Sustained Dechlorination of Vinyl Chloride to Ethene in Dehalococcoides-Enriched Cultures Grown without Addition of Exogenous Vitamins and at Low pH

Trichloroethene (TCE) bioremediation has been demonstrated at field sites using microbial cultures harboring TCE-respiring Dehalococcoides whose growth is cobalamin (vitamin B12)-dependent. Bioaugmentation cultures grown ex situ with ample exogenous vitamins and at neutral pH may become vitamin-limi...

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Veröffentlicht in:	Environmental science & technology 2019-10, Vol.53 (19), p.11364-11374
Hauptverfasser:	Puentes Jácome, Luz A, Wang, Po-Hsiang, Molenda, Olivia, Li, Yi Xuan (Jine-Jine), Islam, M. Ahsanul, Edwards, Elizabeth A
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Sprache:	eng
Schlagworte:	Bioremediation Cell culture Dechlorination Ethene Ethylene Microorganisms pH effects Reductase Reductases Supplements Trichloroethylene Vinyl chloride Vitamin B12 Vitamins
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container_issue	19
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container_title	Environmental science & technology
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creator	Puentes Jácome, Luz A Wang, Po-Hsiang Molenda, Olivia Li, Yi Xuan (Jine-Jine) Islam, M. Ahsanul Edwards, Elizabeth A
description	Trichloroethene (TCE) bioremediation has been demonstrated at field sites using microbial cultures harboring TCE-respiring Dehalococcoides whose growth is cobalamin (vitamin B12)-dependent. Bioaugmentation cultures grown ex situ with ample exogenous vitamins and at neutral pH may become vitamin-limited or inhibited by acidic pH once injected into field sites, resulting in incomplete TCE dechlorination and accumulation of vinyl chloride (VC). Here, we report growth of the Dehalococcoides-containing bioaugmentation culture KB-1 in a TCE-amended mineral medium devoid of vitamins and in a VC-amended mineral medium at low pH (6.0 and 5.5). In these cultures, Acetobacterium, which can synthesize 5,6-dimethylbenzimidazole (DMB), the lower ligand of cobalamin, and Sporomusa are dominant acetogens. At neutral pH, Acetobacterium supports complete TCE dechlorination by Dehalococcoides at millimolar levels with a substantial increase in cobalamin (∼20-fold). Sustained dechlorination of VC to ethene was achieved at pH as low as 5.5. Below pH 5.0, dechlorination was not stimulated by DMB supplementation but was restored by raising pH to neutral. Cell-extract assays revealed that vinyl chloride reductase activity declines significantly below pH 6.0 and is undetectable below pH 5.0. This study highlights the importance of cobamide-producing populations and pH in microbial dechlorinating communities for successful bioremediation at field sites.
doi_str_mv	10.1021/acs.est.9b02339
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Ahsanul</creatorcontrib><creatorcontrib>Edwards, Elizabeth A</creatorcontrib><title>Sustained Dechlorination of Vinyl Chloride to Ethene in Dehalococcoides-Enriched Cultures Grown without Addition of Exogenous Vitamins and at Low pH</title><title>Environmental science & technology</title><addtitle>Environ. Sci. Technol</addtitle><description>Trichloroethene (TCE) bioremediation has been demonstrated at field sites using microbial cultures harboring TCE-respiring Dehalococcoides whose growth is cobalamin (vitamin B12)-dependent. Bioaugmentation cultures grown ex situ with ample exogenous vitamins and at neutral pH may become vitamin-limited or inhibited by acidic pH once injected into field sites, resulting in incomplete TCE dechlorination and accumulation of vinyl chloride (VC). Here, we report growth of the Dehalococcoides-containing bioaugmentation culture KB-1 in a TCE-amended mineral medium devoid of vitamins and in a VC-amended mineral medium at low pH (6.0 and 5.5). In these cultures, Acetobacterium, which can synthesize 5,6-dimethylbenzimidazole (DMB), the lower ligand of cobalamin, and Sporomusa are dominant acetogens. At neutral pH, Acetobacterium supports complete TCE dechlorination by Dehalococcoides at millimolar levels with a substantial increase in cobalamin (∼20-fold). Sustained dechlorination of VC to ethene was achieved at pH as low as 5.5. Below pH 5.0, dechlorination was not stimulated by DMB supplementation but was restored by raising pH to neutral. Cell-extract assays revealed that vinyl chloride reductase activity declines significantly below pH 6.0 and is undetectable below pH 5.0. This study highlights the importance of cobamide-producing populations and pH in microbial dechlorinating communities for successful bioremediation at field sites.