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1.
A germplasm collection of 152 diverse rapeseed accessions from Canada, China, France, India, Poland and South Korea was assayed for identifying new fertility restorers and sterility maintainers for a Tournefortii (tour) cytoplasmic male sterility (CMS) system in rape‐seed. Only 16 (10.5%) genotypes showed complete fertility restoration following hybridization with tour CMS line NE 409A. Notable among these were GSL 8851, GSL 8953, Mokpo # 9, Mali, Buk‐wuk‐13, Kuju‐27 and Mokpo # 84. As many as 78 (51.3%) genotypes were perfect maintainers of sterility, the remaining 58 (38.2%) genotypes were classified as partial maintainers. To study the inheritance of fertility restoration, 20 CMS (tour) rapeseed lines were crossed with the four best fertility restorers, namely GSL 8851, GSL 8953, Kuju‐27 and Mokpo # 9, to obtain F2 and test cross populations. Segregation data indicated that fertility restoration for tour CMS was governed by two genes, of which, one is stronger than the other (χ212:3:1). Differences in gene interactions were also observed (χ29:3:4) which could be explained on the basis of influence of female parent genotypes/or modified expression of the restorer gene(s) in different genetic backgrounds. Tests of allelism indicated that the restorer genes present in the four restorers evaluated were allelic. 相似文献
2.
P. Balaji Suresh B. Srikanth V. Hemanth Kishore I. Subhakara Rao L. R. Vemireddy N. Dharika R. M. Sundaram M. S. Ramesha K. R. S. Sambasiva Rao B. C. Viraktamath C. N. Neeraja 《Euphytica》2012,187(3):421-435
The Wild Abortive (WA) system is the major cytoplasmic male sterility (CMS) source for hybrid rice production in indica rice and its fertility restoration is reported to be controlled by two major loci viz. Rf3 on chromosome 1 and Rf4 on chromosome 10. With the availability of the rice genome sequence, an attempt was made to fine map, develop candidate gene based markers for Rf3 and Rf4 and validate the developed marker system in a set of known restorer lines. Using polymorphic markers developed from microsatellite markers and candidate gene based markers from Rf3 and Rf4 loci, local linkage maps were constructed in two mapping populations of ~1,500 F2 progeny from KRH2 (IR58025A/KMR3R) and DRRH2 (IR68897A/DR714-1-2R) hybrids. QTLs and their interactions for fertility restoration in Rf3 and Rf4 loci were identified. The identified QTL in both mapping populations together explained 66–72 % of the phenotypic variance of the trait suggesting their utility in developing a marker system for identification of fertility restorers for WA-CMS. Sequence comparison of the two candidate genes from the Rf3 and Rf4 regions in male sterile (A) and restorer (R) lines showed 2–3 bp indels and a few substitutions in the Rf3 region and indels of 327 and 106 bp in the Rf4 region respectively. The marker system identified in the present study was validated in 212 restorers and 34 maintainers along with earlier reported markers for fertility restoration of WA-CMS. Together DRCG-RF4-14 and DRCG-RF4-8 for the Rf4 locus and DRRM-RF3-5/DRRM-RF3-10 for the Rf3 locus showed a maximum efficiency of 92 % for identification of restorers. 相似文献
3.
H. Ahokas 《Euphytica》1979,28(2):409-419
Summary 58 varieties, strains or mutants of barley were tested in the msml cytoplasm in Finland, location ca. 61 N. Three (5%) were found to be partial restorers, the rest being maintainers of sterility. 31 Israeli strains of wild barley (ssp. spontaneum) were tested. About one third were maintainers of sterility, the majority partial restorers, and two strains were full restorers. There is probably polymorphism of the restorer gene in Israeli wild barley. Partial restoration displays an environmental response. The physiology of partial restoration is discussed. 相似文献
4.
