Mapping of genes for male-fertility restoration in ’Pampa’ CMS winter rye (Secale cereale L.)

Hybrid rye breeding and seed production is based on the cytoplasmic male sterility (CMS)-inducing Pampa (P)-cytoplasm. For restoring male fertility in the hybrids, dominant, nuclear restorer genes are necessary. However, current pollinator lines are only partial restorers. Effective restorers were recently detected in the German inbred line L18 and in materials originating from the Argentinian rye cultivar Pico Gentario and an Iranian primitive rye accession called IRAN IX. F₂ populations were developed for each of these three restorer sources to map the responsible genes by means of RFLP (restriction fragment length polymorphism) markers. For this purpose, homo- and heterologous DNA probes were used leading to 101 polymorphic marker loci in total. For phenotypic evaluation, 100 to 134 randomly chosen plants from each of the populations were cloned and grown at two or three locations with two plants each. Segregation ratios of pollen fertility in the F₂ populations with L18 and IRAN IX were in accordance with a monogenic dominant inheritance. The segregation pattern for Pico Gentario indicated complementary gene action. Major dominant restorer genes were detected on chromosomes 1RS (L18) and 4RL (Pico Gentario, IRAN IX). The gene on 1RS explained 54% of the phenotypic variation and that on 4 RL 59% and 68% in the Pico Gentario and IRAN IX populations, respectively. Additionally, three minor genes from L18 were identified on chromosomes 3RL, 4RL and 5R. In the Pico Gentario population, a dominant modifier gene contributed by the female parent was found on chromosome 6R. This gene significantly enhanced the expression of the major restorer gene but on its own was not able to restore any degree of fertility. The map-distances between the major restorer loci and at least one flanking marker were small in all three F₂ populations (5–6 cM). In Pico Gentario an unfavorable linkage exists between the major restorer gene and a QTL for plant height. Since highly effective restorers are scarce in actual breeding populations, the major restorer genes detected on chromosomes 1 RS and 4RL should be introgressed into actual restorer lines. This is facilitated by using the closely linked molecular markers described. Received: 10 February 2000 / Accepted: 31 March 2000<@head-com-p1a.lf>Communicated by G. Wenzel     

Fine mapping of the restorer gene <Emphasis Type="Italic">Rfp3</Emphasis> from an Iranian primitive rye (<Emphasis Type="Italic">Secale cereale</Emphasis> L.)

Key message

A comparative genetics approach allowed to precisely determine the map position of the restorer gene Rfp3 in rye and revealed that Rfp3 and the restorer gene Rfm1 in barley reside at different positions in a syntenic 4RL/6HS segment.

Abstract

Cytoplasmic male sterility (CMS) is a reliable and striking genetic mechanism for hybrid seed production. Breeding of CMS-based hybrids in cereals requires the use of effective restorer genes as an indispensable pre-requisite. We report on the fine mapping of a restorer gene for the Pampa cytoplasm in winter rye that has been tapped from the Iranian primitive rye population Altevogt 14160. For this purpose, we have mapped 41 gene-derived markers to a 38.8 cM segment in the distal part of the long arm of chromosome 4R, which carries the restorer gene. Male fertility restoration was comprehensively analyzed in progenies of crosses between a male-sterile tester genotype and 21 recombinant as well as six non-recombinant BC₄S₂ lines. This approach allowed us to validate the position of this restorer gene, which we have designated Rfp3, on chromosome 4RL. Rfp3 was mapped within a 2.5 cM interval and cosegregated with the EST-derived marker c28385. The gene-derived conserved ortholog set (COS) markers enabled us to investigate the orthology of restorer genes originating from different genetic resources of rye as well as barley. The observed localization of Rfp3 and Rfm1 in a syntenic 4RL/6HS segment asks for further efforts towards cloning of both restorer genes as an option to study the mechanisms of male sterility and fertility restoration in cereals.

     

Fine mapping and candidate gene analysis of the nuclear restorer gene Rfp for pol CMS in rapeseed (Brassica napus L.)

