Eubacterium cellulosolvens 6 is an anaerobe prokaryote of the family Eubacteriaceae.
anaerobe genome sequence
SI-ID 390355
| @ref 20215 |
Last LPSN update
2025-12-16 10:03:39 |
| Domain Bacillati |
| Phylum Bacillota |
| Class Clostridia |
| Order Eubacteriales |
| Family Eubacteriaceae |
| Genus Eubacterium |
| Species Eubacterium cellulosolvens |
| Full scientific name Eubacterium cellulosolvens (Bryant et al. 1958) Holdeman and Moore 1972 (Approved Lists 1980) |
| Synonyms (1) |
| @ref | pathway | enzyme coverage | annotated reactions | external links | |
|---|---|---|---|---|---|
| 66794 | coenzyme A metabolism | 100 | 4 of 4 |   |
|
| 66794 | suberin monomers biosynthesis | 100 | 2 of 2 | |
|
| 66794 | UDP-GlcNAc biosynthesis | 100 | 3 of 3 | |
|
| 66794 | CDP-diacylglycerol biosynthesis | 100 | 2 of 2 | |
|
| 66794 | C4 and CAM-carbon fixation | 100 | 8 of 8 | |
|
| 66794 | anapleurotic synthesis of oxalacetate | 100 | 1 of 1 | |
|
| 66794 | cis-vaccenate biosynthesis | 100 | 2 of 2 | |
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| 66794 | starch degradation | 100 | 10 of 10 | |
|
| 66794 | teichoic acid biosynthesis | 100 | 1 of 1 | |
|
| 66794 | folate polyglutamylation | 100 | 1 of 1 | |
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| 66794 | adipate degradation | 100 | 2 of 2 | |
|
| 66794 | ppGpp biosynthesis | 100 | 4 of 4 | |
|
| 66794 | palmitate biosynthesis | 90.91 | 20 of 22 | |
|
| 66794 | aspartate and asparagine metabolism | 88.89 | 8 of 9 | |
|
| 66794 | CO2 fixation in Crenarchaeota | 88.89 | 8 of 9 | |
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| 66794 | chorismate metabolism | 88.89 | 8 of 9 | |
|
| 66794 | gluconeogenesis | 87.5 | 7 of 8 | |
|
| 66794 | vitamin B1 metabolism | 84.62 | 11 of 13 | |
|
| 66794 | NAD metabolism | 83.33 | 15 of 18 | |
|
| 66794 | peptidoglycan biosynthesis | 80 | 12 of 15 | |
|
| 66794 | glycogen metabolism | 80 | 4 of 5 | |
|
| 66794 | flavin biosynthesis | 80 | 12 of 15 | |
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| 66794 | threonine metabolism | 80 | 8 of 10 | |
|
| 66794 | cellulose degradation | 80 | 4 of 5 | |
|
| 66794 | valine metabolism | 77.78 | 7 of 9 | |
|
| 66794 | serine metabolism | 77.78 | 7 of 9 | |
|
| 66794 | phenylalanine metabolism | 76.92 | 10 of 13 | |
|
| 66794 | glycogen biosynthesis | 75 | 3 of 4 | |
|
| 66794 | acetate fermentation | 75 | 3 of 4 | |
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| 66794 | sulfopterin metabolism | 75 | 3 of 4 | |
|
| 66794 | isoleucine metabolism | 75 | 6 of 8 | |
|
| 66794 | vitamin B12 metabolism | 73.53 | 25 of 34 | |
|
| 66794 | tetrahydrofolate metabolism | 71.43 | 10 of 14 | |
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| 66794 | photosynthesis | 71.43 | 10 of 14 | |
|
| 66794 | glycolysis | 70.59 | 12 of 17 | |
|
| 66794 | alanine metabolism | 68.97 | 20 of 29 | |
|
| 66794 | glutamate and glutamine metabolism | 67.86 | 19 of 28 | |
|
| 66794 | pyrimidine metabolism | 66.67 | 30 of 45 | |
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| 66794 | acetoin degradation | 66.67 | 2 of 3 | |
|
| 66794 | formaldehyde oxidation | 66.67 | 2 of 3 | |
|
| 66794 | purine metabolism | 65.96 | 62 of 94 | |
|
| 66794 | heme metabolism | 64.29 | 9 of 14 | |
|
| 66794 | d-xylose degradation | 63.64 | 7 of 11 | |
|
| 66794 | leucine metabolism | 61.54 | 8 of 13 | |
|
