Strain sc|0031241

StrainInfo: SI-ID 69 ^T

Taxon

Gluconobacter oxydans (not Gluconobacter oxydans subsp. suboxydans)

Sample

From mixed culture NCTC 6716 isolated from vinegar brew || "Amstel" beer (NL)

Cultures (51)

NRRL B-72 = LMG 1393 = ATCC 23774 = ATCC 33448 = ATCC 621 = CCM 1783 = CCUG 18135 = CECT 360 = DSM 50049 = IAM 1829 = IFO 12528 = IFO 3172 = IMET 10507 = LMG 1401 = LMG 1402 = LMG 1484 = LMG 1494 = LMG 1673 = NCDO 2008 = NCIB 621 = NCIB 7069 = NCIB 8035 = NCTC 621 = NCTC 7069 = NRRL B-755 = VKM B-885 = CIP 104737 = NCIMB 621 = NCIMB7069 = NCIMB8035 = CCUG19135 = LMD 23.2 = CIP 53.162 = CCRC 10684 = HAMBI 374 = NCAIM B.01220 = NCFB 2008 = VTT E-75003 = KCTC 1091 = KCTC 2111 = NBRC 12528 = NBRC 3172 = NCCB 23002 = BCRC 10684 = CCT 0552 = IAM 3130 = NCIM 2048 = NCIM 2440 = CDBB 1090 = VTT E-97003 = JCM 20289

Other Designations (28)

NRRL = BUCSAV 124 = Lockwood 953 = CCTM La 3182 = F.J-G. de Leeuw = LMG 1673 QC 11/98 = La 3182 = Visser 't HooftXV = LBG B4111 = Visser't Hooft XV = BU 126 = LMD 23.2A = ptcc1051 = 1043 = Visser 't = LMD 23.2B = Locwood 953 = CCTM 3182 = Asai A-3 = HMGB B-20 = USCC 1914 = Visser 't Hooft XV = BU 124 = FIRDI 684 = Frateur 9(I) = ?NRRL B-72 = IAM 12137 = NCTC 7029

Sequences (13)

• Gene Nucleotide:FN391651
  Gluconobacter oxydans partial dnaK gene, strain LMG 1393
• Gene Nucleotide:FN391797
  Gluconobacter oxydans partial rpoB gene for RNA polymerase beta subunit, strain LMG 1393
• Gene Nucleotide:FN391724
  Gluconobacter oxydans partial groEL gene, strain LMG 1393
• Gene Nucleotide:AY875852
  Gluconobacter oxydans RNA polymerase beta subunit (rpoB) gene, partial cds
• rRNA Operon Nucleotide:AJ561122
  Gluconobacter oxydans partial 16S rRNA gene, strain CECT 360
• rRNA Operon Nucleotide:MK759912
  Gluconobacter oxydans strain DSM 50049 16S ribosomal RNA gene, partial sequence
• Gene Nucleotide:AJ577472
  Gluconobacter suboxydans g5dhA gene for gluconate/polyol dehydrogenase, small subunit and ga5dhB gene for gluconate/polyol dehydrogenase, large subunit, strain IFO 12528
• rRNA Operon Nucleotide:E04355
  gDNA encoding cytochrome C-553.
• Gene Nucleotide:U26263
  Gluconobacter oxydans sorbitol dehydrogenase precursor and putative cytochrome c-553 genes, complete cds
• rRNA Operon Nucleotide:AB163868
  Gluconobacter oxydans DNA, 16S-23S rRNA internal transcribed spacer, strain:NBRC 12528
• rRNA Operon Nucleotide:AB178432
  Gluconobacter oxydans gene for 16S rRNA, partial sequence, strain:NBRC 12528
• rRNA Operon Nucleotide:AB178388
  Gluconobacter oxydans gene for 16S rRNA, partial sequence, strain:NBRC 3172
• rRNA Operon Nucleotide:AB163824
  Gluconobacter oxydans DNA, 16S-23S rRNA internal transcribed spacer, strain:NBRC 3172

Associated Publications (8)

• DOI: 10.1271/bbb.66.2614
  Suzuki S, Sugiyama M, Mihara Y, Hashiguchi K, Yokozeki K (2002). Novel enzymatic method for the production of xylitol from D-arabitol by Gluconobacter oxydans.
• DOI: 10.1271/bbb.67.584
  Sugiyama M, Suzuki S, Tonouchi N, Yokozeki K (2003). Cloning of the xylitol dehydrogenase gene from Gluconobacter oxydans and improved production of xylitol from D-arabitol.
• DOI: 10.3168/jds.2013-6691
  Queiroz OC, Arriola KG, Daniel JL, Adesogan AT (2013). Effects of 8 chemical and bacterial additives on the quality of corn silage.
• DOI: 10.1016/j.biortech.2019.03.042
  Zhou X, Han J, Xu Y (2019). Electrodialytic bioproduction of xylonic acid in a bioreactor of supplied-oxygen intensification by using immobilized whole-cell Gluconobacter oxydans as biocatalyst.
• DOI: 10.3390/toxins14070423
  Chan ETS, Zhu Y, Li XZ, Zhou T, Seah SYK (2022). Characterization of Two Dehydrogenases from Gluconobacter oxydans Involved in the Transformation of Patulin to Ascladiol.
• DOI: 10.1128/AEM.01535-09
  Habe H, Shimada Y, Yakushi T, Hattori H, Ano Y, Fukuoka T, Kitamoto D, Itagaki M, Watanabe K, Yanagishita H, Matsushita K, Sakaki K (2009). Microbial production of glyceric acid, an organic acid that can be mass produced from glycerol.
• DOI: 10.5650/jos.ess14112
  Habe H, Sato S, Fukuoka T, Kitamoto D, Sakaki K (2014). Effect of membrane-bound aldehyde dehydrogenase-encoding gene disruption on glyceric acid production in Gluconobacter oxydans.
• DOI: 10.1038/s41598-018-37401-0
  Kim TS, Gao H, Li J, Kalia VC, Muthusamy K, Sohng JK, Kim IW, Lee JK (2019). Overcoming NADPH product inhibition improves D-sorbitol conversion to L-sorbose.

Outside links and data sources

• StrainInfo DOI: 10.60712/SI-ID69.2

Retrieved 5 months ago via StrainInfo API (CC BY 4.0)

Metadata

Cannonical URL

https://seqco.de/s:31241

Local history

• Registered 11 months ago
• Last modified 5 months ago