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Spider genomes provide insight into composition and evolution of venom and silkTwo types of endosymbiotic bacteria in the enigmatic marine worm Xenoturbella bockiDwarf male of Symbion pandora (cycliophora)A Novel Extracellular Gut Symbiont in the Marine Worm Priapulus caudatus (Priapulida) Reveals an Alphaproteobacterial Symbiont Clade of the EcdysozoaMicrognathozoa: a new class with complicated jaws like those of Rotifera and Gnathostomulida.Population dynamics of American horseshoe crabs--historic climatic events and recent anthropogenic pressures.Rotiferan Hox genes give new insights into the evolution of metazoan bodyplans.Molecular phylogeny of extant horseshoe crabs (Xiphosura, Limulidae) indicates Paleogene diversification of Asian species.Xenoturbella bocki exhibits direct development with similarities to Acoelomorpha.Hidden diversity and host specificity in cycliophorans: a phylogeographic analysis along the North Atlantic and Mediterranean Sea.Description of Endozoicomonas ascidiicola sp. nov., isolated from Scandinavian ascidians.Endozoicomonas Are Specific, Facultative Symbionts of Sea SquirtsMorphology of human Fallopian tubes after infection with Mycoplasma genitalium and Mycoplasma hominis--in vitro organ culture study.Comparative genomic study of arachnid immune systems indicates loss of beta-1,3-glucanase-related proteins and the immune deficiency pathway.The house spider genome reveals an ancient whole-genome duplication during arachnid evolution.Ultrastructure and morphology of the cycliophoran female.Corrigendum: Spider genomes provide insight into composition and evolution of venom and silk.Low Oxygen Levels Slow Embryonic Development of Limulus polyphemus.Comparative myoanatomy of cycliophoran life cycle stages.Cycliophora is a new phylum with affinities to Entoprocta and EctoproctaExternal morphology of the cycliophoran dwarf male: a comparative study of Symbion pandora and S. americanusThe microhabitat of Symbion pandora (Cycliophora) on the mouthparts of its host Nephrops norvegicus (Decapoda: Nephropidae)Investigations into the phylogenetic position of Micrognathozoa using four molecular lociOn the Phylogenetic Position of Rotifera – Have We Come Any Further?Present and Potential Future Distributions of Asian Horseshoe Crabs Determine Areas for ConservationDistribution and speciation in marine intertidal tardigrades: testing the roles of climatic and geographical isolationPhylogeography of North Atlantic intertidal tardigrades: refugia, cryptic speciation and the history of the Mid-Atlantic IslandsIntraspecific shape variation in horseshoe crabs: The importance of sexual and natural selection for local adaptationSize is not everything: a meta-analysis of geographic variation in microscopic eukaryotesVariation in anhydrobiotic survival of two eutardigrade morphospecies: a story of cryptic species and their dispersalCryptic speciation in the recently discovered American cycliophoran Symbion americanus; genetic structure and population expansionBiofilm formation in long-term central venous catheters in children with cancer: a randomized controlled open-labelled trial of taurolidine versus heparinImmunocytochemistry of the neuromuscular systems ofLoxosomella vivipara andL. parguerensis (Entoprocta: Loxosomatidae)Helminths in common eiders (Somateria mollissima): Sex, age, and migration have differential effects on parasite loadsSelf-injection of a dipteran parasitoid into a spiderGrowth and single cell kinetics of the loricate choanoflagellate Diaphanoeca grandis
P50
Q22122091-572814AE-FDE2-4334-B6B0-7F45DA164DABQ24605523-D6AF11F8-B6DC-4506-8454-21B129CBD504Q28202476-D3626146-629C-411A-A239-BA6C56D9E08DQ28603770-6CF6AC84-8FB0-4607-BCD0-73ED280A7221Q33181169-8325AD57-8BF4-40C4-A4CC-55D7438EDB0FQ33618332-F436DEC4-E2B1-4D0C-81CD-EA6A3770F73EQ33687403-430D7262-3E2A-470E-8B2C-30A296646BEBQ34028008-D33E14CD-69E5-4558-BF6D-68498F0056C0Q34035791-44B5AF15-E854-4A32-94D6-D4E386B2DDBCQ34470871-14B48F60-D739-4967-BF8A-4DEC9DDE8B6FQ36061740-50461655-129E-4025-BABC-4450A98CCCCCQ37083771-B0042DA1-FA52-47F2-B16B-7C30E54A4DE7Q37860769-601D65CF-97F8-4EB2-A240-56D468A2DEB1Q38275095-36273A77-37BF-4184-A4F3-4EBAFB0861CDQ38368790-73B65768-0D8F-40E2-A425-F1C42EBDF0F4Q48651043-FB64BD4E-0221-4111-91FD-E1CA9484303DQ49739513-E07FEE5E-45A9-4063-93DD-75A3DE7CA8DFQ50478836-9896F0E1-C258-43B8-9B92-39647F0EE9A1Q51596820-815983F4-8FEC-44AD-8FC9-E17796DA373CQ54509083-5EC7D728-0DE5-402A-8FB0-2EEEC137D235Q54509198-D6AA7F57-D87B-4AD3-82EA-0D360890EF78Q54509404-B98FBAF2-5DF7-4607-9451-4846323D42D6Q54512697-5FE61727-D92D-4A35-A461-3F94388113C9Q54571631-E732C3D9-2CC3-4BFF-967E-D330EF5FA3E2Q55953444-0D1EF89A-05B6-4DD3-984F-EDA15683DCDFQ56920376-DFD019FB-1A3F-4783-8153-F573938F63D6Q56920411-BFACFB4D-65CE-43CB-8E36-DD51BF20B122Q57615355-E5718CDB-2065-42DD-A18D-0434B049CAEAQ57615360-A1CB6FE1-8A86-46B4-B1C4-0E3DB635EF41Q57615366-F9F72E88-7113-4B7D-AFAC-1323B169C462Q57833851-15DCE684-2462-4BA9-BDC3-A33DCC09D91AQ58456007-6247191C-D900-43EB-A7E3-234A17A9D264Q58990813-756E1630-6032-4E5D-BD2F-37059ACDEFBCQ64286551-D5C738CF-132C-4D60-A0F5-C8660D7D0645Q73157566-95AFAC90-B83D-4EF0-91FD-A3CFA5FF4957Q90640387-E5152AAF-6B8D-4DC7-9F8E-94C6F6278CAD
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Peter Funch
@ast
Peter Funch
@en
Peter Funch
@es
Peter Funch
@fr
Peter Funch
@nl
Peter Funch
@sl
type
label
Peter Funch
@ast
Peter Funch
@en
Peter Funch
@es
Peter Funch
@fr
Peter Funch
@nl
Peter Funch
@sl
prefLabel
Peter Funch
@ast
Peter Funch
@en
Peter Funch
@es
Peter Funch
@fr
Peter Funch
@nl
Peter Funch
@sl
P1053
B-7437-2009
P106
P1153
6602504855
P21
P2798
P31
P3829
P496
0000-0002-0184-1552