From: Monona Rossol <0000030664c37427-dmarc-request**At_Symbol_Here**LISTS.PRINCETON.EDU>
Subject: Re: [DCHAS-L] Newly Identified Microbial Process Could Reduce Toxic Methylmercury Levels
Date: Mon, 5 Jun 2017 16:53:06 -0400
Reply-To: ACS Division of Chemical Health and Safety <DCHAS-L**At_Symbol_Here**PRINCETON.EDU>
Message-ID: 15c7a0857ea-23d7-323c8**At_Symbol_Here**webprd-a53.mail.aol.com
In-Reply-To <2EF95BBC-588F-4153-ADAB-0F4E2DCD6588**At_Symbol_Here**dchas.org>


How interesting.  It demethylates the compound, which is nice, but what form does it leave the mercury in after that?  And where does it end up?




Monona Rossol, M.S., M.F.A., Industrial Hygienist
President:  Arts, Crafts & Theater Safety, Inc.
Safety Officer: Local USA829, IATSE
181 Thompson St., #23
New York, NY 10012     212-777-0062
actsnyc**At_Symbol_Here**cs.com   www.artscraftstheatersafety.org

 


-----Original Message-----
From: Secretary, ACS Division of Chemical Health and Safety <secretary**At_Symbol_Here**DCHAS.ORG>
To: DCHAS-L <DCHAS-L**At_Symbol_Here**PRINCETON.EDU>
Sent: Mon, Jun 5, 2017 1:04 pm
Subject: [DCHAS-L] Newly Identified Microbial Process Could Reduce Toxic Methylmercury Levels

There's an interesting mix of chemical and biological techniques in this work, with lab safety history significance.

- Ralph

http://www.labmanager.com/news/2017/06/newly-identified-microbial-process-could-reduce-toxic-methylmercury-levels

OAK RIDGE, Tenn. - A team led by the Department of Energy's Oak Ridge National Laboratory has identified a novel microbial process that can break down toxic methylmercury in the environment, a fundamental scientific discovery that could potentially reduce mercury toxicity levels and support health and risk assessments.

Methylmercury is a neurotoxin that forms in nature when mercury interacts with certain microbes living in soil and waterways. It accumulates at varying levels in all fish-particularly large predatory fish such as tuna and swordfish-and, when consumed in large quantities, can potentially cause neurological damage and developmental disorders, especially in children.

A previous ORNL-led study, published in Science in 2013, unlocked the genetic code that led scientists to accurately identify microbes responsible for methylmercury production in the environment. Following this finding, the ORNL team has now discovered which bacteria perform the reverse process, called demethylation. Details are published in Science Advances.

"Much attention has focused on mercury methylation or how methylmercury forms, but few studies to date have examined microbial demethylation, or the breakdown of methylmercury at environmentally relevant conditions," said Baohua Gu, co-author and a team lead in ORNL's Mercury Science Focus Area.

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