span></u><u>X<span class="Apple-converted-space"> </span></u><u><span lang="TH">ํ<span class="Apple-converted-space"> </span></span></u><u>+ 10<span class="Apple-converted-space"> </span></u><u><span lang="TH">ํ</span></u><u>C</u></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> <span lang="TH">อัตราเร็วของปฏิกิริยาที่อุณหภูมิ<span class="Apple-converted-space"> </span></span>X<span class="Apple-converted-space"> </span><span lang="TH">ํ</span>C</span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 4.<span class="Apple-converted-space"> </span><span lang="TH">ผลิตภัณฑ์ที่เกิดขึ้น<span class="Apple-converted-space"> </span></span>(Reaction product) <span lang="TH">อัตราการเกิดปฏิกิริยาที่มีเอนไซม์เป็นตัวเร่งปฏิกิริยานั้น<span class="Apple-converted-space"> </span></span> <span lang="TH">สามารถวัดได้จากอัตราการหายไปของสารเริ่มต้นหรืออาจจะวัดจากการปรากฏขึ้นของผลิตภัณฑ์ หรือทำทั้ง<span class="Apple-converted-space"> </span></span>2<span class="Apple-converted-space"> </span><span lang="TH">วิธีพร้อมกัน แต่ไม่ว่าจะวัดโดยวิธีใด<span class="Apple-converted-space"> </span></span> <span lang="TH">จะพบว่าอัตราเร็วของปฏิกิริยาจะช้าลงเมื่อเวลาผ่านไป<span class="Apple-converted-space"> </span></span> <span lang="TH">อัตราเร็วของปฏิกิริยาที่เกิดช้าลงนี้<span class="Apple-converted-space"> </span></span> <span lang="TH">เป็นเพราะเกิดการเสื่อมสภาพของเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">นอกจากนั้นยังเกิดเพราะมีการลดลงของสารเริ่มต้น และผลิตภัณฑ์เพิ่มมากขึ้น เมื่อความเข้มข้นของผลิตภัณฑ์มากขึ้น จนถึงความเข้มข้นหนึ่ง<span class="Apple-converted-space"> </span></span> <span lang="TH">อาจจะทำให้เกิดปฏิกิริยาผันกลับ<span class="Apple-converted-space"> </span></span> (Reversibility) <span lang="TH">โมเลกุลของ</span> <span lang="TH"><span class="Apple-converted-space"> </span>ผลิตภัณฑ์จะรวมกับเอนไซม์แทนสารเริ่มต้นทำให้ปฏิกิริยาถูกจำกัดได้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 5.<span class="Apple-converted-space"> </span><span lang="TH">สารระงับการทำงานของเอนไซม์<span class="Apple-converted-space"> </span></span>(Inhibitors)<span class="Apple-converted-space"> </span><span class="GramE"><span lang="TH">มีสารหลายชนิดที่สามารถระงับการเร่งปฏิกิริยาของเอนไซม์ได้<span class="Apple-converted-space"> </span></span> <span lang="TH">สารเหล่านี้อาจจะเป็นสารอนินท<span class="SpellE">รีย์</span></span></span><span lang="TH"><span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น</span> <span lang="TH"><span class="Apple-converted-space"> </span>โลหะหนักต่าง</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ หรืออาจจะเป็นสารอินทรีย์ เช่น</span> <span lang="TH">สารประกอบ<span class="SpellE">ฟี</span>โน<span class="SpellE">ลิค</span><span class="Apple-converted-space"> </span></span> (<span class="SpellE">Phenolic</span>)<span class="Apple-converted-space"> </span><span lang="TH">หรือโปรตีน แต่อย่างไรก็ตามสารเหล่านี้แบ่งเป็นกลุ่มใหญ่</span><span lang="TH"><span class="Apple-converted-space"> </span></span><span lang="TH">ๆ ได้ดังนี้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 5.1 Competitive Inhibitor <span lang="TH">เป็นสารชะงักการทำงานของเอนไซม์ที่มีโครงสร้างคล้ายคลึงกับสารเริ่มต้นมาก และเข้าแย่งทำปฏิกิริยากับเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">ที่<span class="Apple-converted-space"> </span></span>Active Site<span class="Apple-converted-space"> </span><span lang="TH">ของเอนไซม์</span> <span lang="TH"><span class="Apple-converted-space"> </span>เมื่อเกิดการรวมกันเป็นเอนไซม์</span>-<span lang="TH">สารชะงัก</span> (<span class="SpellE">Emzyme</span>-Inhibitor) <span lang="TH">จะทำให้ปริมาณของเอนไซม์ลดลง<span class="Apple-converted-space"> </span></span> <span lang="TH">ทำให้อัตราการเกิดปฏิกิริยาลดลง</span> <span lang="TH"><span class="Apple-converted-space"> </span>สารชะงักเหล่านี้อาจจะเปลี่ยนหรือไม่เปลี่ยนไปก็ได้<span class="Apple-converted-space"> </span></span> <span lang="TH">การเพิ่มปริมาณของสารเริ่มต้นให้มากขึ้นจะลดผลของ<span class="Apple-converted-space"> </span></span> Competitive Inhibitor<span class="Apple-converted-space"> </span><span lang="TH">ได้<span class="Apple-converted-space"> </span></span> <span lang="TH">ตัวอย่างของ<span class="Apple-converted-space"> </span></span> Competitive Inhibitor<span class="Apple-converted-space"> </span><span lang="TH">คือ<span class="Apple-converted-space"> </span></span> <span lang="TH">การที่มา<span class="SpellE">โลเนท</span><span class="Apple-converted-space"> </span></span> (<span class="SpellE">malonate</span>) <span lang="TH">แย่งทำปฏิกิริยากับ<span class="Apple-converted-space"> </span></span> <span class="SpellE">succinate</span><span class="Apple-converted-space"> </span><span class="SpellE">dehydrogenase</span><span class="Apple-converted-space"> </span> <span lang="TH">ซึ่งเอนไซม์ชนิดนี้ปกติจะทำปฏิกิริยากับ<span class="Apple-converted-space"> </span></span><span class="SpellE">succinate</span><span class="Apple-converted-space"> </span><span lang="TH">ได้<span class="Apple-converted-space"> </span></span> <span class="SpellE">fumarate</span><span class="Apple-converted-space"> </span><span lang="TH">ซึ่งปรากฏในการหายใจ</span> <span lang="TH"><span class="Apple-converted-space"> </span>ซึ่งเมื่อ<span class="Apple-converted-space"> </span></span><span class="SpellE">malonate</span><span class="Apple-converted-space"> </span><span lang="TH">รวมกับเอนไซม์แล้วทำให้การหายใจเกิดไม่ได้</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify; text-indent: 106.35pt;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;">5.2 Non competitive Inhibitor <span class="Apple-converted-space"> </span><span lang="TH">สารชะงักการทำงานของเอนไซม์ชนิดนี้จะเข้ารวมกับเอนไซม์แต่จะไม่รวมที่<span