Details of Microbe Species (MIC)

General Information of MIC (ID: MC0863)
  MIC Name
Corynebacterium striatum ATCC 6940
  Lineage Kingdom: Bacteria
Phylum: Actinobacteria
Class: Actinobacteria
Order: Actinomycetales
Family: Corynebacteriaceae
Genus: Corynebacterium
  Oxygen Sensitivity
Facultative anaerobe
  Microbial Metabolism
Saccharolytic; Fermentative
  Gram
Positive
  Host Relationship
Pathogen
  Genome Size (bp)
2828991
  No. of Coding Genes
2677
  No. of Non-Coding Genes
53
  No. of Small Non-Coding Genes
53
  No. of Gene Transcripts
2730
  Description
Corynebacteria striatum ATCC 6940 is a strain offacultative anaerobic, gram-positive, saccharolytic bacteria.
  External Links Taxonomy ID 525268
Genome Assembly ID ASM15913v1
GOLD Database ID Go0003467

Full List of Metabolite(s) Produced by This MIC
     Molecule Type: Amino acid (AAs)
           Metabolite Name: Phenylacetate Click to Show/Hide
              Detailed Infomation Meta Info click to show the detail information of this Metabolite
              Metabolic Classification Microbial producted compound [precursors]
Modification Type Molecule EM Info Cell/Tissue Type Modified sites Condition REF
Histone Deacetylation HDAC EM Info . . . [1], [2]
     Molecule Type: Fatty acids
           Metabolite Name: Lactate 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
miRNA miR-141-3P EM Info Oral epithelial cells . Autistic spectrum disorder [3], [2]


References
1 Potential Associations Among Alteration of Salivary miRNAs, Saliva Microbiome Structure, and Cognitive Impairments in Autistic Children. Int J Mol Sci. 2020 Aug 27;21(17):6203. doi: 10.3390/ijms21176203.
2 The Virtual Metabolic Human database: integrating human and gut microbiome metabolism with nutrition and disease. Nucleic Acids Res. 2019 Jan 8;47(D1):D614-D624. doi: 10.1093/nar/gky992.
3 Dietary metabolites derived from gut microbiota: critical modulators of epigenetic changes in mammals. Nutr Rev. 2017 May 1;75(5):374-389. doi: 10.1093/nutrit/nux001.

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