</description><subject>Bioremediation</subject><subject>Cell culture</subject><subject>Dechlorination</subject><subject>Ethene</subject><subject>Ethylene</subject><subject>Microorganisms</subject><subject>pH effects</subject><subject>Reductase</subject><subject>Reductases</subject><subject>Supplements</subject><subject>Trichloroethylene</subject><subject>Vinyl chloride</subject><subject>Vitamin B12</subject><subject>Vitamins</subject><issn>0013-936X</issn><issn>1520-5851</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNp1kU1rGzEQhkVJaBy3596KoJdCWEcfliwdg-MkBUMOSUNui1bSdhXWkitpcf0_8oMr144PhZwEo2eeGeYF4AtGE4wIvlQ6TWzKE9kgQqn8AEaYEVQxwfAJGCGEaSUpfz4D5ym9IFQgJD6CM4qnU8ynfAReH4aUlfPWwGuruz5E51V2wcPQwifntz2c_6saC3OAi9xZb6Hzhe5UH3TQOpS_VC18dLormvnQ5yHaBG9j2Hi4cbkLQ4ZXxrg37-JP-GV9GFKZkNXK-QSVN1BluAwbuL77BE5b1Sf7-fCOwc-bxeP8rlre3_6YXy0rxRDLlVCMt0aLWSsZbQShWjaa4EY2kmnTYMqVRJwZThBRmAtmLJ8hLJloWmEEpWPwfe9dx_B7KHesVy5p2_fK27JdTYhERY0ZLui3_9CXMERftqvLTRFmTExnhbrcUzqGlKJt63V0KxW3NUb1LrC6BFbvug-BlY6vB-_QrKw58m8JFeBiD-w6jzPf0_0Feo6iLQ</recordid><startdate>20191001</startdate><enddate>20191001</enddate><creator>Puentes Jácome, Luz A</creator><creator>Wang, Po-Hsiang</creator><creator>Molenda, Olivia</creator><creator>Li, Yi Xuan (Jine-Jine)</creator><creator>Islam, M. 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Ahsanul</au><au>Edwards, Elizabeth A</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Sustained Dechlorination of Vinyl Chloride to Ethene in Dehalococcoides-Enriched Cultures Grown without Addition of Exogenous Vitamins and at Low pH</atitle><jtitle>Environmental science & technology</jtitle><addtitle>Environ. Sci. Technol</addtitle><date>2019-10-01</date><risdate>2019</risdate><volume>53</volume><issue>19</issue><spage>11364</spage><epage>11374</epage><pages>11364-11374</pages><issn>0013-936X</issn><eissn>1520-5851</eissn><abstract>Trichloroethene (TCE) bioremediation has been demonstrated at field sites using microbial cultures harboring TCE-respiring Dehalococcoides whose growth is cobalamin (vitamin B12)-dependent. Bioaugmentation cultures grown ex situ with ample exogenous vitamins and at neutral pH may become vitamin-limited or inhibited by acidic pH once injected into field sites, resulting in incomplete TCE dechlorination and accumulation of vinyl chloride (VC). Here, we report growth of the Dehalococcoides-containing bioaugmentation culture KB-1 in a TCE-amended mineral medium devoid of vitamins and in a VC-amended mineral medium at low pH (6.0 and 5.5). In these cultures, Acetobacterium, which can synthesize 5,6-dimethylbenzimidazole (DMB), the lower ligand of cobalamin, and Sporomusa are dominant acetogens. At neutral pH, Acetobacterium supports complete TCE dechlorination by Dehalococcoides at millimolar levels with a substantial increase in cobalamin (∼20-fold). Sustained dechlorination of VC to ethene was achieved at pH as low as 5.5. Below pH 5.0, dechlorination was not stimulated by DMB supplementation but was restored by raising pH to neutral. 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subjects	Bioremediation Cell culture Dechlorination Ethene Ethylene Microorganisms pH effects Reductase Reductases Supplements Trichloroethylene Vinyl chloride Vitamin B12 Vitamins
title	Sustained Dechlorination of Vinyl Chloride to Ethene in Dehalococcoides-Enriched Cultures Grown without Addition of Exogenous Vitamins and at Low pH
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