A thermo-insensitive pale green leaf mutant (pgl2) was isolated from T-DNA inserted transgenic lines of rice (Oryza sativa L. subsp, japonica cv. Nipponbare). Genetic analysis indicated that the phenotype was caus...A thermo-insensitive pale green leaf mutant (pgl2) was isolated from T-DNA inserted transgenic lines of rice (Oryza sativa L. subsp, japonica cv. Nipponbare). Genetic analysis indicated that the phenotype was caused by a recessive mutation in a single nuclear-encoded gene. To map the PGL2gene, an F2 population was constructed by crossing the mutant with Longtefu (Oryza sativa L. subsp, indica). The PGL2 locus was roughly linked to SSR marker RM331 on chromosome 8. To finely map the gene, 14 new InDel markers were developed around the marker, and PGL2 was further mapped to a 2.37 Mb centromeric region. Analysis on chlorophyll contents of leaves showed that there was no obvious difference between the mutant and the wild type in total chlorophyll (Chl) content, while the ratio of Chl a / Chl b in the mutant was only about 1, which was distinctly lower than that in the wild type, suggesting that the PGL2 gene was related to the conversion between Chl a and Chl b. Moreover, the method of primer design around the centromeric region was discussed, which would provide insight into fine mapping of the functional genes in plant centromeres.展开更多
P/TGMS (photo-thermo sensitive genie male sterility) lines with pale-green leaf color have been developed in japonica rice. The marker trait is used as an assistant selection in the production of the two-lines system ...P/TGMS (photo-thermo sensitive genie male sterility) lines with pale-green leaf color have been developed in japonica rice. The marker trait is used as an assistant selection in the production of the two-lines system hybrid rice for the improvement of F, seed purity. A joint inheritance study of both leaf color and male sterility is presented for P/TGMS line with pale-green leaf color. The segregation ratios for leaf color in the F2 populations of the three crosses showed 13 : 3 and 15 : 1 at early and late sowing stages (April 26 and June 23) respectively, implying that the leaf color is controlled by two genes with fertility gene as dominant. Sterility level is higher in the early sowing stage than that in the late sowing. The inducement of male sterility is closely related to longer day-length and higher temperature at the developmental stages of young panicle. The genes to govern the leaf color and male fertility are inherited independently.展开更多
在水稻品种南粳41中发现了一个黄绿叶自然突变体,经过多代连续自交形成了稳定的突变系,命名为ygl11(t),ygl11(t)整个生育期叶片都表现为黄绿色。对苗期、分蘖盛期、齐穗期突变体和野生型的叶绿素含量进行测定,ygl11(t)的叶绿素含...在水稻品种南粳41中发现了一个黄绿叶自然突变体,经过多代连续自交形成了稳定的突变系,命名为ygl11(t),ygl11(t)整个生育期叶片都表现为黄绿色。对苗期、分蘖盛期、齐穗期突变体和野生型的叶绿素含量进行测定,ygl11(t)的叶绿素含量是野生型的45.7%~74.7%,叶绿素a含量是野生型的55.2%~87.5%,叶绿素b含量是野生型的12.5%~25.3%,ygl11(t)的类胡萝卜素的含量是野生型的62.3%~97.0%。ygl11(t)在分蘖盛期的净光合速率显著高于野生型,花后10d,ygl11(t)的净光合速率比野生型略低。对突变体叶片中叶绿体的超微结构进行观察,发现突变体叶绿体内的类囊体基粒片层数目减少且严重扭曲变形。遗传分析表明,ygl11(t)叶色性状受1对隐性核基因控制。利用SSR分子标记将YGL11(t)初步定位在水稻第10染色体的长臂上,进一步利用新开发的InDel和CAPS标记将YGL11(t)定位在58.1kb的物理距离内。对该区段内存在的开放阅读框进行序列分析,发现突变体ygl11(t)中编码叶绿素a氧化酶(chlorophyll a oxygenase 1)基因(OsCAO 1)的第9个外显子存在2个碱基缺失,从而导致提前出现终止密码子,初步分析OsCAO1即为YGL11(t)的候选基因。展开更多
以籼稻93-11为背景的水稻突变体中发现一个黄绿叶突变体(yellow-green leaf,ygl10)。形态分析表明,与野生型93-11相比,ygl10突变体株高、穗长降低,结实率下降。叶绿素含量测定表明,ygl10突变体中叶绿素a、叶绿素b和类胡萝卜素含量均极...以籼稻93-11为背景的水稻突变体中发现一个黄绿叶突变体(yellow-green leaf,ygl10)。形态分析表明,与野生型93-11相比,ygl10突变体株高、穗长降低,结实率下降。叶绿素含量测定表明,ygl10突变体中叶绿素a、叶绿素b和类胡萝卜素含量均极显著降低,其中叶绿素b降幅最大,只有野生型的2%。叶绿体超微结构观察表明,突变体中类囊体和基粒片层数量明显减少。遗传分析结果表明,该黄绿叶突变体由一隐性核基因控制。进一步利用分子标记将ygl10定位在水稻第10染色体约380kb的区段内。对该区段内存在的ORF进行序列分析,发现编码叶绿素a氧化酶(chlorophyll a oxygenase)基因(OsCAO1)的第9个外显子存在5个碱基缺失,从而导致提前出现终止密码子,推测CAO1即为ygl10的候选基因。展开更多
