Phylogenetic analysis of arthropods using two nuclear protein-encoding genes supports a crustacean + hexapod clade
about
The colonization of land by animals: molecular phylogeny and divergence times among arthropodsCan comprehensive background knowledge be incorporated into substitution models to improve phylogenetic analyses? A case study on major arthropod relationshipsPhylogenetic analysis of mitochondrial protein coding genes confirms the reciprocal paraphyly of Hexapoda and CrustaceaThe diversity and evolution of chelicerate hemocyaninsCommon transcriptional mechanisms for visual photoreceptor cell differentiation among PancrustaceansPancrustacean phylogeny in the light of new phylogenomic data: support for Remipedia as the possible sister group of HexapodaPhylotranscriptomics to bring the understudied into the fold: monophyletic ostracoda, fossil placement, and pancrustacean phylogenyMolecular phylogenetic analyses support the monophyly of Hexapoda and suggest the paraphyly of EntognathaThe complete mitochondrial genome of the sea spider Achelia bituberculata (Pycnogonida, Ammotheidae): arthropod ground pattern of gene arrangementThe brain of the Remipedia (Crustacea) and an alternative hypothesis on their phylogenetic relationshipsEvidence for ecological speciation via a host shift in the holly leaf miner, Phytomyza glabricola (Diptera: Agromyzidae)Pycnogonid affinities: a reviewEarly Terrestrial Animals, Evolution, and UncertaintyAn insect molecular clock dates the origin of the insects and accords with palaeontological and biogeographic landmarksThe evolution of arthropod limbs.The complete mitochondrial genome of the common sea slater, Ligia oceanica (Crustacea, Isopoda) bears a novel gene order and unusual control region featuresRevealing pancrustacean relationships: phylogenetic analysis of ribosomal protein genes places Collembola (springtails) in a monophyletic Hexapoda and reinforces the discrepancy between mitochondrial and nuclear DNA markersOnychophoran Hox genes and the evolution of arthropod Hox gene expressionEvolutionary origin of type IV classical cadherins in arthropods.Molecular evolution of the arthropod hemocyanin superfamily.A hemocyanin from the Onychophora and the emergence of respiratory proteins.Animal phylogeny and the ancestry of bilaterians: inferences from morphology and 18S rDNA gene sequences.Arthropod phylogeny based on eight molecular loci and morphology.Complete subunit sequences, structure and evolution of the 6 x 6-mer hemocyanin from the common house centipede, Scutigera coleoptrata.First insights on the mitochondrial genetic variability of Lightiella magdalenina (Crustacea), the sole Mediterranean cephalocarid species.Sea anemone venom as a source of insecticidal peptides acting on voltage-gated Na+ channels.The tritocerebrum of Euarthropoda: a "non-drosophilocentric" perspective.What arthropod brains say about arthropod phylogeny.Diplopod hemocyanin sequence and the phylogenetic position of the Myriapoda.Neurogenesis in the crustacean ventral nerve cord: homology of neuronal stem cells in Malacostraca and Branchiopoda?The phylogenetic significance of crustacean optic neuropils and chiasmata: a re-examination.Elongation Factor 1 alpha resolves the monophyly of the haplodiploid ambrosia beetles Xyleborini (Coleoptera: Curculionidae).Molecular characterization of visual pigments in Branchiopoda