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谷子显性雄性不育基因Msch的AFLP标记 总被引:1,自引:0,他引:1
利用雄性不育是实现谷子杂种优势利用最经济、有效的途径之一.为了寻找与不育基因Msch紧密连锁的分子标记,提高不育系的选育效率,本研究构建了Msch不育/可育近等基因系(NILs),通过对400对AFLP引物组合进行筛选,找到了与不育基因紧密连锁的两个AFLP标记(P17/M37224和P35/M52208),与不育基因的遗传距离分别是2.1 cM和1.4 cM,而且位于不育基因的同一侧,标记间相距0.7 cM.这两个AFLP标记可有效用于分子标记辅助选择育种. 相似文献
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大豆(Glycine max(Linn.)Merr)雄性不育的研究对于开发优质种质资源和杂种优势的进一步利用具有推进作用,在大幅度提高大豆产量中具有现实意义。本综述总结了大豆的雄性不育及杂种优势利用研究概况,并对未来的研究及发展方向进行了预测。首先介绍了大豆雄性不育的类型;第二,以雄性不育研究的典型代表植物水稻和拟南芥为对象对植物雄性不育的分子机理及控制基因按照雄性生殖器官发育过程进行了总结归纳;最后概述了大豆雄性不育的相关研究进展,包括不育基因的遗传及在染色体上的定位,概述了大豆的雄性不育杂种优势利用进展并进行了展望。 相似文献
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大豆质核互作雄性不育研究进展 总被引:3,自引:1,他引:2
利用雄性不育进行杂种优势育种是提高大豆产量的有效措施之一。目前发现的大豆雄性不育类型主要包括细胞核雄性不育、光温敏雄性不育和质核互作(细胞质)雄性不育。而对大豆杂种优势利用具有实际应用价值的是质核互作雄性不育。简要回顾了大豆质核互作雄性不育的发现过程,总结了通过三系配套技术实现的大豆杂交育种的现状与关键生产技术等,并从细胞学、分子生物学和蛋白质组学等方面综述了大豆质核互作雄性不育形成机理方面的研究进展。最后提出不同研究单位之间应该加强协作,通过合理的研究材料交流来加快大豆质核互作雄性不育机理的研究,以使其能够被更好地应用于大豆杂种优势育种中。 相似文献
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Hybrid breeding can exploit heterosis and thus offers opportunities to maximize yield, quality and resistance traits in crop species. Cytoplasmic male sterility (CMS) is a widely applied tool for efficient hybrid seed production. Encoded in the mitochondrial genome, CMS is maternally inherited, and thus, it can be challenging to apply in breeding schemes of allogamous self‐incompatible plant species, such as perennial ryegrass. Starting with a general introduction to the origin and the function of mitochondria in plants, this review focuses on the genetics and biology of CMS systems in plants to identify conserved and system‐specific mechanisms. We examine prospects of comparative mitochondrial genomics to identify candidate genes and causative polymorphisms associated with CMS across species and discuss specificities, obstacles and potentials of CMS as a breeding tool for maximizing heterosis in forage grasses. The purpose of the review is to highlight the importance of CMS and hybrid breeding in grasses, with the aim of facilitating research and development of novel breeding strategies to address the future needs for food, feed and biomass production. 相似文献
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Segregation studies following the transfer of the gene wi to different cytoplasm types, which have been distinguished by means of restriction fragment length polymorphism analyses using mitochondrial gene probes, revealed the formation of the wi‐sterility in each of the four cytoplasms examined. The male sterility is therefore only caused by the nuclear wi gene, i.e. an additional factor of a specific cytoplasm can be excluded. Hence, the wi‐sterility proved to be a genic male sterility (GMS) and not a cytoplasmic male sterility (CMS). The expression of the wi‐sterility appears to be stable, since it is not affected by high temperatures or tetracycline. Accordingly, a temporary pollen production, which would allow self‐fertilization for the maintenance of sterile lines, cannot be induced by controlling these environmental factors. In terms of hybrid breeding, this GMS therefore has no advantage over the previously described CMS system. 相似文献
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Induction of male sterility by deployment of male gametocides holds immense potential in heterosis breeding of wheat. The efficacy of a new class of male gametocide for wheat (Triticum aestivum L.) is described: ethyloxanilates, the most active example of this class being ethyl 4‐fluorooxanilate (E4FO). E4FO induces male sterility, specifically, without detectable effects on various agronomic features and female fertility. The plants sprayed once with 0.15% E4FO exhibited 100% pollen and floret sterility without causing a significant reduction in total yield. E4FO was screened on 29 genotypes of wheat at 0.15% test concentration and was observed to induce 99.76 ± 0.37% male sterility. Thirteen F1‐hybrids of wheat were produced using the gametocide in Winter 2000–2001 and were evaluated for their agronomic performance in Winter 2001–2002. The cross combinations viz., lines WR 544 × HW 2046 and HW 2044 × WR 956 have outperformed their respective better parents by 48.17% and 23.42% in grain yield/plant and thus have potential as hybrids. 相似文献