Identification of restorers and maintainers for developing basmati and non-basmati hybrids in rice, Oryza sativa 总被引:1,自引:0,他引:1
Twenty‐seven improved aromatic lines of germplasm and 18 non‐aromatic disease‐resistant genotypes of rice were test‐crossed with four cytoplasmic male‐sterile lines (IR 58025A, IR 62829A, PMS 3A and PMS 10A). Thirteen aromatic and 10 non‐aromatic genotypes were selected based on pollen fertility, and crosses were repeated to confirm sterility‐maintaining and fertility‐restoring ability. Genotypes were categorized as effective restorers (> 80% spikelet fertility), partial restorers (21‐79% spikelet fertility) and maintainers (< 1% spikelet fertility). The effective basmati restorers identified were Basmati 385, Chandan, P1031‐8‐5‐1, HKR 241‐IET‐12020, SAF Khalsa 7 and Karnal Local. The basmati maintainers identified were Basmati 370, Pusa basmati 1, P615‐K‐167‐13 and P1173‐4‐1. The frequency of restorers obtained was higher for the non‐aromatic than the aromatic basmati type. The performance of restorers varied with cytoplasmic male‐sterile (CMS) line, location and season of testing. The differential ability to restore fertility in the CMS lines that have the wild abortive (WA) cytosterile system could result from different nuclear backgrounds of the CMS lines. These restorers and maintainers possess acceptable grain dimensions, a desirable degree of aroma, volume expansion through linear kernel elongation and cooking quality characteristics of basmati rice. These genotypes will contribute to developing basmati hybrids and provide restorers and maintainers with acceptable key basmati quality characteristics. 相似文献
5.
X. L. Tan Y. L. Tan Y. H. Zhao X. M. Zhang R. K. Hong S. L. Jin X. R. Liu D. J. Huang 《Plant Breeding》2004,123(4):338-341
Cytoplasmic male sterility of Dian‐type 1 (CMS‐D1) was developed 30 years ago in Yunnan. A major gene conferring fertility restoration for the CMS‐D1 system was detected by microsatellite markers in advanced inbred lines consisting of 196 maintainers and 62 restorers developed in breeding programmes of hybrid rice involving the CMS‐D1 system. The gene was mapped between two simple sequence repeat markers, OSR33 and RM228, on chromosome 10, and was temporarily designated as Rf‐D1(t). The genetic distances of the gene to the two microsatellite markers were 3.4 and 5.0 cM, respectively. This linkage was confirmed by using an F2 population derived from a cross between a CMS‐D1 line and a restorer. This study also demonstrated that using OSR33 was reliable and efficient for identification of restoring lines in hybrid rice breeding with the CMS‐D1 system. 相似文献
6.
Shivakumar Shidenur Vikram Jeet Singh Kunnummal Kurungara Vinod S Gopala Krishnan Surendra Kumar Ghritlahre Haritha Bollinedi Brijesh Kumar Dixit Ranjith Kumar Ellur Mariappan Nagarajan Ashok Kumar Singh Prolay Kumar Bhowmick 《Plant Breeding》2020,139(4):743-753
Thirty-one tropical japonica derived Rf gene carrying rice hybrids were classified into three classes as Rf3, Rf4 and Rf3 + Rf4 hybrids. These hybrids were tested under three different mega-environments. Between Rf3 class and both the classes of hybrids possessing Rf4 genes, significant variation for spikelet and pollen fertility and grain yield was found. The pollen fertility was five times higher among Rf4 hybrids than that of hybrids carrying Rf3 alone. Likewise, spikelet fertility among Rf4 hybrids was two times higher than that of Rf3 hybrids. Parallel grain yield increase in Rf4 hybrids was 2.4 times than in Rf3 hybrids. However, Rf3 gene was found complementing Rf4 to truncate the range of pollen and spikelet fertility. Hybrids possessing Rf3 alone exhibited partial pollen and spikelet sterility, and significant negative standard heterosis for grain yield. The high yielding hybrid, “HYB36” carrying both the Rf genes was found to be widely adapted. The present study established that Rf4 gene is essential either alone or in combination with Rf3 for fertility restoration to achieve enhanced grain yield in WA-CMS based hybrids. 相似文献
7.