class="Apple-converted-space"> </span></span>Active Site<span class="Apple-converted-space"> </span><span lang="TH">สารพวกนี้มีลักษณะต่างจากสารเริ่มต้น<span class="Apple-converted-space"> </span></span> <span lang="TH">การเพิ่มปริมาณของสารเริ่มต้นจะไม่สามารถลบล้างผลของสารเหล่านี้ได้ โลหะที่เป็นพิษทั้งหลาย<span class="Apple-converted-space"> </span></span> <span lang="TH">และสารที่รวมหรือทำลาย<span class="Apple-converted-space"> </span></span> <span lang="TH">กลุ่ม<span class="SpellE">ซัลฟ์ไฮดริล</span><span class="Apple-converted-space"> </span>มักจะเป็นสารในกลุ่มนี้<span class="Apple-converted-space"> </span></span> <span lang="TH">เช่น การที่มีออกซิเจนมาก จะทำให้<span class="Apple-converted-space"> </span></span>-SH<span class="Apple-converted-space"> </span><span lang="TH">ถูกออกซิไดซ์ เกิดไดซัลไฟด์<span class="Apple-converted-space"> </span></span> <span lang="TH">บริดจ์ขึ้นมา<span class="Apple-converted-space"> </span></span> <span lang="TH">ซึ่งทำให้โครงสร้างของเอนไซม์เปลี่ยนไป<span class="Apple-converted-space"> </span></span> <span lang="TH">ทำให้</span>Active Site <span class="Apple-converted-space"> </span><span lang="TH">รวมกับสารเริ่มต้นไม่ได้<span class="Apple-converted-space"> </span></span> <span lang="TH">ส่วนโลหะ เช่น<span class="Apple-converted-space"> </span></span>Hg<sup>+2</sup><span class="Apple-converted-space"> </span><span lang="TH">และ<span class="Apple-converted-space"> </span></span>Ag<sup>+</sup><span class="Apple-converted-space"> </span><span lang="TH">จะเข้าแทนที่ไฮโดรเจนอะตอมของกลุ่ม<span class="SpellE">ซัลฟ์ไฮดริล</span></span> <span lang="TH"><span class="Apple-converted-space"> </span>เกิดเป็น เม<span class="SpellE">อแคบไทด์</span><span class="Apple-converted-space"> </span></span>(<span class="SpellE">Mercaptides</span>)<span class="Apple-converted-space"> </span><span lang="TH">ซึ่งไม่ละลายน้ำ</span></span></span></div><div class="MsoPlainText" style="font-family: Arial,Helvetica,sans-serif; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span style="font-size: large;"> 5.3<span class="GramE"> Uncompetitive</span><span class="Apple-converted-space"> </span> Inhibitor <span class="Apple-converted-space"> </span><span lang="TH">สารชะงักการทำงานของเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">ชนิดนี้ไม่รวมกับเอนไซม์อิสระ และไม่มีผลกระทบต่อปฏิกิริยาของเอนไซม์<span class="Apple-converted-space"> </span></span> <span lang="TH">และสารเริ่มต้น แต่จะเข้ารวมกับ เอนไซม์</span>-<span lang="TH">สารเริ่มต้น ทำให้ไม่สามารถเกิดปฏิกิริยาต่อไปได้ การชะงักการทำงานของเอนไซม์จะเพิ่มขึ้นเมื่อมีสารเริ่มต้นมากขึ้น<span class="Apple-converted-space"> </span></span> <span lang="TH">สารชะงักชนิดนี้มักจะพบในปฏิกิริยาซึ่งมีสารเริ่มต้นสองชนิด</span></span></span></div><div class="MsoPlainText" style="font-family: 'Cordia New'; margin: 0cm 0cm 0.0001pt; text-align: justify;"><span class="Apple-style-span" style="border-collapse: separate; color: black; font-family: 'Times New Roman'; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><br />
</span></div>pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0tag:blogger.com,1999:blog-1800580324262189137.post-29053157223538973692011-04-25T02:31:00.000-07:002011-04-25T02:31:51.542-07:00Enzymes are good medicine.<span class="Apple-style-span" style="border-collapse: separate; color: black; font-family: 'Times New Roman'; font-size: small; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;"><span class="Apple-style-span" style="color: #333333; font-family: arial; font-size: 14px; line-height: 22px; text-align: left;"><h3 class="post-title entry-title" style="color: #333333; font-size: 22px; font-weight: normal; line-height: 1.4em; margin: 0.25em 0px 0px; padding: 0px 0px 4px;"><a href="http://healthandfood1.blogspot.com/2010/10/enzymes-are-good-medicine.html" style="color: #333333; display: block; font-weight: normal; text-decoration: none;">Enzymes are good medicine.</a></h3><span style="position: relative;"></span><div class="post-body entry-content" style="font-family: arial; font-size: 14px; line-height: 1.6em; margin: 0px 0px 0.75em;"><div style="font-family: 'Trebuchet MS',sans-serif;"><span style="font-size: x-small;"></span></div><div style="font-family: 'Trebuchet MS',sans-serif;"><span style="font-size: x-small;"><span lang="EN-US" style="color: black;"></span><i><span class="IL_AD" id="IL_AD1" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-size: 13px ! important; font-style: italic ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">Healthy food</span><span class="Apple-converted-space"> </span><b style="color: red;">is an important part of our lives, its our slogan...so let's be healthy ....</b></i></span></div><div style="font-family: 'Trebuchet MS',sans-serif;"><span style="font-size: x-small;"><br />
</span></div><div style="font-family: 'Trebuchet MS',sans-serif;"><span style="font-size: x-small;"></span></div><div class="Section1" style="font-family: 'Trebuchet MS',sans-serif;"><div class="separator" style="clear: both; text-align: center;"><span style="font-size: x-small;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgx9MBhzYctggTPN_6sKPHX2V_0SbOoGFl4CB8hnt343bjnIDgacnCv3wpniNEPW1a8m3bLSeJbM2j04iNbzK8PbyJsSKOHzcQFtNMcNMTBJ95S8yZk1EBQev3HtOYtg2QcRbnurV24o3A/s1600/blog-enzymes-in-pools.jpg" style="clear: right; color: #5588aa; float: right; margin-bottom: 1em; margin-left: 1em; text-decoration: none;"><img border="0" height="190" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgx9MBhzYctggTPN_6sKPHX2V_0SbOoGFl4CB8hnt343bjnIDgacnCv3wpniNEPW1a8m3bLSeJbM2j04iNbzK8PbyJsSKOHzcQFtNMcNMTBJ95S8yZk1EBQev3HtOYtg2QcRbnurV24o3A/s200/blog-enzymes-in-pools.jpg" style="border: 