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Development of dominant nuclear male-sterile lines with a blue seed marker in durum and common wheat 总被引:2,自引:0,他引:2
In order to develop genie male‐sterile lines with a blue seed marker, male‐sterile plants, controlled by a dominant nuclear gene Ms2, were used as female parents against a 4E disomic addition line ‘Xiaoyan Lanli’(2n= 44, AABBDD+4EII) as the male parent to produce monosomic addition lines with blue seed. Male‐sterile plants from the monosomic addition lines were pollinated with durum wheat for several generations and in 1989 a male‐sterile line with the blue grain gene and the male‐sterile gene Ms2 on the same additional chromosome was detected and named line 89‐2343. Using this line, the blue seed marker was successfully added to a short male‐sterile line containing Ms2 and Rht10. The segregation ratios of male sterility and seed colour as well as the chromosome figurations of different plants indicated that the blue grain genes, Ms2 and Rht10 were located on the same additional chromosome. Cytological analysis showed that the blue marker male‐sterile lines in durum wheat and common wheat were monosomic with an additional chromosome 4E. The inheritance ratio for blue seed male‐sterile plants and white seed male‐fertile plants was 19.7% and 80.3%, respectively, in common wheat. The potential for using blue marker sterile lines in population improvement and hybrid production is discussed. 相似文献
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Yuan Guo Huhu Gao Huaiying Ma Chunlei Du Dongsuo Zhang Xiaoyue Wang Shengwu Hu 《Breeding Science》2021,71(5):538
Significant heterosis has been documented in Brassica juncea L. that are grown as agriculturally important oilseeds, vegetables and condiments crops. Male sterility induced by chemical hybridizing agents is an important pollination control system in hybrid crop breeding. Herein, we show that tribenuron-methyl (TBM), a sulfonylurea herbicide, is an effective male gametocide in B. juncea when used at a very low dosage. In the present study, foliar application of various rates of TBM induced a significant increase in pollen sterility in B. juncea (90.57–100%). TBM-treated plants exhibited reductions in size of floral organ and yield components; however, lower dose of TBM (0.075 g a.i. ha–1) did not cause a significant reduction in seed yield per plant. Tapetum cells of TBM-treated plants were hypertrophied and degenerated earlier, and abnormal meiosis was observed at the meiotic stage. A significant decrease of acetohydroxyacid synthase (AHAS) activities was detected in buds of plants treated with 0.10 g a.i. ha–1 TBM, and RT-qPCR analysis showed that TBM exposure perturbed AHAS expression in small buds, which support that TBM induces male sterility in B. juncea by targeting AHAS expression. Our results suggest that TBM could be used as an efficient chemical hybridization agent in B. juncea, which has practical implications for the application of hybrid breeding in B. juncea. 相似文献
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Presence of substantial heterosis and economic hybrid seed production are two most desirable components for success of any commercial hybrid breeding programme. Thermosensitive genic male sterile (TGMS) lines of rice, in this regard, have tremendous potential in realizing further quantum jump in yield and economical hybrid seed cost. Analyses for combining ability and heterosis over optimum (120N : 60P2O5 : 40K2O kg/ha) and high (200N : 90P2O5 : 60K2O kg/ha) fertility environments for six traits were made in 2 years (2001 and 2002) using 120 hybrids of inter‐ and intra‐subspecific nature derived from hybridization of 30 elite indica TGMS lines and four cultivars, viz., ‘Pant Dhan 4’ and ‘Ajaya’ (I = indica), ‘Taichung 65’ (J = japonica) and ‘IR 65598‐112‐2’ (TJ = tropical japonica) in line × tester mating design. Predominance of non‐additive genetic variance suggested good prospects of hybrid breeding. Pooled analysis revealed highly significant variances for lines, general combining ability (GCA), specific combining ability (SCA) and line x tester. TGMS