| 66794 | oxidative phosphorylation | 60.44 | 55 of 91 | |
|
| 66794 | hydrogen production | 60 | 3 of 5 | |
|
| 66794 | reductive acetyl coenzyme A pathway | 57.14 | 4 of 7 | |
|
| 66794 | d-mannose degradation | 55.56 | 5 of 9 | |
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| 66794 | tryptophan metabolism | 55.26 | 21 of 38 | |
|
| 66794 | methionine metabolism | 53.85 | 14 of 26 | |
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| 66794 | non-pathway related | 52.63 | 20 of 38 | |
|
| 66794 | polyamine pathway | 52.17 | 12 of 23 | |
|
| 66794 | histidine metabolism | 51.72 | 15 of 29 | |
|
| 66794 | propionate fermentation | 50 | 5 of 10 | |
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| 66794 | citric acid cycle | 50 | 7 of 14 | |
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| 66794 | toluene degradation | 50 | 2 of 4 | |
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| 66794 | cysteine metabolism | 50 | 9 of 18 | |
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| 66794 | CMP-KDO biosynthesis | 50 | 2 of 4 | |
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| 66794 | dTDPLrhamnose biosynthesis | 50 | 4 of 8 | |
|
| 66794 | biotin biosynthesis | 50 | 2 of 4 | |
|
| 66794 | phenylmercury acetate degradation | 50 | 1 of 2 | |
|
| 66794 | aminopropanol phosphate biosynthesis | 50 | 1 of 2 | |
|
| 66794 | ethanol fermentation | 50 | 1 of 2 | |
|
| 66794 | glycolate and glyoxylate degradation | 50 | 3 of 6 | |
|
| 66794 | butanoate fermentation | 50 | 2 of 4 | |
|
| 66794 | lysine metabolism | 47.62 | 20 of 42 | |
|
| 66794 | phosphatidylethanolamine bioynthesis | 46.15 | 6 of 13 | |
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| 66794 | sulfate reduction | 46.15 | 6 of 13 | |
|
| 66794 | urea cycle | 46.15 | 6 of 13 | |
|
| 66794 | isoprenoid biosynthesis | 46.15 | 12 of 26 | |
|
| 66794 | arginine metabolism | 45.83 | 11 of 24 | |
|
| 66794 | proline metabolism | 45.45 | 5 of 11 | |
|
| 66794 | metabolism of disaccharids | 45.45 | 5 of 11 | |
|
| 66794 | lipid metabolism | 45.16 | 14 of 31 | |
|
| 66794 | nitrate assimilation | 44.44 | 4 of 9 | |
|
| 66794 | cardiolipin biosynthesis | 42.86 | 3 of 7 | |
|
| 66794 | ubiquinone biosynthesis | 42.86 | 3 of 7 | |
|
| 66794 | propanol degradation | 42.86 | 3 of 7 | |
|
| 66794 | degradation of aromatic, nitrogen containing compounds | 41.67 | 5 of 12 | |
|
| 66794 | glycine metabolism | 40 | 4 of 10 | |
|
| 66794 | arachidonate biosynthesis | 40 | 2 of 5 | |
|
| 66794 | factor 420 biosynthesis | 40 | 2 of 5 | |
|
| 66794 | methylglyoxal degradation | 40 | 2 of 5 | |
|
| 66794 | Entner Doudoroff pathway | 40 | 4 of 10 | |
|
| 66794 | phenylpropanoid biosynthesis | 38.46 | 5 of 13 | |
|
| 66794 | ketogluconate metabolism | 37.5 | 3 of 8 | |
|
| 66794 | 6-hydroxymethyl-dihydropterin diphosphate biosynthesis | 37.5 | 3 of 8 | |
|
| 66794 | pentose phosphate pathway | 36.36 | 4 of 11 | |
|
| 66794 | dolichyl-diphosphooligosaccharide biosynthesis | 36.36 | 4 of 11 | |
|
| 66794 | tyrosine metabolism | 35.71 | 5 of 14 | |
|
| 66794 | octane oxidation | 33.33 | 1 of 3 | |
|
| 66794 | enterobactin biosynthesis | 33.33 | 1 of 3 | |
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| 66794 | IAA biosynthesis | 33.33 | 1 of 3 | |
|
| 66794 | L-lactaldehyde degradation | 33.33 | 1 of 3 | |
|
| 66794 | pantothenate biosynthesis | 33.33 | 2 of 6 | |