The Polima (pol) system of cytoplasmic male sterility (CMS) in rapeseed is widely used in China for commercial hybrid seed production. Genetic studies have shown that its fertility restorer gene (Rfp) is monogenic dominant. For fine mapping of the Rfp gene, a near isogenic line comprising 3,662 individuals of BC(14)F(1) generation segregating for the Rfp gene was created. Based on the sequences of two SCAR markers, SCAP0612ST and SCAP0612EM2, developed by Zhao et al. (Genes Genom 30(3):191-196, 2008) and the synteny region of Brassica napus and other Brassica species, 13 markers strongly linked with the Rfp gene were identified. By integrating three of these markers to the published linkage map, the Rfp gene was mapped on linkage group N9 of B. napus. Using these markers, the Rfp locus was narrowed down to a 29.2-kb genomic region of Brassica rapa. Seven open reading frames (ORFs) were predicted in the target region, of these, ORF2, encoding a PPR protein, was the most likely candidate gene of Rfp. These results lay a solid foundation for map-based cloning of the Rfp gene and will be helpful for marker-assisted selection of elite CMS restorer lines.     

Development of conserved ortholog set markers linked to the restorer gene Rfp1 in rye

Restoration of male fertility is a prerequisite for hybrid rye breeding and currently the most straightforward approach to minimize ergot infection in hybrid rye varieties. Molecular markers are important tools for the efficient introgression and management of restorer genes like Rfp1 originating from unadapted genetic resources. Furthermore, closely linked markers flanking Rfp1 are indispensible for identifying and selecting individuals with haplotypes showing recombination between Rfp1 and other gene(s) that reside in close proximity and have a negative influence on yield. We identified orthologous gene sets in rice, Brachypodium, and Sorghum and used these gene models as templates to establish conserved ortholog set (COS) markers for the restorer gene Rfp1 on the long arm of rye chromosome 4R. The novel co-dominant markers delimit Rfp1 within a 0.7-cM interval and allow prediction of Rfp1 genotypes with a precision not feasible before. The COS markers enabled an alignment of the improved genetic map of rye chromosome 4R with wheat and barley maps and allowed identification of regions orthologous to Rfp1 in wheat and barley on the short arms of chromosomes 6D and 6H, respectively. Results obtained in this study revealed that micro-collinearity around the Rfp1 locus in rye is affected by rearrangements relative to other grass genomes. The impact of the novel COS markers for practical hybrid rye breeding is discussed.     

甘蓝型油菜Pol CMS育性恢复基因的PCR标记

采用恢、保回交群体和集团混合分析法,筛选了１０４０个１０－ｍｅｒ随机引物,找到了与甘蓝型油菜波里马细胞质雄性不育系（Ｐｏｌ ＣＭＳ）育性恢复基因（Ｒｆｐ）连锁的两个ＲＡＰＤ标记Ｓ１０１９７２０和Ｓ１０３６８１０。它们位于Ｒｆｐ的一侧,与该基因的遗传图距分别为５．８ｃＭ和１２．３ｃＭ。随后,克隆并测序这２个多态性片段,根据其２端序列设计了２对２０～２４－ｍｅｒ的特异引物,它们在１３８株的回交群体中Ｐ     

Genetic mapping of nuclear fertility restorer genes for the ‘Polima’ cytoplasmic male sterility in canola (Brassica napus L.) using DNA markers

 Co-segregation of male fertility with DNA markers selected by targeted mapping approaches as being potentially linked to the Rfp1 restorer gene for the pol cytoplasmic male sterility (CMS) was analyzed using two canola (Brassica napus L.) backcross populations. Eleven DNA markers (10 RFLP markers and one RAPD marker) directly linked to the Rfp1 locus were identified. The linkage group containing the Rfp1 locus was found to correspond to B. napus linkage group 18 of Landry et al. (1991). A similar pattern of co-segregation between DNA markers and male fertility was observed in a backcross population segregating for the pol restorer gene Rfp2 from line ‘UM2383’; one RFLP marker, cRF1b, showed perfect linkage with both Rfp1 and Rfp2 and detected identical polymorphic fragments in both the Rfp1 and Rfp2 restorer lines. Our findings indicate that restoration of pol CMS is controlled by a single nuclear genetic locus on linkage group 18 and that Rfp1 and Rfp2 are likely allelic. Received: 2 October 1996 / Accepted: 20 December 1996     

Molecular mapping of the <Emphasis Type="Italic">Rf1</Emphasis> gene restoring pollen fertility in PET1-based F<Subscript>1</Subscript> hybrids in sunflower (<Emphasis Type="Italic">Helianthus annuus</Emphasis> L.)