1px solid rgb(204, 204, 204); padding: 1px;" width="200" /></a></span></div><div class="MsoNormal" style="line-height: normal; margin: 0cm 0cm 0.0001pt 5.25pt;"><span style="font-size: x-small;"><span lang="EN-US" style="color: black;">To<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>defeat<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>s<span style="letter-spacing: -0.05pt;">t</span>ubborn dis<span style="letter-spacing: -0.05pt;">e</span>ases,<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>co<span style="letter-spacing: -0.05pt;">n</span><span style="letter-spacing: 0.05pt;">s</span><span style="letter-spacing: -0.05pt;">um</span>e<span style="letter-spacing: -0.05pt;"></span>enzym<span style="letter-spacing: 0.05pt;">e</span>s<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>fresh,<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">u</span>ncooked fo<span style="letter-spacing: -0.05pt;">o</span>ds<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>and<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.05pt;"></span>s<span style="letter-spacing: -0.05pt;">u</span>pplements.</span></span></div></div><div style="font-family: 'Trebuchet MS',sans-serif;"><span style="font-size: x-small;"><span lang="EN-US" style="color: black;"></span></span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: 13px; margin: 3.9pt 10.6pt 0.0001pt 5.25pt;"><span style="font-size: x-small;"><span lang="EN-US" style="color: black;">Enzymes<span style="letter-spacing: -0.75pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>chemical<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>substances<span style="letter-spacing: -0.5pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">p</span>roduced<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.05pt;">t</span>he<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>living<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>organism.<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span><span lang="EN-US" style="color: black;"><a href="http://www.blogger.com/post-create.g?blogID=1800580324262189137" name="more"></a></span>They<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>marvel<span style="letter-spacing: 0.05pt;">l</span>ousorganic<span style="letter-spacing: 0.05pt;"><span class="Apple-converted-space"> </span></span>cat<span style="letter-spacing: -0.05pt;">a</span>lysts<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>which<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>essenti<span style="letter-spacing: -0.05pt;">a</span>l<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>to<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>life<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">a</span>s</span></span><br />
<span style="font-size: x-small;"><span lang="EN-US" style="color: black;"> t<span style="letter-spacing: -0.05pt;">h</span>ey<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>control<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>all<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>chemical<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>reactio<span style="letter-spacing: -0.05pt;">n</span>s<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>thattake<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>place in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>living system.<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>Enzymes<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>arepart<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>all<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>living<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>cells,<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>including<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>th<span style="letter-spacing: -0.05pt;">o</span><span style="letter-spacing: 0.05pt;">s</span>e<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>plantsand<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD9" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">animals</span>.</span></span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: 12pt; margin: 0.65pt 0cm 0.0001pt;"><span style="font-size: x-small;"><br />
</span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: normal; margin: 0cm 4.4pt 0.0001pt 5.25pt;"><span style="font-size: small;"><span lang="EN-US" style="color: black;">The<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>term<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>enzyme,<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>which<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>literally<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>means<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"></span>yea<span style="letter-spacing: 0.05pt;">s</span>t<span style="letter-spacing: -0.05pt;">'</span>,<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>was<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>coined<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>following<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>t<span style="letter-spacing: -0.05pt;">h</span>e<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>demonstration<span style="letter-spacing: -0.65pt;"></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>catalytic pr<span style="letter-spacing: -0.05pt;">o</span>perties<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD7" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">yeast</span><span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>and<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>yeast<span style="letter-spacing: -0.25pt;"></span>juic<span style="letter-spacing: -0.05pt;">e</span><span style="letter-spacing: 0.05pt;">s</span>.