about
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samplesGenome sequence of the pea aphid Acyrthosiphon pisumETE: a python Environment for Tree ExplorationComparative transcriptomics of early dipteran developmentPhylomeDB v3.0: an expanding repository of genome-wide collections of trees, alignments and phylogeny-based orthology and paralogy predictionsB2G-FAR, a species-centered GO annotation repositoryPhylomeDB: a database for genome-wide collections of gene phylogeniesTreeFam: 2008 UpdateMultiple evidence strands suggest that there may be as few as 19,000 human protein-coding genesBeyond the Whole-Genome Duplication: Phylogenetic Evidence for an Ancient Interspecies Hybridization in the Baker's Yeast LineageThree crocodilian genomes reveal ancestral patterns of evolution among archosaursPunctuated emergences of genetic and phenotypic innovations in eumetazoan, bilaterian, euteleostome, and hominidae ancestorsPhylogenomics-based reconstruction of protozoan species tree2x genomes--depth does mattertrimAl: a tool for automated alignment trimming in large-scale phylogenetic analyseseggNOG 4.5: a hierarchical orthology framework with improved functional annotations for eukaryotic, prokaryotic and viral sequencesStandardized benchmarking in the quest for orthologsExtreme genomic erosion after recurrent demographic bottlenecks in the highly endangered Iberian lynx.Genome-wide comparative analysis of phylogenetic trees: the prokaryotic forest of life.Genomic Data Quality Impacts Automated Detection of Lateral Gene Transfer in FungiTopological variation in single-gene phylogenetic trees.GPCR genes are preferentially retained after whole genome duplicationThe tree versus the forest: the fungal tree of life and the topological diversity within the yeast phylomeAssessing the evolution of gene expression using microarray dataComPhy: prokaryotic composite distance phylogenies inferred from whole-genome gene sets.Phylogenomics of the oxidative phosphorylation in fungi reveals extensive gene duplication followed by functional divergence.OrthoInspector: comprehensive orthology analysis and visual exploration.Computational methods for Gene Orthology inferenceHorizontal gene transfer between bacteria and animals.Phylogenomics supports microsporidia as the earliest diverging clade of sequenced fungiMolecular characterization of the evolution of phagosomes.PhylomeDB v4: zooming into the plurality of evolutionary histories of a genome.A Bayesian approach for fast and accurate gene tree reconstructionThe Schistosoma mansoni phylome: using evolutionary genomics to gain insight into a parasite's biologyA graph-theoretic approach for inparalog detection.Genomic revelations of a mutualism: the pea aphid and its obligate bacterial symbiont.Comparative transcriptomic analyses revealed divergences of two agriculturally important aphid species.Whole-genome phylogeny of mammals: evolutionary information in genic and nongenic regionsGlobal analysis of serine-threonine protein kinase genes in Neurospora crassaStatistics and truth in phylogenomics.
P2860
Q21090158-408E6E76-EF81-4CAF-891E-55010D3D3F58Q21090181-E60FD5DB-47C3-4BFA-B04A-CF10193A8E73Q21093654-83544E5F-8238-44F2-AECC-8EC7F6A06C85Q22065320-AB6C6D12-D81D-4C86-9300-4F6D416BC5CDQ24612855-82F02D05-C892-4A73-A6C7-470277A631EBQ24631022-CCC6CFB6-AFD5-4B63-9FE0-B15F87A43187Q24650404-45DCAA0F-9579-474A-A14D-967A31223954Q24650511-FDD3F924-756E-4790-BC15-1BC5B2FA3DBBQ28242198-8CF90EE1-FC24-426E-87D2-28851BB545A4Q28633144-DF8AE55F-09BB-4E76-A4EB-A472F2108045Q28650295-8F54C607-C4EC-43E2-BC2A-4A65127A274FQ28661921-F1223C07-273E-4291-86B2-46060C4FC74AQ28741638-50F83164-23C7-4BBE-A507-09524D9C2698Q28752080-7AFE9D52-9D83-4AEB-ACB5-CF48F866767EQ29547690-69D2B365-05D5-4E47-A340-D964DCF74F57Q30002335-8C8B1FF3-48DD-4CF2-ACD5-EA2469CBEAA8Q30002371-1B4518FE-C35F-4BF9-9BD3-D32392D4C983Q30831935-10A45654-8FD0-435C-B6EE-AE4EE53DD249Q31049709-22E50894-70F1-4FD5-B37B-C1A072E9E4EAQ31165946-475C3253-482E-4F65-A190-B4BE0E1F9890Q33287627-708C93E0-D04D-4035-9692-D613EA05E649Q33326634-5E1BE1B5-8C6E-43AC-BD99-D31A6827F57BQ33405245-99F9BB37-F832-4200-9B8A-8098C550DEC9Q33407208-08915D16-D086-42B6-A70F-AB9AE9370B5CQ33407874-BE0A5358-FB31-4624-85A9-ED3D68FEE81EQ33520083-9CBACAF1-22B8-4074-81CD-982D46A6274CQ33789549-891DF0EF-6474-44C0-B762-8A89BCE20AF0Q33937734-3C26FDE7-7BB9-4082-A890-56A265390227Q34165647-DFF319E0-57AD-4F0B-9456-BC057D897EC3Q34287990-9DBF139F-6680-4B14-84AF-B7CE5909AD35Q34344310-2BF668EA-ED15-40F9-90BD-D00990240417Q34387795-A84117C2-003C-443C-9D6B-FC0A3B8DA7DCQ34407795-FF11166F-E854-4C83-B558-F93FAFB1B2EEQ34475796-B3721B58-48A3-4B2E-A93F-8D72DE9A9AE1Q34529684-7C7AC894-1794-4A22-8ECD-370699E56BF6Q34724696-48F21F0D-1225-4CE2-906D-F699C45F4BE1Q34994421-5CEEC6D8-F7D5-4B22-B43D-6432F2F8648AQ35006530-79C5E9A0-3063-4E34-8C15-280907AF6266Q35530402-F52FB565-911A-433B-AF13-26D337D39812Q35671945-A4227D60-53C4-44CF-92D0-A2142F6A605A
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
The human phylome
@ast
The human phylome
@en
type
label
The human phylome
@ast
The human phylome
@en
prefLabel
The human phylome
@ast
The human phylome
@en
P2860
P356
P1433
P1476
The human phylome
@en
P2093
Hernán Dopazo
Jaime Huerta-Cepas
P2860
P2888
P356
10.1186/GB-2007-8-6-R109
P577
2007-01-01T00:00:00Z
P5875
P6179
1001448299