Environments shape the nucleotide composition of genomes.
about
Genomic analyses of the microsporidian Nosema ceranae, an emergent pathogen of honey beesComparative genomic analysis of the genus Staphylococcus including Staphylococcus aureus and its newly described sister species Staphylococcus simiaeComparative analysis of environmental sequences: potential and challengesA molecular study of microbe transfer between distant environmentsInsights into the phylogeny and coding potential of microbial dark matterHow to get more out of molecular fingerprints: practical tools for microbial ecologyCommunity-wide analysis of microbial genome sequence signaturesEvidence of selection upon genomic GC-content in bacteriaHabiSign: a novel approach for comparison of metagenomes and rapid identification of habitat-specific sequencesCompareads: comparing huge metagenomic experimentsQuantifying environmental adaptation of metabolic pathways in metagenomicsRelative amino acid composition signatures of organisms and environmentsAn Enrichment of CRISPR and Other Defense-Related Features in Marine Sponge-Associated Microbial MetagenomesEnergy efficiency trade-offs drive nucleotide usage in transcribed regionsIdentification of new genomospecies in the Mycobacterium terrae complexEcological and evolutionary significance of genomic GC content diversity in monocotsThe footprint of metabolism in the organization of mammalian genomesAssociation between translation efficiency and horizontal gene transfer within microbial communitiesAn analysis of the Sargasso Sea resource and the consequences for database compositionShifting the genomic gold standard for the prokaryotic species definitionLarge-scale comparative genomic ranking of taxonomically restricted genes (TRGs) in bacterial and archaeal genomes.Picoeukaryotic sequences in the Sargasso sea metagenomeExamination of genome homogeneity in prokaryotes using genomic signatures.The reach of the genome signature in prokaryotesDiversity and phylogeny of Baltic Sea picocyanobacteria inferred from their ITS and phycobiliprotein operons.Reliability and applications of statistical methods based on oligonucleotide frequencies in bacterial and archaeal genomes.Estimating the extent of horizontal gene transfer in metagenomic sequences.Investigations of oligonucleotide usage variance within and between prokaryotes.The evolution of bacterial DNA base composition.TACOA: taxonomic classification of environmental genomic fragments using a kernelized nearest neighbor approachGenomic taxonomy of Vibrios.Bcheck: a wrapper tool for detecting RNase P RNA genes.Comparative Genomics Unravels the Functional Roles of Co-occurring Acidophilic Bacteria in Bioleaching HeapsAnalysis of intra-genomic GC content homogeneity within prokaryotes.Genomic comparisons of Brucella spp. and closely related bacteria using base compositional and proteome based methods.Comparative analysis of acidobacterial genomic fragments from terrestrial and aquatic metagenomic libraries, with emphasis on acidobacteria subdivision 6.Mutational patterns cannot explain genome composition: Are there any neutral sites in the genomes of bacteria?Whole-Genome Sequence Analysis of Antimicrobial Resistance Genes in Streptococcus uberis and Streptococcus dysgalactiae Isolates from Canadian Dairy Herds.Marine microbial metagenomics: from individual to the environment.MTR: taxonomic annotation of short metagenomic reads using clustering at multiple taxonomic ranks.
P2860
Q21131575-4AD18109-764C-49B2-B5E8-68695E9BDA3CQ21266701-7A03896C-6393-4F40-A15F-D8C13BEE5D39Q24489522-ABA95147-EEBA-4718-BCBA-96537F5367E7Q24489657-EA695027-0471-4492-ADAB-66F81105785EQ24490632-55c4601d-4c4c-e1d1-bffb-6848364980a6Q24490709-6b5ace49-4792-e634-4d16-fd4a1c64f9aaQ24490933-2f8d488c-4383-4b08-cba0-2fc5d1ffa246Q24502896-2385de94-48b5-fd32-2a9b-ffdfd38a9f37Q27496486-C0513EEE-F714-47F1-8E21-0F779C08A67BQ27496493-D863CDF2-872A-4440-B4FD-4BEC7647FA7CQ28307514-AD150103-42E1-44D8-84A8-5626326811D1Q28534644-8C9D6F2A-3659-4BBF-8C7B-72FDC1FEA433Q28596229-BDDB2DFA-0A3C-4B5E-904B-3965C8D921DEQ28603766-D425497D-D41B-4480-B7D6-DF9F5C5E11CEQ28650544-1EB75693-B822-4F4F-A447-504FD0C6F603Q28654800-7082DE34-6FA3-48C2-97FF-917DBE952F38Q28727949-9FAC6E54-568F-42AD-BF0A-734BD1FC802EQ28743700-95D4D33D-2395-41D1-B8E6-E9DCC0D96CD8Q29048144-E8885946-1E1D-4D37-B653-48F91A1EEC0CQ29616599-43337862-5264-4BD4-9B31-02222786C5CDQ30830638-E89DA504-7AE4-48FF-A670-FB2CD07B192CQ30839985-05C6E83E-BCB6-4AB8-A563-01A5B6277057Q30940688-C54EF2A3-CEAD-4BBF-9DC3-8299356DBBD1Q33260372-B3E36A22-39CB-4611-9138-7BB22B22DB25Q33300773-091F644B-69A7-4E00-BAA5-CC5F75969D0FQ33321678-740EE396-0442-426C-BDC5-3570FD290884Q33325732-B3482478-EB2C-4EC9-A333-251760836989Q33329084-F55A99FE-DC1F-458F-8389-4D17EE3A8CAFQ33358005-68E41AA1-F83E-4625-B977-1D6AD7285C68Q33408370-0FEBF2BE-A542-441E-8FC7-5D1849E621FEQ33513018-0BC9C89D-0C3C-47BA-8048-8759BA78EA6DQ33631756-B20DB4EA-307F-4E7C-B5A3-1C06F470AECBQ33639521-93C592E7-543B-4316-A523-3C54CA5A7CB8Q33651702-FE54E82E-E0EB-460E-9DA7-D51BEC055D27Q33657435-C1CC6851-B0BE-4910-9F04-F570FC98BCFFQ33668472-056523D5-0377-4485-9EB9-5A19AE2B311CQ33691451-CAF53FC4-1597-4643-A04D-D3533E252F31Q33710896-9A9A8C5B-7FD4-4595-A6B8-68505DFF965AQ33755903-A50073CC-166B-4E07-8795-6A4B9169622CQ33761996-410F6DF7-BC47-4FC5-98BB-9BEC8ADFDE2C
P2860
Environments shape the nucleotide composition of genomes.
description
2005 nî lūn-bûn
@nan
2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Environments shape the nucleotide composition of genomes
@nl
Environments shape the nucleotide composition of genomes.
@ast
Environments shape the nucleotide composition of genomes.
@en
Environments shape the nucleotide composition of genomes.
@en-gb
type
label
Environments shape the nucleotide composition of genomes
@nl
Environments shape the nucleotide composition of genomes.
@ast
Environments shape the nucleotide composition of genomes.
@en
Environments shape the nucleotide composition of genomes.
@en-gb
prefLabel
Environments shape the nucleotide composition of genomes
@nl
Environments shape the nucleotide composition of genomes.
@ast
Environments shape the nucleotide composition of genomes.
@en
Environments shape the nucleotide composition of genomes.
@en-gb
P2860
P50
P3181
P356
P1433
P1476
Environments shape the nucleotide composition of genomes.
@en
P2093
Sean D Hooper
P2860
P304
P3181
P356
10.1038/SJ.EMBOR.7400538
P407
P577
2005-12-01T00:00:00Z