<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>Al<span style="letter-spacing: -0.05pt;">t</span>hough<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>enzymes<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>produced<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>living<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>cell,<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>they are<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>not dependent<span style="letter-spacing: -0.45pt;"></span><span style="letter-spacing: -0.05pt;">u</span>pon<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD3" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">vital</span><span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD8" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">process</span><span style="letter-spacing: -0.05pt;">e</span>s<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>cell<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">a</span>nd<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>work<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>outside<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>c<span style="letter-spacing: -0.05pt;">e</span>ll.<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>Certain<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>enzymes of<span style="letter-spacing: -0.1pt;"></span>yeast,<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>for instance,<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>wh<span style="letter-spacing: -0.05pt;">e</span>n<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>expressed<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>from<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>y<span style="letter-spacing: 0.05pt;">e</span>ast<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>cells<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>capable<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>exerting<span style="letter-spacing: -0.35pt;"></span>their usual<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">e</span>ffect,<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>is,<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>the conversion<span style="letter-spacing: -0.5pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>sugar<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>to<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>alcohol.</span></span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: 12pt; margin: 0.65pt 0cm 0.0001pt;"><span style="font-size: small;"><br />
</span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: normal; margin: 0cm 6.9pt 0.0001pt 5.25pt;"><span style="font-size: small;"><span lang="EN-US" style="color: black;">It<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>has<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>been<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>estimated<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>there<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>over<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>20,000<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>enzymes<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>human<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>body.<span style="letter-spacing: -0.25pt;"></span>This<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>estimate<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>is<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>based on t<span style="letter-spacing: -0.05pt;">h</span>e<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>number<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>bodily<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>processes<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>seem<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>to<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>require<span style="letter-spacing: -0.3pt;"></span><span class="IL_AD" id="IL_AD5" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">action</span>.<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">H</span>owever,<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>so<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>far<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>only<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>about 1,000<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>enzymes have<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>been<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>identified.<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>But<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">t</span>heir<span style="letter-spacing: -0.15pt;"></span>great<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>r<span style="letter-spacing: -0.05pt;">o</span>le<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>nutriti<span style="letter-spacing: -0.05pt;">o</span>n<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>and<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>other<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>living<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>processes<span class="Apple-converted-space"> </span><span style="letter-spacing: -0.05pt;">h</span>as<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>been<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>firmly establish<span style="letter-spacing: -0.05pt;">e</span>d.