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1.
New insights into genotypic thermodependency of cytoplasmic male sterility for hybrid barley breeding 
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下载免费PDF全文 The cytoplasmic male sterility (CMS) system msm1 in barley is known to be thermosensitive, sometimes resulting in spontaneous fertility restoration in the absence of the corresponding restorer gene Rfm1. Here, we investigated genotypic differences concerning temperature sensitivity and the plant developmental stage at which elevated temperature induces spontaneous fertility restoration in three CMS mother lines. While one line stayed completely male sterile, a significantly higher fertility was observed in two lines after treatment from growth stage DC 41 until maturation. Microscopic analysis revealed that sterile anthers contained neither intact pollen, nor remains of aborted pollen grains, whereas pollen was visible in anthers of potentially fertile plants. We conclude that the barley CMS system affects anther and pollen development prior to meiosis. Elevated temperature during heading and flowering can lead to a spontaneous fertility restoration by reactivating pollen growth. Nevertheless, genotypic variation exists enabling the selection for stable CMS mother lines and the development of F1 hybrids with high hybridity. As spontaneous fertility restoration due to environmental effects is difficult to phenotype, further investigations will focus on the development of molecular markers for marker‐assisted selection. 相似文献
2.
AFLP-based STS markers closely linked to a fertility restoration locus (Rfm1) for cytoplasmic male sterility in barley 总被引:3,自引:0,他引:3
The Rfm1 gene restores the fertility of the msm1 and msm2 male‐sterile cytoplasms in barley. Rfm1 is located on the short arm of chromosome 6H. To develop molecular markers tightly linked to Rfm1 for use in sophisticated marker‐assisted selection and map‐based cloning, an amplified fragment‐length polymorphism (AFLP) marker system with isogenic lines and a segregating BC1F1 population was used. Nine hundred primer combinations were screened and a linkage map was constructed around the Rfm1 locus by using 25 recombinant plants selected from 214 BC1F1 plants. Three AFLP markers were identified, e34m2, e46m19 and e48m17, linked to the locus. The most closely linked markers were e34m2, at 1.0 cM distally and e46m19, at 1.1 cM proximally. The two AFLP markers were converted to dominant STS markers. These markers should accelerate programmes for breeding restorer lines and will be useful for map‐based cloning. 相似文献
3.
J. G. Th. Hermsen 《Euphytica》1965,14(3):221-224
The author suggests that in nature cytoplasms may occur which can restore fertility in male sterile lines in which male sterility is based on one recessive gene ms. If indeed such a fertilizing cytoplasm should be found a male sterile (S) ms ms-line could be increased using the male fertile counterpart (F) ms ms as a male. Thus the female rows in hybrid seed production fields consist of male sterile plants only. A method is outlined to trace a fertility restoring cytoplasm and to introduce it into a male sterile line. 相似文献
4.
Male fertility restoration in new types of sorghum cytoplasmic male sterility‐inducing cytoplasms (A4, ‘9E’, ‘M35’), characterized by the formation of non‐dehiscent anthers, is difficult. Lines with fertility‐restorer genes for these unique cytoplasms do occur, but rarely, and when found tend to be unstable in their inheritance and expression. The aim of this research was to explore reasons for this instability. Seven lines in three unique cytoplasms, ‘9E’, A4 and ‘M35’, and six lines that restore with these cytoplasms were grown at the Agricultural Research Institute for South‐East Region in Saratov, Russia from 1993 to 2004. Levels of male fertility restoration and various environmental factors were recorded. It is reported that for sorghum hybrids in the A4, ‘9E’ and ‘M35’ male‐sterile cytoplasms, the level of plant male fertility is determined by the level of water available to plants during anther and pollen formation that which ‘switches on’ the expression of fertility‐restoring genes, and is possibly involved in an unusual type of male fertility inheritance in these cytoplasms. The creation of reliable line‐fertility restorers capable of the restoration of male fertility of F1 hybrids in ‘M35’ cytoplasm under conditions of water stress is also reported. Current research explore mechanisms involved possible in responses to water levels at various growth stages and their influence on fertility within these cytoplasms. 相似文献
5.
