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Functional Intestinal Bile Acid 7α-Dehydroxylation by Clostridium scindens Associated with Protection from Clostridium difficile Infection in a Gnotobiotic Mouse ModelSpeciation and reactivity of uranium products formed during in situ bioremediation in a shallow alluvial aquifer.Phylogenetic comparison of Desulfotomaculum species of subgroup 1a and description of Desulfotomaculum reducens sp.nov.Binding of silver nanoparticles to bacterial proteins depends on surface modifications and inhibits enzymatic activity.Biogenic non-crystalline U(IV) revealed as major component in uranium ore depositsCharacterization of the surfaceome of the metal-reducing bacterium Desulfotomaculum reducensBeam-induced oxidation of monomeric U(IV) species.Reconstructing a hydrogen-driven microbial metabolic network in Opalinus Clay rock.The Response of Shewanella oneidensis MR-1 to Cr(III) Toxicity Differs from that to Cr(VI).Uranium isotopes fingerprint biotic reduction.A minimalistic microbial food web in an excavated deep subsurface clay rock.Quantitative separation of monomeric U(IV) from UO2 in products of U(VI) reduction.Complete genome sequence of the sulfate-reducing firmicute Desulfotomaculum ruminis type strain (DL(T))Dissolution of biogenic and synthetic UO2 under varied reducing conditionsGenome analysis of Desulfotomaculum kuznetsovii strain 17(T) reveals a physiological similarity with Pelotomaculum thermopropionicum strain SI(T)Relative reactivity of biogenic and chemogenic uraninite and biogenic noncrystalline U(IV).Variability in DPA and Calcium Content in the Spores of Clostridium Species.Genomic insights into Mn(II) oxidation by the marine alphaproteobacterium Aurantimonas sp. strain SI85-9A1.The genome of the Gram-positive metal- and sulfate-reducing bacterium Desulfotomaculum reducens strain MI-1.Non-uraninite products of microbial U(VI) reduction.Structural similarities between biogenic uraninites produced by phylogenetically and metabolically diverse bacteria.Effect of Mn(II) on the structure and reactivity of biogenic uraninite.Silver release from silver nanoparticles in natural waters.Impact of microbial Mn oxidation on the remobilization of bioreduced U(IV).Metal reduction by spores of Desulfotomaculum reducens.Fe(III) reduction during pyruvate fermentation by Desulfotomaculum reducens strain MI-1.Long-term in situ oxidation of biogenic uraninite in an alluvial aquifer: impact of dissolved oxygen and calcium.Structure of biogenic uraninite produced by Shewanella oneidensis strain MR-1.Rapid Mobilization of Noncrystalline U(IV) Coupled with FeS Oxidation.Mechanism of Uranium Reduction and Immobilization in Desulfovibrio vulgaris Biofilms.Investigation of sporulation in the Desulfotomaculum genus: a genomic comparison with the genera Bacillus and Clostridium.Combined scanning transmission X-ray and electron microscopy for the characterization of bacterial endospores.Biogeochemical controls on the product of microbial U(VI) reduction.Arsenic speciation in Mekong Delta sediments depends on their depositional environment.Microbial