Up to now a single cytoplasmic male sterility (CMS) source, PET1, is used worldwide for hybrid breeding in sunflower. Introgression of the restorer gene Rf1, responsible for fertility restoration, into new breeding material requires tightly linked markers to perform an efficient marker-assisted selection. A survey of 520 decamer primers by bulked segregant analyses identified five RAPD markers linked to the restorer gene Rf1. In a F(2) population of 183 individuals one of the RAPD markers, OPK13_454, mapped 0.8 cM from Rf1, followed by OPY10_740 with 2 cM. Bulked segregant analyses using 48 AFLP primer combinations identified 17 polymorphisms, which could be mapped in the same linkage group as Rf1. E33M61_136, and E41M48_113 were mapped 0.3 cM and 1.6 cM from the gene, respectively. Conversion of E41M48_113 into a sequence-specific marker resulted in a monomorphic pattern. However, two of the RAPD markers, OPK13_454 and OPY10_740, were successfully converted into SCAR markers, HRG01 and HRG02, which are now available for marker-assisted selection. To investigate the utility of these SCAR markers in other cross-combinations they were tested in a set of 20 lines. Comparison of the patterns of 11 restorer and nine maintainer lines of PET1 demonstrated that the markers OPK13_454/HRG01 and HRG02 were absent in all maintainer lines but present in all restorer lines, apart from the high oleic line RHA348 and the dwarf line Gio55. In addition, restorer lines developed from the interspecific hybrids Helianthus annuus x Helianthus mollis and H. annuus x Helianthus rigidus gave the same characteristic amplification products.     

Cleaved amplified polymorphic sequence and amplified fragment length polymorphism markers linked to the fertility restorer gene in chili pepper (Capsicum annuum L.)

Cytoplasmic male sterility (CMS) in plants, which is due to failure to produce functional pollen, is a maternally inherited trait. Specific nuclear genes that sup-press CMS, termed fertility restorer (Rf) genes, have been identified in several plants. In this study, Rf-linked molecular markers in pepper (Capsicum annuum L.) were detected by bulked segregant analysis of eight amplified fragment length polymorphisms (AFLPs). Only AFRF8 was successfully converted to a cleaved amplified polymorphic sequence (CAPS) marker. This was named AFRF8CAPS and genotype determination using it agreed with that obtained with the original AFRF8. A linkage map with a total size of 54.1 cM was constructed with AFRF8CAPS and the seven AFLP markers using the Kosambi function. The AFRF8CAPS marker was shown to be closest to Rf with a genetic distance of 1.8 cM. These markers will be useful for fast and reliable detection of restorer lines during F(1) hybrid seed production and breeding programs in pepper.     

Combined mapping of DALP and AFLP markers in cultivated sunflower using F9 recombinant inbred lines

A genetic map was constructed with specific PCRs, DALPs and AFLPs using F8-generation sunflower recombinant inbred lines. RI lines generated from a F2 population of one cross between the two cultivated inbred lines HA89 (maintainer for Pet1 CMS) and LR4 (restorer for Pet1 CMS) were used. A total of 305 markers were located using seven sPCR, 64 DALP and 301 AFLP loci. They were generated with one, seven and 14 primer pairs, respectively. The map construction consisted of a two-step strategy using 6 and 3.1 LOD scores revealed by a simulation file. Mapped markers were assembled into 18 linkage groups covering 2,168.6 cM with an average of 6.1 cM. The distribution of DALPs and AFLPs revealed that both markers tagged different regions to enable covering most of the sunflower genome. This leads to the longest map published so far for sunflower.     

