Is self-fertilization an evolutionary dead end? Revisiting an old hypothesis with genetic theories and a macroevolutionary approach.
about
Genomic identification of founding haplotypes reveals the history of the selfing species Capsella rubellaDriving south: a multi-gene phylogeny of the brown algal family Fucaceae reveals relationships and recent drivers of a marine radiationEvolutionary consequences of self-fertilization in plantsBoechera, a model system for ecological genomicsPedigree-free estimates of heritability in the wild: promising prospects for selfing populationsInbreeding and outbreeding depression in Caenorhabditis nematodesMultiple independent origins of auto-pollination in tropical orchids (Bulbophyllum) in light of the hypothesis of selfing as an evolutionary dead endHeterostyly accelerates diversification via reduced extinction in primrosesSelf-sterility in flowering plants: preventing self-fertilization increases family diversification ratesMissing domesticated plant forms: can artificial selection fill the gap?Plant sexual reproduction during climate change: gene function in natura studied by ecological and evolutionary systems biologyHomoeolog-specific retention and use in allotetraploid Arabidopsis suecica depends on parent of origin and network partnersNiche and range size patterns suggest that speciation begins in small, ecologically diverged populations in North American monkeyflowers (Mimulus spp.).Mating systems and selection efficacy: a test using chloroplastic sequence data in Angiosperms.Extreme environments select for reproductive assurance: evidence from evening primroses (Oenothera).Confounding asymmetries in evolutionary diversification and character change.Dichogamy correlates with outcrossing rate and defines the selfing syndrome in the mixed-mating genus Collinsia.Adding perches for cross-pollination ensures the reproduction of a self-incompatible orchid.Natural variation of outcrossing in the hermaphroditic nematode Pristionchus pacificus.Origins and consequences of serpentine endemism in the California flora.Floral adaptation and diversification under pollen limitation.The pollination niche and its role in the diversification and maintenance of the southern African flora.Understanding plant reproductive diversity.Transmission advantage favors selfing allele in experimental populations of self-incompatible Witheringia solanacea (solanaceae).Low levels of linkage disequilibrium in wild barley (Hordeum vulgare ssp. spontaneum) despite high rates of self-fertilization.Surprising fitness consequences of GC-biased gene conversion: I. Mutation load and inbreeding depression.Prezygotic barriers to hybridization in marine broadcast spawners: reproductive timing and mating system variationSexual partners for the stressed: facultative outcrossing in the self-fertilizing nematode Caenorhabditis elegans.Recent and projected increases in atmospheric CO2 concentration can enhance gene flow between wild and genetically altered rice (Oryza sativa).Reproductive isolation during domestication.Genomic consequences of transitions from cross- to self-fertilization on the efficacy of selection in three independently derived selfing plants.Evolution of the bipolar mating system of the mushroom Coprinellus disseminatus from its tetrapolar ancestors involves loss of mating-type-specific pheromone receptor function.Degradation of sexual reproduction in Veronica filiformis after introduction to Europe.Reproductive assurance drives transitions to self-fertilization in experimental Caenorhabditis elegans.Secondary evolution of a self-incompatibility locus in the Brassicaceae genus Leavenworthia.Effects of mating system on adaptive potential for leaf morphology in Crepis tectorum (Asteraceae).Lifetime inbreeding depression, purging, and mating system evolution in a simultaneous hermaphrodite tapeworm.Speciation and introgression between Mimulus nasutus and Mimulus guttatusWhole-genome nucleotide diversity, recombination, and linkage disequilibrium in the model legume Medicago truncatula.Model inadequacy and mistaken inferences of trait-dependent speciation.
