A recessive LRR-RLK gene causes hybrid breakdown in cotton

[1]  Liang Zhao,et al.  Genome sequence of Gossypium anomalum facilitates interspecific introgression breeding , 2022, Plant communications.

[2]  M. Zhang,et al.  Fine mapping and distribution analysis of hybrid necrosis genes Ne1 and Ne2 in wheat in China , 2021, Theoretical and Applied Genetics.

[3]  Xiaoli Shi,et al.  Ne2, a typical CC-NBS-LRR-type gene, is responsible for hybrid necrosis in wheat. , 2021, The New phytologist.

[4]  K. Kato,et al.  The temperature sensitive hybrid breakdown 1 induces low temperature-dependent intrasubspecific hybrid breakdown in rice , 2021, Breeding science.

[5]  Jianying Li,et al.  A Single‐Nucleotide Mutation in a GLUTAMATE RECEPTOR‐LIKE Gene Confers Resistance to Fusarium Wilt in Gossypium hirsutum , 2021, Advanced science.

[6]  Xiaoli Shi,et al.  Fine mapping of hybrid necrosis gene Ne1 in common wheat (Triticum aestivum L.) , 2021, Theoretical and Applied Genetics.

[7]  Junpeng Deng,et al.  A semi-dominant NLR allele causes whole-seedling necrosis in wheat. , 2021, Plant physiology.

[8]  D. Weigel,et al.  A Truncated Singleton NLR Causes Hybrid Necrosis in Arabidopsis thaliana , 2020, Molecular biology and evolution.

[9]  S. He,et al.  Plant-Microbe Interactions Facing Environmental Challenge. , 2019, Cell host & microbe.

[10]  Tetsuya Yamada,et al.  Accumulation of protein aggregates induces autolytic programmed cell death in hybrid tobacco cells expressing hybrid lethality , 2019, Scientific Reports.

[11]  Lei Fang,et al.  A CC-NBS-LRR gene induces hybrid lethality in cotton , 2019, Journal of experimental botany.

[12]  Tianzhen Zhang,et al.  Gossypium barbadense and Gossypium hirsutum genomes provide insights into the origin and evolution of allotetraploid cotton , 2019, Nature Genetics.

[13]  Liang Zhao,et al.  Quantitative Trait Locus Mapping and Candidate Gene Analysis for Verticillium Wilt Resistance Using Gossypium barbadense Chromosomal Segment Introgressed Line , 2018, Front. Plant Sci..

[14]  A. Sweigart,et al.  Gene duplicates cause hybrid lethality between sympatric species of Mimulus , 2017, bioRxiv.

[15]  D. Weigel,et al.  Chlorosis caused by two recessively interacting genes reveals a role of RNA helicase in hybrid breakdown in Arabidopsis thaliana , 2017, The Plant journal : for cell and molecular biology.

[16]  A. Paterson,et al.  Fine mapping and candidate gene analysis of qFL-chr1, a fiber length QTL in cotton , 2017, Theoretical and Applied Genetics.

[17]  Justin T. Page,et al.  Re-evaluating the phylogeny of allopolyploid Gossypium L. , 2015, Molecular phylogenetics and evolution.

[18]  Chang C. Liu,et al.  The rice immune receptor XA21 recognizes a tyrosine-sulfated protein from a Gram-negative bacterium , 2015, Science Advances.

[19]  P. Xu,et al.  Development of Gossypium anomalum-derived microsatellite markers and their use for genome-wide identification of recombination between the G. anomalum and G. hirsutum genomes , 2015, Theoretical and Applied Genetics.

[20]  Lei Fang,et al.  Sequencing of allotetraploid cotton (Gossypium hirsutum L. acc. TM-1) provides a resource for fiber improvement , 2015, Nature Biotechnology.

[21]  G. Rätsch,et al.  Species-wide Genetic Incompatibility Analysis Identifies Immune Genes as Hot Spots of Deleterious Epistasis , 2014, Cell.

[22]  P. Xu,et al.  Morphological, cytological and molecular analyses of a synthetic hexaploid derived from an interspecific hybrid between Gossypium hirsutum and Gossypium anomalum , 2014 .