普通小麦D2型CMS系的育性基因及其遗传特性

通过研究普通小麦D^2型CMS－育性恢复体系中育性基因的种类及其遗传特性。结果表明：（1）D^2型不育系具有较好的不育性保持与恢复特征,在一般的普通小麦品种（系）中具有广泛的恢复（基因）源、可恢复度高（恢复度超过50％的品种或品质占到33．61％）,也能较容易地转育出新的不育系（完全保持不育性的品种或品系占到25．21％）,这一特征明显优于现有T、K、V型等不育系。（2）D^2型不育系的不育性受核内不育基因和抑制基因控制,相应的核基因型分为Al（不育基因）、A2（不育基因＋抑制基因）两类;恢复纱的恢复性受核内主效恢复基因、微效恢复基因和抑制基因控制,相应的核基因型分为C1（主效恢复基因）、C2(驻效恢复基因＋微效恢复基因）、C3（微效恢复基因）、C4（主效恢复基因＋抑制基因）、C5（主效恢复基因＋微效恢复基因＋抑制基因）、C6（微效恢复基因＋抑制基因）6种。环境条件的变化对育性基因、尤其是微效恢复基因和抑制基因的遗传效应有不同程度的影响。D^2型不育有效杂交组合的模型为：A1＋C1`A1 C2、A2＋C2。（3）D^2型不育系等位恢复基因的遗传表现为不完全显性,非等位恢复基因的遗传表现出积效应,这正是强恢复系德育的理论依据之一。     

Molecular mapping and inheritance of restoration of fertility (<Emphasis Type="Italic">Rf</Emphasis>) in A4 hybrid system in pigeonpea (<Emphasis Type="Italic">Cajanus cajan</Emphasis> (L.) Millsp.)

Key message

We report molecular mapping and inheritance of restoration of fertility (Rf) in A4 hybrid system in pigeonpea. We have also developed PCR-based markers amenable to low-cost genotyping to identify fertility restorer lines.

Abstract

Commercial hybrids in pigeonpea are based on A4 cytoplasmic male sterility (CMS) system, and their fertility restoration is one of the key prerequisites for breeding. In this context, an effort has been made to understand the genetics and identify quantitative trait loci (QTL) associated with restoration of fertility (Rf). One F₂ population was developed by crossing CMS line (ICPA 2039) with fertility restorer line (ICPL 87119). Genetic analysis has shown involvement of two dominant genes in regulation of restoration of fertility. In parallel, the genotyping-by-sequencing (GBS) approach has generated ~?33 Gb data on the F₂ population. GBS data have provided 2457 single nucleotide polymorphism (SNPs) segregating across the mapping population. Based on these genotyping data, a genetic map has been developed with 306 SNPs covering a total length 981.9 cM. Further QTL analysis has provided the region flanked by S8_7664779 and S8_6474381 on CcLG08 harboured major QTL explained up to 28.5% phenotypic variation. Subsequently, sequence information within the major QTLs was compared between the maintainer and the restorer lines. From this sequence information, we have developed two PCR-based markers for identification of restorer lines from non-restorer lines and validated them on parental lines of hybrids as well as on another F₂ mapping population. The results obtained in this study are expected to enhance the efficiency of selection for the identification of restorer lines in hybrid breeding and may reduce traditional time-consuming phenotyping activities.

     

Identification of AFLP markers linked to fertility restorer genes for tournefortii cytoplasmic male-sterility system in Brassica napus

