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Literature DB >> 25573004

An evolutionary biochemist's perspective on promiscuity.

Abstract

Evolutionary biochemists define enzyme promiscuity as the ability to catalyze secondary reactions that are physiologically irrelevant, either because they are too inefficient to affect fitness or because the enzyme never encounters the substrate. Promiscuous activities are common because evolution of a perfectly specific active site is both difficult and unnecessary; natural selection ceases when the performance of a protein is 'good enough' that it no longer affects fitness. Although promiscuous functions are accidental and physiologically irrelevant, they are of great importance because they provide opportunities for the evolution of new functions in nature and in the laboratory, as well as targets for therapeutic drugs and tools for a wide range of technological applications.

Entities: Chemical Disease Gene Species

Keywords: enzyme; molecular evolution; promiscuity; substrate ambiguity

Mesh：

Substances：
Multifunctional Enzymes

Year: 2015 PMID： 25573004 PMCID： PMC4836852 DOI： 10.1016/j.tibs.2014.12.004

Source DB: PubMed Journal: Trends Biochem Sci ISSN： 0968-0004 Impact factor: 13.807

50 in total

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Journal: J Biol Chem Date: 2013-05-06 Impact factor: 5.157

6. The Vibrio harveyi quorum-sensing system uses shared regulatory components to discriminate between multiple autoinducers.

Authors: Christopher M Waters; Bonnie L Bassler
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7. Genome-wide analysis of substrate specificities of the Escherichia coli haloacid dehalogenase-like phosphatase family.

Authors: Ekaterina Kuznetsova; Michael Proudfoot; Claudio F Gonzalez; Greg Brown; Marina V Omelchenko; Ivan Borozan; Liran Carmel; Yuri I Wolf; Hirotada Mori; Alexei V Savchenko; Cheryl H Arrowsmith; Eugene V Koonin; Aled M Edwards; Alexander F Yakunin
Journal: J Biol Chem Date: 2006-09-21 Impact factor: 5.157

8. Evolution of enzymatic activities in the enolase superfamily: N-succinylamino acid racemase and a new pathway for the irreversible conversion of D- to L-amino acids.

Authors: Ayano Sakai; Dao Feng Xiang; Chengfu Xu; Ling Song; Wen Shan Yew; Frank M Raushel; John A Gerlt
Journal: Biochemistry Date: 2006-04-11 Impact factor: 3.162

9. Diversification of function in the haloacid dehalogenase enzyme superfamily: The role of the cap domain in hydrolytic phosphoruscarbon bond cleavage.

Authors: Sushmita D Lahiri; Guofeng Zhang; Debra Dunaway-Mariano; Karen N Allen
Journal: Bioorg Chem Date: 2006-10-27 Impact factor: 5.275

Review 10. Molecular mechanism of phase I and phase II drug-metabolizing enzymes: implications for detoxification.

Authors: Takashi Iyanagi
Journal: Int Rev Cytol Date: 2007

37 in total

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Journal: J Biol Chem Date: 2020-06-11 Impact factor: 5.157

2. A bioarchitectonic approach to the modular engineering of metabolism.

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Journal: Philos Trans R Soc Lond B Biol Sci Date: 2017-09-26 Impact factor: 6.237

3. Multifunctional enzymes from reduced genomes - model proteins for simple primordial metabolism?

Authors: Burckhard Seelig
Journal: Mol Microbiol Date: 2017-07-14 Impact factor: 3.501

Review 4. How enzyme promiscuity and horizontal gene transfer contribute to metabolic innovation.

Authors: Margaret E Glasner; Dat P Truong; Benjamin C Morse
Journal: FEBS J Date: 2020-01-10 Impact factor: 5.542

Review 5. Evolution of protein specificity: insights from ancestral protein reconstruction.

Authors: Mohammad A Siddiq; Georg Ka Hochberg; Joseph W Thornton
Journal: Curr Opin Struct Biol Date: 2017-08-23 Impact factor: 6.809

Review 6. A mechanistic view of enzyme evolution.

Authors: Gloria Yang; Charlotte M Miton; Nobuhiko Tokuriki
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7. Biochemical and Structural Insights into Enzymatic Depolymerization of Polylactic Acid and Other Polyesters by Microbial Carboxylesterases.

Authors: Mahbod Hajighasemi; Boguslaw P Nocek; Anatoli Tchigvintsev; Greg Brown; Robert Flick; Xiaohui Xu; Hong Cui; Tran Hai; Andrzej Joachimiak; Peter N Golyshin; Alexei Savchenko; Elizabeth A Edwards; Alexander F Yakunin
Journal: Biomacromolecules Date: 2016-05-02 Impact factor: 6.988