Literature DB >> 23144131

Physiological and metabolic effects of carbon monoxide oxidation in the model marine bacterioplankton Ruegeria pomeroyi DSS-3.

Michael Cunliffe1.   

Abstract

Ruegeria pomeroyi expresses carbon monoxide (CO) dehydrogenase and oxidizes CO; however, CO has no effect on growth. Nuclear magnetic resonance (NMR) spectra showed that CO has no effect on cellular metabolite profiles. These data support ecosystem models proposing that, even though bacterioplankton CO oxidation is biogeochemically significant, it has an insignificant effect on bacterioplankton productivity.

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Year:  2012        PMID: 23144131      PMCID: PMC3553778          DOI: 10.1128/AEM.02466-12

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  15 in total

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Authors:  Mary Ann Moran; William L Miller
Journal:  Nat Rev Microbiol       Date:  2007-10       Impact factor: 60.633

2.  Proteomic insights into the lifestyle of an environmentally relevant marine bacterium.

Authors:  Joseph Alexander Christie-Oleza; Bernard Fernandez; Balbina Nogales; Rafael Bosch; Jean Armengaud
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3.  Physiological, ecological, and phylogenetic characterization of Stappia, a marine CO-oxidizing bacterial genus.

Authors:  Carolyn F Weber; Gary M King
Journal:  Appl Environ Microbiol       Date:  2006-12-01       Impact factor: 4.792

4.  Consumption of tropospheric levels of methyl bromide by C(1) compound-utilizing bacteria and comparison to saturation kinetics.

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Journal:  Appl Environ Microbiol       Date:  2001-12       Impact factor: 4.792

Review 5.  Biology of aerobic carbon monoxide-oxidizing bacteria.

Authors:  O Meyer; H G Schlegel
Journal:  Annu Rev Microbiol       Date:  1983       Impact factor: 15.500

6.  Carbon monoxide dehydrogenase activity in Bradyrhizobium japonicum.

Authors:  M J Lorite; J Tachil; J Sanjuán; O Meyer; E J Bedmar
Journal:  Appl Environ Microbiol       Date:  2000-05       Impact factor: 4.792

7.  Alkalilimnicola ehrlichii sp. nov., a novel, arsenite-oxidizing haloalkaliphilic gammaproteobacterium capable of chemoautotrophic or heterotrophic growth with nitrate or oxygen as the electron acceptor.

Authors:  Shelley E Hoeft; Jodi Switzer Blum; John F Stolz; F Robert Tabita; Brian Witte; Gary M King; Joanne M Santini; Ronald S Oremland
Journal:  Int J Syst Evol Microbiol       Date:  2007-03       Impact factor: 2.747

8.  Aerobic carboxydotrophy under extremely haloalkaline conditions in Alkalispirillum/Alkalilimnicola strains isolated from soda lakes.

Authors:  Dimitry Yu Sorokin; Tatjana P Tourova; Olga L Kovaleva; J Gijs Kuenen; Gerard Muyzer
Journal:  Microbiology       Date:  2009-12-03       Impact factor: 2.777

9.  Molecular and culture-based analyses of aerobic carbon monoxide oxidizer diversity.

Authors:  Gary M King
Journal:  Appl Environ Microbiol       Date:  2003-12       Impact factor: 4.792

10.  Bacterial carbon processing by generalist species in the coastal ocean.

Authors:  Xiaozhen Mou; Shulei Sun; Robert A Edwards; Robert E Hodson; Mary Ann Moran
Journal:  Nature       Date:  2008-01-27       Impact factor: 49.962
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1.  Identification of Unknown Carboxydovore Bacteria Dominant in Deciduous Forest Soil via Succession of Bacterial Communities, coxL Genotypes, and Carbon Monoxide Oxidation Activity in Soil Microcosms.

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Journal:  Appl Environ Microbiol       Date:  2015-12-18       Impact factor: 4.792

2.  Metaproteomic survey of six aquatic habitats: discovering the identities of microbial populations active in biogeochemical cycling.

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3.  Trimethylamine and trimethylamine N-oxide are supplementary energy sources for a marine heterotrophic bacterium: implications for marine carbon and nitrogen cycling.

Authors:  Ian D E A Lidbury; J Colin Murrell; Yin Chen
Journal:  ISME J       Date:  2014-08-22       Impact factor: 10.302

4.  Basaltic Lava Tube Hosts a Putative Novel Genus in the Family Solirubrobacteraceae.

Authors:  C B Fishman; J G Bevilacqua; O Gadson; A S Hahn; A C McAdam; J Bleacher; S S Johnson
Journal:  Microbiol Resour Announc       Date:  2022-10-03

Review 5.  Microbial oxidation of atmospheric trace gases.

Authors:  Chris Greening; Rhys Grinter
Journal:  Nat Rev Microbiol       Date:  2022-04-12       Impact factor: 78.297

6.  Trimethylamine N-oxide metabolism by abundant marine heterotrophic bacteria.

Authors:  Ian Lidbury; J Colin Murrell; Yin Chen
Journal:  Proc Natl Acad Sci U S A       Date:  2014-02-03       Impact factor: 11.205

7.  Draft genome sequence of the marine Rhodobacteraceae strain O3.65, cultivated from oil-polluted seawater of the Deepwater Horizon oil spill.

Authors:  Helge-Ansgar Giebel; Franziska Klotz; Sonja Voget; Anja Poehlein; Katrin Grosser; Andreas Teske; Thorsten Brinkhoff
Journal:  Stand Genomic Sci       Date:  2016-10-13

8.  Atmospheric carbon monoxide oxidation is a widespread mechanism supporting microbial survival.

Authors:  Paul R F Cordero; Katherine Bayly; Pok Man Leung; Cheng Huang; Zahra F Islam; Ralf B Schittenhelm; Gary M King; Chris Greening
Journal:  ISME J       Date:  2019-07-29       Impact factor: 10.302

9.  Draft genome sequence of marine alphaproteobacterial strain HIMB11, the first cultivated representative of a unique lineage within the Roseobacter clade possessing an unusually small genome.

Authors:  Bryndan P Durham; Jana Grote; Kerry A Whittaker; Sara J Bender; Haiwei Luo; Sharon L Grim; Julia M Brown; John R Casey; Antony Dron; Lennin Florez-Leiva; Andreas Krupke; Catherine M Luria; Aric H Mine; Olivia D Nigro; Santhiska Pather; Agathe Talarmin; Emma K Wear; Thomas S Weber; Jesse M Wilson; Matthew J Church; Edward F DeLong; David M Karl; Grieg F Steward; John M Eppley; Nikos C Kyrpides; Stephan Schuster; Michael S Rappé
Journal:  Stand Genomic Sci       Date:  2014-03-15

10.  Transcriptional Patterns of Biogeochemically Relevant Marker Genes by Temperate Marine Bacteria.

Authors:  Laura Alonso-Sáez; Xosé Anxelu G Morán; José M González
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  10 in total

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