line 365‐8S was the best general combiner for all the six traits including grain yield. Trend of relative mid‐parent heterosis for grain yield, panicle length, grain number per panicle and earliness in flowering was I/TJ > I/J > I/I. For panicle number per plant and 1000‐grain weight, trends were I/TJ > I/I > I/J and I/I > I/TJ > I/J, respectively. Grain yield recorded heterosis of 49.3%, 71.9% and 92.7% for I/I, I/J and I/TJ hybrid groups respectively. Effect of environments on the hybrid performance indicated better response of hybrids at high fertilizer dose. Study suggests greater prospects of combining improved japonica and tropical japonica germplasms having wide compatible gene with indica TGMS lines for exploitation of intersubspecific heterosis. 相似文献
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甘蓝型油菜胞质雄性不育系22A的遗传研究 总被引:4,自引:0,他引:4
甘蓝型双低油菜CMS22A是河南省农科院棉油所利用384A中的雄性不育源、采用单株成对连续回交的方法育成的新型双低油菜细胞质雄性不育系。其突出表现为雄性不育彻底且遗传稳定,配合力高,抗病抗倒,品质优良。对CMS22A育性遗传规律研究表明,该不育系属典型的败药型雄性不育系,其雄性不育的遗传受不育细胞质(S)和一对隐性核不育主效基因(rr)的共同控制,属孢子体不育,基因型为S(rr)。 相似文献
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高粱A3细胞质雄性不育的研究与利用 总被引:1,自引:0,他引:1
高粱A3细胞质雄性不育系花药肥大,黄色,可散落出部分花粉,但散落出来的花粉无效,自交套袋不结实,雄性不育性稳定。大多数高粱品系对A3细胞质雄性不育表现保持,具有优良性状的多数品系可转育为A3细胞质雄性不育系,这些不育系具有丰产性好、育性稳定、抗败育等特点。A3细胞质雄性不育恢复源很少,只有极少数高粱品系能恢复其育性,恢复度在40%~95%之间。A3细胞质雄性不育恢复源少且恢复系难以选育,是A3细胞质雄性不育研究的主要障碍,解决高粱A3细胞质雄性不育恢复系的选育问题,是实现A3细胞质雄性不育利用的关键。此文主要对高粱A3细胞质雄性不育恢复系和A3细胞质雄性不育系选育及杂交种选育和应用、高粱A3细胞质雄性不育育性遗传表达等方面进行了阐述,以期育种者重视A3细胞质雄性不育的研究。 相似文献
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Inducing male sterility in Brassica napus L. by a sulphonylurea herbicide, tribenuron-methyl 总被引:1,自引:0,他引:1
A sulphonylurea herbicide, tribenuron‐methyl, methyl 2‐[[[[(4‐methoxy‐6‐methyl‐1,3,5‐triazin‐2‐yl) methylamino] carbonyl] amino] sulphonyl] benzoate, was used to induce male sterility in rapeseed. Application of 0.2 μg tribenuron‐methyl per plant at the bolting stage with the longest floral bud <2 mm and repeated 15 days afterwards, resulted in 94.5–100% plants being male sterile in six different breeding lines, but combined with low phytotoxicity. However, excessive double application of the chemical (>0.2 μg per plant) did have some significant impact on rapeseed, including stunting, fading leaves and petals, reduction in the size of floral parts and a shortened duration of flowering. The percentage of hybrid seeds from ‘84004‘ treated with 0.2 μg × 2 tribenuron‐methyl per plant and pollinated by a male parent ‘Huaye’ was 92.7%, which met the hybridity requirement in China. The results suggest that tribenuron‐methyl could be used as an efficient chemical hybridizing agent. 相似文献
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甜菜杂种优势研究进展 总被引:1,自引:1,他引:0
杂种优势利用是提高作物产量及品质的有效途径。20世纪初,主要用显性和超显性两种假说解释杂种优势。随着现代生物学的发展,对杂种优势现象的研究更加深入。笔者从活性基因效应与杂种优势、遗传距离与杂种优势、遗传连锁图谱构建与杂种优势及数量性状基因位点(QTL)与杂种优势四个方面概括了国内外甜菜杂种优势遗传基础的新见解。从甜菜杂种优势育种理论、雄性不育系(MS系)、自交系的选育及甜菜雄性不育品种的选育等方面综述了目前甜菜杂种优势利用的研究进展,并对未来甜菜杂种优势育种的研究方向进行了展望。 相似文献
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大豆质核互作雄性不育系NJCMS3A双亲雄性育性基因的SSR标记 总被引:3,自引:0,他引:3
利用大豆质核互作雄性不育系NJMCS3A的质、核供体亲本N21566和N21249构建F2和BC1F1育性分离群体进行雄性育性的遗传分析与基因定位。结果表明, F1正反交可育,F2和BC1F1的可育株与不育株分离比例经χ2测验分别符合3∶1和1∶1,表明NJCMS3A供体亲本雄性育性由一对基因控制,可育等位基因为显性。该基因可能是NJCMS3A的一个恢复基因。选用793对SSR引物对F2和BC1F1群体分别进行育性基因定位,发现该育性基因位于O连锁群上,在Satt331和Satt477标记之间,与Satt331、CSSR133和Satt477标记距离的次序一致,分别为8.1~10.4 cM、11.4~16.4 cM、13.3~19.2 cM。 相似文献
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Rafiq Ahmad Mahmood-ul- Hassan Ghanan B. Akhtar Sadia Saeed Sabaz A. Khan Muhammad Kausar Nawaz Shah Nadeem Khan 《Plant Breeding》2020,139(5):988-995
Onion is one of the major vegetable crops in terms of production as well as consumption. In the current research, available onion genetic stock was evaluated to identify male-sterile lines and produce high-yielding F1 hybrids for future breeding programmes. A mitochondrial DNA-based marker was mapped and correlated with phenotypic traits to isolate male-sterile plants. Based on the floral and pollen structure, nine putative male-sterile lines were identified. On the other hand, for nuclear marker identification at Ms locus, two sets of primers were used, one for Ms dominant allele and another for sterile and maintainer plants. Results revealed that 70% of open pollinated varieties (OPVs) possess plants with sterile cytoplasm coupled with genetic sterility at Ms locus, called sterile “A” line. Approximately 20% of plants in some genotypes were identified with normal (N) cytoplasm having recessive fertility gene at Ms locus, called maintainer “B” line. Based on the present findings, “A”, “B” and “R” (restorer line), future F1 hybrid seed production systems in onion is discussed. 相似文献