部分高粱转换系与不同高粱细胞质的育性反应 总被引:5,自引:0,他引:5
利用部分高粱转换系与具相同核背景不同细胞质的高粱不育系杂交,调查F_1代植株花粉育性和主要农艺性状,结果表明4种细胞质之间育性反应存在着明显的差异,A_1与A_2型细胞质之间差异较小;A_1、A_2与A_3、A_4型之间差异较大。A_1和A_2型细胞质与部分高粱转换系杂交F_1代的自交结实率之间的相关达极显著水准。A_2、A_3型细胞质对F_1代主要农艺性状的影响与A_1型对这些性状的影响无显著差异。A_2型细胞质可以在高粱杂交种生产中加以利用。A_3型细胞质与前两种细胞质的育性反应截然不同。找到了A_3型细胞质的恢复源和能同时恢复A_1、A_2、A_3型细胞质的材料。初步确定了能够鉴定高粱4种不同细胞质的鉴定系。通过对同核异质,异核同质育性反应的研究,表明4种细胞质完全不同,细胞质对育性反应起着决定性的作用,育性反应不因核背景的改变而发生显著变化,不同细胞质育性恢复机制不同。 相似文献
6.
Mitochondrial DNA (mtDNA) from sugar beet carrying fertile (F) and male sterile (CMS) cytoplasms, and from male sterile accession of Beta maritima collected in Brittany (France) were characterized and compared by restriction fragment length polymorphism (RFLP) and Southern hybridization with coxII. The F and CMS cytoplasms could be clearly distinguished from each other by RFLP when XhoI, EcoRI and BamHI endonucleases were used. Southern hybridization with the coxII gene provided further evidence that mitochondrial genome organization differs between fertile and sterile plants. All cytoplasmic male sterile lines from different breeding stations showed the same restriction and hybridization patterns, which confirms the uniformity of mitochondrial genomes within the materials used for hybrid seed production in several European countries. No visible differences were found between the maintainer lines studied. However, comparisons of XhoI restriction profiles of mtDNA from maintainer lines and from fertile monogerm populations revealed slight differences, which were reflected by the appearance of a unique 0.9 kb fragment in the latter. Analysis of mtDNA from male sterile plants of the wild beet B. maritima showed different restriction and hybridization patterns in comparison with normal and sterile sugar beet cytoplasms. This shows the unique nature of cytoplasmic male sterility in this species. 相似文献
7.
单产水平低一直是我国绿豆存在的产业问题。绿豆杂种优势显著是提高产量的有效途径,而雄性不育材料是实现杂种利用的宝贵资源。本研究利用~(60)Co-γ辐射诱变技术首次在绿豆中获得雄性不育突变体,并命名为‘不育绿豆2015-1’(male sterile mungbean2015-1,简写为msm2015-1)。msm2015-1营养生长期表型与‘苏绿1号’没有明显差异。花器官形态正常,但花药发白且不能正常开裂散粉,成熟期座荚率几乎为0。遗传分析显示,育性分离群体中可育与不育分离比符合3∶1,表明不育性状由单个隐性核基因控制。花粉发育的细胞学分析发现, msm2015-1的盛开花朵中花粉粒几乎未在柱头附着,体外亦未萌发。花粉细胞质未被Alexander染液正常着色, I_2-KI染色出现典败、圆败和染败3种类型。DAPI染色显示, msm2015-1花粉细胞核发育异常。醋酸洋红染色表明,败育发生在花粉发育早期,花粉母细胞在四分体时期减数分裂的不对称和异常多分裂是导致花粉败育的主要原因。 相似文献
8.
