about
Supergenes and complex phenotypesMolecular evidence for ancient asexuality in timema stick insectsNo Accumulation of Transposable Elements in Asexual ArthropodsNematode endoparasites do not codiversify with their stick insect hostsHydrocarbon divergence and reproductive isolation in Timema stick insects.Mechanisms of reproductive isolation between an ant species of hybrid origin and one of its parents.Genes as leaders and followers in evolution.On the fate of sexual traits under asexuality.Genetics of decayed sexual traits in a parasitoid wasp with endosymbiont-induced asexuality.Parthenogenesis: birth of a new lineage or reproductive accident?Twigs on the tree of life? Neutral and selective models for integrating macroevolutionary patterns with microevolutionary processes in the analysis of asexuality.Habitat heterogeneity favors asexual reproduction in natural populations of grassthrips.Evolution of a cellular immune response in Drosophila: a phenotypic and genomic comparative analysis.Nature versus nurture in social insect caste differentiation.Non-random autosome segregation: a stepping stone for the evolution of sex chromosome complexes? Sex-biased transmission of autosomes could facilitate the spread of antagonistic alleles, and generate sex-chromosome systems with multiple X or Y chromGenetic causes of transitions from sexual reproduction to asexuality in plants and animals.Androgenesis: where males hijack eggs to clone themselves.Evolution: sociality as a driver of unorthodox reproduction.De novo characterization of the Timema cristinae transcriptome facilitates marker discovery and inference of genetic divergence.Extreme genetic diversity in asexual grass thrips populations.Female Stick Insects Mate Multiply to Find Compatible Mates.Effective purifying selection in ancient asexual oribatid mitesLoss of phenotypic plasticity generates genotype-caste association in harvester ants.Asexual evolution: do intragenomic parasites maintain sex?Two alternate mechanisms contribute to the persistence of interdependent lineages in Pogonomyrmex harvester ants.Genetic compatibility affects queen and worker caste determination.Stick insect genomes reveal natural selection's role in parallel speciation.Neutral and selection-driven decay of sexual traits in asexual stick insects.Genetic components to caste allocation in a multiple-queen ant species.Deleterious mutation accumulation in asexual Timema stick insects.Sex uncovered: the evolutionary biology of reproductive systems.Positive feedback in the transition from sexual reproduction to parthenogenesis.Genetic caste determination in Pogonomyrmex harvester ants imposes costs during colony founding.Multiple direct transitions from sexual reproduction to apomictic parthenogenesis in Timema stick insects.Evolution and comparative ecology of parthenogenesis in haplodiploid arthropodsNiche differentiation among clones in asexual grass thripsFundamental and realized feeding niche breadths of sexual and asexual stick insectsFundamental and realized feeding niche breadths of sexual and asexual stick-insectsParthenogenesisUsing Parthenogenetic Lineages to Identify Advantages of Sex
P50
Q26853275-4825C07F-7399-41A1-8AD9-A66914A99890Q28241101-4526285C-B5BD-45BE-A576-7780AB5DCC9DQ28604038-BBBF9635-1D44-472C-8E85-665A8EBD647CQ28830320-0AE9C661-3AEC-4E8A-A541-B3940527B7D2Q30451669-998DD3EE-640A-4141-84B3-2532990FFA82Q31150942-E41C791E-756F-47A3-B0C5-2D2C1413877CQ33800567-97487855-5E8A-445A-9FAB-2BEF5DA97AE8Q34399002-A4E39DFB-F2CB-4A6F-9462-0C9979F6DAA0Q34454982-3CC3EF55-F753-48D3-BBFE-1271A7C144ACQ35737334-938F59B0-49C5-404F-AFA6-19B6E50A9845Q37344945-A3D10192-2E41-4ED5-81B8-77995F8A685FQ37456378-2E951695-39F4-478E-ADA8-530451C67AD2Q37616498-E23959DC-1B9B-4435-9C81-41211561E502Q37682429-A04FAAC5-CF8B-4F3D-A0DA-49069C981624Q37820606-0B41E077-6AA7-4C15-87F7-AA9E976160C2Q38199217-4A413DE9-41F9-430B-8907-FCC952C0F9A6Q38952354-B8540289-C0D2-481B-A1EB-AEFDFF52F3FDQ39440736-842ACCCC-200D-46A1-9CFA-93F9FD678707Q39651752-0804A384-D5B7-4F10-B50D-13C8222241B5Q40006717-15586329-3773-4728-BDA2-C6A03F61B5DAQ40224198-1CFBC57B-70B8-4D04-8753-A13765CDB8EEQ42376057-49BB7E2A-5DD0-4DAA-8EDD-4E7A38EE02A2Q43559648-AB64F5A4-652B-4C91-9C95-27A99F0D7FF9Q45883685-8F4F9D18-F723-4CAD-8948-180F32487D5FQ46427751-067A8511-6ABD-4D77-802B-F183629B71C6Q46987257-07450493-F0C8-4B71-9A41-903C39E4D0EAQ47643394-AD2F5C83-AA36-4805-9F3C-E45B3E33390BQ51232493-06331CFF-A510-4712-AC72-AEE95F479201Q51406657-D259FD86-48E2-4D87-A5F3-B9CCCD220626Q51410801-31DB1BAD-FA29-4677-AF3A-B6C49F8231B6Q51432660-6A253F3C-41FC-4BDD-A282-E2EE4ACE642BQ51592055-C05BCE4E-A739-4483-BF59-89029BFBBC03Q51729476-1C087ED7-3579-4C02-AFFA-F8463DB1FDCDQ52693744-63E11C65-CD18-45FC-9F20-AE618F02E6A4Q57151570-D81FD73D-B6F3-41A7-A136-7D34112F1628Q58588481-4245C341-94C5-4FA3-AD6B-33D966AB157CQ59806259-7383ED16-A5B0-4AC2-AC31-41D9117A8ECAQ60169756-43514CB0-7EC8-4AA8-B1F9-CD9D2E126E36Q60169761-D1E06EC6-97E2-49B4-93F9-48DB224E452FQ60169766-0DD49573-27B5-4990-9C77-9C38DFE01FF4
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Tanja Schwander
@ast
Tanja Schwander
@en
Tanja Schwander
@es
Tanja Schwander
@nl
Tanja Schwander
@sl
type
label
Tanja Schwander
@ast
Tanja Schwander
@en
Tanja Schwander
@es
Tanja Schwander
@nl
Tanja Schwander
@sl
prefLabel
Tanja Schwander
@ast
Tanja Schwander
@en
Tanja Schwander
@es
Tanja Schwander
@nl
Tanja Schwander
@sl
P106
P2038
Tanja_Schwander
P21
P31
P496
0000-0003-1945-5374