由华南农业大学选育的水稻单片段代换系S15对于野败型(WA)和矮败型(DA)细胞质雄性不育系均具有较强的恢复性。以野败型不育系博白A和矮败型不育系协青早A为母本, 单片段代换系S15为父本杂交, 采用分子标记辅助选择和连续回交的方法构建了两个BC3F2群体。利用与第1、第10染色体上恢复基因Rf3和Rf4两侧紧密连锁的SSR标记, 从这2个BC3F2群体中筛选携带基因型Rf3Rf3/rf4rf4和rf3rf3/Rf4Rf4的单株, 观察这些单株花粉和小穗育性, 并利用202个多态性SSR标记分析这些单株的遗传背景, 结果表明: (1)在同一细胞核背景下(S15), DA型细胞质的可恢复性好于WA型细胞质, 单片段代换系S15中的恢复基因Rf4的恢复力大于恢复基因Rf3的恢复力。(2)单片段代换系S15中的恢复基因对于WA型不育系博白A和DA型不育系协青早A表现出质量-数量性状的遗传。在单片段代换系S15中, 除了主效恢复基因Rf3和Rf4外, 微效基因或者修饰基因也表现出对于博白A和协青早A的恢复性作用, 而且效应较大。(3)在构建的2个BC3F2群体中, 携带基因型Rf3Rf3/rf4rf4和rf3rf3/Rf4Rf4单株的遗传背景片段数平均为1.0, 对应于恢复基因Rf3和Rf4座位的代换片段平均长度分别为12.9 cM和18.4 cM。 相似文献
8.
Shivakumar Shidenur Vikram Jeet Singh Kunnummal Kurungara Vinod Subbaiyan Gopala Krishnan Surendra Kumar Ghritlahre Haritha Bollinedi Ranjith K. Ellur Brijesh Kumar Dixit Binder Singh Mariappan Nagarajan Ashok Kumar Singh Prolay Kumar Bhowmick 《Plant Breeding》2019,138(5):553-567
Hybrid rice based on wild‐abortive cytoplasmic male sterility (WA‐CMS) is important in boosting rice production, which requires diverse parents to harness heterosis. For this, exploiting the diversity of japonica through tropical japonica (TRJ) lines is an excellent route. In this study, 310 TRJ‐based new plant type (NPT) lines were developed and evaluated for Rf3 and Rf4 genes. Gene‐based (DRRM‐Rf3‐5 and DRRM‐Rf3‐10) and functional marker (RMS‐SF21‐5) targeted Rf3 locus, while gene‐linked (RM6100) and functional marker (RMS‐PPR9‐1) targeted the Rf4 locus. The frequency of the restorer allele of Rf3 gene was lower when compared to that of Rf4. Combined phenotypic and molecular screening using gene‐based and functional markers identified 42 lines that carried Rf3 and/or Rf4 genes. All the selected lines produced fertile F1s when crossed to a WA‐CMS line, “Pusa 6A”, but with varying levels of spikelet fertility. This is the first report of a marker‐cum‐phenotype‐based restorer selection using TRJ‐derived lines. Multilocation evaluation of these lines at three locations indicated better adaptation for grain yield in some of the lines. 相似文献
9.