Anther culture was applied as a method to develop the essential components of a cytoplasmic male sterility hybrid system in
rye (Secale cereale L.). These components are the male sterile seed parent (A line), its isogenic maintainer counterpart (B
line) and the restorer pollen parent (R line). Australian rye cultivars were crossed reciprocally to the cultivar ‘Luchs’
which carries the Pampa male sterile cytoplasm (cms-P). Anthers of the F1s in the cms-P cytoplasm (primary cross) and their
reciprocals in the normal cytoplasm (reciprocal cross) were cultured in a modified C17 medium. Male sterile and male fertile
doubled haploids were obtained from the anther culture of the F1s in the cms-P cytoplasm. Testcrosses indicated that the male
sterile doubled haploids were A lines and the male fertile doubled haploids were R lines (restorers). The anther culture of
genotypes in the normal cytoplasm (reciprocal cross) gave all male fertile doubled haploids. Testcrosses indicated that the
male fertile doubled haploids were R lines (restorers) in the normal cytoplasm. The expected maintainer B lines were not identified
because of the limited number of doubled haploids obtained from the anther culture of reciprocal crosses. Experimental single
cross hybrids between male sterile and restorer male fertile doubled haploids showed high levels of heterosis. The results
of this study have significant economic implications especially in the production of hybrids in several species.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
9.
Fusarium head blight (FHB) is a fungal disease of barley and other cereals, causing substantial yield and quality losses, mainly due to the contamination of the harvest with mycotoxins. We aimed to evaluate genetic variation for resistance to FHB and its association with other plant characters in diverse barley germplasm in order to identify useful lines for resistance breeding. The 143 barley lines consisted of 88 current European spring barley lines and cultivars, 33 accessions from the genebank at IPK Gatersleben, and 22 lines obtained from North American institutions. We conducted artificially inoculated field experiments with Fusarium graminearum Schwabe during two seasons. FHB severity was evaluated by repeated assessment of visual symptoms. On a set of 49 lines several trichothecene mycotoxins were analyzed. Variation for FHB severity was quantitative. The lines with lowest FHB severity were 'CIho 4196' and 'PI 566203'. Also within the European spring barley collection variation for FHB severity was highly significant. There was a significant negative correlation between plant height and FHB severity (r=– 0.55). FHB severity assessed in the field and the amount of deoxynivalenol in the harvested grains were positively correlated (r= 0.87). Several lines with a useful level of FHB resistance were found or confirmed and are recommended as crossing partners. 相似文献
10.
A backcrossing programme was carried out both to assess the stability of a cytoplasmic male‐sterility (CMS) source from Helianthus resinosus, designated RES1, and to incorporate it into inbred sunflower lines (HA89, RHA271, RHA801). All the progenies, grown in different environments, were completely male‐sterile. This suggests that the expression of this cytoplasm is stable. Female‐fertility of lines HA89, RHA271 and RHA801 carrying CMS RES1 were compared with those of the corresponding fertile inbred lines. There were no differences in the number of seeds per head. This indicates that female‐fertility is not affected by RES1 cytoplasm. Cytological studies showed that meiosis proceeds normally until the tetrad stage; consequently, the absence of pollen is caused by alterations that take place during postmeiotic stages. With the aim of identifying male‐fertility restorer genotypes, crosses were made between HA89 (CMS RES1) plants and different annual diploid and perennial hexaploid Helianthus species. All the diploid germplasm evaluated behaved as a CMS RES1 maintainer. However, the hexaploid species, H. resinosus, H. x laetiflorus, H. pauciflorus and H. tuberosus, restored pollen fertility in CMS RES1 plants. 相似文献
11.
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
12.
Tomosaburo Yabuno 《Euphytica》1977,26(2):451-463
Summary Interspecific cytoplasm substitution lines of Oryza sativa and O. glaberrima, i.e. (sativa)-glaberrima and (glaberrima)-sativa, have been bred by means of successive backcrosses, using three japonica varieties of sativa and two glaberrima strains.In all the six substitution lines with the cytoplasm of the glaberrima strains, the fertility increased with succeeding backcrosses, and eventually completely fertile plants whith the characteristics of the parental japonica variety appeared. This indicates that the glaberrima cytoplasm exerted no effect on the genome manifestation of these japonica varieties. Of the five substitution lines with the cytoplasm of each of the japonica varieties, four lines produced male sterile (M.S.) plants only in the backcross generations. In the remaining substitution line with the cytoplasm of the japonica variety Akebono, there was simultaneous segregation for male sterile (M.S.) and pollen fertile plants bearing indehiscent anthers (ID.M.F.) in the backcross generations. In the compulsively selfed progeny of ID.M.F. plants, pollen fertile plants with dehiscent anthers (D.M.F.) occurred with M.S- and ID.M.F. plants. Morphologically, these three types were supposed to have the same genetic background as the glaberrima parent. It was established that D.M.F.-and ID.M.F. plants were homozygous and heterozygous for a dominant nuclear gene restoring pollen fertility, respectively, and the M.S. plants and the two glaberrima strains used in this study carried a recessive gene for pollen sterility in homozygous condition. The restorer gene was assumed to derive from the japonica variety Akebono. The expression of the restorer gene was of the sporophytic type. The pollen sterility of the substitution lines that possessed the cytoplasm of the japonica varieties was of cytoplasmon-genic nature. 相似文献
13.
