Strain identifier

BacDive ID: 4073

Type strain: Yes

Species: Desulfovibrio desulfuricans

Strain Designation: Essex 6

Culture col. no.: DSM 642, ATCC 29577, NCIMB 8307, VKM B-1799, CCUG 34226, CIP 107039

Strain history: <- G. Gottschalk, Universität Göttingen, Germany <- NCIB <- M. E. Adams and K. R. Butlin, National Chemical Laboratory, Teddington, Middlesex, U.K.; Essex 6 {1948}

NCBI tax ID(s): 1121445 (strain), 876 (species)

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Desulfovibrio desulfuricans Essex 6 is an anaerobe, mesophilic bacterium that was isolated from tar and sand mix around corroded gas main.

  1. anaerobe
  2. mesophilic
  3. 16S sequence
  4. Bacteria
  5. genome sequence
  • Information on physiology and metabolism Physiology and metabolismarrow_down
  • [Ref.: #342] Oxygen tolerance anaerobe
    [Ref.: #51996] Oxygen tolerance anaerobe
    Fatty acid profile
    Metadata FA analysis
    Type of FA analysis whole cell analysis
    Incubation medium
    Agar/liquid
    Incubation temperature (°C)
    Incubation time (d)
    Incubation pH
    Incubation oxygen condition
    Treatment/condition
    Software version
    Library/peak naming table
    System
    Instrument
    Method/protocol CCUG
    Cutoff value
    Reference [Ref.: #51996]
    Fatty acidarrow to sort Percentagearrow to sort ECLarrow to sort
    C17:1 ω9c ISO 27.5
    16.416
    C15:0 ISO 25.2
    14.621
    C16:0 9.9
    16
    C14:0 ISO 3OH 8.8
    15.117
    C18:2 ω6,9c/C18:0 ANTE 4.6
    17.724
    C17:0 iso 4.1
    16.629
    C17:0 CYCLO 3.7
    16.888
    C17:1 ISO I/C16:0 DMA 2.9
    16.481
    C16:1 ω7c 2.5
    15.819
    C15:1 ω5c 1.4
    14.904
    unknown 13.566 1.4
    13.566
    C15:0 1.1
    15
    C15:0 ANTEISO 1.1
    14.711
    C15:1 ISO F 0.8
    14.414
    C17:0 0.7
    17
    Unidentified 0.7
    17.103
    C18:1 ω9c 0.5
    17.769
    Unidentified 0.5
    15.399
    C17:0 iso 3OH 0.4
    18.161
    C14:0 0.4
    14
    C16:1 ISO H 0.4
    15.461
    C18:0 0.4
    18
    unknown 14.966 0.4
    14.966
    C17:1 ω8c 0.3
    16.792
    Unidentified 0.3
    16.288

  • Availability in culture collections External linksarrow_down
  • [Ref.: #342] Culture collection no. DSM 642, ATCC 29577, NCIMB 8307, VKM B-1799, CCUG 34226, CIP 107039
    [Ref.: #73576] *
    Literature: Only first 10 entries are displayed. Click here to see all.Click here to see only first 10 entries.
    Topicarrow to sort Titlearrow to sort Authorsarrow to sort Journalarrow to sort DOIarrow to sort Yeararrow to sort
    Metabolism A glycyl radical enzyme enables hydrogen sulfide production by the human intestinal bacterium Bilophila wadsworthia. Peck SC, Denger K, Burrichter A, Irwin SM, Balskus EP, Schleheck D Proc Natl Acad Sci U S A 10.1073/pnas.1815661116 2019 *
    Phylogeny Pseudodesulfovibrio indicus gen. nov., sp. nov., a piezophilic sulfate-reducing bacterium from the Indian Ocean and reclassification of four species of the genus Desulfovibrio. Cao J, Gayet N, Zeng X, Shao Z, Jebbar M, Alain K Int J Syst Evol Microbiol 10.1099/ijsem.0.001286 2016 *
    Enzymology Hydrogenase activity of mineral-associated and suspended populations of Desulfovibrio desulfuricans Essex 6. Reardon CL, Magnuson TS, Boyd ES, Leavitt WD, Reed DW, Geesey GG Microb Ecol 10.1007/s00248-013-0308-y 2013 *
    Pathogenicity First isolation of Desulfovibrio from the human vaginal flora. Ichiishi S, Tanaka K, Nakao K, Izumi K, Mikamo H, Watanabe K Anaerobe 10.1016/j.anaerobe.2010.02.002 2010 *
    Pathogenicity Susceptibilities of 23 Desulfovibrio isolates from humans. Nakao K, Tanaka K, Ichiishi S, Mikamo H, Shibata T, Watanabe K Antimicrob Agents Chemother 10.1128/AAC.00630-09 2009 *
    Metabolism Pseudosymmetry, high copy number and twinning complicate the structure determination of Desulfovibrio desulfuricans (ATCC 29577) flavodoxin. Guelker M, Stagg L, Wittung-Stafshede P, Shamoo Y Acta Crystallogr D Biol Crystallogr 10.1107/S0907444909010075 2009 *
    Metabolism Reduction of molybdate by sulfate-reducing bacteria. Biswas KC, Woodards NA, Xu H, Barton LL Biometals 10.1007/s10534-008-9198-8 2009 *
    Enzymology Succinate dehydrogenase functioning by a reverse redox loop mechanism and fumarate reductase in sulphate-reducing bacteria. Zaunmuller T, Kelly DJ, Glockner FO, Unden G Microbiology (Reading) 10.1099/mic.0.28849-0 2006 *
    Metabolism Chromate reduction by immobilized palladized sulfate-reducing bacteria. Humphries AC, Mikheenko IP, Macaskie LE Biotechnol Bioeng 10.1002/bit.20814 2006 *
    Biotechnology Biorecovered precious metals from industrial wastes: single-step conversion of a mixed metal liquid waste to a bioinorganic catalyst with environmental application. Mabbett AN, Sanyahumbi D, Yong P, Macaskie LE Environ Sci Technol 10.1021/es0509836 2006 *

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