Molecular mapping of the fertility-restoration gene Rf4 for WA-cytoplasmic male sterility in rice 总被引:4,自引:0,他引:4
The wild abortive cytoplasmic male sterility (CMS‐WA) system, an ideal type of sporophytic CMS in indica rice, is used for the large‐scale commercial production of hybrid rice. Searching for restorer genes is a good approach when phenotyping is very time‐consuming and requires the determination of spikelet sterility in testcross progeny. To establish more precisely the genetical and physical maps of the Rf4 gene, high‐resolution mapping of this locus was carried out using simple sequence repeat (SSR) markers and newly designed markers in a F2 population. The genetic linkage analysis indicated that five SSR markers (RM6737, RM304, RM171, RM5841 and RM228) on the long arm of chromosome 10 were linked with the Rf4 gene. Rf4 was flanked by two SSR markers RM171 and RM6737 at distances of 3.2 and 1.6 cM, respectively. Also, within the region between Rf4 gene and RM171, a newly designed primer pair, AB443, produced two sterile‐specific markers, AB443‐400 and AB443‐500, 0.5 and 1.03 cM from the gene. The flanking markers identified give promise for their application in molecular marker‐assisted selection (MAS) and they are also suitable for starting chromosome walking to clone Rf4 gene in the near future. 相似文献
10.
Development and use of a two-gene marker-aided selection system for fertility restorer genes in rice 总被引:2,自引:0,他引:2
Majid Sattari Arumugam Kathiresan Glenn B. Gregorio Jose E. Hernandez Tamerlane M. Nas Sant S. Virmani 《Euphytica》2007,153(1-2):35-42
We have established marker-aided selection strategies for the two major Rf genes (Rf3 and Rf4) governing fertility restoration of␣cytoplasmic-genetic male sterility (CMS) in rice. Polymorphisms between restorer and
non-restorer␣lines were observed using RG140/PvuII for Rf3 located on chromosome 1 and S10019/BstUI for Rf4 located on chromosome 10. DNA polymorphisms associated with these two loci in restorer lines of wild abortive (WA), Dissi, and Gambiaca cytoplasm are
conserved, suggesting that similar biological processes control pollen fertility in this diverse cytoplasm. Because of their
close linkage to Rf genes and distinct banding patterns, STS markers RG140/PvuII and S10019/BstUI are well suited for marker-aided selection, enhanced backcross procedures, and pyramiding of Rf genes in agronomically superior non-restorer lines. The combined use of markers associated with these two loci improved the
efficiency of screening for putative restorer lines from a set of elite lines. Positional analyses of Rf4 and the inheritance pattern of the polymorphism in S10019/BstUI suggest that Rf4, governing fertility restoration in WA-CMS in rice, is likely to be the same gene governing fertility restoration in BT-
and HL-CMS that has a gametophytic effect, which explains why 100% pollen fertility in hybrids is impossible to attain. 相似文献
11.
There are two cytoplasmic male sterility (CMS)‐systems in chives (Allium schoenoprasum L.), which can be employed in hybrid breeding. However, the probability for selection of maintainer genotypes from German open pollinated varieties is not known. Therefore, the allelic frequencies of the restorer genes X and T involved in CMS1 were determined in 12 German commercial chive varieties by test crossing single plants to male sterile, temperature‐insensitive genotypes [(S1)xxT] for segregation analyses of offspring. Temperature sensitive genotypes [(S1)xxT_] are able to produce pollen at higher temperatures, and should therefore be excluded from hybrid breeding to avoid self‐pollination of the maternal parent. The mean value of the frequency of the non‐restoring allele x in the populations examined was 0.62. The mean value of the allele t, which is responsible for the temperature insensitivity, was 0.9. As a consequence of these allelic frequencies about one‐third of all plants of the chive varieties examined were designated CMS1 maintainer genotypes, leading to the production of temperature insensitive male sterile lines. The incidence of CMS2 maintainers in the German varieties examined was nearly four times lower than CMS1 maintainers. The mean value of the frequency of the non‐restoring allele st2 involved in the CMS2‐system was 0.29. 相似文献
12.