and the evolution of opsins in Arthropoda.Evolution. The origin of insects.Evolution of arthropod visual systems: development of the eyes and central visual pathways in the horseshoe crab Limulus polyphemus Linnaeus, 1758 (Chelicerata, Xiphosura).Mitochondrial protein phylogeny joins myriapods with chelicerates.The effects of nucleotide substitution model assumptions on estimates of nonparametric bootstrap support.Filling the gap between identified neuroblasts and neurons in crustaceans adds new support for Tetraconata.Brain organization and the origin of insects: an assessment.Genomics and the animal tree of life: conflicts and future prospects
P2860
Q21093249-44B3AC61-B5BB-4FAE-BBD4-A365EE4170A0Q21283857-9AB9A30B-B9D0-4104-BCA3-E4EFB6B55027Q21283899-94330BEB-65DF-400E-870A-68306856F621Q21284031-E136F68E-AD85-469E-960B-48C0BAC82474Q27314909-254590F8-867A-4BE2-BD97-1022DB6B8745Q28252157-C633DAF0-D954-4EA2-B44E-F56153902372Q28275061-BD1648AC-118A-4D6B-AFEB-414EFA6F3A33Q28652355-DF565259-E323-43AD-87C7-86BBA2BCE619Q28755970-9CC7AFA9-35AA-4A88-98BF-8358B8C4A354Q28776117-12EA1F00-1556-43D1-A17C-EFD12405C746Q28822252-1B46DC11-1C60-4C02-A14E-4BB632235E7AQ29037621-C53A02ED-41E6-49FB-B6D0-B60B0FACF82AQ29396995-B9F3B304-BE4E-4302-A411-ED0D7966B8E7Q29618545-CF89D976-8C1D-412D-9B68-1D171E4681EDQ33203687-034F3FEC-84E4-446C-B9A9-F61BEC80E791Q33258169-05927CC7-C978-4643-BEBE-CC0ACF27536AQ33325622-F970D8AE-E729-4EF2-9956-233C11CA8B98Q33588969-BC9EB4D5-0C46-44EC-AAE8-0B62F2DE3411Q33808418-3C26A2F1-149D-42BD-B367-6BF79A98FEEFQ33931415-B8B40BB9-3347-480B-BB83-1FBC7F029AAFQ34075090-D2F5B758-14AA-40DE-854F-79997A1E6402Q34083106-64680071-34E3-4A22-AEB3-38BD1F61DAB0Q34091326-82584736-BB50-4B76-8DAA-A10E6329B37AQ34208301-F71F2D35-176A-40B0-B99D-378D6AC47CE6Q35222928-1D6B9605-1B99-45FF-AF96-036EEC6B528AQ35792848-989794D2-30CA-4BD6-98D6-8497604F76B6Q35872020-5DD8CD5E-A096-48E7-953A-855FD857CF68Q37094418-D4B5795E-F5CF-48B8-A2CE-35DE5B161FD7Q42655395-F9284BE2-FF79-45FA-9676-437FBC0DC6BCQ43664026-52BEBFC4-F163-4DBC-859A-A28F26B263AEQ44161765-B35CC956-0DD6-4FD0-AC6B-4CC2F8BCD27CQ44460802-60783C2E-1193-44A4-A67B-27373C5463EFQ46264308-2AA883D9-7B50-45F6-8418-70A7AA6FCD4BQ47822784-C9931ECB-4794-4F24-93CE-D947FF5463A2Q48491582-7E923558-554B-4C84-93F6-B796D6DADF1DQ52591166-AAD84430-4B2E-46AD-9E0C-C5BB081010A1Q52595066-5C54DBDB-59B9-49F5-9EEE-AE9A9FE119AEQ52685817-46BBB632-5F59-4183-82A3-08F81AB4AE5FQ52696865-DCE78508-6C2F-4E89-B6D0-3916C34DC2B7Q55871227-64C5C3BB-CF6D-417B-A3D5-D597F0ECC878
P2860
Phylogenetic analysis of arthropods using two nuclear protein-encoding genes supports a crustacean + hexapod clade
description
2000 nî lūn-bûn
@nan
2000 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@ast
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@en
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@nl
type
label
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@ast
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@en
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@nl
prefLabel
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@ast
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@en
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@nl
P2860
P3181
P356
P1476
Phylogenetic analysis of arthr ...... s a crustacean + hexapod clade
@en
P2093
J C Regier
J W Shultz
P2860
P304
P3181
P356
10.1098/RSPB.2000.1104
P407
P577
2000-05-22T00:00:00Z