在水稻品种宜香B中发现了一个白化转绿叶突变体,经过多代自交获得了稳定的白化转绿叶色突变体。该突变体在4叶期前叶色为黄绿色,之后逐渐变绿,从苗龄4周到12周,突变体/野生型叶绿素含量比值从34.5%逐渐升高到99.4%。遗传分析表明该突变...在水稻品种宜香B中发现了一个白化转绿叶突变体,经过多代自交获得了稳定的白化转绿叶色突变体。该突变体在4叶期前叶色为黄绿色,之后逐渐变绿,从苗龄4周到12周,突变体/野生型叶绿素含量比值从34.5%逐渐升高到99.4%。遗传分析表明该突变受1对隐性核基因控制,暂命名为gra。利用微卫星标记将gra初步定位于第10染色体标记RM596和RM5620之间,进一步利用极端个体定位法把gra精细定位于标记RM25522和RM25535之间。gra基因距RM25522和RM25535标记的遗传距离均为0.05 c M,其物理距离约为136 kb。展开更多
在簇生稻与粳稻日本晴杂交后代F8世代中发现一个能稳定遗传的浅绿叶色突变体(pgl,pale green leaf)。与野生型相比,突变体pgl株高、剑叶宽、主穗粒数和千粒重均显著下降。从幼苗开始,突变体pgl叶片都表现为浅绿色。在苗期和抽穗期突变...在簇生稻与粳稻日本晴杂交后代F8世代中发现一个能稳定遗传的浅绿叶色突变体(pgl,pale green leaf)。与野生型相比,突变体pgl株高、剑叶宽、主穗粒数和千粒重均显著下降。从幼苗开始,突变体pgl叶片都表现为浅绿色。在苗期和抽穗期突变体叶片的叶绿素含量都极显著低于野生型,其中叶绿素b的含量极低,仅为0.002~0.003 mg/g,突变体pgl表现为叶绿素b的缺失。在分蘖期与齐穗期,突变体pgl的净光合作用速率与野生型相当。叶绿体超微结构观察表明突变体pgl的叶绿体基质片层和堆叠层数较少。遗传分析发现浅绿叶色表型由一对隐性细胞核基因控制。采用BSA法,通过全基因组SNP芯片分析,浅绿叶色基因pgl被定位于水稻第10染色体上的22806614~23000408区间,与R1022900951CA标记紧密连锁。突变体pgl与另外3个浅绿叶色突变体(W1、Y406和Y45)的等位性检测结果表明浅绿叶色基因pgl与突变体W1的浅绿叶色基因为等位基因。对pgl的候选基因LOC_Os10g41780(叶绿素a加氧酶,chlorophyll a oxygenase)的序列比对发现,在突变体pgl中,LOC_Os10g41780在第2507和3136位碱基处分别发生1个T的缺失和T变成C的替换。分析发现,第3136位碱基位于第9外显子内,其碱基T变C的替换导致其编码的精氨酸变成色氨酸。本研究鉴定的突变体pgl和W1为LOC_Os10g41780的新变异,为阐明浅绿叶色形成的分子机理和光合作用机理的研究提供了特异资源。展开更多
文摘A thermo-insensitive pale green leaf mutant (pgl2) was isolated from T-DNA inserted transgenic lines of rice (Oryza sativa L. subsp, japonica cv. Nipponbare). Genetic analysis indicated that the phenotype was caused by a recessive mutation in a single nuclear-encoded gene. To map the PGL2gene, an F2 population was constructed by crossing the mutant with Longtefu (Oryza sativa L. subsp, indica). The PGL2 locus was roughly linked to SSR marker RM331 on chromosome 8. To finely map the gene, 14 new InDel markers were developed around the marker, and PGL2 was further mapped to a 2.37 Mb centromeric region. Analysis on chlorophyll contents of leaves showed that there was no obvious difference between the mutant and the wild type in total chlorophyll (Chl) content, while the ratio of Chl a / Chl b in the mutant was only about 1, which was distinctly lower than that in the wild type, suggesting that the PGL2 gene was related to the conversion between Chl a and Chl b. Moreover, the method of primer design around the centromeric region was discussed, which would provide insight into fine mapping of the functional genes in plant centromeres.
基金This research was supported by a grant from China Nationl“863"High Tchnology Proramn,a key grant(2003C22007)“8812”Program from Zhejiang Province,China.
文摘P/TGMS (photo-thermo sensitive genie male sterility) lines with pale-green leaf color have been developed in japonica rice. The marker trait is used as an assistant selection in the production of the two-lines system hybrid rice for the improvement of F, seed purity. A joint inheritance study of both leaf color and male sterility is presented for P/TGMS line with pale-green leaf color. The segregation ratios for leaf color in the F2 populations of the three crosses showed 13 : 3 and 15 : 1 at early and late sowing stages (April 26 and June 23) respectively, implying that the leaf color is controlled by two genes with fertility gene as dominant. Sterility level is higher in the early sowing stage than that in the late sowing. The inducement of male sterility is closely related to longer day-length and higher temperature at the developmental stages of young panicle. The genes to govern the leaf color and male fertility are inherited independently.