Summary From 28 Indica-Japonica crosses, two Indica cultivars, V.20B and Sattari were identified to possess male sterile cytoplasm with fertility restoring genes. It was possible to develop a new Japonica cytoplasmic genetic male sterile line (Zhunghua-1) on Indica male sterile cytoplasm (V 20B) by repeated backcrossing the complete pollen sterile plants of V 20B x Zhunghua-1 to the recurring male parent, Zhunghua-1. The study indicated that it would be possible to develop male sterile lines rom indica-japonica crosses only when there is sufficient amount of reciprocal differences with respect to pollen sterility. Further, it was inferred that it would be easier to develop Japonica male sterile lines on Indica cytoplasm than developing Indica male sterile line with japonica cytoplasm. 相似文献
14.
Summary The quinoa cultivar Apelawa carries both normal and male sterile cytoplasms. Plants with male sterile cytoplasm produce flowers characterized by the complete absence of anthers and prominent exsertion of stigmas. Intraspecific crosses between male sterile quinoa plants and normal male fertile pollen donors consistently produced male sterile offspring under greenhouse conditions. Interspecific hybridization between male sterile quinoa plants and the related weed species Chenopodium berlandieri resulted in offspring with partial restoration of male fertility. The male sterile cytoplasm found in Apelawa has potential for use in the production of quinoa hybrids, although a more complete restorer system than that identified in C. berlandieri would be desirable. 相似文献
15.
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
16.
Improving male fertility restoration of common wheat for Triticum timopheevii cytoplasm 总被引:2,自引:0,他引:2
The fertile pure line R3‐37 of common wheat with cytoplasm of Triticum timopheevii Zhuk. is an R‐line (restorer) that can restore the male fertility of A‐lines (male sterile lines) with T. timopheevii cytoplasm. In breeding hybrid wheat, the hybrid of the cross R3‐37/ Baimian3 was found to be completely male sterile, indicating that Baimian3 has some genes that are epistatic to the Rf genes in R3‐37. In order to elucidate the essence of this phenomenon, the male fertilities of the hybrids of 27 crosses including R3‐37 and/or Baimian3 were studied. The results show that inheritance of male fertility of the hybrid R3‐37/Baimian3 involves interactions among Rf alleles, male fertility‐inhibiting genes and genetic background. Although more than 70 different kinds of male sterile cytoplasm to common wheat have been discovered, the systems of hybrid wheat production based on male sterile cytoplasm are all the A‐line/R‐line type and all have similar problems of hybrid fertility restoration. This study confirmed that there is a new model (A‐line/R*‐line//R‐line) for producing hybrid wheat with high fertility restoration. In the new model, the completely male sterile hybrids of A‐line/R*‐line can act as common A‐line. 相似文献
17.
