Details of Microbe Species (MIC)

General Information of MIC (ID: MC0067)
  MIC Name
Bifidobacterium longum subsp. infantis Bi-26
  Lineage Kingdom: Bacteria
Phylum: Actinobacteria
Class: Actinobacteria
Order: Bifidobacteriales
Family: Bifidobacteriaceae
Genus: Bifidobacterium
  Oxygen Sensitivity
Obligate anaerobe
  Microbial Metabolism
Saccharolytic; Fermentative
  Gram
Positive
  No. of Coding Genes
2099
  No. of Non-Coding Genes
62
  No. of Small Non-Coding Genes
62
  No. of Gene Transcripts
2383
  No. of Pseudogenes 222
  Description
Bifidobacteria longum subsp. infantis Bi-26 is a subspecies of gram-positive, anaerobic bacteria from the species Bifidobacteria longum.
  External Links Taxonomy ID 1682
Genome Assembly ID ASM491906v1

Full List of Metabolite(s) Produced by This MIC
     Molecule Type: Fatty acids
           Metabolite Name: Acetate Click to Show/Hide
              Detailed Infomation Meta Info click to show the detail information of this Metabolite
              Metabolic Classification Microbial producted compound [end-products]
Modification Type Molecule EM Info Cell/Tissue Type Modified sites Condition REF
Histone Acetylation H4 EM Info Eosinophil cell Foxo3A promoter Asthma [1], [2]
Histone Acetylation H3K27 EM Info HepG2 cells FASN promoter Hypoxia [3], [2]
Histone Acetylation H3K27 EM Info HepG2 cells LDHA promoter Hypoxia [3], [2]
Histone Acetylation H3K56 EM Info HepG2 cells FASN promoter Hypoxia [3], [2]
Histone Acetylation H3K9 EM Info HepG2 cells ACACA promoter Hypoxia [3], [2]
Histone Acetylation H3K9 EM Info HepG2 cells LDHA promoter Hypoxia [3], [2]
Histone Deacetylation HDAC9 EM Info Eosinophil cell . Asthma [1], [2]


References
1 Evidence that asthma is a developmental origin disease influenced by maternal diet and bacterial metabolites. Nat Commun. 2015 Jun 23;6:7320. doi: 10.1038/ncomms8320.
2 Novel Genes and Metabolite Trends in Bifidobacterium longum subsp. infantis Bi-26 Metabolism of Human Milk Oligosaccharide 2'-fucosyllactose Sci Rep. 2019 May 28;9(1):7983. doi: 10.1038/s41598-019-43780-9.
3 Acetate functions as an epigenetic metabolite to promote lipid synthesis under hypoxia. Nat Commun. 2016 Jun 30;7:11960. doi: 10.1038/ncomms11960.

If You Find Any Error in Data or Bug in Web Service, Please Kindly Report It to Dr. Tang and Dr. Zhang.