Identification of membrane proteins as potential drug targets in Escherichia coli ATCC 25922 using in silico approaches

Aim. To identify the novel potential drug targets of E.coli ATCC 25922 through subtractive genomic analysis. Methods. The identification of non-homologous proteins to the human proteome, search for E.coli essential genes and estimation of drug target novelty were performed using BLAST. The unique me...

Full description

Saved in:
Bibliographic Details
Published inBiopolimery i kletka Vol. 36; no. 5; pp. 348 - 357
Main Authors Koleiev, I. M., Starosyla, S. A., Protopopov, M. V., Volynets, G. P., Sapelkin, V. M., Pletnova, L. V., Syniugin, A. R., Kachaput, N. O., Matiushok, V. I., Bdzhola, V. G., Yarmoluk, S. M.
Format Journal Article
LanguageEnglish
Published Kiev Natsional'na Akademiya Nauk Ukrainy - National Academy of Sciences of Ukraine 2020
Subjects
Binding sites
Bioinformatics
Drug development
E coli
Escherichia coli
Genomes
Genomic analysis
Homology
Localization
Membrane proteins
Metabolic pathways
Metabolism
Proteins
Proteomes
Therapeutic targets
Online AccessGet full text

Cover

More Information
Summary:Aim. To identify the novel potential drug targets of E.coli ATCC 25922 through subtractive genomic analysis. Methods. The identification of non-homologous proteins to the human proteome, search for E.coli essential genes and estimation of drug target novelty were performed using BLAST. The unique metabolic pathways identification was done using the] data and tools from KEGG (Kyoto Encyclopedia of Genes and Genomes). Prediction of the sub-cellular proteins localization was performed using a combination of the tools PSORTb, CELLO and ngLOC. The homology modeling was performed by web-server I-TASSER, the models being validated using MolProbity web-server. The binding sites were analyzed using Discovery Studio 2017 with web servers ProBis and PrankWeb. Results. Proteome of Escherichia coli ATCC 25922, which contains 4808 proteins, has been taken to form the initial set. Using the subtractive genome analysis we identified 9 membrane proteins which are essential, non-homologous to human proteome, involved in unique metabolic pathways and are not described as [the] drug targets. A study of the spatial structure of this proteins showed that 6 of them have binding sites for ligands. Conclusions. Using classical bioinformatics approaches we identified 6 molecular targets of Escherichia coli ATCC 25922, which can be exploited for further rational drug design in order to find novel therapeutic agents for the treatment of infection caused by E.coli.
ISSN:0233-7657
1993-6842
DOI:10.7124/bc.000A38