<span style="letter-spacing: -0.4pt;"></span>They<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: 0.05pt;">r</span>e<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD2" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">protein</span><span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>molecules<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>made<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>up<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>chains<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span><span class="IL_AD" id="IL_AD6" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">amino acids</span>.<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>They<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>play<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>vital<span style="letter-spacing: -0.2pt;"></span>role<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">a</span>nd work<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>more<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>efficien<span style="letter-spacing: -0.05pt;">t</span>ly<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>than<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>any<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>reagent<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>concocted<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>by<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>chemists.</span></span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: 12pt; margin: 0.7pt 0cm 0.0001pt;"><span style="font-size: small;"><br />
</span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: 13px; margin: 0cm 4.45pt 0.0001pt 5.25pt;"><span style="font-size: small;"><span lang="EN-US" style="color: black;">Thus<span style="letter-spacing: -0.5pt;"><span class="Apple-converted-space"> </span></span>for<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>ins<span style="letter-spacing: -0.05pt;">t</span>ance,<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>ch<span style="letter-spacing: -0.05pt;">em</span>ist<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>can<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>s<span style="letter-spacing: -0.05pt;">e</span>parate<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>proteins<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>into<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>th<span style="letter-spacing: -0.05pt;">e</span>ir<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>component<span style="letter-spacing: -0.5pt;"><span class="Apple-converted-space"> </span></span>amino<span style="letter-spacing: -0.25pt;"></span>acids<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>by<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>boiling<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>them at 166<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>o<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>C<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>for<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>over<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>18<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>hours<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>strong<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>solution<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"></span>hydrochloric<span style="letter-spacing: -0.55pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">a</span><span style="letter-spacing: 0.05pt;">c</span>i<span style="letter-spacing: -0.05pt;">d</span>,<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>but<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>enzymes<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the small in<span style="letter-spacing: -0.05pt;">t</span>estines<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>can<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>do<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>so<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>l<span style="letter-spacing: -0.05pt;">e</span>ss than<span style="letter-spacing: -0.2pt;"></span>three<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>hours<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>at<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>bo<span style="letter-spacing: -0.05pt;">d</span>y<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>temperat<span style="letter-spacing: 0.1pt;">u</span>re<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>neut<span style="letter-spacing: -0.05pt;">r</span>al<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>medium.</span></span></div><div class="MsoNormal" style="font-family: 'Trebuchet MS',sans-serif; line-height: normal; margin: 0cm 6.8pt 0.0001pt 5.25pt;"><span style="font-size: small;"><span lang="EN-US" style="color: black;">A<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>feature<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>which<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>dis<span style="letter-spacing: -0.05pt;">t</span>ing<span style="letter-spacing: -0.05pt;">u</span>ishes<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>e<span style="letter-spacing: -0.05pt;">n</span>zymes<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>from<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>inorganic<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>cat<span style="letter-spacing: -0.05pt;">a</span>lysts<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>is<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>t<span style="letter-spacing: -0.05pt;">h</span>ey<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>are<span style="letter-spacing: -0.15pt;"></span>absolutely<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span>specific in t<span style="letter-spacing: -0.05pt;">h</span>eir<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>actions.