about
Molecular phylogeny restores the supra-generic subdivision of homoscleromorph sponges (Porifera, Homoscleromorpha)Resolving difficult phylogenetic questions: why more sequences are not enoughEcdysozoan mitogenomics: evidence for a common origin of the legged invertebrates, the PanarthropodaPhylogenetic position of the Pentastomida and (pan)crustacean relationshipsMitochondrial genome of the homoscleromorph Oscarella carmela (Porifera, Demospongiae) reveals unexpected complexity in the common ancestor of sponges and other animalsThe Global Invertebrate Genomics Alliance (GIGA): developing community resources to study diverse invertebrate genomes.Cnidarian phylogenetic relationships as revealed by mitogenomicsExtreme mitochondrial evolution in the ctenophore Mnemiopsis leidyi: Insight from mtDNA and the nuclear genomeEvolution of linear mitochondrial genomes in medusozoan cnidariansThe mitochondrial genomes of sponges provide evidence for multiple invasions by Repetitive Hairpin-forming Elements (RHE)Seventeen new complete mtDNA sequences reveal extensive mitochondrial genome evolution within the DemospongiaeIntegrative taxonomic re-description of Halisarca magellanica and description of a new species of Halisarca (Porifera, Demospongiae) from Chilean PatagoniaRNA interference in marine and freshwater sponges: actin knockdown in Tethya wilhelma and Ephydatia muelleri by ingested dsRNA expressing bacteria.Systematics and molecular phylogeny of the family oscarellidae (homoscleromorpha) with description of two new oscarella speciesReconstructing ordinal relationships in the Demospongiae using mitochondrial genomic data.Sequencing complete mitochondrial and plastid genomes.Comparative study of human mitochondrial proteome reveals extensive protein subcellular relocalization after gene duplicationsDinoflagellates associated with freshwater sponges from the ancient lake baikal.Mitochondrial DNA of Clathrina clathrus (Calcarea, Calcinea): six linear chromosomes, fragmented rRNAs, tRNA editing, and a novel genetic code.Animal Mitochondrial DNA as We Do Not Know It: mt-Genome Organization and Evolution in Nonbilaterian Lineages.Ancestral state reconstruction infers phytopathogenic origins of sooty blotch and flyspeck fungi on apple.Cytonuclear Interactions in the Evolution of Animal Mitochondrial tRNA MetabolismDeep phylogeny and evolution of sponges (phylum Porifera).Mitochondrial genome of the moon jelly Aurelia aurita (Cnidaria, Scyphozoa): A linear DNA molecule encoding a putative DNA-dependent DNA polymerase.Extensive Mitochondrial mRNA Editing and Unusual Mitochondrial Genome Organization in Calcaronean Sponges.Transcriptome sequencing and delimitation of sympatric Oscarella species (O. carmela and O. pearsei sp. nov) from California, USA.Mitochondrial genomes of two demosponges provide insights into an early stage of animal evolution.Glass sponges and bilaterian animals share derived mitochondrial genomic features: a common ancestry or parallel evolution?Eight new mtDNA sequences of glass sponges reveal an extensive usage of +1 frameshifting in mitochondrial translation.Rapidly evolving mitochondrial genome and directional selection