Pu
•biom
e
Human•Topics
Carbohydrate digestion
Overview
Amylose & amylopectin
Undigestible carbs
Foods with fibre
Protein digestion
Fat digestion
Human Milk Oligosaccharides
Overview
HMO Structural Guide
Di- & Trisaccharides
Tetraose & Tetrasaccharides
Pentaose
Hexaose
Octaose
Decaose
Miscellaneous
MUC2 Oligosaccharides
Antibiotics vs Good Bacteria
Human / Bacteria Digestion
Carbohydrates
Monosaccharides
Polyols
Di- & tri-saccharides
Polysaccharides
Miscellaneous
Organic acids
SMCF Acids
Polyacids
Hydroxy-, Oxo-acids and Miscell.
Aromatic Acids
Amino acids
21 Original
Unconventional
Other
Nitrogen cmpds
Bacteria•Topics
Guide to Tables
General Physiology
Bacteria & Health
Substrate Utilisation
Carbohydrates
Monosaccharides and polyols
Oligo- & polysaccharides
Miscellaneous
Organic acids
SMCF Acids
Polyacids
Miscellaneous
Amino acids
21 Original
Unconventional
Other
Nitrogen cmpds
Antibiotic activity against
Penicillins and Penems
Cephems
Aminoglycosides and Macrolides
Quinolones and Tetracyclines
Glycopeptides and Polyketides
Heterocycles and Miscellaneous
All Antibiotics
Oxidation / Fermentation
Monosaccharides & polyols
Oligo- & Poly-saccharides
Miscellaneous
Biochemical Tests
Metabolites Produced
Bacterial Enzymes
General enzymes
'Carbo'sidases
Esterases
Proteases
Amidases
Hydrolysis / Digestion
Resources
Reference List
Ref List (Alt.)
Create Ref
Search
Login
Submit
Update:
Aujoulat2021
Title
*
Keywords
Bacteria
Citation
*
Authors
DOI/PMIB
Journal
Year
Volume
Issue
Pages
Notes
<p>A Gram-positive, anaerobic coccus isolated from a human surgical site infection was previously shown to belong to an unknown species of the genus <em>Peptoniphilus</em> initially proposed as ‘<em>Peptoniphilus nemausus</em>’ sp. nov., based on both 16S rRNA gene sequence identity of 97.9% with the most closely related species <em>Peptoniphilus coxii</em> and an individualized phylogenetic branching within the genus <em>Peptoniphilus</em>. A polyphasic characterization of the novel species is proposed herein. Whole genome sequence analysis showed an average nucleotide identity value of 84.75% and digital DNA-DNA hybridization value of 28.9% against <em>P. coxii</em> type strain. The strain displayed unique features among members of the genus <em>Peptoniphilus</em>, as it was able to hydrolyze aesculin, and produced acetate as the major metabolic end-product without associated production of butyrate. Growth was observed under microaerophilic conditions. From all these data, the isolate is confirmed as belonging to a new <em>Peptoniphilus</em> species, for which the name <em>Peptoniphilus nemausensis</em> sp. nov. is proposed. The type strain is 1804121828<sup>T</sup> (=LMG 31466<sup>T</sup> = CECT 9935<sup>T</sup>). A database survey using a highly polymorphic partial sequence of the 16S rRNA gene of <em>P. nemausensis</em> revealed <em>P. nemausensis</em> to be a particularly rare skin-associated species in humans. An emendated description of the <em>Peptoniphilus</em> genus is proposed based on a review of the characteristics of the 12 new species with validly published names since the genus description in 2001 and of <em>P. nemausensis</em>. Finally, the relationships between members of the genus <em>Peptoniphilus</em> were explored based on whole genome sequence analysis in order to clarify the taxonomic status of not yet validly published species showing that three pairs of species should be considered as synonyms: <em>Peptoniphilus timonensis</em> and ‘<em>Peptoniphilus phoceensis</em>’, <em>Peptoniphilus lacydonensis</em> and ‘<em>Peptoniphilus rhinitidis</em>’, <em>Peptoniphilus tyrrelliae</em> and <em>Peptoniphilus senegalensis</em>.</p>
Submit