The mitochondrial genome of the Sipunculid Phascolopsis gouldii supports its association with Annelida rather than Mollusca
about
sameAs
Annelid phylogeny and the status of Sipuncula and EchiuraThe development of the larval nervous system, musculature and ciliary bands of Pomatoceros lamarckii (Annelida): heterochrony in polychaetesA close phylogenetic relationship between Sipuncula and Annelida evidenced from the complete mitochondrial genome sequence of Phascolosoma esculentaPhylogeny of Annelida (Lophotrochozoa): total-evidence analysis of morphology and six genesSipunculans and segmentationLophotrochozoa internal phylogeny: new insights from an up-to-date analysis of nuclear ribosomal genesComplete mitochondrial genome sequence of Urechis caupo, a representative of the phylum EchiuraCellular and muscular growth patterns during sipunculan developmentExpression of FoxA and GATA transcription factors correlates with regionalized gut development in two lophotrochozoan marine worms: Chaetopterus (Annelida) and Themiste lageniformis (Sipuncula)Mitochondrial genome sequence and gene order of Sipunculus nudus give additional support for an inclusion of Sipuncula into AnnelidaEarly Cambrian sipunculan worms from southwest ChinaDetecting the symplesiomorphy trap: a multigene phylogenetic analysis of terebelliform annelidsSpiral cleavage and early embryology of a loxosomatid entoproct and the usefulness of spiralian apical cross patterns for phylogenetic inferences.Identification of chaetognaths as protostomes is supported by the analysis of their mitochondrial genome.The complete mitochondrial genome of Solemya velum (Mollusca: Bivalvia) and its relationships with conchifera.The complete sequences and gene organisation of the mitochondrial genomes of the heterodont bivalves Acanthocardia tuberculata and Hiatella arctica--and the first record for a putative Atpase subunit 8 gene in marine bivalves.Mitochondrial genomes of parasitic arthropods: implications for studies of population genetics and evolution.Beyond linear sequence comparisons: the use of genome-level characters for phylogenetic reconstruction.Annelids step forward.The relationship between the rate of molecular evolution and the rate of genome rearrangement in animal mitochondrial genomes.The mitochondrial genome of the soybean cyst nematode, Heterodera glycines.EHGbox in the clitellate Perionyx excavatus.Determination of the complete mitochondrial DNA sequence of Octopus minor.Nervous and muscle system development in Phascolion strombus (Sipuncula).PCR-based approach for sequencing mitochondrial genomes of decapod crustaceans, with a practical example from kuruma prawn (Marsupenaeus japonicus).A complete logical approach to resolve the evolution and dynamics of mitochondrial genome in bilaterians.Reconstructing the phylogeny of the SipunculaComparative mitochondrial genomic analyses of three chemosynthetic vesicomyid clams from deep-sea habitatsThe role of character loss in phylogenetic reconstruction as exemplified for the AnnelidaSipunculan phylogeny based on six genes, with a new classification and the descriptions of two new families
P2860
Q21030515-0FB01419-95CE-4D71-9B4D-8ACB5BF62E61Q21231985-2A7F43EA-B06B-49B9-A984-28748614B0DFQ21283768-FD956418-9D27-48A5-A31B-A950AAA3AD94Q21283841-3EE6D316-45A2-4889-95D4-055C537FBD05Q24646992-C139B4A8-D070-434C-9B0B-870BBA19BDADQ24652828-561E231C-D219-4370-A17B-75C34C78B5ABQ24798169-38CA7A29-4245-4C53-AAEF-F063EBF92A1AQ28604053-C996DC70-4A01-4F6F-A9BD-A7184CBAC60FQ28749294-73357498-F232-451E-B186-65E04543494CQ28755463-41F97995-642B-47DA-B962-710AD7B0C2B6Q28765426-A40B9C69-F1F6-494B-90D6-7FFF13CC93AFQ34106807-D8F79616-3F96-4770-AF68-11E562CE7090Q34212841-3EB553D3-6CDB-45F5-9D15-E646B0E7A8CBQ34340566-2A0758FC-3BBC-47D4-A25B-7C5E11AD3CB7Q34351680-AE7273F9-1B9D-489D-9379-59B0BFCFD9F2Q35040075-FEDF0394-7313-4545-BCDF-211C0CD1C40CQ36619750-415AB05F-3B18-4D95-BEE2-FEBB8826CDD4Q37037867-C1D63AE3-615C-4D33-9A58-A13A5626917DQ37100317-E3AF96EC-9552-490B-B815-6C307F9646FCQ42036700-261DDBD6-47D8-4F1E-905A-B35421919254Q42608592-792E1089-1460-40BF-AF95-843CA1512E7CQ44961800-AFF8D9B0-7584-46EF-8CC8-2F6DE8E8D078Q45406677-74F8069E-1A00-4794-A206-AF8FF436E199Q52040517-269BEE8D-25A2-4250-81C4-3684760BB62DQ54673895-23233DAF-2182-4094-AADF-0E04333B2436Q55315093-18E93156-0D92-4293-9A9E-C3009404F73DQ56079318-0E8DDBB0-6576-4882-A69E-9A91B6F0DAEBQ57086765-0BEA66A7-D161-49AB-8098-BE00445896B3Q57267404-0C344D49-0FD2-4EE4-9451-D43066D5C67BQ57833751-13856DB9-9B86-4BC5-98CE-8091A1ACD5C7
P2860
The mitochondrial genome of the Sipunculid Phascolopsis gouldii supports its association with Annelida rather than Mollusca
description
2002 nî lūn-bûn
@nan
2002 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
The mitochondrial genome of th ...... Annelida rather than Mollusca
@ast
The mitochondrial genome of th ...... Annelida rather than Mollusca
@en
The mitochondrial genome of th ...... Annelida rather than Mollusca
@nl
type
label
The mitochondrial genome of th ...... Annelida rather than Mollusca
@ast
The mitochondrial genome of th ...... Annelida rather than Mollusca
@en
The mitochondrial genome of th ...... Annelida rather than Mollusca
@nl
prefLabel
The mitochondrial genome of th ...... Annelida rather than Mollusca
@ast
The mitochondrial genome of th ...... Annelida rather than Mollusca
@en
The mitochondrial genome of th ...... Annelida rather than Mollusca
@nl
P2860
P1476
The mitochondrial genome of th ...... Annelida rather than Mollusca
@en
P2093
Jeffrey L Boore
Joseph L Staton
P2860
P304
P356
10.1093/OXFORDJOURNALS.MOLBEV.A004065
P407
P577
2002-02-01T00:00:00Z