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| 66794 | degradation of hexoses | 33.33 | 6 of 18 | |
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| 66794 | lipid A biosynthesis | 33.33 | 3 of 9 | |
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| 66794 | molybdenum cofactor biosynthesis | 33.33 | 3 of 9 | |
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| 66794 | sulfoquinovose degradation | 33.33 | 1 of 3 | |
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| 66794 | selenocysteine biosynthesis | 33.33 | 2 of 6 | |
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| 66794 | coenzyme M biosynthesis | 30 | 3 of 10 | |
|
| 66794 | myo-inositol biosynthesis | 30 | 3 of 10 | |
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| 66794 | benzoyl-CoA degradation | 28.57 | 2 of 7 | |
|
| 66794 | ascorbate metabolism | 27.27 | 6 of 22 | |
|
| 66794 | vitamin B6 metabolism | 27.27 | 3 of 11 | |
|
| 66794 | cyclohexanol degradation | 25 | 1 of 4 | |
|
| 66794 | lactate fermentation | 25 | 1 of 4 | |
|
| 66794 | androgen and estrogen metabolism | 25 | 4 of 16 | |
|
| 66794 | allantoin degradation | 22.22 | 2 of 9 | |
|
| 66794 | arachidonic acid metabolism | 22.22 | 4 of 18 | |
|
| 66794 | degradation of pentoses | 21.43 | 6 of 28 | |
|
| 66794 | glutathione metabolism | 21.43 | 3 of 14 | |
| @ref | Description | Assembly level | INSDC accession | BV-BRC accession | IMG accession | NCBI tax ID | |
|---|---|---|---|---|---|---|---|
| 66792 | ASM18352v1 assembly for [Eubacterium] cellulosolvens 6 | scaffold | GCA_000183525   | 633697.3  | 2509276007  | 633697 |  |
| Topic | Title | Authors | Journal | DOI | Year | |
|---|---|---|---|---|---|---|
| Superabsorbent bacterial cellulose film produced from industrial residue of cashew apple juice processing. | Guimaraes DT, de Oliveira Barros M, de Araujo E Silva R, Silva SMF, de Almeida JS, de Freitas Rosa M, Goncalves LRB, Brigida AIS. | Int J Biol Macromol | 10.1016/j.ijbiomac.2023.124405 | 2023 | | |
| Metabolism | A recombinant strain of Komagataeibacter xylinus ATCC 23770 for production of bacterial cellulose from mannose-rich resources. | Yang F, Cao Z, Li C, Chen L, Wu G, Zhou X, Hong FF. | N Biotechnol | 10.1016/j.nbt.2023.05.002 | 2023 | |
| Evaluation of immunoprotective effects of recombinant proteins and DNA vaccines derived from Eimeria tenella surface antigen 6 and 15 in vivo. | Geng T, Luo L, Wang Y, Shen B, Fang R, Hu M, Zhao J, Zhou Y. | Parasitol Res | 10.1007/s00436-021-07364-9 | 2022 | | |
| Evaluation of the Bioactive Properties of Essential Oils Associated with Organic Acids Applied in Poultry Nutrition. | Fernandes BP, Girardini LK, Prestes AM, Kominkiewicz M, Maciel JM, da Costa MM, Tavares MRS, da Motta AS. | ACS Omega | 10.1021/acsomega.5c00190 | 2025 | | |
| Duration of dam contact had a long effect on calf rumen microbiota without affecting growth. | Voland L, Ortiz-Chura A, Tournayre J, Martin B, Bouchon M, Nicolao A, Pomies D, Morgavi DP, Popova M. | Front Vet Sci | 10.3389/fvets.2025.1548892 | 2025 | | |
| Oncogenic Viruses in Skull Base Chordomas. | Yakkioui Y, Speel EM, Van Overbeeke JJ, Boderie MJM, Pujari S, Hausen AZ, Wolffs PFG, Temel Y. | World Neurosurg | 10.1016/j.wneu.2017.11.117 | 2018 | | |
| Influence of dietary carbohydrate profile on the dairy cow rumen meta-proteome. | Mulakala BK, Smith KM, Snider MA, Ayers A, Honan MC, Greenwood SL. | J Dairy Sci | 10.3168/jds.2022-21812 | 2022 | | |
