about
Comparative genomics of the T4-Like Escherichia coli phage JS98: implications for the evolution of T4 phagesPhages and the evolution of bacterial pathogens: from genomic rearrangements to lysogenic conversionGenomics of Actinobacteria: tracing the evolutionary history of an ancient phylumHow high G+C Gram-positive bacteria and in particular bifidobacteria cope with heat stress: protein players and regulatorsGenome of Rhizobium leucaenae strains CFN 299(T) and CPAO 29.8: searching for genes related to a successful symbiotic performance under stressful conditionsLactobacillus hordei sp. nov., a bacteriocinogenic strain isolated from malted barley.The Bifidobacterium dentium Bd1 genome sequence reflects its genetic adaptation to the human oral cavity.Comparative genomics and proteomics of Helicobacter mustelae, an ulcerogenic and carcinogenic gastric pathogen.Phage as agents of lateral gene transfer.Genome analysis of an inducible prophage and prophage remnants integrated in the Streptococcus pyogenes strain SF370.Multireplicon genome architecture of Lactobacillus salivariusComparative genomics and transcriptional analysis of prophages identified in the genomes of Lactobacillus gasseri, Lactobacillus salivarius, and Lactobacillus casei.Comparative and functional analysis of sortase-dependent proteins in the predicted secretome of Lactobacillus salivarius UCC118RNA-Seq in Mytilus galloprovincialis: comparative transcriptomics and expression profiles among different tissues.A First Insight into the Genome of the Filter-Feeder Mussel Mytilus galloprovincialis.Comparative analyses of prophage-like elements present in two Lactococcus lactis strains.Genomics as a means to understand bacterial phylogeny and ecological adaptation: the case of bifidobacteria.Analysis, characterization, and loci of the tuf genes in lactobacillus and bifidobacterium species and their direct application for species identificationDraft genome sequence of Bradyrhizobium paxllaeri LMTR 21T isolated from Lima bean (Phaseolus lunatus) in Peru.Genome sequence of Bradyrhizobium sp. LMTR 3, a diazotrophic symbiont of Lima bean (Phaseolus lunatus).Correction: A First Insight into the Genome of the Filter-Feeder Mussel Mytilus galloprovincialis.The prophages of Lactobacillus johnsonii NCC 533: comparative genomics and transcription analysis.Isolation of lactobacilli with probiotic properties from the human stomach.Transcription mapping as a tool in phage genomics: the case of the temperate Streptococcus thermophilus phage Sfi21.Transcription analysis of Streptococcus thermophilus phages in the lysogenic state.Polyphasic analysis indicates that Lactobacillus salivarius subsp. salivarius and Lactobacillus salivarius subsp. salicinius do not merit separate subspecies status.Analysis of bifidobacterial evolution using a multilocus approachSequence and comparative genomic analysis of lactococcal bacteriophages jj50, 712 and P008: evolutionary insights into the 936 phage species.GANNPhos: a new phosphorylation site predictor based on a genetic algorithm integrated neural network.The prophage sequences of Lactobacillus plantarum strain WCFS1Diversity of the genus Lactobacillus revealed by comparative genomics of five speciesPopulation genomic footprints of environmental pollution pressure in natural populations of the Mediterranean mussel
P50
Q24559925-E2D43B93-2280-4335-9558-7A5D8E38E651Q24562822-B4555C1F-403B-4C78-B2F0-321EACDE80AFQ24681753-5EC419F5-811A-4D6B-82FB-B2C502D66B1FQ28257892-CF444658-99E7-4CE3-A60A-FEE08E16C36FQ28831472-A8A87FA6-59B6-46AD-B798-CE1C3205122DQ33366209-A89EAEF5-FC28-42EC-90D9-9DB66F127067Q33521289-EA450197-11CC-41EA-B28C-96FD18E68D62Q33539447-2DEEF9F7-A305-4DE8-AA85-EF86CDDE0F21Q33967977-3A3BAB9D-CE83-4E38-9B98-8A77D4A17837Q34159879-03807DF7-9F17-4080-B8B9-389E21B59201Q34538652-88C1CA5E-3FAE-4C65-B704-AFD0F4E12A0FQ34649523-A2D07490-DCDC-4528-967F-8C9104C845E7Q34720717-D3E1BE41-5301-4D63-BB5F-6F89ED0D6BDCQ35785887-2D87DE7B-D4AC-42EC-87A1-D2DEB60E726EQ35957430-5FD28063-697D-46E7-90EB-26866D4D43FBQ36313351-5FC0498C-34AB-4194-8899-FCBF1FFE5DD6Q36637979-8BF08DAC-0A91-4910-85AB-B1A377488703Q37055664-3E508C7F-38FD-44E5-B985-B28439335753Q38673023-925FD4B5-BB59-4DDB-8476-7A204B148FFCQ38681802-1AA7F603-C264-4200-AE85-D5E24A1FBA2BQ42409104-16FA4AA2-FA5D-4BBE-9CE1-CB7C1599C507Q42622028-E7C30145-17A3-4E27-B47B-A90C111EF573Q43804464-96EA4D96-06B1-4C55-8870-20AB86857FAFQ44010018-FB255A0F-1BD7-4672-A703-4A230153D6B7Q44214880-21E513A3-D66B-4F13-9555-DE8984A239C5Q45316680-A797F9FD-BF27-4AE3-8921-C5E321CD561AQ45316972-76D63B77-AA58-443A-AEC2-8C9DE3BAB91AQ48085353-4D363DEB-CD00-4934-A9A5-6392A5A85B09Q51909810-08E4AC8C-347E-4C09-BDBB-800F21B7D16CQ57245691-0870A730-97C8-4BA4-ADB7-C381DA27A2C6Q57245700-66F578B5-9EB1-4C38-8774-33EBD2619673Q93191117-6456AEC4-F47C-4920-8FA1-E9A0FA37330C
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Carlos Canchaya
@ast
Carlos Canchaya
@en
Carlos Canchaya
@es
Carlos Canchaya
@nl
Carlos Canchaya
@sl
type
label
Carlos Canchaya
@ast
Carlos Canchaya
@en
Carlos Canchaya
@es
Carlos Canchaya
@nl
Carlos Canchaya
@sl
prefLabel
Carlos Canchaya
@ast
Carlos Canchaya
@en
Carlos Canchaya
@es
Carlos Canchaya
@nl
Carlos Canchaya
@sl
P106
P1153
6602229830
P21
P31
P496
0000-0003-3463-7459