Literature DB >> 12738852

The ecology of arsenic.

Ronald S Oremland1, John F Stolz.   

Abstract

Arsenic is a metalloid whose name conjures up images of murder. Nonetheless, certain prokaryotes use arsenic oxyanions for energy generation, either by oxidizing arsenite or by respiring arsenate. These microbes are phylogenetically diverse and occur in a wide range of habitats. Arsenic cycling may take place in the absence of oxygen and can contribute to organic matter oxidation. In aquifers, these microbial reactions may mobilize arsenic from the solid to the aqueous phase, resulting in contaminated drinking water. Here we review what is known about arsenic-metabolizing bacteria and their potential impact on speciation and mobilization of arsenic in nature.

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Year:  2003        PMID: 12738852     DOI: 10.1126/science.1081903

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  202 in total

1.  Dissimilatory arsenate reduction with sulfide as electron donor: experiments with mono lake water and Isolation of strain MLMS-1, a chemoautotrophic arsenate respirer.

Authors:  Shelley E Hoeft; Thomas R Kulp; John F Stolz; James T Hollibaugh; Ronald S Oremland
Journal:  Appl Environ Microbiol       Date:  2004-05       Impact factor: 4.792

2.  Methanogenic inhibition by arsenic compounds.

Authors:  Reyes Sierra-Alvarez; Irail Cortinas; Umur Yenal; Jim A Field
Journal:  Appl Environ Microbiol       Date:  2004-09       Impact factor: 4.792

3.  Archaeal diversity: temporal variation in the arsenic-rich creek sediments of Carnoulès Mine, France.

Authors:  A Volant; A Desoeuvre; C Casiot; B Lauga; S Delpoux; G Morin; J C Personné; M Héry; F Elbaz-Poulichet; P N Bertin; O Bruneel
Journal:  Extremophiles       Date:  2012-06-20       Impact factor: 2.395

4.  Subsurface cycling of nitrogen and anaerobic aromatic hydrocarbon biodegradation revealed by nucleic Acid and metabolic biomarkers.

Authors:  Jane M Yagi; Joseph M Suflita; Lisa M Gieg; Christopher M DeRito; Che-Ok Jeon; Eugene L Madsen
Journal:  Appl Environ Microbiol       Date:  2010-03-26       Impact factor: 4.792

5.  Chemical Treatments for Mobilizing Arsenic from Contaminated Aquifer Solids to Accelerate Remediation.

Authors:  Karen Wovkulich; Brian J Mailloux; Allison Lacko; Alison R Keimowitz; Martin Stute; H James Simpson; Steven N Chillrud
Journal:  Appl Geochem       Date:  2010-10-01       Impact factor: 3.524

6.  Anaerobic oxidation of arsenite linked to chlorate reduction.

Authors:  Wenjie Sun; Reyes Sierra-Alvarez; Lily Milner; Jim A Field
Journal:  Appl Environ Microbiol       Date:  2010-08-20       Impact factor: 4.792

7.  Spatial Patterns of bphA Gene Diversity Reveal Local Adaptation of Microbial Communities to PCB and PAH Contaminants.

Authors:  Matthew J Hoostal; Juan L Bouzat
Journal:  Microb Ecol       Date:  2016-07-18       Impact factor: 4.552

8.  Characterization and transcription of arsenic respiration and resistance genes during in situ uranium bioremediation.

Authors:  Ludovic Giloteaux; Dawn E Holmes; Kenneth H Williams; Kelly C Wrighton; Michael J Wilkins; Alison P Montgomery; Jessica A Smith; Roberto Orellana; Courtney A Thompson; Thomas J Roper; Philip E Long; Derek R Lovley
Journal:  ISME J       Date:  2012-10-04       Impact factor: 10.302

9.  Functions and Unique Diversity of Genes and Microorganisms Involved in Arsenite Oxidation from the Tailings of a Realgar Mine.

Authors:  Xian-Chun Zeng; Guoji E; Jianing Wang; Nian Wang; Xiaoming Chen; Yao Mu; Hao Li; Ye Yang; Yichen Liu; Yanxin Wang
Journal:  Appl Environ Microbiol       Date:  2016-11-21       Impact factor: 4.792

10.  The absence of interleukin-6 enhanced arsenite-induced renal injury by promoting autophagy of tubular epithelial cells with aberrant extracellular signal-regulated kinase activation.

Authors:  Akihiko Kimura; Yuko Ishida; Takashi Wada; Tomoko Hisaoka; Yoshihiro Morikawa; Takeshi Sugaya; Naofumi Mukaida; Toshikazu Kondo
Journal:  Am J Pathol       Date:  2009-12-11       Impact factor: 4.307
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