P2860
Q21092405-554070FF-9BA1-4945-B6F9-E40BAED9DF7BQ21284042-AF04079E-86E5-4360-9441-426351D12369Q22065936-EB497981-D45F-4B4B-8696-929E76B3F4B6Q24594182-AA7B3361-D37B-4804-BBD5-E9FABEC70507Q27313303-34D04E8C-E126-410D-BA50-6AAED06DD285Q28304705-9F0DD2D8-9306-47E3-B01C-8629D588CB4FQ28607542-F2FCBF06-1EC8-4160-B5C8-E9C62D2C823CQ28658892-0BFC9F7A-A706-4CEB-9E0D-28F465642C84Q28729048-592FA0D3-BA7E-43A6-B90E-3A46FA3B8615Q28729958-FFBDA250-515A-483A-B56E-C610627D433EQ28740535-291D5F63-6003-42B0-A7B2-914490A45715Q28742321-13B145B2-1B0C-4C10-811C-41EFBA94D35AQ30735228-04A033CD-653A-408E-A8A9-E96F5CDE1BD0Q30786784-FC4500E1-5BC6-4F61-BE28-5622CF488128Q31004576-8F72DE76-6752-4355-B1A1-B62FB244F3E3Q33259182-69BD3909-5140-4278-817C-E84BA81646F2Q33352288-2B630436-64ED-469C-981A-30B115F2D83DQ33355047-6DEFF217-AE6E-42D0-87FF-810263070BB5Q33432334-A3566C54-D70E-45CC-958D-333811E601F1Q33682724-0C4C8E52-F9C6-4076-98C4-681E372DB514Q33726260-99A30753-9F68-47DC-BE6F-2C2555D1480AQ33726304-9F797A37-CBD7-44ED-A9C2-C378C53C96EDQ33743106-F74EE0E1-60DB-4F97-B662-886C8BE5FEF0Q33838597-6274A70D-F19A-4D23-91CF-2D9DF366AEB1Q33851153-1954EA6B-3506-4964-96AD-6E1A2F792541Q34007952-054A4CC3-1E11-4C0D-ADF4-9803A569448EQ34259878-7EC8506F-95FC-47CD-A252-8724E8A88372Q34280305-5B42E441-C1D0-4169-9363-D706625857C5Q34287505-5639734A-8B0C-43A6-8950-944647129F30Q34330730-6E3618A5-8531-418B-A1EA-2203E0E65E89Q34474781-60D8D96F-95FD-4045-B61B-C7FCFB051D8CQ34491959-3825C57C-ECE3-4A7A-9A22-88D39C30A31FQ34496619-246BFB79-FE88-4425-8C7D-BA04A4B2A725Q34528006-795FCE2F-8189-4147-88DF-67EEFC1F1789Q34729667-4FD1AFEF-08FB-4696-ABE5-820245FAB44DQ34891163-EE74FCC1-6019-479E-ADFA-BF359AAFF78EQ35115348-1B2ADAFE-8AF7-4279-85D4-A6D9C1FE7333Q35195390-A77C2B00-DE2F-463C-AFE8-9F93594E6DEBQ35408770-4A254C6A-4496-48DE-BA79-EE10113B1C40Q35545040-EC97C60A-9C9D-4356-93C7-DD2E3AEE2ED9
P2860
Is self-fertilization an evolutionary dead end? Revisiting an old hypothesis with genetic theories and a macroevolutionary approach.
description
2001 nî lūn-bûn
@nan
2001 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Is self-fertilization an evolu ...... a macroevolutionary approach.
@ast
Is self-fertilization an evolu ...... a macroevolutionary approach.
@en
Is self-fertilization an evolu ...... a macroevolutionary approach.
@nl
type
label
Is self-fertilization an evolu ...... a macroevolutionary approach.
@ast
Is self-fertilization an evolu ...... a macroevolutionary approach.
@en
Is self-fertilization an evolu ...... a macroevolutionary approach.
@nl
prefLabel
Is self-fertilization an evolu ...... a macroevolutionary approach.
@ast
Is self-fertilization an evolu ...... a macroevolutionary approach.
@en
Is self-fertilization an evolu ...... a macroevolutionary approach.
@nl
P356
P1476
Is self-fertilization an evolu ...... a macroevolutionary approach.
@en
P2093
Morrell PL
Takebayashi N
P304
P356
10.2307/3558325
P407
P577
2001-07-01T00:00:00Z