communities associated with uranium in-situ recovery mining process are related to acid mine drainage assemblages.Products of in Situ Corrosion of Depleted Uranium Ammunition in Bosnia and Herzegovina Soils.The Small RNA RyhB Is a Regulator of Cytochrome Expression in Shewanella oneidensis.The product of microbial uranium reduction includes multiple species with U(IV)–phosphate coordinationUranium redox transition pathways in acetate-amended sedimentsProducts of abiotic U(VI) reduction by biogenic magnetite and vivianite
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Q28817073-B0BEC3C0-41EB-4946-AAA8-15980094E486Q30597168-B6EBCA6A-0CA1-46C1-8171-4B79BFD1B8B9Q31027447-75677742-6714-4CFE-8C47-C3F332014C2AQ33531473-A1B9C1B6-F07C-4C4B-A61C-F0F44EF817DFQ33770857-0482F8DB-85D0-482A-97B5-3D6782DFF547Q34063002-2C1CE2E5-304B-4008-85B0-58EF915508ACQ34518582-C16DF7D9-3C67-4E2A-AF6E-6DE900B74150Q34542620-E240ABB6-1DA4-4A94-B89A-02A52FD65847Q35565278-47C35D78-33C1-4106-BCB1-E080F2D88640Q35590184-46406C93-2587-4385-80DF-7EC2EF3C9B88Q35834048-A4CADC34-4E49-4752-9E23-3078058A5C47Q36019865-4A8AEC95-8D85-4252-BD50-A0DD7182B231Q36601393-63969339-F76D-4860-BA14-2D51BC30682FQ36926741-834C2852-C99C-4BF0-8AB5-F70CFB68AF42Q37084276-D2E643CF-F88A-4182-B578-9A33869FD775Q37316571-54A83E64-5361-4BD9-969F-1DC9D157597CQ37407932-EF201981-811F-47E7-9D0F-F85522D46A65Q38607316-0DE1A6D5-6EB9-40B3-B2D4-C26034E08A85Q42600184-04CC4B67-E00A-4869-BFF4-2587F8B7DAB1Q42822066-652C581B-4A92-4F22-89FF-FDB152136E21Q43238786-0A3C5B3A-E3BB-49ED-830E-7D2403109AC7Q43274770-60398F6C-FED8-4317-B578-887FEDCF8464Q45015258-F3AB8BC1-9B58-4297-A3F3-1D9BA64A5BF2Q45091563-032919A2-9FA6-4FBF-BA28-A89317D27839Q45929436-48C67C8B-30E9-4E75-94DC-FC804712A450Q46022598-1AED37EB-A9C4-4C56-B34D-8B174F111948Q46116311-A472884E-B5CE-4611-9F4B-D6CB7A635D18Q46230008-C7BF02A1-A849-454D-B24C-798E3DCAC7D9Q46620382-FE91918A-A071-4781-AABD-9F8BD604F7DDQ46687766-21BE2EE0-832F-457A-92FE-9F5FCD4211FDQ46850993-CB9FAB72-2D55-446C-9A94-1DE0DEA8CFB8Q46863434-F0A270A7-F018-457A-B921-FB16CE50A01AQ46985967-04D4A1FE-EB81-4535-8AA3-70DA987FA548Q49935721-00E10E55-6A9F-42E0-9ADA-C7C0046C5E28Q50080273-39F8FBCA-F2D7-4546-AB2A-BA3EA02A3942Q51757487-568F18F4-93D1-4275-AFBC-B7E8C9E360A2Q55306843-BFBD4ADA-71D1-4D57-8AA6-6CEBCC0122F7Q57856548-2A7C3933-2326-4EA7-B09F-9B16649C52CAQ57856558-A8046385-CBB3-429B-80B5-C625020A89BFQ57856563-B14F0823-08D0-43CE-88DA-08E58FF93CDE
P50
description
Forscherin
@de
Microbiologiste environementale
@fr
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Rizlan Bernier-Latmani
@ast
Rizlan Bernier-Latmani
@de
Rizlan Bernier-Latmani
@en
Rizlan Bernier-Latmani
@es
Rizlan Bernier-Latmani
@fr
Rizlan Bernier-Latmani
@sl
type
label
Rizlan Bernier-Latmani
@ast
Rizlan Bernier-Latmani
@de
Rizlan Bernier-Latmani
@en
Rizlan Bernier-Latmani
@es
Rizlan Bernier-Latmani
@fr
Rizlan Bernier-Latmani
@sl
prefLabel
Rizlan Bernier-Latmani
@ast
Rizlan Bernier-Latmani
@de
Rizlan Bernier-Latmani
@en
Rizlan Bernier-Latmani
@es
Rizlan Bernier-Latmani
@fr
Rizlan Bernier-Latmani
@sl
P101
P1053
E-4398-2011
P106
P2798
P31
P3829
P496
0000-0001-6547-722X