Reproductive isolation is defined as processes that prevent individuals of different populations from mating, survival or producing fertile offspring. Reproductive isolation is critical for driving speciation and main...Reproductive isolation is defined as processes that prevent individuals of different populations from mating, survival or producing fertile offspring. Reproductive isolation is critical for driving speciation and maintaining species identity, which has been a fundamental concern in evolutionary biology. In plants,reproductive isolation can be divided into prezygotic and postzygotic reproductive barriers, according to its occurrence at different developmental stages. Postzygotic reproductive isolation caused by reduced fitness in hybrids is frequently observed in plants, which hinders gene flow between divergent populations and has substantial effects on genetic differentiation and speciation, and thus is a major obstacle for utilization of heterosis in hybrid crops. During the past decade, China has made tremendous progress in molecular and evolutionary basis of prezygotic and postzygotic reproductive barriers in plants. Present understandings in reproductive isolation especially with new data in the last several years well support three evolutionary genetic models, which represent a general mechanism underlying genomic differentiation and speciation. The updated understanding will offer new approaches for the development of wide-compatibility or neutral varieties, which facilitate breeding of hybrid rice as well as other hybrid crops.展开更多
The rice indica/japonica hybrid shows strong heterosis.However,such inter-subspecific hybrid can't be directly used in rice production due to its low spikelet fertility.The S5 locus was proved to be associated with f...The rice indica/japonica hybrid shows strong heterosis.However,such inter-subspecific hybrid can't be directly used in rice production due to its low spikelet fertility.The S5 locus was proved to be associated with fertility of indica/japonica hybrid and its S5n allele from wide-compatibility variety (WCV) is capable to overcome fertility barrier.In the present study,we reported the causal sites in the S5 locus responsible for compatibility of indica/japonica hybrid.Fine-mapping of the S5 locus using the 11 test-cross families pinpoints a candidate S5 locus encoding aspartic protease (Asp).Intragenic recombination within the Asp gene happened in a number of recombinants,resulting in chimeric S5j-S5n alleles.Just like S5n,the chimeric S5j-S5n allele displayed higher spikelet fertility when combined with the S5i allele.In the complementary test,however,the S5n allele from WCVs failed to enhance fertilities of the indica/japonica hybrids.Compared to both indica and japonica varieties,all nine WCVs from different resources are characterized with a 136 bp deletion in the Asp N-terminus,which probably renders the S5n allele non-functional.Furthermore,an A/C polymorphic site is detected 1,233 bp downstream of the Asp start codon.The heterozygous A/C site of the Asp gene in indica/japonica hybrid is believed to be the casual factor to cause partial sterility.The functional makers based on the two polymorphic sites will be broadly used in developing wide-compatibility rice varieties.展开更多
基金supported by grants from the National Key Research and Development Program of China (2016YFD0100801)the National Natural Science Foundation of China (No.31771873)the National Program for Support of Top-notch Young Professionals
文摘Reproductive isolation is defined as processes that prevent individuals of different populations from mating, survival or producing fertile offspring. Reproductive isolation is critical for driving speciation and maintaining species identity, which has been a fundamental concern in evolutionary biology. In plants,reproductive isolation can be divided into prezygotic and postzygotic reproductive barriers, according to its occurrence at different developmental stages. Postzygotic reproductive isolation caused by reduced fitness in hybrids is frequently observed in plants, which hinders gene flow between divergent populations and has substantial effects on genetic differentiation and speciation, and thus is a major obstacle for utilization of heterosis in hybrid crops. During the past decade, China has made tremendous progress in molecular and evolutionary basis of prezygotic and postzygotic reproductive barriers in plants. Present understandings in reproductive isolation especially with new data in the last several years well support three evolutionary genetic models, which represent a general mechanism underlying genomic differentiation and speciation. The updated understanding will offer new approaches for the development of wide-compatibility or neutral varieties, which facilitate breeding of hybrid rice as well as other hybrid crops.
基金supported by the National High-Tech ‘863’ Program of China (No. 2002AA224041)the National Natural Science Foundation of China (No.30771318)
文摘The rice indica/japonica hybrid shows strong heterosis.However,such inter-subspecific hybrid can't be directly used in rice production due to its low spikelet fertility.The S5 locus was proved to be associated with fertility of indica/japonica hybrid and its S5n allele from wide-compatibility variety (WCV) is capable to overcome fertility barrier.In the present study,we reported the causal sites in the S5 locus responsible for compatibility of indica/japonica hybrid.Fine-mapping of the S5 locus using the 11 test-cross families pinpoints a candidate S5 locus encoding aspartic protease (Asp).Intragenic recombination within the Asp gene happened in a number of recombinants,resulting in chimeric S5j-S5n alleles.Just like S5n,the chimeric S5j-S5n allele displayed higher spikelet fertility when combined with the S5i allele.In the complementary test,however,the S5n allele from WCVs failed to enhance fertilities of the indica/japonica hybrids.Compared to both indica and japonica varieties,all nine WCVs from different resources are characterized with a 136 bp deletion in the Asp N-terminus,which probably renders the S5n allele non-functional.Furthermore,an A/C polymorphic site is detected 1,233 bp downstream of the Asp start codon.The heterozygous A/C site of the Asp gene in indica/japonica hybrid is believed to be the casual factor to cause partial sterility.The functional makers based on the two polymorphic sites will be broadly used in developing wide-compatibility rice varieties.