N. K. Sheeba B. C. Viraktamath S. Sivaramakrishnan M. G. Gangashetti Pawan Khera R. M. Sundaram 《Euphytica》2009,167(2):217-227
The present study was carried out with the objective to validate the molecular markers, which have been previously reported
to be linked to fertility restorer (Rf) gene(s) for WA-CMS lines of rice. Two mapping populations involving fertility restorer lines for WA-cytoplasm, viz., (i)
an F2 population derived from the cross IR58025A/KMR3R consisting of 347 plants and (ii) a BC1F1 population derived from the cross IR62829A/IR10198R//IR62829A consisting of 130 plants were analyzed. Nine SSR and three
CAPS markers reported to be linked to Rf genes along with two previously unreported SSR markers were analyzed in the mapping populations. In both the populations
studied, the trait of fertility restoration was observed to be under digenic control. Eight SSR markers (RM6100, RM228, RM171,
RM216, RM474, RM311, MRG4456 and pRf1&2) showed polymorphism between the parents of the F2 population, while the SSR markers RM6100 and RM474 showed polymorphism between the parents of both the F2 and BC1F1 populations. Only one CAPS marker, RG146FL/RL was polymorphic between the parents of the BC1F1 population. RM6100 was observed to be closely segregating with fertility restoration in both the mapping populations and
was located at a distance of ~1.2 cM. The largest phenotypic variation was accounted for the region located between RM311
and RM6100. Using the marker-trait segregation data derived from analysis of both the mapping populations, a local linkage
map of the genomic region around Rf-4, a major fertility restoration locus on Chromosome 10 was constructed, and RM6100 was observed to be very close to the gene
at a distance of 1.2 cM. The accuracy of the marker RM6100 in predicting fertility restoration was validated in 21 restorers
and 18 maintainers. RM6100 amplified the Rf-4 linked allele in a majority of the restorers with a selection accuracy of 94.87%. Through the present study, we have established
the usefulness of the marker RM6100 in marker-assisted selection for fertility restoration in segregating populations and
identification of restorers while screening rice germplasm for their fertility restoration ability. 相似文献
13.
Heterosis is an important way to improve yield and quality for many crops. Hybrid rice and hybrid maize contributed to enhanced productivity which is essential to supply enough food for the increasing world population. The success of hybrid rice in China has led to a continuous interest in hybrid wheat, even when most research on hybrid wheat has been discontinued in other countries for various reasons including low heterosis and high seed production costs. The Timopheevii cytoplasmic male sterile system is ideal for producing hybrid wheat seeds when fertility restoration lines with strong fertility restoration ability are available. To develop PCR-based molecular markers for use in marker-assisted selection of fertility restorer lines, two F2 populations derived from crosses R18/ND36 and R9034/ND36 were used to map fertility restoration genes in the two elite fertility restorer lines (R-lines) R18 and R9034. Over 678 SSR markers were analyzed, and markers closely linked to fertility restoration genes were identified. Using SSR markers, a major fertility restoration gene, Rf3, was located on the 1B chromosome in both populations. This gene was partially dominant in conferring fertility restoration in the two restorer lines. SSR markers Xbarc207, Xgwm131, and Xbarc61 are close to this gene. These markers may be useful in marker-assisted selection of new restorer lines with T. timopheevii cytoplasm. Two minor QTL conferring fertility restoration were also identified on chromosomes 5A (in R18) and 7D (in R9034) in two R-lines. 相似文献
14.
The genetic relationship among three cytoplasmic male sterility (CMS) systems, consisting of WA, Dissi, and Gambiaca, was
studied. The results showed that the maintainers of one CMS system can also maintain sterility in other cytoplasmic backgrounds.
