Accurate gene-tree reconstruction by learning gene- and species-specific substitution rates across multiple complete genomes.
about
The evolution of novel fungal genes from non-retroviral RNA virusesOn the phylogenetic position of Myzostomida: can 77 genes get it wrong?Detecting and locating whole genome duplications on a phylogeny: a probabilistic approachThe development of three long universal nuclear protein-coding locus markers and their application to osteichthyan phylogenetics with nested PCRGene duplication and the origins of morphological complexity in pancrustacean eyes, a genomic approachSimultaneous Bayesian gene tree reconstruction and reconciliation analysis.Phytozome: a comparative platform for green plant genomicsTreeKO: a duplication-aware algorithm for the comparison of phylogenetic trees.Comparing patterns of natural selection across species using selective signaturesPerformance and scalability of discriminative metrics for comparative gene identification in 12 Drosophila genomesThe tree versus the forest: the fungal tree of life and the topological diversity within the yeast phylomeMSOAR 2.0: Incorporating tandem duplications into ortholog assignment based on genome rearrangement.GIGA: a simple, efficient algorithm for gene tree inference in the genomic age.Random Addition Concatenation Analysis: a novel approach to the exploration of phylogenomic signal reveals strong agreement between core and shell genomic partitions in the cyanobacteriaA Bayesian approach for fast and accurate gene tree reconstructionThe inference of gene trees with species trees.DUPCAR: reconstructing contiguous ancestral regions with duplications.Joint amalgamation of most parsimonious reconciled gene treesEvolution at the subgene level: domain rearrangements in the Drosophila phylogenyTreeFix: statistically informed gene tree error correction using species trees.Interchanging functionality among homologous elongation factors using signatures of heterotachyAnalysis of 142 genes resolves the rapid diversification of the rice genusLarge-scale assignment of orthology: back to phylogenetics?Most parsimonious reconciliation in the presence of gene duplication, loss, and deep coalescence using labeled coalescent trees.Models, algorithms and programs for phylogeny reconciliation.StarBEAST2 brings faster species tree inference and accurate estimates of substitution rates.Inferring gene duplications, transfers and losses can be done in a discrete framework.Species Tree Inference Using a Mixture Model.Family size evolution in Drosophila chemosensory gene families: a comparative analysis with a critical appraisal of methods.Unified modeling of gene duplication, loss, and coalescence using a locus treeTools for simulating evolution of aligned genomic regions with integrated parameter estimation.Molecular phylogeny supports the paraphyletic nature of the genus Trogoderma (Coleoptera: Dermestidae) collected in the Australasian ecozone.Mobile male-killer: similar Wolbachia strains kill males of divergent Drosophila hosts.Conserved genes, sampling error, and phylogenomic inference.MIPhy: identify and quantify rapidly evolving members of large gene families.
P2860
Q21093237-099996E6-4860-4101-9B9C-25B75A627930Q21192744-1AE2E6B8-065D-40DC-8A8F-6CD766FA962FQ28659055-49C42AED-C8B4-4B7F-9B57-9CD08551BAF3Q28728453-D1C8B07A-F5C3-453B-BDD2-5E4894EC8FF8Q28751404-D8893010-FEB3-418B-AF25-09E5E635467BQ28754785-7B247C84-B720-4047-96F7-543617E32457Q29616763-0EAD5316-522D-4978-B959-E86CD27FDB8AQ30500774-19C473C5-8134-43CD-83F7-3278AB006A66Q33319280-91677E6A-E07B-4FCF-8EDD-EE91018F2D40Q33329089-F5B97991-3F08-4E5C-ADB6-546715BF7AAEQ33405245-7B798546-D2E9-4C66-B5E1-94B82B0484A6Q33522314-E15C4736-1CD1-4EA1-97D9-7ECE665DD863Q33599425-E30222AB-6939-4D73-A1E2-6CE8F7631036Q34077336-EBEAF67E-8D2E-4E6E-858B-9C3FD8D6620EQ34407795-2C954D13-DB49-429B-B339-B79D62D5F6AEQ34431226-7ABD309D-3018-4336-9718-F7E6F4EBBC9CQ34822323-32ACD8E9-611A-4C9F-9200-480B48CE0B5DQ35233979-7DD68484-67F3-4D93-A163-71EF47143442Q35671958-0FEAE316-A53A-4C0A-B0AD-700D092950DEQ36479265-A5EAB2C1-8B0C-46B1-8FC0-04693E76895CQ36649326-A605BFD5-1165-409D-9BB6-8F87F58E297EQ36678573-7EF2DEE4-45E1-46D6-B9AD-F10B157666D9Q37317242-73F30D99-CE62-476C-A936-B0242F5B140CQ37614948-8526BE2C-8000-4448-9FE1-337ECCA5B3EBQ37939080-20828CEE-A3BA-409A-A191-F7C3E919DD65Q38826456-1A0D3B04-A348-4122-866C-81F09E1649F0Q38967634-9439611F-6E57-44AB-82E8-0BF2E3BCB9E8Q40950249-9C12150E-9416-4C7E-B516-75135108F3A5Q41866889-660135BC-F661-4B98-9549-4ABCC5ACD7FEQ42560541-7C3B2C88-ACE9-4940-A5FC-3E885710D329Q42582308-5A109A32-2A9B-4862-A1C4-8BB81C712302Q44833864-F26B60DF-B690-4925-AD00-31201E421834Q45885292-A91A57BB-C65F-4839-994C-461EFD8389EAQ53131399-A36F9E35-6C22-4A5B-9A85-DE7F1958EF38Q55071182-663862B0-A84B-463F-BD33-F00C1559C925
P2860
Accurate gene-tree reconstruction by learning gene- and species-specific substitution rates across multiple complete genomes.
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
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@ast
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@en
type
label
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@ast
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@en
prefLabel
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@ast
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@en
P2860
P356
P1433
P1476
Accurate gene-tree reconstruct ...... oss multiple complete genomes.
@en
P2093
Matthew D Rasmussen
P2860
P304
P356
10.1101/GR.7105007
P577
2007-11-07T00:00:00Z