Erratum to: Enhancing the catalytic potential of nitrilase from Pseudomonas putida for stereoselective nitrile hydrolysis

被引:0
|
作者
Anirban Banerjee
Praveen Kaul
U. C. Banerjee
机构
[1] National Institute of Pharmaceutical Education and Research Sector-67,Department of Pharmaceutical Technology (Biotechnology)
来源
Applied Microbiology and Biotechnology | 2017年 / 101卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:6299 / 6299
相关论文
共 47 条
  • [31] PRODUCTION, PARTIAL CHARACTERIZATION, AND POTENTIAL DIAGNOSTIC USE OF SALICYLATE HYDROXYLASE FROM PSEUDOMONAS-PUTIDA UUC-1
    BANAT, IM
    MARCHANT, A
    NIGAM, P
    GASTON, SJS
    KELLY, BA
    MARCHANT, R
    ENZYME AND MICROBIAL TECHNOLOGY, 1994, 16 (08) : 665 - 670
  • [32] An integrated view of redox and catalytic properties of B-type PpDyP from Pseudomonas putida MET94 and its distal variants
    Mendes, Sonia
    Brissos, Vania
    Gabriel, Antonieta
    Catarino, Teresa
    Turner, David L.
    Todorovic, Smilja
    Martins, Ligia O.
    ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 2015, 574 : 99 - 107
  • [33] Climate resilience plastic degradation potential of Pseudomonas putida isolated from the soil of plastic waste dumping sites to reduce GHG emissions
    Majeed, Hammad
    Iftikhar, Tehreema
    Abbas, Qamar
    ZEITSCHRIFT FUR PHYSIKALISCHE CHEMIE-INTERNATIONAL JOURNAL OF RESEARCH IN PHYSICAL CHEMISTRY & CHEMICAL PHYSICS, 2024, 238 (05): : 797 - 807
  • [34] STEREOSELECTIVE DIMERIZATIONS OF ARENE-CIS-DIOL ACETONIDES DERIVED FROM THE OXIDATION OF HALOBENZENES BY PSEUDOMONAS PUTIDA - ABSOLUTE-CONFIGURATION OF THE ADDUCTS BY X-RAY CRYSTALLOGRAPHY
    HUDLICKY, T
    BOROS, EE
    OLIVO, HF
    MEROLA, JS
    JOURNAL OF ORGANIC CHEMISTRY, 1992, 57 (03): : 1026 - 1028
  • [35] Enhancing the tolerance of Clostridium saccharoperbutylacetonicum to lignocellulosic-biomass-derived inhibitors for efficient biobutanol production by overexpressing efflux pumps genes from Pseudomonas putida
    Jimenez-Bonilla, Pablo
    Zhang, Jie
    Wang, Yifen
    Blersch, David
    de-Bashan, Luz-Estela
    Guo, Liang
    Wang, Yi
    BIORESOURCE TECHNOLOGY, 2020, 312
  • [36] A thermostable and organic-solvent tolerant esterase from Pseudomonas putida ECU1011: Catalytic properties and performance in kinetic resolution of α-hydroxy acids
    Ma, Bao-Di
    Yu, Hui-Lei
    Pan, Jiang
    Liu, Jia-Yan
    Ju, Xin
    Xu, Jian-He
    BIORESOURCE TECHNOLOGY, 2013, 133 : 354 - 360
  • [37] Metabolic potential of the organic-solvent tolerant Pseudomonas putida DOT-T1E deduced from its annotated genome
    Udaondo, Zulema
    Molina, Lazaro
    Daniels, Craig
    Gomez, Manuel J.
    Molina-Henares, Maria A.
    Matilla, Miguel A.
    Roca, Amalia
    Fernandez, Matilde
    Duque, Estrella
    Segura, Ana
    Luis Ramos, Juan
    MICROBIAL BIOTECHNOLOGY, 2013, 6 (05): : 598 - 611
  • [38] Characterization of an organic-solvent-stable elastase from Pseudomonas indica and its potential use in eggshell membrane hydrolysis
    Takenaka, Shinji
    Yokoyama, Moe
    Kimura, Yukihiro
    Yamashita, Yoko
    Ashida, Hitoshi
    PROCESS BIOCHEMISTRY, 2019, 85 (156-163) : 156 - 163
  • [39] A combined approach for enhancing the stability of recombinant cis-dihydrodiol naphthalene dehydrogenase from Pseudomonas putida G7 allowed for the structural and kinetic characterization of the enzyme
    Abrantes Costa, Debora Maria
    Figueiredo Costa, Mariana Amalia
    Guimaraes, Samuel Leite
    Coitinho, Juliana Barbosa
    Gomez, Stefanya Velasquez
    da Silva Brandao, Tiago Antonio
    Pinto Nagem, Ronaldo Alves
    PROTEIN EXPRESSION AND PURIFICATION, 2017, 132 : 50 - 59
  • [40] Substrate access tunnel engineering of a Fe-type nitrile hydratase from Pseudomonas fluorescens ZJUT001 for substrate preference adjustment and catalytic performance enhancement
    Li, Shu-Fang
    Gao, Yan-Chi
    Xu, Hao-Bo
    Xu, Cheng-Long
    Wang, Ya-Jun
    Liu, Zhi-Qiang
    Zheng, Yu-Guo
    BIOORGANIC CHEMISTRY, 2024, 152
12345