The F1 plants derived from crosses involving A and R lines of the respective cytoplasm and their cross-combination with other CMS
systems showed similar pollen and spikelet fertility values, indicating that similar biological processes govern fertility
restoration in these three CMS systems. The results from an inheritance study showed that the pollen fertility restoration
in all three CMS systems was governed by two independent and dominant genes with classical duplicate gene action. Three F2 populations, generated from the crosses between the parents of good-performing rice hybrids, that possess WA, Dissi, and
Gambiaca CMS cytoplasm, were used to map the Rf genes. For the WA-CMS system, Rf3 was located at a distance of 2.8 cM from RM490 on chromosome 1 and Rf4 was located at 1.6 cM from RM1108 on chromosome 10. For the Dissi-CMS system, Rf3 was located on chromosome 1 at 1.9 cM from RM7466 and Rf4 on chromosome 10 was located at 2.3 cM from RM6100. The effect of Rf3 on pollen fertility appeared to be stronger than the effect of Rf4. In the Gambiaca-CMS system, only one major locus was mapped on chromosome 1 at 2.1 cM from RM576. These studies have led
to the development of marker-assisted selection (MAS) for selecting putative restorer lines, new approaches to alloplasmic
line breeding, and the transfer of Rf genes into adapted cultivars through a backcrossing program in an active hybrid rice breeding program. 相似文献
15.
Pankaj Sharma Inderjit Singh Asmita Sirari Gaurav Khosla Gurjeet Singh Navkiran Kaur Ludhar Sarvjeet Singh 《Plant Breeding》2019,138(6):741-747
Inheritance of fertility restorer gene in pigeonpea was studied using F2 and BC1F1 populations derived from cross AL103A × IC245273. It was found to be controlled by single dominant gene. Out of 228 SSR primer pairs, 33 primer pairs showed parental polymorphism, while four primers were found polymorphic in bulk segregant analysis (BSA). These four primers viz., CcM 1615, CcM 0710, CcM 0765 and CcM 1522 were used for genotyping of F2 population and were found to be placed at 3.1, 5.1, 28.1 and 45.8 cM, respectively. Two of them, CcM 1615 and CcM 0710, evinced clear and unambiguous bands for fertility restoration in F2 population. The Rf gene was mapped on linkage group 6 between the SSR markers CcM 1615 and CcM 0710 with the distances of 3.1 and 5.1 cM, respectively. The accuracy of the CcM 1615 was validated in 18 restorers and six maintainer lines. The marker CcM 1615 amplified in majority of male restorer lines with a selection accuracy of 91.66%. 相似文献
16.
A simple method to control the seed purity of japonica hybrid rice varieties using PCR-based markers 总被引:2,自引:0,他引:2
Cytoplasmic male sterility (CMS) by the cms‐bo cytoplasm and its restoration by the nuclear restorer gene, Rf‐1, are used for seed production of japonica hybrid rice varieties. To produce pure hybrid seeds, a prerequisite is to properly manage the seed purity of parental lines, especially CMS lines. In this study, three dominant polymerase chain reaction (PCR)‐based markers (M1, M2 and M3) were developed to detect mutual contamination in seed batches of CMS lines, maintainer lines, restorer lines and hybrids. M1 detected the mitochondrial sequence that was present in the cytoplasm of common japonica varieties and absent in the cms‐bo cytoplasm. M2 and M3 detected the chromosomal sequence related to the Rf‐1 allele in restorer lines and the rf‐1 allele in common japonica varieties, respectively. By the strategic use of these markers, japonica hybrids and their parental lines could be efficiently distinguished from each other. Furthermore, sensitivity tests for the three markers with a series of crude DNA samples prepared from polished grains demonstrated that these markers could detect one contaminating grain among 500 or 1000 grains. Therefore, the bulk PCR analyses with the markers developed here probably make it possible to control the seed purity of japonica hybrids properly by selecting appropriate seed batches of their parental lines quickly and efficiently. 相似文献
17.
