国际检验医学杂志
國際檢驗醫學雜誌
국제검험의학잡지
INTERNATIONAL JOURNAL OF LABORATORY MEDICINE
2014年
12期
1526-1528
,共3页
刘培%周建平%许秀丽%郝庆钦%温新宇%王玲%田亚平
劉培%週建平%許秀麗%郝慶欽%溫新宇%王玲%田亞平
류배%주건평%허수려%학경흠%온신우%왕령%전아평
S-同型半胱氨酸甲基转移酶%亲和层析法%活性测定%稳定性
S-同型半胱氨痠甲基轉移酶%親和層析法%活性測定%穩定性
S-동형반광안산갑기전이매%친화층석법%활성측정%은정성
S-homocysteine methyltransferase%affinity chromatography%activity assay%stability
目的:建立一种简单的S-同型半胱氨酸甲基转移酶(H MT)活性测定方法,确定 H MT的最佳使用条件,并初步探索HMT的保存方法。方法采用原核表达系统制备 HMT,经镍亲和层析和Sephadex G15两步纯化。SDS-PAGE 对目的蛋白进行理化性质鉴定。基于5,5′-二硫基-双(2-硝基苯甲酸)(DTNB)可以特异性地与含有巯基的化合物快速发生化学反应的原理,通过检测同型半胱氨酸的减少量来计算酶活性,确定 HMT最佳活性测定条件。比较添加和不添加甘油的两组 HMT 酶液置于不同温度下保存,定期测定活力;在 HMT酶液中加入不同浓度的不同保护剂,比较冷冻干燥后的活性保留率。结果重组表达的酶纯度高达95%以上,相对分子质量为36000,具有良好的催化活性,比活为2000 U/mg。在37℃、pH7.4的HEPES缓冲液中反应25 min为酶活性测定最佳条件。加入甘油能明显延长酶的保存时间并且酶液在6个月内的活力保留一半。冷冻保护剂甘露醇和海藻糖的添加对 HMT酶冻干品的酶活保留率分别为104.0%和100.0%。结论通过基因工程技术获得 HMT,建立了简单的 HMT活性测定方法,并确定了该酶的最佳保存方法,为临床应用奠定了基础。
目的:建立一種簡單的S-同型半胱氨痠甲基轉移酶(H MT)活性測定方法,確定 H MT的最佳使用條件,併初步探索HMT的保存方法。方法採用原覈錶達繫統製備 HMT,經鎳親和層析和Sephadex G15兩步純化。SDS-PAGE 對目的蛋白進行理化性質鑒定。基于5,5′-二硫基-雙(2-硝基苯甲痠)(DTNB)可以特異性地與含有巰基的化閤物快速髮生化學反應的原理,通過檢測同型半胱氨痠的減少量來計算酶活性,確定 HMT最佳活性測定條件。比較添加和不添加甘油的兩組 HMT 酶液置于不同溫度下保存,定期測定活力;在 HMT酶液中加入不同濃度的不同保護劑,比較冷凍榦燥後的活性保留率。結果重組錶達的酶純度高達95%以上,相對分子質量為36000,具有良好的催化活性,比活為2000 U/mg。在37℃、pH7.4的HEPES緩遲液中反應25 min為酶活性測定最佳條件。加入甘油能明顯延長酶的保存時間併且酶液在6箇月內的活力保留一半。冷凍保護劑甘露醇和海藻糖的添加對 HMT酶凍榦品的酶活保留率分彆為104.0%和100.0%。結論通過基因工程技術穫得 HMT,建立瞭簡單的 HMT活性測定方法,併確定瞭該酶的最佳保存方法,為臨床應用奠定瞭基礎。
목적:건립일충간단적S-동형반광안산갑기전이매(H MT)활성측정방법,학정 H MT적최가사용조건,병초보탐색HMT적보존방법。방법채용원핵표체계통제비 HMT,경얼친화층석화Sephadex G15량보순화。SDS-PAGE 대목적단백진행이화성질감정。기우5,5′-이류기-쌍(2-초기분갑산)(DTNB)가이특이성지여함유구기적화합물쾌속발생화학반응적원리,통과검측동형반광안산적감소량래계산매활성,학정 HMT최가활성측정조건。비교첨가화불첨가감유적량조 HMT 매액치우불동온도하보존,정기측정활력;재 HMT매액중가입불동농도적불동보호제,비교냉동간조후적활성보류솔。결과중조표체적매순도고체95%이상,상대분자질량위36000,구유량호적최화활성,비활위2000 U/mg。재37℃、pH7.4적HEPES완충액중반응25 min위매활성측정최가조건。가입감유능명현연장매적보존시간병차매액재6개월내적활력보류일반。냉동보호제감로순화해조당적첨가대 HMT매동간품적매활보류솔분별위104.0%화100.0%。결론통과기인공정기술획득 HMT,건립료간단적 HMT활성측정방법,병학정료해매적최가보존방법,위림상응용전정료기출。
Objective To construct a simple method for the measurement of activity of S-homocysteine methyltransferase (HMT),and explore the best processing condition for HMT and the preservation of HMT.Methods HMT was expressed in pro-karyotic system by using genetic engineering technology,then was purified by using affinity and Sephadex G1 5 chromatography. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE)was performed to identify the physicochemical and bio-logical properties of target protein.Based on the principle of 5 ,5′-disulfide-double (2- nitro benzoic acid)(DTNB)could react with sulfydryl compounds rapidly,the reduction of homocysteine was detect to evaluate the activity of enzyme,then the best processing conditions of HTM were determined.Activity of enzyme,preserved in preservation solution with or without glycerol and preserved under different temperatures,was detected.Activity remaining ratios were detected and compared between HMT preserved in pres-ervation solution with different protective agents of different concentration and preserved by cryodesiccation.Results The purity of recombined HMT was above 95%,with molecular weight of 36 000 and excellent catalytic activity,and the catalytic activity was 2 000 U/mg.The optimum condition for the detection of biological activity was using HEPES buffer of pH 7.4 at 37 ℃ and reac-tion for 25 min.Glycerol could significantly prolong the preserving time of HMT,and half activity of HMT could be remained for six months.The reservation rates of activity of HMT,preserved in preservation solution with mannitol and trehalose,were 104%and 100%,respectively.Conclusion HMT could be obtained through genetic engineering.A simple test method of HMT was es-tablished,and the best processing conditions and preserving methods of HMT were determined,which laid a foundation for clinical application.