The tournefortii cytoplasmic male-sterility system is being used as a method of pollination control to develop hybrids in Brassica napus. Genetic analyses have indicated that two dominant genes, one major ( Rft1) and another minor ( Rft2), were required to achieve complete fertility restoration. Though the major gene ( Rft1) can cause complete fertility restoration on its own, its expression was significantly enhanced in the presence of the minor gene ( Rft2). In the absence of Rft1, Rft2 caused only partial fertility restoration. We used a pair of near-isogenic lines (NILs), differing for the presence/absence of Rf genes, to identify AFLP markers linked to fertility restorer genes. A total of 64 EcoRI/ MseI primer combinations were surveyed which produced 3,225 bands, of which 19 (0.006%) were polymorphic between parental NILs. Primer combinations which led to the identification of polymorphic bands present in fertile parental NILs were used for assaying a mapping population of 70 F(2) plants for determining the segregation pattern of markers. Initial screening resulted in the identification of five AFLP markers. The recombination analyses of these AFLP markers revealed that at least two (EACC/MCTT(105), EAAG/MCTC(80)) were present in the same linkage group along with the Rf loci. Marker EACC/MCTT(105) was separated from the major gene ( Rft1) by a distance of 18.1 cM, while it was 33.2 cM away from the minor fertility restorer gene ( Rft2). Another marker EAAG/MCTC(80) was also located adjacent to Rft1 at a distance of 18.1 cM, but on other side. Identification of flanking markers (EACC/MCTT(105), EAAG/MCTC(80)) for the major fertility restorer gene ( Rft1) provides a crucial component for marker-assisted selection and map-based cloning of the restorer genes, and can hence be used to construct elite restorer genotypes.     

甘蓝型油菜pol CMS育性恢复基因对orf224/atp6的转录调控

用 10个线粒体基因探针对波里马细胞质雄性不育 (polimaCMS)三系 1141A(pol) ,1141B(nap)和 1141R(pol)的花蕾线粒体RNA进行了Northern检测。结果表明 ,只有 3个探针atp6、orf2 2 4和orf2 2 2检测到转录本的差异。atp6在可育的 1141B中只转录产生一个丰度很高的 1 1kb转录本 ,在雄性不育的 1141A和pol胞质恢复系 1141R中 ,这个转录本的丰度明显减少并出现了分子量较大的 2个转录本 2 2kb、1 9kb转录本。与 1141A相比 ,恢复系1141R的 2 2kb和 1 9kb转录本丰度明显减少 ,并伴随着两个新的转录本 1 4kb和 1 3kb。表明orf2 2 4 atp6的表达与polCMS有关 ,并且其转录受到恢复基因Rfp的调控。同时通过对杂种F1 ( 1141A× 1141R)与另一个恢复系RS35 (pol)的比较证实 ,Rfp对orf2 2 4 atp6的调控与Rfp纯合与否无关。orf2 2 4 atp6在 1141A的苗期叶片中还转录产生育性恢复特异的 1 4kb转录本 ,这可能与细胞核基因型和相对低温条件有关。     

用微卫星标记定位小麦T型CMS的恢复基因

以T型细胞质雄性不育系 75 336 9A×恢复系 72 6 9 10的F2 群体作为育性调查和基因定位群体。通过育性分析 ,确定该恢复系含有 2个主效恢复基因 ;结合群分法 ,对恢复基因进行了SSR分子标记定位 ,在 2 30对微卫星引物中 ,微卫星标记Xgwm136和Xgwm5 5 0分别与 2个主效恢复基因连锁。这两个标记与Rf基因之间的遗传距离分别为 6 7cM和 5 1cM ,从而将该恢复基因定位在 1AS、1BS染色体上。     

Mapping of the Rf-3 nuclear fertility-restoring gene for WA cytoplasmic male sterility in rice using RAPD and RFLP markers

The cytoplasmic male sterility (CMS) of wild-abortive (WA) cytoplasm has been widely used for breeding hybrid rice. Two restorer genes for the CMS have been found by traditional genetic analysis. To tag the restorer genes we used a set of near-isogenic lines (NILs) of Zhenshan 97 carrying different genotypes for fertility restoration from IR24, to perform RAPD analysis. From the survey of 720 random primers, six RAPD markers were identified to be associated with Rf-3. Three of these OPK05-800, OPU10-1100 and OPW01-350, were mapped on chromosome 1. Two populations from the crosses between Zhenshan 97 A and a near-isogenic restorer line ZSR21 and between Zhenshan 97 A and IR24 were used for mapping Rf-3. The three RAPD markers and three RFLP markers, RG532, RG140 and RG458, were found to be closely linked to Rf-3 in the two populations. The same location of Rf-3 was also found in a population from the cross of IR58025 A//IR36/IR58025 B. At the RG532 locus, different alleles were found between two CMS lines, Zhenshan 97 A and IR58025 A, and between two restorer lines, IR24 and IR36. The use of these molecular markers closely linked to Rf-3 in facilitating the development of hybrid rice is discussed. Received: 3 January 1996 / Accepted: 17 May 1996     

Targeted mapping approaches to identify DNA markers linked to the Rfp1 restorer gene for the ‘Polima’ CMS of canola (Brassica napus L.)

