Spatial distribution of an uranium-respiring betaproteobacterium at the Rifle, CO field research siteThe Effect of Diet and Exercise on Intestinal Integrity and Microbial Diversity in MiceMembrane lipids of symbiotic algae are diagnostic of sensitivity to thermal bleaching in coralsCharacterization and Potential Applications of a Selenium Nanoparticle Producing and Nitrate Reducing Bacterium Bacillus oryziterrae sp. novSeleniivibrio woodruffii gen. nov., sp. nov., a selenate- and arsenate-respiring bacterium in the Deferribacteraceae.Identification of anaerobic selenate-respiring bacteria from aquatic sedimentsPelobacter seleniigenes sp. nov., a selenate-respiring bacterium.Sedimenticola selenatireducens, gen. nov., sp. nov., an anaerobic selenate-respiring bacterium isolated from estuarine sediment.Desulfoluna spongiiphila sp. nov., a dehalogenating bacterium in the Desulfobacteraceae from the marine sponge Aplysina aerophoba.Mucilaginibacter frigoritolerans sp. nov., Mucilaginibacter lappiensis sp. nov. and Mucilaginibacter mallensis sp. nov., isolated from soil and lichen samples.Desulfurispirillum indicum sp. nov., a selenate- and selenite-respiring bacterium isolated from an estuarine canal.Kangiella spongicola sp. nov., a halophilic marine bacterium isolated from the sponge Chondrilla nucula.The effect of co-substrate activation on indigenous and bioaugmented PCB dechlorinating bacterial communities in sediment microcosms.Terriglobus saanensis sp. nov., an acidobacterium isolated from tundra soil.Isolation and characterization of diverse halobenzoate-degrading denitrifying bacteria from soils and sedimentsGranulicella arctica sp. nov., Granulicella mallensis sp. nov., Granulicella tundricola sp. nov. and Granulicella sapmiensis sp. nov., novel acidobacteria from tundra soil.Genome sequence of the anaerobic bacterium Bacillus sp. strain ZYK, a selenite and nitrate reducer from paddy soil.Complete genome sequence of Granulicella tundricola type strain MP5ACTX9(T), an Acidobacteria from tundra soil.Embryonic exposure to tetrabromobisphenol A and its metabolites, bisphenol A and tetrabromobisphenol A dimethyl ether disrupts normal zebrafish (Danio rerio) development and matrix metalloproteinase expression.Carbon isotope fractionation during anaerobic degradation of methyl tert-butyl ether under sulfate-reducing and methanogenic conditionsAcidobacteria dominate the active bacterial communities of Arctic tundra with widely divergent winter-time snow accumulation and soil temperatures.Reductive dehalogenation of brominated phenolic compounds by microorganisms associated with the marine sponge Aplysina aerophoba.Anaerobic dehalogenation of organohalide contaminants in the marine environment.Identification of a Ruminococcaceae Species as the Methyl tert-Butyl Ether (MTBE) Degrading Bacterium in a Methanogenic Consortium.The subzero microbiome: microbial activity in frozen and thawing soils.Complete genome sequence of Desulfurispirillum indicum strain S5(T).Reshaping Darwin's Tree: Impact of the Symbiome.Complete genome sequence of Terriglobus saanensis type strain SP1PR4(T), an Acidobacteria from tundra soilAnaerobic biodegradation of methyl tert-butyl ether (MTBE) and related fuel oxygenates.High-quality draft genome sequence of Sedimenticola selenatireducens strain AK4OH1T, a gammaproteobacterium isolated from estuarine sediment.Complete genome sequence of Granulicella mallensis type strain MP5ACTX8(T), an acidobacterium from tundra soil.Microbial dehalogenation of organohalides in marine and estuarine environments.Forensic Analysis of Polychlorinated Dibenzo-p-Dioxin and Furan Fingerprints to Elucidate Dechlorination Pathways.Response of Soil Microbial Communities to Elevated Antimony and Arsenic Contamination Indicates the Relationship between the Innate Microbiota and Contaminant Fractions.Bacterial genome replication at subzero temperatures in permafrost.Characterization of psychrotolerant heterotrophic bacteria from Finnish Lapland.Microbial community structure and activity in arsenic-, chromium- and copper-contaminated soils.Comparative genomic and physiological analysis provides insights into the role of Acidobacteria in organic carbon utilization in Arctic tundra soils.Quantitative analysis of cereulide, the emetic toxin of Bacillus cereus, produced under various conditions.PCB dechlorination enhancement in Anacostia River sediment microcosms.
