Hybrid incompatibility genes: remnants of a genomic battlefield?
about
Rates of molecular evolution and diversification in plants: chloroplast substitution rates correlate with species-richness in the ProteaceaeImprinted gene expression in hybrids: perturbed mechanisms and evolutionary implications.The Red Queen in mitochondria: cyto-nuclear co-evolution, hybrid breakdown and human diseaseCis-by-Trans regulatory divergence causes the asymmetric lethal effects of an ancestral hybrid incompatibility geneChimeric Sex-Determining Chromosomal Regions and Dysregulation of Cell-Type Identity in a Sterile Zygosaccharomyces Allodiploid YeastCaenorhabditis briggsae recombinant inbred line genotypes reveal inter-strain incompatibility and the evolution of recombinationSelfish genetic elements, genetic conflict, and evolutionary innovationHybrid Dysfunction Expressed as Elevated Metabolic Rate in Male Ficedula FlycatchersTuning a ménage à trois: co-evolution and co-adaptation of nuclear and organellar genomes in plants.Spatially Heterogeneous Environmental Selection Strengthens Evolution of Reproductively Isolated Populations in a Dobzhansky-Muller System of Hybrid Incompatibility.Reproductive isolation of hybrid populations driven by genetic incompatibilities.Genome rearrangements and pervasive meiotic drive cause hybrid infertility in fission yeastHaldane's rule in the 21st century.Complex deleterious interactions associated with malic enzyme may contribute to reproductive isolation in the copepod Tigriopus californicus.Interspecific tests of allelism reveal the evolutionary timing and pattern of accumulation of reproductive isolation mutations.Incompatibility and competitive exclusion of genomic segments between sibling Drosophila speciesChromosomal variation segregates within incipient species and correlates with reproductive isolation.Hybrid incompatibility arises in a sequence-based bioenergetic model of transcription factor bindingHaldane's rule is linked to extraordinary sex ratios and sperm length in stalk-eyed flies.A test of double interspecific introgression of nucleoporin genes in Drosophila.Hitchhiking to speciation.Characterization of Prdm9 in equids and sterility in mulesThe Hmr and Lhr hybrid incompatibility genes suppress a broad range of heterochromatic repeatsThe gut microbial community of Midas cichlid fish in repeatedly evolved limnetic-benthic species pairs.Sexually antagonistic zygotic drive: a new form of genetic conflict between the sex chromosomes.Interspecific Y chromosome introgressions disrupt testis-specific gene expression and male reproductive phenotypes in Drosophila.Nuclear-cytoplasmic conflict in pea (Pisum sativum L.) is associated with nuclear and plastidic candidate genes encoding acetyl-CoA carboxylase subunits.Chromatin evolution and molecular drive in speciation.Evolutionary Implications of Mechanistic Models of TE-Mediated Hybrid Incompatibility.Postzygotic Isolation Evolves before Prezygotic Isolation between Fresh and Saltwater Populations of the Rainwater Killifish, Lucania parva.How can satellite DNA divergence cause reproductive isolation? Let us count the chromosomal ways.A Z-linked sterility locus causes sexual abstinence in hybrid females and facilitates speciation in Spodoptera frugiperda.Lineage-Specific Evolution of the Complex Nup160 Hybrid Incompatibility Between Drosophila melanogaster and Its Sister Species.Alternative Splice in Alternative Lice.Detection of genetic incompatibilities in non-model systems using simple genetic markers: hybrid breakdown in the haplodiploid spider mite Tetranychus evansi.Mapping of within-species segregation distortion in Drosophila persimilis and hybrid sterility between D. persimilis and D. pseudoobscuraSimple Biophysical Model Predicts Faster Accumulation of Hybrid Incompatibilities in Small Populations Under Stabilizing SelectionThe genetics of sex chromosomes: evolution and implications for hybrid incompatibilityMitochondrial-Nuclear Epistasis Impacts Fitness and Mitochondrial Physiology of Interpopulation Caenorhabditis briggsae HybridsSuppression of F1 Male-Specific Lethality in Caenorhabditis Hybrids by cbr-him-8.