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Studies on "Three Line" Polima Cytoplasmic Male Sterility Developed in Brassica napus L. 总被引:1,自引:0,他引:1
Polima CMS lines can be divided into three groups according to the sensitivity of male sterility to temperature: 1) high temperature CMS lines (62.9%), 2) low temperature CMS lines (28.6 %) and 3) stable CMS lines (8.5 %). The heterosis of Pol CMS hybrids is evident and common in some of the characters tested, especially in plant seed yield and siliqua number. The cytoplasm has no deleterious effects on the FI characters tested. 相似文献
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Paired A- and B-lines, cytoplasmic male-sterile (CMS)-lines and main-tainer lines, respectively, were crossed with R-lines (restorer) to produce A × R, R × B and B × R hybrids, which were used in 1993 and 1996 to predict the performance of three lypes of CMS cotton lines available in China. A significant difference in yield and yield components was revealed between paired A × R and B × R hybrids. This difference was greatly influenced by both CMS cytoplasm and the interaction between cytoplasm and nuclear genotypes. It is suggested that there are detrimental effects of CMS cytoplasm on yield and yield components. General combining ability of near-isogenic CMS lines was also affected by this negative effect. The detrimental effect was closely related to an increased number of immature seeds per boll, which might be caused by partial female sterility associated with CMS cytoplasm. The possibility of developing specific combinations of CMS Upland × Upland restorer hybrids that express enough heterosis for yield to overcome the detrimental effect of the CMS cytoplasm is discussed. 相似文献
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In recent years, plant molecular research on genetic mapping, gene tagging and cloning, and marker-assisted selection (MAS) have gained importance in crop improvement programmes. In Capsicum, several inter- and intra-specific genetic maps with wide distribution of markers covering the whole genome have been developed. Recently, whole genome of the hot pepper C. annuum, its wild progenitor C. annuum var. glabriusculum and C. baccatum has been sequenced. The Capsicum genome size has been estimated to be approx. 4× (3.48 Gb) the genome size of cultivated tomato (Solanum lycopersicum L.) (900 Mb). Breeders’ access to the pepper genomic information would facilitate the choice of markers from different linkage groups, thus paving the way for gene cloning and its introgression into the elite breeding lines through MAS. Till date, approx. 20 independently inherited nuclear male sterility (NMS) genes have been reported. Linked markers have been identified for ms1, ms3, ms8, ms10, msk, msc-1 and an undesignated gene. However, markers tightly linked to ms8 and ms10 are still lacking. Except ms1, ms3, ms8 and ms10, the map position of other NMS genes is not known. In cytoplasmic male sterility (CMS), markers for the mitochondrial gene atp6 have been developed and the gene cloned. Number of markers some very tightly linked to the restorer-of-fertility (Rf) gene have been identified. However, the actual map position of the Rf locus is still not determined. Another CMS-associated nuclear gene “pr” responsible for restoring partial fertility has been identified and tagged. In this review, we have compiled up-to-date information about the marker technology relating to the NMS and the CMS-associated genes in Capsicum. This information can be useful when screening Capsicum germplasm, developing NMS lines through MAS, improving efficiency of the NMS system, transferring rf gene for maintainer line breeding and Rf genes for restorer line breeding in CMS and assessing genetic purity of the hybrid seed. 相似文献