P50
Q21131789-CCD5BE97-D11E-44E9-9733-9ECA4337D777Q27319465-8B1040D0-CCF6-4488-B4E0-4C1135193E70Q28770125-D744C310-2BCE-43FF-9C47-52EE93CF9E87Q28828710-8FE832AD-2A27-44F4-A09F-29964ACB9F39Q30620336-8735F79C-2C54-44C8-B624-F3897D55278FQ31109411-07229B94-1718-488F-939E-D94E4ED51885Q31123962-DDDE10DB-D9D9-4CAC-BE20-EB0702174223Q33232218-59CCE766-BBE3-413C-9765-1BC0F698D4F2Q33482687-1056CB2A-9EF4-4C95-8237-514F10594E37Q33524727-838627E0-B815-4FC1-8027-5C8A1B83B158Q33558332-F6B73BA7-40AE-4831-BF15-E9959A9ADA4DQ33590584-2984EF30-2EC7-419E-BA83-D4D8EE67E724Q33736839-A4BC1992-FD10-4684-BD1A-56BCCCFD5F05Q33780540-59DBA790-1586-4BEE-A7EB-D907FE2519FCQ33987439-F4A48857-EC49-4537-AB4A-0854D36A7278Q34068481-7FEACEE6-C235-449D-BB7C-D1316B9141EDQ34107738-CB683C97-E23C-441D-8434-3EC51D1CD634Q34107931-6D13E535-0021-4579-A5B6-3A874D294F52Q34132531-17690024-F544-47FD-8DF3-08CB1647AE4CQ34431241-A43E8AF0-0D2E-464C-A132-6E43FA9B34B9Q34459234-9C43CC84-F4EE-4E43-881A-B056473918F4Q35154893-CA569FF8-3A19-4054-B297-ED17EC366BFEQ35616752-7F6D61C6-8FC5-424E-BC91-BF4FFFE5B1EEQ35883912-FD2CC591-AC35-4D5C-B43B-BB8EA5DE34F0Q35997224-FAD664F6-2C42-4390-B72F-FEE9100BA665Q36011807-C7841FD4-D071-44CC-A9DF-A6C9C5A9DD7EQ36397518-D3002A87-2579-4C08-8475-ADF07C6348D5Q36605560-20F0B701-5190-4CA5-A5AE-4150FA1C1897Q36942461-A3157D14-4653-4EAA-A0E5-B6F5F17358B3Q37315776-2AE5684D-2808-42FA-A176-F24C8F703EC6Q37543611-02C55533-E6DE-4E7B-80C9-F9A35BF09176Q38415860-E2DC967D-06D9-4845-82D5-1B1FF4913C60Q38630334-63C4F4E0-6713-495E-B092-2EFD2584065CQ38682571-1D67A527-375B-4A65-8998-0F5776DC77D7Q39123854-8C6A55CC-11AA-4301-B108-D0D96EAB7AAAQ39133116-B74CF3F8-1A57-43B3-B72A-A87FE960B5C6Q39219393-3D468AA5-8DD4-4612-8E8B-0E3627D11F4AQ39293060-582AA815-1AB4-4FEA-A4F1-3E041A44D902Q39653417-F9D483AB-D47A-4C21-8A26-2DA33A3AE006Q39899913-6D305A27-EF42-4ADC-9A0D-D403079EB5E8
P50
description
hulumtues
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onderzoeker
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researcher
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հետազոտող
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name
Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max M. Häggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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Max Haggblom
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P1053
E-7597-2010
P106
P21
P31
P3829
P496
0000-0001-6307-7863