Expression and purification of penicillin G acylase enzymes from four different micro-organisms, and a comparative evaluation of their synthesis/hydrolysis ratios for cephalexin

Cheng TF; Chen ML; Zheng HB; Wang JG; Yang S; Jiang WH

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Expression and purification of penicillin G acylase enzymes from four different micro-organisms, and a comparative evaluation of their synthesis/hydrolysis ratios for cephalexin

机译：来自四种不同微生物的青霉素G酰基转移酶的表达和纯化，以及它们对头孢氨苄的合成/水解比的比较评估

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Several genes for the enzyme penicillin G acylase, as isolated from four different micro-organisms (Alcaligenes facaelis, Escherichia coli, Kluyvera cryocrescens or Providencia rettgeri) were modified at their carboxy-termini to include His-tag fusions, then were expressed from the plasmid pET-24a(+) in E coli JM109(DE3) cells. All fusion proteins were next purified to homogeneity in a single step by agar-based Co-IDA chromatography, and were then evaluated as catalysts for the synthesis of cephalexin by a kinetically controlled strategy. We find here that the penicillin G acylase enzyme from K cryocrescens shows a higher intrinsic synthesis/hydrolysis ratio, when compared to three other enzymes from A. facaelis or P. rettgeri, or E coli. (c) 2005 Elsevier Inc. All rights reserved.

机译：从四种不同的微生物中分离出的青霉素G酰基转移酶的几个基因（产碱杆菌，大肠埃希氏菌，克鲁维氏酵母或普罗维登斯氏菌）在其羧基末端被修饰为包含His-tag融合蛋白，然后从质粒中表达大肠杆菌JM109（DE3）细胞中的pET-24a（+）。接下来，将所有融合蛋白通过基于琼脂的Co-IDA色谱一步一步纯化至均质，然后通过动力学控制策略评估其作为合成头孢氨苄的催化剂。我们在这里发现，与来自A. facaelis或P. rettgeri或大肠杆菌的其他三种酶相比，来自K cryocrescens的青霉素G酰基转移酶显示出更高的固有合成/水解比。（c）2005 Elsevier Inc.保留所有权利。

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《Protein Expression and Purification》 |2006年第1期|共7页
作者
Cheng TF; Chen ML; Zheng HB; Wang JG; Yang S; Jiang WH;
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正文语种 eng
中图分类蛋白质;
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penicillin G acylase; immobilized metal-chelate affinity chromatography; protein purification; cephalexin synthesis/hydrolysis ratio; BETA-LACTAM ANTIBIOTICS; CHELATE AFFINITY-CHROMATOGRAPHY; ESCHERICHIA-COLI; BACILLUS-SUBTILIS; ARTHROBACTER-VISCOSUS; ALCALIGENES-FAECALIS; KLUYVERA-CITROPHILA; CATALYZED SYNTHESIS; MOLECULAR-CLONING; GENE;

机译：青霉素G酰基转移酶;固定化金属螯合亲和层析;蛋白质纯化;头孢氨苄合成/水解比;BETA-内酰胺抗微生物剂;螯合亲和层析;埃希里希亚-科利;杆菌属-SUBTILIS;人工酵母-粘粘菌;ALCALIGENES-FAECALIS;催化合成;分子克隆;基因;

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1. Expression and purification of penicillin G acylase enzymes from four different micro-organisms, and a comparative evaluation of their synthesis/hydrolysis ratios for cephalexin [J] . Cheng TF, Chen ML, Zheng HB, Protein Expression and Purification . 2006,第1期

机译：来自四种不同微生物的青霉素G酰基转移酶的表达和纯化，以及它们对头孢氨苄的合成/水解比的比较评估
2. Synthesis of cephalexin with immobilized penicillin acylase at very high substrate concentrations in fully aqueous medium [J] . Illanes A, Wilson L, Corrotea O, Journal of molecular catalysis, B. Enzymatic . 2007,第1a2期

机译：固定化青霉素酰基转移酶在完全水介质中以很高的底物浓度合成头孢氨苄
3. Catalytic Cycle of Penicillin Acylase from Escherichia coli: QM/MM Modeling of Chemical Transformations in the Enzyme Active Site upon Penicillin G Hydrolysis [J] . Bella L. Grigorenko, Maria G. Khrenova, Dmitry K. Nilov ACS catalysis . 2014,第8期

机译：大肠杆菌青霉素酰化酶的催化循环：青霉素G水解后酶活性位点化学转化的QM / MM模型
4. Kinetic studies on cephalexin synthesis catalyzed by penicillin acylase [C] . Yi-Feng Shi, Zhongyao Shen, Zhuan Cao Asia-Pacific biochemical engineering conference;APBIOCHEC'97 . 1997

机译：青霉素酰基转移酶催化头孢氨苄合成的动力学研究
5. Enzymes as catalysts for organic synthesis: Kinetic resolution of unnatural amino acids and alpha-chiral carboxylic acids using acylase I and in situ regeneration of NAD from NADH using lactate dehydrogenase [D] . Chenault, Henry Keith 1989

机译：酶作为有机合成的催化剂：使用酰基转移酶I动力学分解非天然氨基酸和α-手性羧酸，使用乳酸脱氢酶从NADH原位再生NAD
6. Penicillin acylase from the hybrid strains Escherichia coli 5K(pHM12): enzyme formation and hydrolysis of beta-lactam antibiotics with whole cells. [O] . U Schömer, A Segner, F Wagner 1984

机译：杂种菌株大肠杆菌5K（pHM12）的青霉素酰化酶：β-内酰胺类抗生素与全细胞的酶形成和水解。
7. Penicillin acylase from the hybrid strains Escherichia coli 5K(pHM12): enzyme formation and hydrolysis of beta-lactam antibiotics with whole cells [O] . U Schömer, A Segner, F Wagner 1984

机译：来自杂交菌株的青霉素酰基酶大肠杆菌5K（PHM12）：酶形成和β-内酰胺抗生素的水解与全细胞

Expression and purification of penicillin G acylase enzymes from four different micro-organisms, and a comparative evaluation of their synthesis/hydrolysis ratios for cephalexin

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