| Metabolism | Flavonoid-Modifying Capabilities of the Human Gut Microbiome-An In Silico Study. | Goris T, Cuadrat RRC, Braune A. | Nutrients | 10.3390/nu13082688 | 2021 | |
| Metabolism | Mycosynthesis of silver and gold nanoparticles: Optimization, characterization and antimicrobial activity against human pathogens. | Balakumaran MD, Ramachandran R, Balashanmugam P, Mukeshkumar DJ, Kalaichelvan PT. | Microbiol Res | 10.1016/j.micres.2015.09.009 | 2016 | |
| Use of milk proteins as biomarkers of changes in the rumen metaproteome of Holstein cows fed low-fiber, high-starch diets. | Mulakala BK, Smith KM, Snider MA, Ayers A, Honan MC, Greenwood SL. | J Dairy Sci | 10.3168/jds.2022-22910 | 2023 | | |
| An in vitro study on the effects of serum proteins on Enterococcus faecalis adhesion to three types of root sealers and gutta-percha. | Lin X, Chi D, Gong Q, Tong Z. | BMC Oral Health | 10.1186/s12903-021-01992-4 | 2021 | | |
| Metabolism | Intestinal bacterium Eubacterium cellulosolvens deglycosylates flavonoid C- and O-glucosides. | Braune A, Blaut M. | Appl Environ Microbiol | 10.1128/aem.02115-12 | 2012 | |
| The prospect of fruit wastes in bioethanol production: A review. | Mgeni ST, Mero HR, Mtashobya LA, Emmanuel JK. | Heliyon | 10.1016/j.heliyon.2024.e38776 | 2024 | | |
| Assessing suspension and infectivity times of virus-loaded aerosols involved in airborne transmission. | Merhi T, Atasi O, Coetsier C, Lalanne B, Roger K. | Proc Natl Acad Sci U S A | 10.1073/pnas.2204593119 | 2022 | | |
| Metabolism | Clostridium cellulolyticum: model organism of mesophilic cellulolytic clostridia. | Desvaux M. | FEMS Microbiol Rev | 10.1016/j.femsre.2004.11.003 | 2005 | |
| Structural insights into the substrate-bound condensation domains of non-ribosomal peptide synthetase AmbB. | Chu Yuan Kee MJ, Bharath SR, Wee S, Bowler MW, Gunaratne J, Pan S, Zhang L, Song H. | Sci Rep | 10.1038/s41598-022-09188-8 | 2022 | | |
| Metabolism | Constructing an Efficient Bacillus subtilis Spore Display by Using Cohesin-Dockerin Interactions. | Wang H, Jiang X, Qian Y, Yin L. | Molecules | 10.3390/molecules26041186 | 2021 | |
| Hydrogen as a Co-electron Donor for Chain Elongation With Complex Communities. | Baleeiro FCF, Kleinsteuber S, Strauber H. | Front Bioeng Biotechnol | 10.3389/fbioe.2021.650631 | 2021 | | |
| Metabolism | Spo0A directly controls the switch from acid to solvent production in solvent-forming clostridia. | Ravagnani A, Jennert KC, Steiner E, Grunberg R, Jefferies JR, Wilkinson SR, Young DI, Tidswell EC, Brown DP, Youngman P, Morris JG, Young M. | Mol Microbiol | 10.1046/j.1365-2958.2000.02071.x | 2000 | |
| Competition and the origins of novelty: experimental evolution of niche-width expansion in a virus. | Bono LM, Gensel CL, Pfennig DW, Burch CL. | Biol Lett | 10.1098/rsbl.2012.0616 | 2013 | | |
| Phylogeny | Molecular diversity of rumen bacterial communities from tannin-rich and fiber-rich forage fed domestic Sika deer (Cervus nippon) in China. | Li ZP, Liu HL, Li GY, Bao K, Wang KY, Xu C, Yang YF, Yang FH, Wright AD. | BMC Microbiol | 10.1186/1471-2180-13-151 | 2013 | |
| Hypocholesterolemic effect of Eubacterium coprostanoligenes ATCC 51222 in rabbits. | Li L, Buhman KK, Hartman PA, Beitz DC. | Lett Appl Microbiol | 10.1111/j.1472-765x.1995.tb00410.x | 1995 | | |