<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>This<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>means<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>a particular<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>enzyme<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>can<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>cause<span style="letter-spacing: -0.25pt;"></span><span style="letter-spacing: -0.05pt;">r</span>eactions<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>involving<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>only a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>particular<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>type<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>of substance<span style="letter-spacing: -0.45pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">o</span>r<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>group<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>closely<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>rela<span style="letter-spacing: -0.05pt;">t</span>ed<span style="letter-spacing: -0.15pt;"></span>substances.<span style="letter-spacing: -0.55pt;"><span class="Apple-converted-space"> </span></span>The<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>su<span style="letter-spacing: -0.05pt;">b</span><span style="letter-spacing: 0.05pt;">s</span>tance<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>on<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>which the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span><span style="letter-spacing: -0.05pt;">e</span>nzyme<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>acts<span style="letter-spacing: -0.2pt;"><span class="Apple-converted-space"> </span></span>is<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>known as<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>"subst<span style="letter-spacing: 0.05pt;">r</span>ate."<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>The<span style="letter-spacing: -0.15pt;"></span>speci<span style="letter-spacing: -0.05pt;">f</span>icity<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>an<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>enzyme<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>is,<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>however,<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>related to<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>t<span style="letter-spacing: -0.05pt;">h</span>e<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>formation<span style="letter-spacing: -0.4pt;"><span class="Apple-converted-space"> </span></span>of<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>the enzyme-substrate complex<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>which<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>requir<span style="letter-spacing: -0.05pt;">e</span>s<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>that<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;">p</span>propriate<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>groupings of<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>both<span style="letter-spacing: -0.2pt;"></span>subst<span style="letter-spacing: -0.05pt;">r</span>ate<span style="letter-spacing: -0.25pt;"><span class="Apple-converted-space"> </span></span>and<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>enzyme<span class="Apple-converted-space"> </span><span class="IL_AD" id="IL_AD4" style="background-attachment: scroll ! important; background-color: transparent ! important; background-image: none ! important; background-position: 0% 50%; border-bottom: 1px solid rgb(0, 102, 204) ! important; color: #0066cc; cursor: pointer ! important; display: inline ! important; float: none ! important; font-family: 'Trebuchet MS',sans-serif; font-style: normal ! important; font-weight: normal ! important; padding: 0px 0px 1px ! important; position: static;">should</span><span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>be<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>in<span style="letter-spacing: -0.1pt;"><span class="Apple-converted-space"> </span></span>correct<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>relative<span style="letter-spacing: -0.3pt;"><span class="Apple-converted-space"> </span></span>position.<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>The<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>s<span style="letter-spacing: -0.05pt;">u</span>bstrate<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>must fit the<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>enzyme<span style="letter-spacing: -0.35pt;"><span class="Apple-converted-space"> </span></span>like<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>a<span style="letter-spacing: -0.05pt;"><span class="Apple-converted-space"> </span></span>key<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>fits<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>its<span style="letter-spacing: -0.15pt;"><span class="Apple-converted-space"> </span></span>lock.</span></span></div></div></span></span>pol.winhttp://www.blogger.com/profile/13390084576161573488noreply@blogger.com0