Science

Researchers decipher antibacterial mechanism of naturally occurring chemical

Sunderarajan Padmanabhan New Delhi | Updated on March 14, 2018 Published on March 14, 2018

Members of the research team at IIT, Roorkee

Researchers at the Indian Institute of Technology, Roorkee, have found out the mechanism that underlies anti-bacterial properties of a natural compound called Chlorogenic Acid which occurs in several plants including coffee.

They have shown that the compound binds itself to an enzyme called chlorismate mutase in bacteria, thereby inhibiting its growth and causing its eventual death. The enzyme is in Shikimate pathway, which is one of the most essential metabolic pathways in any bacteria. It provides amino acids essential for survival of bacteria.

The shikimate pathway is present in microorganisms, plants, and apicomplexan parasites, but is absent in higher eukaryotes, which makes the enzymes of this pathway promising targets for the development of antibiotics, herbicides and pesticides.

Pravindra Kumar of the Department of Biotechnology at the Institute, while speaking to India Science Wire, said, “based on biochemical and structural findings, we have shown that chlorogenic acid, a structural analogue of chorismic acid, is an inhibitor of chorismate mutase. Biochemical and binding assays have shown the inhibitory activity of chlorogenic acid against chorismate mutase type II.”

The researchers claim that molecular mechanism of antibacterial properties of chlorogenic acid has been deciphered for the first time. “The overall structural blueprints obtained from our work can be exploited to produce a more efficient new class of antibiotics. The atomic resolution structural snapshot of the Chlorogenic Acid binding with Chlorismate Mutase enzyme provides information, which can be used to tweak the chemical structure of Chlorogenic Acid to make a more potent inhibitor”, Kumar added. The first results of the study were published in Scientific Reports last year.

The research team included Shivendra Pratap, Aditya Dev, Vijay Kumar, Ravi Yadav, Manju Narwal and Shaily Tomar.

Twitter handle: @ndpsr

(India Science Wire)

Published on March 14, 2018
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