| A Novel IncA/C1 Group Conjugative Plasmid, Encoding VIM-1 Metallo-Beta-Lactamase, Mediates the Acquisition of Carbapenem Resistance in ST104 Klebsiella pneumoniae Isolates from Neonates in the Intensive Care Unit of V. Monaldi Hospital in Naples. | Esposito EP, Gaiarsa S, Del Franco M, Crivaro V, Bernardo M, Cuccurullo S, Pennino F, Triassi M, Marone P, Sassera D, Zarrilli R. | Front Microbiol | 10.3389/fmicb.2017.02135 | 2017 | | |
| Ampicillin and ampicillin-sulbactam dilution tests with mixed cultures of Bacteroides fragilis, Escherichia coli and Enterococcus. | Heilmann F. | Infection | 10.1007/bf01710545 | 1993 | | |
| Metabolism | Comparison of tolerance of four bacterial nanocellulose-producing strains to lignocellulose-derived inhibitors. | Zou X, Wu G, Stagge S, Chen L, Jonsson LJ, Hong FF. | Microb Cell Fact | 10.1186/s12934-017-0846-y | 2017 | |
| Metabolism | Improved bacterial nanocellulose production from glucose without the loss of quality by evaluating thirteen agitator configurations at low speed. | Chen G, Chen L, Wang W, Chen S, Wang H, Wei Y, Hong FF. | Microb Biotechnol | 10.1111/1751-7915.13477 | 2019 | |
| Pathogenicity | Ciprofloxacin, amoxicillin, and aminoglycosides stimulate genetic and phenotypic changes in uropathogenic Escherichia coli strains. | Adamus-Bialek W, Wawszczak M, Arabski M, Majchrzak M, Gulba M, Jarych D, Parniewski P, Gluszek S. | Virulence | 10.1080/21505594.2019.1596507 | 2019 | |
| Pathogenicity | The Impact of Graphite Oxide Nanocomposites on the Antibacterial Activity of Serum. | Morka KD, Wernecki M, Kedziora A, Ksiazczyk M, Dudek B, Gerasymchuk Y, Lukowiak A, Bystron J, Bugla-Ploskonska G. | Int J Mol Sci | 10.3390/ijms22147386 | 2021 | |
| Monitoring of antibiotic-induced alterations in the human intestinal microflora and detection of probiotic strains by use of terminal restriction fragment length polymorphism. | Jernberg C, Sullivan A, Edlund C, Jansson JK. | Appl Environ Microbiol | 10.1128/aem.71.1.501-506.2005 | 2005 | | |
| Pathogenicity | [Effect of the surface-active substance N-cetylpyridinium chloride on the biosynthetic capacity of Brevibacterium ammoniagenes ATCC 6872, a producer of NAD]. | Bazdyreva NM, Kutseva LS. | Prikl Biokhim Mikrobiol | 1984 | | |
| Epidemics of enterovirus infection in Chungnam Korea, 2008 and 2009. | Baek K, Yeo S, Lee B, Park K, Song J, Yu J, Rheem I, Kim J, Hwang S, Choi Y, Cheon D, Park J. | Virol J | 10.1186/1743-422x-8-297 | 2011 | | |
| Metabolism | [Study of nucleotide biosynthesis by cultured Brevibacterium ammoniagenes using P31 nuclear magnetic resonance spectroscopy]. | Bazdyreva NM, Dubinskii VZ, Sepetov NF, Sibel'dina LA, Ostrovskii DN. | Prikl Biokhim Mikrobiol | 1982 | | |
| Metabolism | Parameters of unbalanced growth and reversible inhibition of deoxyribnucleic acid synthesis in Brevibacterium ammoniagenes ATCC 6872 induced by depletion of Mn2+. Inhibitor studies on the reversibility of deoxyribonucleic acid synthesis. | Auling G, Thaler M, Diekmann H. | Arch Microbiol | 10.1007/bf00428013 | 1980 | |
| Genetics | Microbial genomic analysis reveals the essential role of inflammation in bacteria-induced colorectal cancer. | Arthur JC, Gharaibeh RZ, Muhlbauer M, Perez-Chanona E, Uronis JM, McCafferty J, Fodor AA, Jobin C. | Nat Commun | 10.1038/ncomms5724 | 2014 | |
