The evolutionary history of the coral genus Acropora (Scleractinia, Cnidaria) based on a mitochondrial and a nuclear marker: reticulation, incomplete lineage sorting, or morphological convergence?
about
Processes Driving the Adaptive Radiation of a Tropical Tree (Diospyros, Ebenaceae) in New Caledonia, a Biodiversity HotspotMerging scleractinian genera: the overwhelming genetic similarity between solitary Desmophyllum and colonial LopheliaClimate change impacts on the tree of life: changes in phylogenetic diversity illustrated for acropora coralsPhylogenetic evidence for recent diversification of obligate coral-dwelling gobies compared with their host coralsEcomorph or endangered coral? DNA and microstructure reveal hawaiian species complexes: Montipora dilatata/flabellata/turgescens & M. patula/verrilliReticulate evolution and marine organisms: the final frontier?Shape-shifting corals: molecular markers show morphology is evolutionarily plastic in PoritesSome rare Indo-Pacific coral species are probable hybridsSympatric populations of the highly cross-fertile coral species Acropora hyacinthus and Acropora cytherea are genetically distinctDiverse staghorn corals (Acropora) in high-latitude Eocene assemblages: implications for the evolution of modern diversity patterns of reef coralsNo variation and low synonymous substitution rates in coral mtDNA despite high nuclear variationConservation genetics and the resilience of reef-building corals.Coral life history and symbiosis: functional genomic resources for two reef building Caribbean corals, Acropora palmata and Montastraea faveolata.Comparative analyses of coding and noncoding DNA regions indicate that Acropora (Anthozoa: Scleractina) possesses a similar evolutionary tempo of nuclear vs. mitochondrial genomes as in plants.Including RNA secondary structures improves accuracy and robustness in reconstruction of phylogenetic treesCleaning up the 'Bigmessidae': molecular phylogeny of scleractinian corals from Faviidae, Merulinidae, Pectiniidae and Trachyphylliidae.Rapid evolution of coral proteins responsible for interaction with the environment.Identification of fast-evolving genes in the scleractinian coral Acropora using comparative EST analysisIncongruence between morphotypes and genetically delimited species in the coral genus Stylophora: phenotypic plasticity, morphological convergence, morphological stasis or interspecific hybridization?Identification of scleractinian coral recruits using fluorescent censusing and DNA barcoding techniques.Extensive sympatry, cryptic diversity and introgression throughout the geographic distribution of two coral species complexes.Comparison between colony morphology and molecular phylogeny in the Caribbean scleractinian coral genus Madracis.Slow mitochondrial DNA sequence evolution in the Anthozoa (Cnidaria).Spawning, copulation and inbreeding coefficients in marine invertebratesMorphological differentiation despite gene flow in an endangered grasshopper.Novel Polymorphic Microsatellite Markers Reveal Genetic Differentiation between Two Sympatric Types of Galaxea fascicularis.Molecular and Morphological Species Boundaries in the Gorgonian Octocoral Genus Pterogorgia (Octocorallia: Gorgoniidae).Asynchronous spawning in sympatric populations of a hard coral reveals cryptic species and ancient genetic lineages.Positive selection within a diatom species acts on putative protein interactions and transcriptional regulation.Polyphyly and hidden species among Hawai'i's dominant mesophotic coral genera, Leptoseris and Pavona (Scleractinia: Agariciidae)The skeletal proteome of the coral Acropora millepora: the evolution of calcification by co-option and domain shuffling.Toxic coral gobies reduce the feeding rate of a corallivorous butterflyfish on Acropora corals.Geographic differences in species boundaries among members of the Montastraea annularis complex based on molecular and morphological markers.Species delimitation of common reef corals in the genus Pocillopora using nucleotide sequence phylogenies, population genetics and symbiosis ecology.Incipient speciation across a depth gradient in a scleractinian coral?Quantification of algal endosymbionts (Symbiodinium) in coral tissue using real-time PCR.Secondary structure of the rRNA ITS2 region reveals key evolutionary patterns in acroporid corals.Genetic drift or natural selection? Hybridization and asymmetric mitochondrial introgression in two Caribbean lizards (Anolis pulchellus and Anolis krugi).Testing the utility of internally transcribed spacer sequences in coral phylogenetics.Spawning times, reproductive compatibilities and genetic structuring in the Acropora aspera group: evidence for natural hybridization and semi-permeable species boundaries in corals.
