The discovery and application of environment-sensitive genic male sterile(EGMS) rice germplasm provide an easy method for hybrid rice breeding and have made great contributions to hybrid rice production. Typically, th...The discovery and application of environment-sensitive genic male sterile(EGMS) rice germplasm provide an easy method for hybrid rice breeding and have made great contributions to hybrid rice production. Typically, the photoperiod-and thermosensitive GMS(P/TGMS) lines utilized in two-line hybrid systems are male sterile under long day or/and high temperature but fertile under short day or/and low temperature conditions. However, Yannong S(Yn S), a reverse TGMS(rTGMS) line, is sterile under low temperature(<29℃) and fertile under high temperature(>29.5℃). Here, we report a genetic study on the rTGMS trait in Yn S. Interestingly, the F1 plants of the cross between Yn S and a cultivar, L422, were male sterile at 22℃ and completely fertile at 27℃. Moreover, the segregation ratio of fertile and sterile individuals in Yn S/L422 F2 populations changed from 1:3.05 to 2.95:1 when the ambient temperature increased, showing that the rTGMS trait exhibits semidominance in Yn S. We further found a locus on chromosome 10, termed RTMS10, which controls the rTGMS trait in Yn S. We then finely mapped RTMS10 to a ~68 kb interval between markers ID13116 and ID1318 by Yn S/L422 BC6 F2 populations. A near iso-genic line(NIL) NL1 from the BC6 F3 generation was developed and the pollen of NL1 became abnormal from the meiosis stage under low temperature. In summary, we identified an rTGMS locus, RTMS10, and provided co-segregated markers, which could help to accelerate molecular breeding of rTGMS lines and better understand the rTGMS trait in rice.展开更多
Thermosensitive genic male sterility(TGMS)has been widely used in two-line hybrid rice breeding.Due to hybrid seed production being highly affected by changeable environments,its application scope is limited to some e...Thermosensitive genic male sterility(TGMS)has been widely used in two-line hybrid rice breeding.Due to hybrid seed production being highly affected by changeable environments,its application scope is limited to some extent.Thus,it is of great importance to identify potential TGMS genes in specific rice varieties.Here,Diannong S-1 xuan(DNS-1 X),a reverse TGMS(RTGMS)japonica male sterile line,was identified from Diannong S-1.Genetic analysis showed that male sterility was tightly controlled by a single recessive gene,which was supported by the phenotype of the F;and F;populations derived from the cross between DNS-1 X and Yunjing 26(YJ26).Combining simple sequence repeat(SSR)markers and bulked segregation analysis(BSA),we identified a 215 kb region on chromosome 10 as a candidate reverse TGMS region,which was designated as rtmsl-D.It was narrower than the previously reported RTGMS genes rtmsl and tms6(t).The fertility conversion detected in the natural environment showed that DNS-1 X was sterile below 28-30℃;otherwise,it was fertile.Histological analysis further indicated that the pollen abortion was occurred in the young microspore stage.This study will provide new resources for two-line hybrid rice and pave the way for molecular breeding of RTGMS lines.展开更多
基金funded by the Key Research and Development Program of Anhui Province,China(201904a06020016 and 202104g01020013)the National Natural Science Foundation of China(31101204)the Program of Rice Genetic Breeding Key Laboratory of Anhui Province,China(SDKF-201903)。
文摘The discovery and application of environment-sensitive genic male sterile(EGMS) rice germplasm provide an easy method for hybrid rice breeding and have made great contributions to hybrid rice production. Typically, the photoperiod-and thermosensitive GMS(P/TGMS) lines utilized in two-line hybrid systems are male sterile under long day or/and high temperature but fertile under short day or/and low temperature conditions. However, Yannong S(Yn S), a reverse TGMS(rTGMS) line, is sterile under low temperature(<29℃) and fertile under high temperature(>29.5℃). Here, we report a genetic study on the rTGMS trait in Yn S. Interestingly, the F1 plants of the cross between Yn S and a cultivar, L422, were male sterile at 22℃ and completely fertile at 27℃. Moreover, the segregation ratio of fertile and sterile individuals in Yn S/L422 F2 populations changed from 1:3.05 to 2.95:1 when the ambient temperature increased, showing that the rTGMS trait exhibits semidominance in Yn S. We further found a locus on chromosome 10, termed RTMS10, which controls the rTGMS trait in Yn S. We then finely mapped RTMS10 to a ~68 kb interval between markers ID13116 and ID1318 by Yn S/L422 BC6 F2 populations. A near iso-genic line(NIL) NL1 from the BC6 F3 generation was developed and the pollen of NL1 became abnormal from the meiosis stage under low temperature. In summary, we identified an rTGMS locus, RTMS10, and provided co-segregated markers, which could help to accelerate molecular breeding of rTGMS lines and better understand the rTGMS trait in rice.
基金financially Science and technology projects of Yunnan Province,China(Grant No.202003AD150007)Strategic Leading Science and Technology Programme of Chinese Academy of Sciences(Grant Nos.XDA24030301 and XDA24040308)+1 种基金Natural Science Foundation of Yunnan,China(Grant No.2018FA 023)National Natural Science Foundation of China(Grant No.31902110)。
文摘Thermosensitive genic male sterility(TGMS)has been widely used in two-line hybrid rice breeding.Due to hybrid seed production being highly affected by changeable environments,its application scope is limited to some extent.Thus,it is of great importance to identify potential TGMS genes in specific rice varieties.Here,Diannong S-1 xuan(DNS-1 X),a reverse TGMS(RTGMS)japonica male sterile line,was identified from Diannong S-1.Genetic analysis showed that male sterility was tightly controlled by a single recessive gene,which was supported by the phenotype of the F;and F;populations derived from the cross between DNS-1 X and Yunjing 26(YJ26).Combining simple sequence repeat(SSR)markers and bulked segregation analysis(BSA),we identified a 215 kb region on chromosome 10 as a candidate reverse TGMS region,which was designated as rtmsl-D.It was narrower than the previously reported RTGMS genes rtmsl and tms6(t).The fertility conversion detected in the natural environment showed that DNS-1 X was sterile below 28-30℃;otherwise,it was fertile.Histological analysis further indicated that the pollen abortion was occurred in the young microspore stage.This study will provide new resources for two-line hybrid rice and pave the way for molecular breeding of RTGMS lines.