about
Genomic analysis of organismal complexity in the multicellular green alga Volvox carteriThe genome of Aiptasia, a sea anemone model for coral symbiosisHemichordate genomes and deuterostome originsThe octopus genome and the evolution of cephalopod neural and morphological noveltiesThe African coelacanth genome provides insights into tetrapod evolutionInsights into bilaterian evolution from three spiralian genomesThe Amphimedon queenslandica genome and the evolution of animal complexityThe dynamic genome of HydraNeuromedin U and its putative Drosophila homolog huginQuantifying Preferences and Responsiveness of Marine Zooplankton to Changing Environmental Conditions using MicrofluidicsIndependent evolution of genomic characters during major metazoan transitionsThe genomic substrate for adaptive radiation in African cichlid fishGenome evolution in the allotetraploid frog Xenopus laevis.Expression of secreted Wnt pathway components reveals unexpected complexity of the planarian amputation response.Ancient animal microRNAs and the evolution of tissue identity.The mid-developmental transition and the evolution of animal body plans.A Comprehensive Transcriptomic and Proteomic Analysis of Hydra Head Regeneration.Genomes of coral dinoflagellate symbionts highlight evolutionary adaptations conducive to a symbiotic lifestyle.Linking micro- and macro-evolution at the cell type level: a view from the lophotrochozoan Platynereis dumerilii.Multiple Wnts are involved in Hydra organizer formation and regeneration.Evolutionary active transposable elements in the genome of the coelacanth.Genus-level phylogeny of cephalopods using molecular markers: current status and problematic areas.Development of the annelid axochord: insights into notochord evolution.The Diversification of Early Emerging Metazoans: A Window into the Evolution of Animal Multicellularity.Effects of low seawater pH on the marine polychaete Platynereis dumeriliiIdentification and Expression of Protocadherin Gene Family inSymbiotic organs shaped by distinct modes of genome evolution in cephalopodsThe survey and reference assisted assembly of the Octopus vulgaris genomeGenomic signatures of G-protein-coupled receptor expansions reveal functional transitions in the evolution of cephalopod signal transductionThe quagga mussel genome and the evolution of freshwater toleranceExpansion of a single transposable element family is associated with genome-size increase and radiation in the genus HydraCoupled Genomic Evolutionary Histories as Signatures of Organismal Innovations in Cephalopods: Co-evolutionary Signatures Across Levels of Genome Organization May Shed Light on Functional Linkage and Origin of Cephalopod NoveltiesRepeatCraft: a meta-pipeline for repetitive element de-fragmentation and annotationCephalopod Biology: At the Intersection Between Genomic and Organismal NoveltiesNew bobtail squid (Sepiolidae: Sepiolinae) from the Ryukyu islands revealed by molecular and morphological analysisDeeply conserved synteny resolves early events in vertebrate evolutionAncient animal genome architecture reflects cell type identitiesA draft genome sequence of the elusive giant squid, Architeuthis duxA versatile depigmentation, clearing, and labeling method for exploring nervous system diversity
P50
Q22065894-FC968889-87D8-4B24-9AD6-55D05249D0A0Q22066236-C3D01295-32EF-4600-BFB6-3E4120623EB5Q22122124-5BE0D506-962E-415F-8D0A-8E0A24964A20Q22122127-CF1C662D-A0F6-4989-8C33-3C860368D2D0Q22122139-963B49F3-A047-4643-A2AF-54960227A9BAQ22122146-60F381B2-D33F-45E8-8688-E30164A1094EQ22122176-0F7D2235-0DA4-48C3-8088-CF2CB667901EQ22122195-0E823B9C-4C78-4FC0-A5B1-2522107EFA76Q25257583-8F411AFE-1953-42B5-80A3-4B8D6AE640ABQ27313137-D907CDD9-E19A-4A1B-A066-9550DD5F558DQ28079314-0CE88BC8-B849-4FC3-882A-8669C7AD1A1BQ28652638-82430334-BA9A-4565-85B1-3EE211F595FEQ30275672-CCB515A6-6AD6-4E0E-9E82-EF89C107EA88Q34131150-96706E05-CED8-4DFF-9324-40C23947D4E8Q34309030-4B4BE31A-D7B9-41E4-9E42-3FD51304E748Q34514573-8E4B751F-1B44-4F7D-9630-86616408AF05Q34669166-E8B364F9-2840-4421-A3CD-B8C20BB3F5FCQ37526094-5A26B188-0213-4F41-A69C-3D9D4C07A392Q38061617-BBFAF3C7-1B36-458A-BA6D-A820FBDA74E8Q44643253-DCB8F431-A9BC-4E21-AF70-07BA3D97C9F4Q45371583-235181C2-8060-470A-B248-6896A314AA21Q49873758-BBDEA67E-C6AD-4E98-8D63-EDC5092D374EQ50635110-6EA0EA9E-4355-4086-B0D0-58B9F2280A37Q52343056-02966F24-D724-433B-AB42-6B8D6461BBEDQ57233894-D895B8AA-07A4-42C0-B864-B4A844567C8AQ61448847-01FF6389-C30C-4319-BA26-EEFD74587913Q62580393-34E7D498-3835-4D30-96E1-037B86F9A7E0Q64097508-E7976EE5-59AD-4C4E-ABAC-AA593F7FE404Q64097711-7400C2D4-51AF-441B-B589-F87BABB85B97Q90026473-70F625A9-85C7-444B-A590-839CF9006B16Q90974378-37427E0C-F0E0-4294-AEB0-BFB53DC81D96Q91003301-379C1C8D-CD57-465F-A86A-AC66572391F1Q91234682-FEBE2824-FC4C-4096-94CF-A1F4EB7431C0Q91796910-4AEEEA3C-9110-4861-A3F6-4114CB351E32Q91996207-46C1D65F-14ED-4B69-8F90-DA5EB9972E66Q92094861-843200CD-5315-4D5C-B028-3A5054BC2169Q92432222-56C1E6DF-2E84-4582-878B-5937C5494562Q92672327-51F0CB83-2D03-4251-9E97-B898B583BC50Q96306446-42785633-DA74-4C63-8DAA-843140D983C0
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Oleg Simakov
@ast
Oleg Simakov
@en
Oleg Simakov
@es
Oleg Simakov
@fr
Oleg Simakov
@nl
Oleg Simakov
@sl
type
label
Oleg Simakov
@ast
Oleg Simakov
@en
Oleg Simakov
@es
Oleg Simakov
@fr
Oleg Simakov
@nl
Oleg Simakov
@sl
prefLabel
Oleg Simakov
@ast
Oleg Simakov
@en
Oleg Simakov
@es
Oleg Simakov
@fr
Oleg Simakov
@nl
Oleg Simakov
@sl
P1053
G-4572-2015
P106
P21
P214
12145193346570461094
P31
P3829
P496
0000-0002-3585-4511
P734
P735
P7859
viaf-12145193346570461094