[23]  Qi Feng,et al.  A two-locus interaction causes interspecific hybrid weakness in rice , 2014, Nature Communications.

[24]  Hao Chen,et al.  Genetic and physiological analysis of a novel type of interspecific hybrid weakness in rice. , 2013, Molecular plant.

[25]  P. He,et al.  Agrobacterium-mediated virus-induced gene silencing assay in cotton. , 2011, Journal of visualized experiments : JoVE.

[26]  D. Weigel,et al.  Complex Evolutionary Events at a Tandem Cluster of Arabidopsis thaliana Genes Resulting in a Single-Locus Genetic Incompatibility , 2011, PLoS genetics.

[27]  M. Koornneef,et al.  Natural variation at Strubbelig Receptor Kinase 3 drives immune-triggered incompatibilities between Arabidopsis thaliana accessions , 2010, Nature Genetics.

[28]  W. Huber,et al.  which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. MAnorm: a robust model for quantitative comparison of ChIP-Seq data sets , 2011 .

[29]  R. Visser,et al.  Rin4 Causes Hybrid Necrosis and Race-Specific Resistance in an Interspecific Lettuce Hybrid[W] , 2009, The Plant Cell Online.

[30]  P. He,et al.  One for all: the receptor-associated kinase BAK1. , 2009, Trends in plant science.

[31]  Tianzhen Zhang,et al.  Interaction of novel Dobzhansky–Muller type genes for the induction of hybrid lethality between Gossypium hirsutum and G. barbadense cv. Coastland R4-4 , 2009, Theoretical and Applied Genetics.

[32]  J. Dubcovsky,et al.  A Kinase-START Gene Confers Temperature-Dependent Resistance to Wheat Stripe Rust , 2009, Science.

[33]  H. Koh,et al.  Fine mapping and candidate gene analysis of hwh1 and hwh2, a set of complementary genes controlling hybrid breakdown in rice , 2008, Theoretical and Applied Genetics.

[34]  N. Warthmann,et al.  Autoimmune Response as a Mechanism for a Dobzhansky-Muller-Type Incompatibility Syndrome in Plants , 2007, PLoS biology.

[35]  M. Matsuoka,et al.  Interaction of two recessive genes, hbd2 and hbd3, induces hybrid breakdown in rice , 2007, Theoretical and Applied Genetics.

[36]  D. Weigel,et al.  Hybrid necrosis: autoimmunity as a potential gene-flow barrier in plant species , 2007, Nature Reviews Genetics.

[37]  W. Guo,et al.  Molecular linkage map of allotetraploid cotton (Gossypium hirsutum L. × Gossypium barbadense L.) with a haploid population , 2002, Theoretical and Applied Genetics.

[38]  E. Myers,et al.  Basic local alignment search tool. , 1990, Journal of molecular biology.

[39]  Joshua A. Lee Genetics of D3 complementary lethality in Gossypium hirsutum and G. barbadense , 1981 .

[40]  R. K. Reid,et al.  INTERSPECIFIC INCOMPATIBILITY IN GOSSYPIUM. II. LIGHT AND ELECTRON MICROSCOPE STUDIES OF CELL NECROSIS AND TUMORIGENESIS IN HYBRIDS OF G. KLOTZSCHIANUM , 1975 .

[41]  L. Phillips,et al.  INTERSPECIFIC INCOMPATIBILITY IN GOSSYPIUM. I. STEM HISTOGENESIS OF G. HIRSUTUM X G. GOSSYPIOIDES , 1972 .

[42]  C. Pigott Genetics and the Origin of Species , 1959, Nature.

[43]  S. G. Stephens The genetics of ‘corky’ , 1950, Journal of Genetics.

[44]  R. A. Silow The comparative genetics ofGossypium anomalum and the cultivated Asiatic cottons , 1941, Journal of Genetics.

[45]  沈新莲 Morphological, cytological and molecular analyses of a synthesized hexaploid derived from an interspecific hybrid between Gossypium hirsutum and G. anomalum , 2014 .

[46]  K. Garrett,et al.  A benefit of high temperature: increased effectiveness of a rice bacterial blight disease resistance gene. , 2010, The New phytologist.

[47]  F. Lloyd ISOLATION AND THE ORIGIN OF SPECIES. , 1905, Science.