in mitochondrial genes in the parasitic wasp nasonia (hymenoptera: pteromalidae).Extensive and evolutionarily persistent mitochondrial tRNA editing in Velvet Worms (phylum Onychophora).The twin-arginine subunit C in Oscarella: origin, evolution, and potential functional significance.The mitochondrial genome of Hydra oligactis (Cnidaria, Hydrozoa) sheds new light on animal mtDNA evolution and cnidarian phylogeny.The integrative taxonomic approach applied to porifera: a case study of the homoscleromorpha.Small inverted repeats drive mitochondrial genome evolution in Lake Baikal sponges.Gene recruitment--a common mechanism in the evolution of transfer RNA gene families.Key transitions in animal evolution: a mitochondrial DNA perspective.Gene translocation links insects and crustaceans.Characterization of mitochondrial proteomes of nonbilaterian animalsParallel Loss of Nuclear-Encoded Mitochondrial Aminoacyl-tRNA Synthetases and mtDNA-Encoded tRNAs in Cnidaria
P50
Q21091085-C75B7DEC-F642-4CA2-96B2-19AE2ECDE1E5Q21092718-6562C014-62A1-4619-B506-CB43E8B5D80EQ24569632-E7EF1FC2-E15F-4655-B0C9-8F25453D2999Q24678560-CDD9D0A1-73D1-4216-B997-CAF3B80E4E09Q28272978-6679E706-76EB-42C4-8B8E-3F25E160E0C7Q28657405-85383A5B-D8D0-4CB5-9875-6166DD596D57Q28703553-A601E940-B1D7-462E-A19F-2147F18ED659Q28730918-9CCFC5D0-FD4D-40A2-A489-D2C5766E34F7Q28732394-20559C68-332C-458A-B243-EEF92AD71723Q28749423-AD21FA51-B4E2-490A-B9E2-EBA5863C375EQ28757825-6DAF01A5-AC42-4D60-AC17-373759BF04B9Q28939768-77CAAC5A-C1C8-4F26-81EE-A9F11D446A81Q30502984-FD49D0B6-658D-4048-9A54-77B20F9F9E7AQ30640993-027BAA99-DE79-4940-9601-031E3AAA539FQ31160625-6C8C33AA-2A7C-4179-9853-6281BB7F2AADQ33280989-14AA35A7-79FF-4DFA-A1FC-EF51069232BDQ33516894-B3733508-EFAB-462E-AD19-94D920BED6BDQ33684482-53771280-22EC-4530-BCBE-6063FF99E636Q34034694-60D24588-2B54-4CC3-BFF5-B6CA00FE00D7Q34047307-9CF6DEC8-DB65-4ED7-8139-5596EE2172FEQ35887808-C55630C2-58CE-47B4-A9D4-443642F30CD6Q36023240-BD496E27-2233-4E17-ACFA-78233C7EFFFCQ38007720-C092826C-353D-40A2-B192-99B025ECBF8AQ38508936-6A312171-B69E-4DC5-BC1C-26B667AC2519Q40150526-9369C285-1F3D-469A-9F8D-D987E9BA9B9EQ41367070-61B391E8-B24C-41C3-B299-857235CD0722Q42474153-EBD400B7-55A4-4BA3-A6D7-DF11BF604AF1Q42617213-8C5836C9-D039-42F6-979D-377A70069465Q42625729-760682AC-DAF8-4DD6-8D30-DB1DB9FD3DBEQ43069191-1CE2B899-6DD8-494D-918E-30D26CCF4DDAQ43612690-529B911B-6756-44E7-9BE3-592E6BE7CF49Q45847118-FEEEA27D-1434-4A5A-89E7-EC7BC609DEFEQ46789320-9D8F9739-FE07-4561-AA1B-F6607E5D346DQ48622442-6C1C4473-DB55-46B5-AAD4-E3E452926E4AQ51560605-89F5502E-06C9-4931-9411-6D0579A1C72DQ51610849-00E23A8C-A7A2-4917-8FF4-8BFA8CF925A2Q51700016-93CD4B4C-6129-4472-8A47-83D83CC59113Q52563100-F05BDBC9-2510-4844-B5CD-ED5C2ACE18FFQ60302462-2486E8CF-568D-4C4A-A93B-6DAF8F9594FDQ60302479-5A934E67-0DE1-49C5-B697-F1E818372100
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Dennis V Lavrov
@nl
Dennis V Lavrov
@sl
Dennis V. Lavrov
@en
Dennis V. Lavrov
@es
type
label
Dennis V Lavrov
@nl
Dennis V Lavrov
@sl
Dennis V. Lavrov
@en
Dennis V. Lavrov
@es
prefLabel
Dennis V Lavrov
@nl
Dennis V Lavrov
@sl
Dennis V. Lavrov
@en
Dennis V. Lavrov
@es
P106
P1153
6603220119
P21
P31
P496
0000-0002-2745-1704