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Literature DB >> 17787011

Protein engineering of nitrilase for chemoenzymatic production of glycolic acid.

Shijun Wu¹, Arthur J Fogiel, Kelly L Petrillo, Raymond E Jackson, Kimberley N Parker, Robert Dicosimo, Arie Ben-Bassat, Daniel P O'Keefe, Mark S Payne.

Abstract

A key step in a chemoenzymatic process for the production of high-purity glycolic acid (GLA) is the enzymatic conversion of glycolonitrile (GLN) to ammonium glycolate using a nitrilase derived from Acidovorax facilis 72W. Protein engineering and over-expression of this nitrilase, combined with optimized fermentation of an E. coli transformant were used to increase the enzyme-specific activity up to 15-fold and the biocatalyst-specific activity up to 125-fold. These improvements enabled achievement of the desired volumetric productivity and biocatalyst productivity for the conversion of GLN to ammonium glycolate. (c) 2007 Wiley Periodicals, Inc.

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Year: 2008 PMID： 17787011 DOI： 10.1002/bit.21643

Source DB: PubMed Journal: Biotechnol Bioeng ISSN： 0006-3592 Impact factor: 4.530

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Cited

12 in total

Review 1. Bioengineering of Nitrilases Towards Its Use as Green Catalyst: Applications and Perspectives.

Authors: Vinod K Nigam; Tesnim Arfi; Vishal Kumar; Pratyoosh Shukla
Journal: Indian J Microbiol Date: 2017-03-25 Impact factor: 2.461

2. Construction and application of variants of the Pseudomonas fluorescens EBC191 arylacetonitrilase for increased production of acids or amides.

Authors: Olga Sosedov; Stefanie Baum; Sibylle Bürger; Kathrin Matzer; Christoph Kiziak; Andreas Stolz
Journal: Appl Environ Microbiol Date: 2010-04-09 Impact factor: 4.792

3. Ammonium acrylate biomanufacturing by an engineered Rhodococcus ruber with nitrilase overexpression and double-knockout of nitrile hydratase and amidase.

Authors: Jizhe Sun; Huimin Yu; Jie Chen; Hui Luo; Zhongyao Shen
Journal: J Ind Microbiol Biotechnol Date: 2016-10-19 Impact factor: 3.346

4. An improved nitrilase-mediated bioprocess for synthesis of nicotinic acid from 3-cyanopyridine with hyperinduced Nocardia globerula NHB-2.

Authors: Nitya Nand Sharma; Monica Sharma; Tek Chand Bhalla
Journal: J Ind Microbiol Biotechnol Date: 2010-11-21 Impact factor: 3.346

5. Conversion of sterically demanding α,α-disubstituted phenylacetonitriles by the arylacetonitrilase from Pseudomonas fluorescens EBC191.

Authors: Stefanie Baum; Dael S Williamson; Trevor Sewell; Andreas Stolz
Journal: Appl Environ Microbiol Date: 2011-10-21 Impact factor: 4.792

6. Biocatalytic synthesis of (R)-(-)-mandelic acid from racemic mandelonitrile by cetyltrimethylammonium bromide-permeabilized cells of Alcaligenes faecalis ECU0401.

Authors: Yu-Cai He; Zhi-Jun Zhang; Jian-He Xu; You-Yan Liu
Journal: J Ind Microbiol Biotechnol Date: 2010-04-22 Impact factor: 3.346

7. Rational Regulation of Reaction Specificity of Nitrilase for Efficient Biosynthesis of 2-Chloronicotinic Acid through a Single Site Mutation.

Authors: An-Di Dai; Xiao-Ling Tang; Zhe-Ming Wu; Jiang-Tao Tang; Ren-Chao Zheng; Yu-Guo Zheng
Journal: Appl Environ Microbiol Date: 2022-01-12 Impact factor: 5.005

8. One-step fermentative production of poly(lactate-co-glycolate) from carbohydrates in Escherichia coli.

Authors: So Young Choi; Si Jae Park; Won Jun Kim; Jung Eun Yang; Hyuk Lee; Jihoon Shin; Sang Yup Lee
Journal: Nat Biotechnol Date: 2016-03-07 Impact factor: 54.908

9. Screening and Improving the Recombinant Nitrilases and Application in Biotransformation of Iminodiacetonitrile to Iminodiacetic Acid.

Authors: Zhi-Qiang Liu; Peter James Baker; Feng Cheng; Ya-Ping Xue; Yu-Guo Zheng; Yin-Chu Shen
Journal: PLoS One Date: 2013-06-27 Impact factor: 3.240

Review 10. Nitrilases in nitrile biocatalysis: recent progress and forthcoming research.

Authors: Jin-Song Gong; Zhen-Ming Lu; Heng Li; Jin-Song Shi; Zhe-Min Zhou; Zheng-Hong Xu
Journal: Microb Cell Fact Date: 2012-10-30 Impact factor: 5.328