Literature DB >> 9425116

Two invertebrate acetylcholinesterases show activation followed by inhibition with substrate concentration.

V Marcel1, L G Palacios, C Pertuy, P Masson, D Fournier.   

Abstract

In vertebrates there are two cholinesterases, with differences in catalytic behaviour with respect to substrate concentration: butyrylcholinesterase displays an increased activity at low substrate concentrations, whereas acetylcholinesterase displays inhibition by excess substrate. In two invertebrates, Drosophila melanogaster and Caenorhabditis elegans, we found cholinesterases that showed both kinetic complexities: substrate activation at low substrate concentrations followed by inhibition at higher concentrations. These triphasic kinetics can be explained by the presence of two enzymes with different kinetic behaviours or more probably by the existence of a single enzyme regulated by the substrate concentration.

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Year:  1998        PMID: 9425116      PMCID: PMC1219048          DOI: 10.1042/bj3290329

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  36 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  1994-06-21       Impact factor: 11.205

9.  Contribution of aromatic moieties of tyrosine 133 and of the anionic subsite tryptophan 86 to catalytic efficiency and allosteric modulation of acetylcholinesterase.

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Journal:  J Biol Chem       Date:  1995-02-03       Impact factor: 5.157

10.  cDNA sequence, gene structure, and in vitro expression of ace-1, the gene encoding acetylcholinesterase of class A in the nematode Caenorhabditis elegans.

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  8 in total

1.  Effects of soman inhibition and of structural differences on cholinesterase molecular dynamics: a neutron scattering study.

Authors:  F Gabel; M Weik; P Masson; F Renault; D Fournier; L Brochier; B P Doctor; A Saxena; I Silman; G Zaccai
Journal:  Biophys J       Date:  2005-08-12       Impact factor: 4.033

2.  Structural insights into substrate traffic and inhibition in acetylcholinesterase.

Authors:  Jacques-Philippe Colletier; Didier Fournier; Harry M Greenblatt; Jure Stojan; Joel L Sussman; Giuseppe Zaccai; Israel Silman; Martin Weik
Journal:  EMBO J       Date:  2006-06-08       Impact factor: 11.598

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Authors:  E V Rozengart; N E Basova
Journal:  Zh Evol Biokhim Fiziol       Date:  2008 Jan-Feb

4.  Recombinant expression and biochemical characterization of the catalytic domain of acetylcholinesterase-1 from the African malaria mosquito, Anopheles gambiae.

Authors:  Haobo Jiang; Siwei Liu; Picheng Zhao; Carey Pope
Journal:  Insect Biochem Mol Biol       Date:  2009-07-14       Impact factor: 4.714

5.  Heterologous expression, purification, and biochemical characterization of a greenbug (Schizaphis graminum) acetylcholinesterase encoded by a paralogous gene (ace-1).

Authors:  Picheng Zhao; Kun Yan Zhu; Haobo Jiang
Journal:  J Biochem Mol Toxicol       Date:  2010 Jan-Feb       Impact factor: 3.568

Review 6.  Molecular Targets for Components of Essential Oils in the Insect Nervous System-A Review.

Authors:  Milena Jankowska; Justyna Rogalska; Joanna Wyszkowska; Maria Stankiewicz
Journal:  Molecules       Date:  2017-12-23       Impact factor: 4.411

7.  Acetylcholinesterase alterations reveal the fitness cost of mutations conferring insecticide resistance.

Authors:  Ming An Shi; Andrée Lougarre; Carole Alies; Isabelle Frémaux; Zhen Hua Tang; Jure Stojan; Didier Fournier
Journal:  BMC Evol Biol       Date:  2004-02-06       Impact factor: 3.260

Review 8.  Human Erythrocyte Acetylcholinesterase in Health and Disease.

Authors:  Carlota Saldanha
Journal:  Molecules       Date:  2017-09-08       Impact factor: 4.411
  8 in total

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