P2860
Q28601068-87B40924-94B1-47C5-978E-92ECF13DBB45Q28602614-88BC0D85-2D7F-4B6B-B455-8A92432D0C73Q28657996-75FA0695-DCC6-4EC0-949F-2CFA00BBDA33Q28658708-58C03776-8945-4225-A82B-A682913FE4B8Q28744476-4C87CFF1-A795-4BF7-B886-0DFF3FAFD201Q28750339-EEDB2018-4D8A-4318-B76E-D821FF431E24Q28755105-1C767D39-4BA9-4796-8726-5DEEB86863A4Q28757206-C7D4E885-FC9B-4824-91E6-5D355BBA3B69Q28765708-DF87C2A8-71DE-4981-AE4B-58C3C1B877D5Q28767947-48826162-9CAD-46D4-99FC-89FB23B99F0EQ28768191-D1A16019-31E1-4D27-8C6B-FEAE1388B3E8Q33261006-E3D556C9-2734-4BD6-8222-A89F84AF43C2Q33321070-4BFD940D-8ED5-4F66-9F3F-6BD71CACBD0AQ33356642-B9743710-D5D1-4B9E-8A6B-1B3A2BF147BCQ33650399-F61A9AF4-0618-4421-870D-64F228FF146DQ33813959-39D31A11-DEDF-484E-893D-F8BB6AE4FDB7Q33919811-CEEE76B2-AFA7-4AFF-AE76-2CA5DB739BD4Q33942051-9F0A5B94-BA66-4E09-80C0-7A1AC9697EE8Q34039780-6FC82630-F239-41C1-B8E0-CD7F99DF0CDEQ34166379-6F21B2CC-5A8C-4FFB-A6D6-D2043509C7FDQ34206873-F76C07DA-E66B-4808-BE43-51061CB219C7Q34963753-AAA9C9EC-3B19-4C67-93EB-FBDE056C90A2Q35009623-EAE115EF-F70C-45BB-BEC4-3DE9E99AEC78Q35112959-07FAD6F9-983C-4371-A6DB-2E845EB7DAE4Q35334227-70CC79A8-79BC-4E6D-A348-2A0ACD846D11Q35683759-D636D05D-0743-4406-BB20-991A5A0A4C03Q35702119-1610D3D4-3450-4B99-BEA2-EB1577C73273Q35764485-3D6CCC80-782F-4DEF-A99D-DFACDD7A4107Q36543218-FF20D354-6A5F-4AEB-B2BE-1EA4C7ECD33FQ37104393-BFCEDA98-44FE-448D-8352-A25B47B5925DQ37107565-C7D94FB6-F3C4-4704-A6BE-1934512EC6C1Q37480318-13740E88-C4E6-48A8-B031-872164FA1E51Q39013785-9B7C5E32-8D3F-43F8-8305-E51C0D4F7666Q39285388-20F7CB1B-F597-4186-82C8-90D9A341C0AAQ39399950-CA898E5A-0C68-49D6-BB6B-6C352AAE4F70Q40014261-20C8700E-0E5B-47B1-B0A9-FB0AFDD44D04Q42596885-653F390E-C012-4ED5-B808-14DFCB10B201Q42598755-6D1F5924-B745-4A3D-8C13-E4B3B2C3A66DQ42633728-170583EB-0731-46EF-B831-7FF58CE63C8EQ42681384-74251E46-2F83-4B6F-87BF-DCB93F3F2FBD
P2860
The evolutionary history of the coral genus Acropora (Scleractinia, Cnidaria) based on a mitochondrial and a nuclear marker: reticulation, incomplete lineage sorting, or morphological convergence?
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh
2001年學術文章
@zh-hant
name
The evolutionary history of th ...... or morphological convergence?
@en
The evolutionary history of th ...... or morphological convergence?
@nl
type
label
The evolutionary history of th ...... or morphological convergence?
@en
The evolutionary history of th ...... or morphological convergence?
@nl
prefLabel
The evolutionary history of th ...... or morphological convergence?
@en
The evolutionary history of th ...... or morphological convergence?
@nl
P2093
P2860
P1476
The evolutionary history of th ...... or morphological convergence?
@en
P2093
B J McDonald
D J Miller
M J van Oppen
P2860
P304
P356
10.1093/OXFORDJOURNALS.MOLBEV.A003916
P577
2001-07-01T00:00:00Z