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Welcome
Laribacter
RANK:
Genus
TAXONOMY:
cellular organisms
->
Bacteria
->
Proteobacteria
->
Betaproteobacteria
->
Neisseriales
->
Chromobacteriaceae
->
Laribacter
OVERVIEW:
This genus contains microbial species that can reside in the human gastrointestinal tract. [PMC 4262072]
TAGS
Keystone
Core species
Type species
Pathogen
Dysbiosis associated
Flora/ commensal
Gut associated
Probiotic
Leanness
Obesity
Skin microbiome
Fecal distribution
Oral microbiome
Vaginal microbiome
Butyrate producer
Catalase producer
Histamine producer
Food fermenter
Amylolytic
Propionate producer
Nitrifying
DESCENDANTS
Laribacter hongkongensis
environmental samples
INTERACTIONS
KEGG PATHWAYS
2-Oxocarboxylic acid metabolism
ABC transporters
Acarbose and validamycin biosynthesis
Alanine, aspartate and glutamate metabolism
Amino sugar and nucleotide sugar metabolism
Aminoacyl-tRNA biosynthesis
Aminobenzoate degradation
Arachidonic acid metabolism
Arginine and proline metabolism
Arginine biosynthesis
Bacterial chemotaxis
Bacterial secretion system
Base excision repair
Benzoate degradation
Biosynthesis of amino acids
Biosynthesis of antibiotics
Biosynthesis of secondary metabolites
Biosynthesis of unsaturated fatty acids
Biotin metabolism
Butanoate metabolism
C5-Branched dibasic acid metabolism
Carbapenem biosynthesis
Carbon metabolism
Carotenoid biosynthesis
Cationic antimicrobial peptide (CAMP) resistance
Chloroalkane and chloroalkene degradation
Citrate cycle (TCA cycle)
Cyanoamino acid metabolism
Cysteine and methionine metabolism
D-Alanine metabolism
D-Arginine and D-ornithine metabolism
D-Glutamine and D-glutamate metabolism
DNA replication
Degradation of aromatic compounds
Ether lipid metabolism
Fatty acid biosynthesis
Fatty acid degradation
Fatty acid metabolism
Flagellar assembly
Folate biosynthesis
Fructose and mannose metabolism
Galactose metabolism
Geraniol degradation
Glutathione metabolism
Glycerolipid metabolism
Glycerophospholipid metabolism
Glycine, serine and threonine metabolism
Glycolysis / Gluconeogenesis
Glyoxylate and dicarboxylate metabolism
Histidine metabolism
Homologous recombination
Inositol phosphate metabolism
Lipoic acid metabolism
Lipopolysaccharide biosynthesis
Lysine biosynthesis
Lysine degradation
Metabolic pathways
Methane metabolism
Microbial metabolism in diverse environments
Mismatch repair
Monobactam biosynthesis
Naphthalene degradation
Nicotinate and nicotinamide metabolism
Nitrogen metabolism
Nitrotoluene degradation
Nonribosomal peptide structures
Novobiocin biosynthesis
Nucleotide excision repair
One carbon pool by folate
Oxidative phosphorylation
Pantothenate and CoA biosynthesis
Pentose and glucuronate interconversions
Pentose phosphate pathway
Peptidoglycan biosynthesis
Phenylalanine metabolism
Phenylalanine, tyrosine and tryptophan biosynthesis
Phosphonate and phosphinate metabolism
Phosphotransferase system (PTS)
Polyketide sugar unit biosynthesis
Porphyrin and chlorophyll metabolism
Propanoate metabolism
Protein export
Purine metabolism
Pyrimidine metabolism
Pyruvate metabolism
Quorum sensing00253
RNA degradation
RNA polymerase
Riboflavin metabolism
Ribosome
Selenocompound metabolism
Starch and sucrose metabolism
Streptomycin biosynthesis
Sulfur metabolism
Sulfur relay system
Synthesis and degradation of ketone bodies
Taurine and hypotaurine metabolism
Terpenoid backbone biosynthesis
Thiamine metabolism
Tryptophan metabolism
Two-component system
Tyrosine metabolism
Ubiquinone and other terpenoid-quinone biosynthesis
Valine, leucine and isoleucine biosynthesis
Valine, leucine and isoleucine degradation
Vancomycin resistance
Vitamin B6 metabolism
alpha-Linolenic acid metabolism
beta-Alanine metabolism
beta-Lactam resistance
CLUSTERS WITH
METABOLOMICS
     
NUTRIENTS/ SUBSTRATES
ENDPRODUCTS
INHIBITED BY
ENHANCED BY
BIOTRANSFORMS
BIOTRANFORM
ANTIBIOTIC RESISTANCE
  
Tetracycline (
teta
)
BIOFILM FORMERS
  
COGEM PATHOGENICITY
  
Laribacter hongkongensis (1)
OPUS 23™ IS A REGISTERED TRADEMARK ® OF DATAPUNK BIOINFORMATICS, LLC. COPYRIGHT © 2015-2023. ALL RIGHTS RESERVED.
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