Fine mapping of Rf2, a major locus controlling pollen fertility restoration in sorghum A1 cytoplasm,encodes a PPR gene and its validation through expression analysis 
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下载免费PDF全文 Praveen Madugula Anurag G. Uttam Vilas A. Tonapi Madhusudhana Ragimasalawada 《Plant Breeding》2018,137(2):148-161
Sorghum is one of the pioneering cereal crops where cytoplasmic male sterility (CMS) was successfully exploited for mass production of F1 hybrid seed. Mapping genes for fertility restoration (Rf) is an important aspect of understanding the molecular basis of fertility restoration in crop plants. In this study, we fine‐mapped a fertility restoration locus, Rf2 of sorghum reported earlier (Jordan, Mace, Henzell, Klein, & Klein, 2010 ), involving two F2 populations (296A × RS29 and 296A × DSV1) and newly developed SSR markers delimited Rf2 locus to 10.32‐kb region on chromosome 2. The Rf2 locus was tightly linked with two new SSRs, MS‐SB02‐3460 (0.14 cM) and MS‐SB02‐3466 (0.75 cM) on both sides, and hosted only one gene (Sobic.002G057050) of PPR gene family. Another new SSR marker developed in the study, MS‐SB02‐37912, forms the part of PPR gene and could act as a perfect marker in marker‐assisted breeding for fertility restoration involving Rf2 in sorghum breeding. The strong involvement of Sobic.002G057050 gene in fertility restoration was supported through RNA expression analysis. 相似文献
18.
Mapping and genetic analysis of two fertility restorer loci in the wild-abortive cytoplasmic male sterility system of rice (Oryza sativa L.) 总被引:19,自引:0,他引:19
Hybrid varieties developed by making use of the wild abortive cytoplasmic male sterility system account for 90% of hybrid
rice produced. Previous inheritance studies have established that the fertility restoration in this system is controlled by
two major loci, but the chromosomal locations of the fertility restorer (Rf) loci have yet to be resolved. In this study we
determined the genomic locations of the two Rf loci by their linkage to molecular markers. The Rf gene containing regions
were identified by surveying two bulks, made of 30 highly fertile and 46 highly sterile plants from a large F2 population of the cross between Zhenshan 97A and Minghui 63, with RFLP markers covering the entire rice genome. The survey
identified two likely Rf gene containing regions, located on chromosomes 1 and 10 respectively. This was confirmed by ANOVA
using a large random sample from the same F2 population and also with a genome-wide QTL analysis of a test-cross population. The results also showed that both loci have
major effects of almost complete dominance on fertility restoration and the effect of the locus on chromosome 10 is larger
than the one on chromosome 1. The two loci acted as a pair of classical duplicate genes; a single dominant allele at one of
the two loci would suffice to restore the fertility to normal or nearly normal. Closely linked markers identified in this
study may be used for marker assisted selection in hybrid rice breeding programs.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
19.
20.
Honggen Zhang Xiaojun Cheng Lijia Zhang Hua Si Yongshen Ge Minghong Gu Shuzhu Tang 《Euphytica》2018,214(3):49
Wild abortive (WA)-type cytoplasmic male sterility (CMS) has been exclusively used for breeding three-line hybrid indica rice, but it has not been applied for generating japonica hybrids because of the difficulties related to breeding japonica restorer lines. Determining whether the major restorer-of-fertility (Rf) gene used for indica hybrids can efficiently restore the fertility of WA-type japonica CMS lines may be useful for breeding WA-type japonica restorer lines. In this study, japonica restorer lines for Chinsurah Boro II (BT)-type CMS exhibited varying abilities to restore the fertility of ‘WA-LiuqianxinA’, which is a WA-type japonica CMS line. Additionally, Rf genes for WA-type CMS were identified in the BT-type japonica restorers. Meanwhile, ‘C9083’, which is a BT-type japonica restorer, exhibited a limited ability to restore the fertility of WA-type japonica CMS lines, and a genetic analysis revealed that the fertility restoration was controlled by one locus. The Rf gene was mapped to an approximately 370-kb physical region and was identified as Rf4. Furthermore, Rf gene dosage effects and the temperature influenced the fertility restoration of WA-type japonica CMS lines. This study is the first to confirm that Rf4 has only minor effects on the fertility restoration of WA-type japonica CMS lines. These results may be relevant for the development of WA-type japonica hybrids. 相似文献