Literature DB >> 15378387

Acinetobacter lipases: molecular biology, biochemical properties and biotechnological potential.

Erick A Snellman1, Rita R Colwell.   

Abstract

Lipases (EC 3.1.1.3) have received increased attention recently, evidenced by the increasing amount of information about lipases in the current literature. The renewed interest in this enzyme class is due primarily to investigations of their role in pathogenesis and their increasing use in biotechnological applications. Also, many microbial lipases are available as commercial products, the majority of which are used in detergents, cosmetic production, food flavoring, and organic synthesis. Lipases are valued biocatalysts because they act under mild conditions, are highly stable in organic solvents, show broad substrate specificity, and usually show high regio- and/or stereo-selectivity in catalysis. A number of lipolytic strains of Acinetobacter have been isolated from a variety of sources and their lipases possess many biochemical properties similar to those that have been developed for biotechnological applications. This review discusses the biology of lipase expression in Acinetobacter, with emphasis on those aspects relevant to potential biotechnology applications.

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Year:  2004        PMID: 15378387     DOI: 10.1007/s10295-004-0167-0

Source DB:  PubMed          Journal:  J Ind Microbiol Biotechnol        ISSN: 1367-5435            Impact factor:   3.346


  62 in total

1.  Bacterial lipolytic enzymes: classification and properties.

Authors:  J L Arpigny; K E Jaeger
Journal:  Biochem J       Date:  1999-10-01       Impact factor: 3.857

2.  The open conformation of a Pseudomonas lipase.

Authors:  J D Schrag; Y Li; M Cygler; D Lang; T Burgdorf; H J Hecht; R Schmid; D Schomburg; T J Rydel; J D Oliver; L C Strickland; C M Dunaway; S B Larson; J Day; A McPherson
Journal:  Structure       Date:  1997-02-15       Impact factor: 5.006

3.  Lipolytic bacteria in the Ottawa river.

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Journal:  Appl Microbiol       Date:  1973-11

4.  Effects of low temperature, cold shock, and various carbon sources on esterase and lipase activities and exopolysaccharide production by a psychrotrophic Acinetobacter sp.

Authors:  S E Barbaro; J T Trevors; W E Inniss
Journal:  Can J Microbiol       Date:  2001-03       Impact factor: 2.419

Review 5.  Pseudomonas lipases: biochemical properties and molecular cloning.

Authors:  E J Gilbert
Journal:  Enzyme Microb Technol       Date:  1993-08       Impact factor: 3.493

6.  Characterization of an alkaline lipase from Proteus vulgaris K80 and the DNA sequence of the encoding gene.

Authors:  H K Kim; J K Lee; H Kim; T K Oh
Journal:  FEMS Microbiol Lett       Date:  1996-01-01       Impact factor: 2.742

7.  Improvements in lipase production and recovery from Acinetobacter radioresistens in presence of polypropylene powders filled with carbon sources.

Authors:  In-Liang Liu; Shau-Wei Tsai
Journal:  Appl Biochem Biotechnol       Date:  2003-02       Impact factor: 2.926

8.  Characterization of the extracellular lipase, LipA, of Acinetobacter calcoaceticus BD413 and sequence analysis of the cloned structural gene.

Authors:  R G Kok; J J van Thor; I M Nugteren-Roodzant; M B Brouwer; M R Egmond; C B Nudel; B Vosman; K J Hellingwerf
Journal:  Mol Microbiol       Date:  1995-03       Impact factor: 3.501

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Authors:  S Navon-Venezia; Z Zosim; A Gottlieb; R Legmann; S Carmeli; E Z Ron; E Rosenberg
Journal:  Appl Environ Microbiol       Date:  1995-09       Impact factor: 4.792

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Authors:  K E Jaeger; S Ransac; B W Dijkstra; C Colson; M van Heuvel; O Misset
Journal:  FEMS Microbiol Rev       Date:  1994-09       Impact factor: 16.408
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  9 in total

1.  Metagenomic Screening for Lipolytic Genes Reveals an Ecology-Clustered Distribution Pattern.

Authors:  Mingji Lu; Dominik Schneider; Rolf Daniel
Journal:  Front Microbiol       Date:  2022-06-10       Impact factor: 6.064

2.  High fat diet induces microbiota-dependent silencing of enteroendocrine cells.

Authors:  Lihua Ye; Olaf Mueller; Jennifer Bagwell; Michel Bagnat; Rodger A Liddle; John F Rawls
Journal:  Elife       Date:  2019-12-03       Impact factor: 8.140

3.  Acinetobacter baumannii Is Dependent on the Type II Secretion System and Its Substrate LipA for Lipid Utilization and In Vivo Fitness.

Authors:  Tanya L Johnson; Ursula Waack; Sara Smith; Harry Mobley; Maria Sandkvist
Journal:  J Bacteriol       Date:  2015-12-14       Impact factor: 3.490

4.  Production of a solvent, detergent, and thermotolerant lipase by a newly isolated Acinetobacter sp. in submerged and solid-state fermentations.

Authors:  Anahita Khoramnia; Afshin Ebrahimpour; Boon Kee Beh; Oi Ming Lai
Journal:  J Biomed Biotechnol       Date:  2011-09-27

Review 5.  Halophilic bacteria as a source of novel hydrolytic enzymes.

Authors:  María de Lourdes Moreno; Dolores Pérez; María Teresa García; Encarnación Mellado
Journal:  Life (Basel)       Date:  2013-01-10

6.  A Novel Lipase as Aquafeed Additive for Warm-Water Aquaculture.

Authors:  Chao Ran; Suxu He; Yalin Yang; Lu Huang; Zhigang Zhou
Journal:  PLoS One       Date:  2015-07-06       Impact factor: 3.240

7.  Draft genome sequence of phenol degrading Acinetobacter sp. Strain V2, isolated from oil contaminated soil.

Authors:  Vikas Sharma; Johnson Lin
Journal:  Braz J Microbiol       Date:  2016-11-23       Impact factor: 2.476

8.  Process optimization for production and purification of a thermostable, organic solvent tolerant lipase from Acinetobacter sp. AU07.

Authors:  P Gururaj; Subramanian Ramalingam; Ganesan Nandhini Devi; Pennathur Gautam
Journal:  Braz J Microbiol       Date:  2016-04-26       Impact factor: 2.476

9.  Looking through the FOG: microbiome characterization and lipolytic bacteria isolation from a fatberg site.

Authors:  Elizabeth K Court; Roy R Chaudhuri; Rahul V Kapoore; Raffaella X Villa; Jagroop Pandhal; Catherine A Biggs; Graham P Stafford
Journal:  Microbiology (Reading)       Date:  2021-12       Impact factor: 2.777
  9 in total

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