Clostridium ⇒ Clostridium asparagiforme {50002681} Record Keys Parent:Clostridium Definition:Clostridium asparagiforme Details Initialisation date:[ ] Meta Information Rank: Species Domain: Bacteria Zone:[ ] Enzyme:[ ] Function:[ ] Notes: [ ]Shared Reference Notes [1.1] [#Chronic fatigue syndrome, #Irritable bowel syndrome] [#Alistipes putredinis, #Anaerotruncus colihominis, #Coprococcus catus, #Dorea formicigenerans, #Faecalibacterium prausnitzii] - Nine bacterial species were selected to predict ME/CFS + IBS: F. prausnitzii, #Bacteroides vulgatus, A. putredinis, C. catus, #Anaerostipes caccae, D. formicigenerans, A. colihominis and C. asparagiforme. [#Chronic fatigue syndrome] [#Alistipes putredinis, #Anaerotruncus colihominis, #Coprococcus catus, #Dorea formicigenerans, #Faecalibacterium prausnitzii, #Pseudoflavonifractor capillosus, #Sutterella wadsworthensis] - Eight bacterial species were found to predict ME/CFS : Coprococcus (C.) catus, Pseudoflavonifractor (P.) capillosus, Dorea (D.) formicigenerans, Faecalibacterium (F.) prausnitzii, Clostridium (C.) asparigiforme, Sutterella (S.) wadsworthensis, Alistipes (A.) putredinis and Anaerotruncus (A.) colihominis. [1.2] [#Colon adenomas] - #Flavonifractor plautii, #Bilophila wadsworthia, #Bacteroides stercoris, Clostridium asparagiforme, #Clostridium bolteae CAG 59 and #Roseburia intestinalis were more common in people with tubular adenomas. - Tubular adenomas, instead, were linked to a reduction in a process called methanogenesis [1.3] - #Choline, #Carnitine and #Betaine present in fish, egg, and red meats are metabolized to #TMAO by gut bacteria. - Responsible Bacteria are #Anaerococcus hydrogenalis, Clostridium asparagiforme, #Clostridium hathewayi, #Clostridium sporogenes, #Escherichia fergusonii, #Proteus penneri, #Providencia rettgeri etc. [1.4] [#Clostridium citroniae, #Clostridium hathewayi, #Clostridium sporogenes] [#TMA, #TMAO] - #Clostridium sp (C asparagiforme, C citroniae, C hathewayi, and C sporogenes), #Desulfovibrio, and #Enterobacteriaceae (#Escherichia coli and #Acinetobacter sp), can respond to a diet rich in #Choline, an essential nutrient for omnivores, and convert it to trimethylamine, which is then metabolised in the liver to trimethylamine N-oxide, a microbiome derived proatherogenic metabolite.References Notes[ ]