A new cytoplasmic male‐sterile (CMS) system for hybrid wheat breeding, YA‐type CMS line with the cytoplasmic mutant from the common wheat variety ‘CA8057’, was developed by the Institute of Genetics and Developmental Biology, Chinese Academy of Sciences. The pollen sterility of YA‐type CMS line was easily maintained but difficult to restore. Some sterile lines with desirable agronomic performance, such as msYA‐‘CA8057’ (BC17), msYA‐‘Yuandong 6’ (BC9), msYA‐‘Jin 411’ (BC9), msYA‐‘WL1’ (BC10), msYA‐‘Yanshi 9’ (BC10), msYA‐‘BPm16’ (BC9), msYA‐‘Jindong 8’ (BC9) and msYA‐‘Jinmai 33’ (BC9), were bred and a restorer line GR1 was screened with 26 new restorer lines being developed by transferring restorer genes from GR1. It was found that abnormal phenomena occurred at the uninucleate‐pollen stage and the abortive pollen was poor in starch content and other components. The variance analysis of agronomic traits in eight sterile lines indicated that there was no general negative effect of cytoplasm. The genetic analysis for fertility restoration showed that two pairs of independent major genes (designated YARf1YARf1YArf2YArf2) and some minor genes could be involved in the fertility restoration in restorer line GR1, and YARf1 was epistatic over YARf2 for the genetic effect of fertility restoration. As a new CMS system, the YA‐type CMS line was of potential value for hybrid wheat breeding and should be further studied. 相似文献
18.
Anjani Kammili 《Plant Breeding》2013,132(2):180-184
Genetic male sterility (GMS) exists naturally in safflower (Carthamus tinctorius L.). In the existing safflower GMS lines, sterile and fertile plants are distinguishable at flowering. This causes delay in fertile plants rouging and reduction in hybrid purity. In this investigation, a cross between a spiny GMS parent 13‐137 and a spiny non‐GMS parent ‘A1’ was effected. One sib cross, SC‐67, producing non‐parental‐type non‐spiny sterile and spiny fertile plants in F3 was advanced to F9 through sib crossing between non‐spiny sterile and spiny fertile plants. Mendelian digenic segregation was not observed for non‐spiny trait and male sterility. The results revealed strong linkage between these traits. The linkage was confirmed in F2 generations of crosses between a non‐spiny marker‐linked GMS line (MGMS) and five elite lines. Male sterility–linked non‐spiny trait could distinguish sterile and fertile plants at elongation stage. The MGMS would be useful in production of pure F1 hybrid seed and development of elite populations. 相似文献
19.
J. Ovesná J. Vacke L. Kucera J. Chrpová I. Nováková A. Jahoor V. &#;ip 《Plant Breeding》2000,119(6):481-486
The inheritance of resistance to barley yellow dwarf virus (BYDV) was studied in the selected 24 spring and winter barley cultivars that showed a high or intermediate resistance level in 1994‐97 field infection tests. The polymerase chain reaction diagnostic markers YLM and Ylp were used to identify the resistance gene Yd2. The presence of the Yd2 gene was detected with both markers in all the resistant spring barley cultivars and lines from the CIMMYT/ICARDA BYDV nurseries. The results of field tests and genetic analyses in winter barley corresponded with marker analyses only when the Ylp marker was used. Genes non‐allelic with Yd2 were detected by genetic analyses and the Ylp marker in moderately resistant spring barley cultivars ‘Malvaz’, ‘Atribut’ and ‘Madras’, and in the winter barley cultivars ‘Perry’ and ‘Sigra’. Significant levels of resistance to BYDV were obtained by combining the resistance gene Yd2 with genes detected in moderately resistant cultivars. The utilization of analysed resistance sources in barley breeding is discussed. 相似文献
20.
Search for male sterility-inducing cytoplasm in wild species of the genus Oryza was attempted with a view to diversify the base of the cytoplasmic genetic male sterility system currently used in the development of commercial rice hybrids. A total of 132 interspecific crosses were made involving accessions of four wild and two cultivated species, all belonging to the A genome. Wild accessions possessing sterility-inducing cytoplasms were identified following reciprocal and sterile F2 backcross methods. Sterile segregants were pursued through substitution backcrosses to develop cytoplasmic male-sterile (CMS) lines. CMS lines were developed with the cytoplasm of either O. rufipogon (VNI) or O. nivara (DRW 21018, DRW 21001, DRW 21039, DRW 21030 and RPW 21111). Based on shape, staining, and abortive pattern of pollen and also on type of interaction with a set of restorers and maintainers for known cytoplasmic male steriles of WA source (V 20A), the newly-developed CMS lines were grouped into four classes. Of these, RPMS 1 and RPMS 2 showed gametophytic male sterility with a restorer reaction different from WA cytoplasmic male-sterile stocks. 相似文献