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A healthy digestive system could do wonders!

ANI  |  Washington D.C. [U.S.A.] 

Microbes in the have a big influence on human and may play a role in the onset of throughout the body, claims a research.

According to the study conducted by the American Chemical Society, a way has been found to use to target and inhibit the growth of specific microbes in the gut associated with without causing harm to other beneficial organisms.

The is crammed with trillions of bacteria, fungi, and other microbes that help Recent studies suggested that the changes in these gut flora, or microbiome, may play a role in the onset of a host of and conditions including obesity, diabetes, cancer, allergies, asthma, and

can help regulate the microbiome, but bacterial resistance is on the rise. In addition, can wipe out some of the organisms that contribute to a healthy microbiome, and the microbes that take their place can sometimes cause more harm than good.

Researchers have also investigated using probiotics and fecal transplants to resolve some of these problems. But to date, few have really looked at using non-microbicidal small molecules to alter the microbiome in a targeted way to improve

To help fill this gap, Daniel Whitehead, and colleagues sought to use a to precisely target and disrupt the metabolic processes of members of the genus, a group of bacteria commonly found in the gut that appear to be associated with the onset of type I in genetically susceptible individuals.

In laboratory studies, the researchers found that small concentrations of acarbose, a drug used to treat diabetes, significantly disrupted the activity of a group of proteins involved in the Starch Utilization System (Sus).

The model bacteria called thetaiotaomicron (Bt), as well as other members, have this system. With Sus inhibited, couldn't metabolize a pair of complex carbohydrates that are not digested by humans once they reach the colon, but that are vital to the survival of the microbes.

As a result, the bacteria cannot grow. The team found that acarbose was specific, having similar effects on another Bacteroides bacteria, but little or no effect on other types of gut microbes.

The study appears in the journal ACS Chemical

(This story has not been edited by Business Standard staff and is auto-generated from a syndicated feed.)

First Published: Thu, May 03 2018. 14:50 IST
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