P2860
Q21284004-90E03AE6-1C0D-4BD8-93B8-69FAC014EE64Q27686892-4115AC47-FEFD-4A68-B271-BBE424DB14D8Q28086964-6B7C4806-695E-44E6-9BF0-0E6336336ED8Q28481619-BB2C24D7-29AC-495D-A8C4-E3330000884BQ28600890-A9D78A10-4639-4F8E-BF64-5259B0B1EC1DQ28742637-75E49A35-643F-4C46-86F3-85F6515A2734Q28742794-7CB26EC5-5771-4E74-A4BD-EAF8F32E445FQ28828129-9889E8C8-7832-484C-A963-4534A2FDAD04Q30586742-2EFB63BA-26ED-44C6-9AFD-92AEF50BD761Q30829582-EC392D4E-B9BD-4265-AA12-CD4FBFFBA533Q30909753-EDCD3E37-6805-4E99-80E0-338D09433BA7Q33789742-59CC6E5E-70ED-4490-99E7-90A9C6A8B0EBQ33790794-D7D42819-6397-42FA-A0CB-CBFF6580DFD1Q33952201-6D4C9007-3107-4B13-A102-A3CB3818026AQ34165686-C4E702AC-8215-4B45-B0DB-B37215E2CC75Q34325582-75A839B6-7A68-4A2A-B67B-524C866205C7Q34429800-DC786F84-C86A-4D41-8759-950BF26557ABQ34471588-FED6517D-7B90-4854-9C46-B0ACF9394EEEQ34471594-DD62EAD5-32B0-44FE-8FFC-3FE0309FC925Q34514482-07FDFCB9-968F-4889-9149-E4D28477B2C1Q34611015-2D5428B8-73B8-4A74-B6C6-FAB5A211B6C8Q34685068-066A692C-879A-4565-9F8A-EB6C28DC9043Q35126313-15C24567-C678-400F-92C6-A052B6C1B8A7Q35148020-15CE2A5A-020C-43A5-9029-11E75569173DQ35164341-2DEF9D20-F4CA-4D43-87DF-D683038BB695Q35346106-86DD67F7-14BD-4EA0-9A27-87DCE76238FAQ35581104-36F1BF31-A060-404E-960A-C1C5D2D02D1AQ35606571-5352F443-CABF-442D-9C64-E03303D63522Q35810622-32A12258-EC67-4C03-90AE-126AB63EE3A7Q35810673-8B219BE9-2A64-457E-9180-4E283D2E31A5Q35910286-24314542-2086-4E66-B458-2EC06523FCE4Q36009858-0CB8E291-40F9-4E9C-B35D-F2017E147A48Q36071263-2A773F9B-5CE8-47FC-A1F9-92BFF6AEE3A9Q36077821-50648241-57A8-4E8A-8F88-AF00C49E9493Q36174428-1A42B106-42AB-4819-89F9-38FEFE290FEEQ36235681-134C7A0F-CED8-4580-B205-E0E3B645B0B2Q36365194-93F0DF9A-0C02-4B76-8C9D-FA0E42DE01C6Q36432991-3C006059-6C64-4475-8475-833A5F01ABB6Q36440396-95DCC79E-91E1-4BD5-B042-9C126FF57642Q36648714-39B6C7D9-AF61-4BAC-9BE7-972850A31D97
P2860
Hybrid incompatibility genes: remnants of a genomic battlefield?
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 02 June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Hybrid incompatibility genes: remnants of a genomic battlefield?
@en
Hybrid incompatibility genes: remnants of a genomic battlefield?
@nl
type
label
Hybrid incompatibility genes: remnants of a genomic battlefield?
@en
Hybrid incompatibility genes: remnants of a genomic battlefield?
@nl
prefLabel
Hybrid incompatibility genes: remnants of a genomic battlefield?
@en
Hybrid incompatibility genes: remnants of a genomic battlefield?
@nl
P1433
P1476
Hybrid incompatibility genes: remnants of a genomic battlefield?
@en
P2093
Norman A Johnson
P304
P356
10.1016/J.TIG.2010.04.005
P577
2010-06-02T00:00:00Z