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Hill JE,
Penny SL,
Crowell KG,
Goh SH,
Hemmingsen SM,
( 2004 ) cpnDB: a chaperonin sequence database. PMID : 15289485 : DOI : 10.1101/gr.2649204 PMC : PMC509277 Abstract >>
Type I chaperonins are molecular chaperones present in virtually all bacteria, some archaea and the plastids and mitochondria of eukaryotes. Sequences of cpn60 genes, encoding 60-kDa chaperonin protein subunits (CPN60, also known as GroEL or HSP60), are useful for phylogenetic studies and as targets for detection and identification of organisms. Conveniently, a 549-567-bp segment of the cpn60 coding region can be amplified with universal PCR primers. Here, we introduce cpnDB, a curated collection of cpn60 sequence data collected from public databases or generated by a network of collaborators exploiting the cpn60 target in clinical, phylogenetic, and microbial ecology studies. The growing database currently contains approximately 2000 records covering over 240 genera of bacteria, eukaryotes, and archaea. The database also contains over 60 sequences for the archaeal Type II chaperonin (thermosome, a homolog of eukaryotic cytoplasmic chaperonin) from 19 archaeal genera. As the largest curated collection of sequences available for a protein-encoding gene, cpnDB provides a resource for researchers interested in exploiting the power of cpn60 as a diagnostic or as a target for phylogenetic or microbial ecology studies, as well as those interested in broader subjects such as lateral gene transfer and codon usage. We built cpnDB from open source tools and it is available at http://cpndb.cbr.nrc.ca.
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2. |
Naser SM,
Dawyndt P,
Hoste B,
Gevers D,
Vandemeulebroecke K,
Cleenwerck I,
Vancanneyt M,
Swings J,
( 2007 ) Identification of lactobacilli by pheS and rpoA gene sequence analyses. PMID : 18048724 : DOI : 10.1099/ijs.0.64711-0 Abstract >>
The aim of this study was to evaluate the use of the phenylalanyl-tRNA synthase alpha subunit (pheS) and the RNA polymerase alpha subunit (rpoA) partial gene sequences for species identification of members of the genus Lactobacillus. Two hundred and one strains representing the 98 species and 17 subspecies were examined. The pheS gene sequence analysis provided an interspecies gap, which in most cases exceeded 10 % divergence, and an intraspecies variation of up to 3 %. The rpoA gene sequences revealed a somewhat lower resolution, with an interspecies gap normally exceeding 5 % and an intraspecies variation of up to 2 %. The combined use of pheS and rpoA gene sequences offers a reliable identification system for nearly all species of the genus Lactobacillus. The pheS and rpoA gene sequences provide a powerful tool for the detection of potential novel Lactobacillus species and synonymous taxa. In conclusion, the pheS and rpoA gene sequences can be used as alternative genomic markers to 16S rRNA gene sequences and have a higher discriminatory power for reliable identification of species of the genus Lactobacillus.
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3. |
Cousin S,
Motreff L,
Gulat-Okalla ML,
Gouyette C,
Spröer C,
Schumann P,
Begaud E,
Bouchier C,
Clermont D,
Bizet C,
( 2013 ) Lactobacillus pasteurii sp. nov. and Lactobacillus hominis sp. nov. PMID : 22328611 : DOI : 10.1099/ijs.0.036665-0 Abstract >>
Strains 1517(T) and 61D(T) were characterized by phenotypic and molecular taxonomic methods. These Gram-positive lactic acid bacteria were homo-fermentative, facultatively anaerobic short rods. They were phylogenetically related to the genus Lactobacillus according to 16S rRNA gene sequence analysis, with 99 % similarity between strain 1517(T) and the type strain of Lactobacillus gigeriorum, and 98.6, 98.5 and 98.4 % between strain 61D(T) and Lactobacillus gasseri, Lactobacillus taiwanensis and Lactobacillus johnsonii, respectively. Multilocus sequence analysis and metabolic analysis of both strains showed variation between the two strains and their close relatives, with variation in the position of the pheS and rpoA genes. The DNA-DNA relatedness of 43.5 % between strain 1517(T) and L. gigeriorum, and 38.6, 29.9 and 39.7 % between strain 61D(T) and L. johnsonii, L. taiwanensis and L. gasseri, respectively, confirmed their status as novel species. Based on phenotypic and genotypic characteristics, two novel species of Lactobacillus are proposed: Lactobacillus pasteurii sp. nov., with 1517(T) (= CRBIP 24.76(T) = DSM 23907(T)) as the type strain, and Lactobacillus hominis sp. nov., with 61D(T) (=CRBIP 24.179(T) = DSM 23910(T)) as the type strain.
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