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Literature DB >> 12604185

An algorithm for identification and ranking of family-specific residues, applied to the ALDH3 family.

John Hempel¹, John Perozich, Troy Wymore, Hugh B Nicholas.

Abstract

An algorithm for detecting amino acid residues characteristic of individual protein families from within aligned collections of paralogous sequences, and its application to the ALDH3 family versus the rest of the ALDH extended family is described. Residues illuminated by this analysis include a key intramolecular tether, a lysine that makes an intersubunit contact at the dimer interface, three residues in close association with the substrate-binding funnel, and a pair of residues suggested to participate in proton relay during the catalytic cycle.

Entities: Chemical Gene

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Year: 2003 PMID： 12604185 DOI： 10.1016/s0009-2797(02)00165-5

Source DB: PubMed Journal: Chem Biol Interact ISSN： 0009-2797 Impact factor: 5.192

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Cited

6 in total

1. The Class D beta-lactamase family: residues governing the maintenance and diversity of function.

Authors: Agnieszka Szarecka; Kimberly R Lesnock; Carlos A Ramirez-Mondragon; Hugh B Nicholas; Troy Wymore
Journal: Protein Eng Des Sel Date: 2011-08-22 Impact factor: 1.650

2. Mechanistic implications of the cysteine-nicotinamide adduct in aldehyde dehydrogenase based on quantum mechanical/molecular mechanical simulations.

Authors: Troy Wymore; David W Deerfield; John Hempel
Journal: Biochemistry Date: 2007-07-27 Impact factor: 3.162

3. MPI-PHYLIP: parallelizing computationally intensive phylogenetic analysis routines for the analysis of large protein families.

Authors: Alexander J Ropelewski; Hugh B Nicholas; Ricardo R Gonzalez Mendez
Journal: PLoS One Date: 2010-11-15 Impact factor: 3.240

An algorithm for identification and ranking of family-specific residues, applied to the ALDH3 family.

1. The Class D beta-lactamase family: residues governing the maintenance and diversity of function.

2. Mechanistic implications of the cysteine-nicotinamide adduct in aldehyde dehydrogenase based on quantum mechanical/molecular mechanical simulations.

3. MPI-PHYLIP: parallelizing computationally intensive phylogenetic analysis routines for the analysis of large protein families.

4. Analysis of nucleotide diphosphate sugar dehydrogenases reveals family and group-specific relationships.

5. In silico analysis of heme oxygenase structural homologues identifies group-specific conservations.

6. In silico analysis of class I adenylate-forming enzymes reveals family and group-specific conservations.