| Cryptic genetic diversity is paramount in small-bodied amphibians of the genus Euparkerella (Anura: Craugastoridae) endemic to the Brazilian Atlantic forest. | Fusinatto LA, Alexandrino J, Haddad CF, Brunes TO, Rocha CF, Sequeira F. | PLoS One | 10.1371/journal.pone.0079504 | 2013 | | |
| Genetics | Comparative genomics of Enterococcus spp. isolated from bovine feces. | Beukers AG, Zaheer R, Goji N, Amoako KK, Chaves AV, Ward MP, McAllister TA. | BMC Microbiol | 10.1186/s12866-017-0962-1 | 2017 | |
| Metabolism | Multiple sequence signals direct recognition and degradation of protein substrates by the AAA+ protease HslUV. | Sundar S, McGinness KE, Baker TA, Sauer RT. | J Mol Biol | 10.1016/j.jmb.2010.09.008 | 2010 | |
| AL amyloid imaging and therapy with a monoclonal antibody to a cryptic epitope on amyloid fibrils. | Wall JS, Kennel SJ, Williams A, Richey T, Stuckey A, Huang Y, Macy S, Donnell R, Barbour R, Seubert P, Schenk D. | PLoS One | 10.1371/journal.pone.0052686 | 2012 | | |
| Proximity-dependent inhibition in Escherichia coli isolates from cattle. | Sawant AA, Casavant NC, Call DR, Besser TE. | Appl Environ Microbiol | 10.1128/aem.03150-09 | 2011 | | |
| Enzymology | Characterization of a novel microcin that kills enterohemorrhagic Escherichia coli O157:H7 and O26. | Eberhart LJ, Deringer JR, Brayton KA, Sawant AA, Besser TE, Call DR. | Appl Environ Microbiol | 10.1128/aem.01067-12 | 2012 | |
| Structure and regulation of the cellulose degradome in Clostridium cellulolyticum. | Xu C, Huang R, Teng L, Wang D, Hemme CL, Borovok I, He Q, Lamed R, Bayer EA, Zhou J, Xu J. | Biotechnol Biofuels | 10.1186/1754-6834-6-73 | 2013 | | |
| Metabolism | Manganese transport in Brevibacterium ammoniagenes ATCC 6872. | Schmid J, Auling G. | J Bacteriol | 10.1128/jb.169.7.3385-3387.1987 | 1987 | |
| Enzymology | Pantothenate kinase from the thermoacidophilic archaeon Picrophilus torridus. | Takagi M, Tamaki H, Miyamoto Y, Leonardi R, Hanada S, Jackowski S, Chohnan S. | J Bacteriol | 10.1128/jb.01021-09 | 2010 | |
| Rates and consequences of recombination between rRNA operons. | Hashimoto JG, Stevenson BS, Schmidt TM. | J Bacteriol | 10.1128/jb.185.3.966-972.2003 | 2003 | | |
| Phylogeny | Phenotypic and phylogenetic characterization of ruminal tannin-tolerant bacteria. | Nelson KE, Thonney ML, Woolston TK, Zinder SH, Pell AN. | Appl Environ Microbiol | 10.1128/aem.64.10.3824-3830.1998 | 1998 | |
| Enzymology | Isolation and characterization of two new homoacetogenic hydrogen-utilizing bacteria from the human intestinal tract that are closely related to Clostridium coccoides. | Kamlage B, Gruhl B, Blaut M. | Appl Environ Microbiol | 10.1128/aem.63.5.1732-1738.1997 | 1997 | |
| Microbial production of lysine and threonine from whey permeate. | Ko YT, Chipley JR. | Appl Environ Microbiol | 10.1128/aem.45.2.610-615.1983 | 1983 | | |
| Metabolism | Production of nucleic acid-related substances by fermentative processes. XIX. Accumulation of 5'-inosinic acid by a mutant of Brevibacterium ammoniagenes. | Furuya A, Abe S, Kinoshita S. | Appl Microbiol | 10.1128/am.16.7.981-987.1968 | 1968 | |
How to citeIf you want to cite this particular strain cite the following doi:
https://doi.org/10.13145/bacdive140667.20251217.10
When using BacDive for research please cite the following paper
BacDive in 2025: the core database for prokaryotic strain data
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