Publications by authors named "Kelly Yovani Olivos Caicedo"
Genome sequences of nine strains isolated from human feces.
Microbiol Resour Announc
December 2024
Article Synopsis
- An important member of the gut microbiome, the studied strains play a key role in bile acid and steroid metabolism.
- The genome sequences of nine strains isolated from human feces have been analyzed and reported.
- The genomes vary in size (3,403,497 to 4,318,168 bp), G+C content (46.5% to 48%), and the number of protein-coding genes (3,386 to 4,137).
Article Synopsis
- Strain VPI12708 is used as a model organism to investigate bile acid 7α-dehydroxylating pathways.
- Its closed circular genome was sequenced using PacBio technology and has 3,983,052 base pairs.
- The genome contains 47.59% G + C content and is predicted to have 3,707 coding DNA sequences.
The gut microbiome of vertebrates is capable of numerous biotransformations of bile acids, which are responsible for intestinal lipid digestion and function as key nutrient-signaling molecules. The human liver produces bile acids from cholesterol predominantly in the A/B- orientation in which the sterol rings are "kinked", as well as small quantities of A/B- oriented "flat" stereoisomers known as "primary allo-bile acids". While the complex multi-step bile acid 7α-dehydroxylation pathway has been well-studied for conversion of "kinked" primary bile acids such as cholic acid (CA) and chenodeoxycholic acid (CDCA) to deoxycholic acid (DCA) and lithocholic acid (LCA), respectively, the enzymatic basis for the formation of "flat" stereoisomers allo-deoxycholic acid (allo-DCA) and allo-lithocholic acid (allo-LCA) by Firmicutes has remained unsolved for three decades.
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