文摘在水稻品种南粳41中发现了一个黄绿叶自然突变体,经过多代连续自交形成了稳定的突变系,命名为ygl11(t),ygl11(t)整个生育期叶片都表现为黄绿色。对苗期、分蘖盛期、齐穗期突变体和野生型的叶绿素含量进行测定,ygl11(t)的叶绿素含量是野生型的45.7%~74.7%,叶绿素a含量是野生型的55.2%~87.5%,叶绿素b含量是野生型的12.5%~25.3%,ygl11(t)的类胡萝卜素的含量是野生型的62.3%~97.0%。ygl11(t)在分蘖盛期的净光合速率显著高于野生型,花后10d,ygl11(t)的净光合速率比野生型略低。对突变体叶片中叶绿体的超微结构进行观察,发现突变体叶绿体内的类囊体基粒片层数目减少且严重扭曲变形。遗传分析表明,ygl11(t)叶色性状受1对隐性核基因控制。利用SSR分子标记将YGL11(t)初步定位在水稻第10染色体的长臂上,进一步利用新开发的InDel和CAPS标记将YGL11(t)定位在58.1kb的物理距离内。对该区段内存在的开放阅读框进行序列分析,发现突变体ygl11(t)中编码叶绿素a氧化酶(chlorophyll a oxygenase 1)基因(OsCAO 1)的第9个外显子存在2个碱基缺失,从而导致提前出现终止密码子,初步分析OsCAO1即为YGL11(t)的候选基因。
文摘以籼稻93-11为背景的水稻突变体中发现一个黄绿叶突变体(yellow-green leaf,ygl10)。形态分析表明,与野生型93-11相比,ygl10突变体株高、穗长降低,结实率下降。叶绿素含量测定表明,ygl10突变体中叶绿素a、叶绿素b和类胡萝卜素含量均极显著降低,其中叶绿素b降幅最大,只有野生型的2%。叶绿体超微结构观察表明,突变体中类囊体和基粒片层数量明显减少。遗传分析结果表明,该黄绿叶突变体由一隐性核基因控制。进一步利用分子标记将ygl10定位在水稻第10染色体约380kb的区段内。对该区段内存在的ORF进行序列分析,发现编码叶绿素a氧化酶(chlorophyll a oxygenase)基因(OsCAO1)的第9个外显子存在5个碱基缺失,从而导致提前出现终止密码子,推测CAO1即为ygl10的候选基因。
文摘在水稻品种宜香B中发现了一个白化转绿叶突变体,经过多代自交获得了稳定的白化转绿叶色突变体。该突变体在4叶期前叶色为黄绿色,之后逐渐变绿,从苗龄4周到12周,突变体/野生型叶绿素含量比值从34.5%逐渐升高到99.4%。遗传分析表明该突变受1对隐性核基因控制,暂命名为gra。利用微卫星标记将gra初步定位于第10染色体标记RM596和RM5620之间,进一步利用极端个体定位法把gra精细定位于标记RM25522和RM25535之间。gra基因距RM25522和RM25535标记的遗传距离均为0.05 c M,其物理距离约为136 kb。
文摘在簇生稻与粳稻日本晴杂交后代F8世代中发现一个能稳定遗传的浅绿叶色突变体(pgl,pale green leaf)。与野生型相比,突变体pgl株高、剑叶宽、主穗粒数和千粒重均显著下降。从幼苗开始,突变体pgl叶片都表现为浅绿色。在苗期和抽穗期突变体叶片的叶绿素含量都极显著低于野生型,其中叶绿素b的含量极低,仅为0.002~0.003 mg/g,突变体pgl表现为叶绿素b的缺失。在分蘖期与齐穗期,突变体pgl的净光合作用速率与野生型相当。叶绿体超微结构观察表明突变体pgl的叶绿体基质片层和堆叠层数较少。遗传分析发现浅绿叶色表型由一对隐性细胞核基因控制。采用BSA法,通过全基因组SNP芯片分析,浅绿叶色基因pgl被定位于水稻第10染色体上的22806614~23000408区间,与R1022900951CA标记紧密连锁。突变体pgl与另外3个浅绿叶色突变体(W1、Y406和Y45)的等位性检测结果表明浅绿叶色基因pgl与突变体W1的浅绿叶色基因为等位基因。对pgl的候选基因LOC_Os10g41780(叶绿素a加氧酶,chlorophyll a oxygenase)的序列比对发现,在突变体pgl中,LOC_Os10g41780在第2507和3136位碱基处分别发生1个T的缺失和T变成C的替换。分析发现,第3136位碱基位于第9外显子内,其碱基T变C的替换导致其编码的精氨酸变成色氨酸。本研究鉴定的突变体pgl和W1为LOC_Os10g41780的新变异,为阐明浅绿叶色形成的分子机理和光合作用机理的研究提供了特异资源。