 We have used two targeting approaches [pairs of nearly isogenic lines (NILs) and bulked segregant analysis] to identify DNA markers linked to the Rfp1 restorer gene for the pol CMS of canola (Brassica napus L.). We were able to target the Rfp1 locus as efficiently by comparing NILs as by bulked segregant analysis, and it was demonstrated in this instance that double-screening strategies could significantly improve the overall targeting efficiency. The chance occurrence of shared homozygosity at specific unlinked chromosomal regions in the bulks was found to limit the efficiency of bulked segregant analysis, while the efficiency of NIL comparison was limited by residual DNA from the donor cultivar at scattered sites throughout the genome of the NILs. Received: 6 June 1997 / Accepted: 12 February 1998     

DArT markers tightly linked with the <Emphasis Type="Italic">Rfc1</Emphasis> gene controlling restoration of male fertility in the CMS-C system in cultivated rye (<Emphasis Type="Italic">Secale cereale</Emphasis> L.)

The Rfc1 gene controls restoration of male fertility in rye (Secale cereale L.) with sterility-inducing cytoplasm CMS-C. Two populations of recombinant inbred lines (RIL) were used in this study to identify DArT markers located on the 4RL chromosome, in the close vicinity of the Rfc1 gene. In the population developed from the 541×2020LM intercross, numerous markers tightly linked with the restorer gene were identified. This group contained 91 DArT markers and three SCARs additionally analyzed in the study. All these markers were mapped in the distance not exceeding 6 cM from the gene of interest. In the second mapping population (541×Ot1-3 intercross), only 9 DArT markers located closely to the Rfc1 gene were identified. Five of these DArT markers were polymorphic in both populations.     

几种农作物细胞质雄性不育恢复基因的定位和分子标记研究进展

利用杂种优势提高作物产量时, 生产杂交种的主要授粉控制系统是细胞质雄性不育及其恢复系统。在杂交品种的选育过程中, 优良恢复系选育至关重要。为了高效并准确地鉴定选择恢复材料, 同时更深入地研究恢复基因的作用机理, 近年来植物细胞质雄性不育恢复基因分子标记研究受到了广泛重视。本文综述了主要农作物水稻、油菜、小麦、棉花和玉米等细胞质雄性不育类型恢复基因的定位和分子标记研究进展, 并讨论了恢复基因的精确定位和分子标记鉴定在基因克隆和分子标记辅助选择育种中的意义和应用前景。     

Genetic analysis of male fertility restoration in wild cytoplasmic male sterility<Emphasis Type="Italic"> G</Emphasis> of beet

Cytoplasmic male sterility (CMS) has been used in the breeding of sugar beet for decades but is also more generally an important feature of the reproductive system in its wild relative, Beta vulgaris ssp. maritima. Among the several CMSs found in wild populations, the G CMS is a mitochondrial variant of the respiratory chain. The segregants derived from a cross between a restored plant and a female (male-sterile) plant on G cytoplasm exhibited three sexual phenotypic classes: female, hermaphrodite and intermediate. The pattern of segregation suggests a genetic inheritance with two loci in epistatic interaction. Nevertheless, it was possible to apply a bulk segregant analysis approach to search for AFLP and microsatellite markers linked to the restorer locus (RfG₁) which controls the capacity to produce pollen [female versus non female (i.e. intermediates and hermaphrodites)] in the segregating population. A linkage group was constructed with four AFLP markers and nine microsatellites, and a total size of 40 cM (Kosambi). The closest marker, a microsatellite, was totally linked to RfG1, which was also flanked by two AFLP markers delimiting a 5 cM window. This linkage group was identified as being chromosome VIII where neither of the restorer loci of the Owen CMS are located.Communicated by H.C. Becker