Identification and characterization of important sterile and maintainer lines from various genotypes for advanced breeding programmes of onion (Allium cepa)

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.     

AFLP and SCAR markers linked to the suppressor gene (Rf) of a dominant genetic male sterility in rapeseed (Brassica napus L.)

Rs1046AB is a line which is true breeding for a dominant genetic male sterility gene (Ms) but which is a mixture of male fertile and sterile individuals (a two-type line) because it is segregating for a dominant suppressor gene (Rf). This system provides a promising alternative to the CMS system for hybrid breeding in Brassica napus. In order to identify molecular markers linked to the rf gene, a near-isogenic line (NIL) population from the cross between a sterile individual (MsMsrfrf) and a fertile individual (MsMsRfrf) in Rs1046AB was subjected to amplified fragment length polymorphism (AFLP) analysis, with a combination of comparing near isogenic lines (NILs) and bulked segregant analysis (BSA). From 2,816 pairs of AFLP primers, six fragments showing polymorphism between the fertile and sterile bulks as well as the individuals of the bulks were identified. Linkage analysis indicated that the six AFLP markers are tightly linked to the Rf gene and all are distributed on the same side. The minimum genetic distance between the Rf gene and a marker was 0.7 cM. Since the AFLP markers are not suitable for large-scale application in MAS (marker-assisted selection), our objective was to develop a fast, cheap and reliable PCR-based assay. Consequently, three of the four closest AFLP markers were converted directly to sequence characterized amplified region (SCAR) markers. For the other marker a corresponding SCAR marker was successfully obtained after isolating the adjacent sequences by PCR Walking. The available SCAR markers of the Rf gene will greatly facilitate future breeding programs using dominant GMS to produce hybrid varieties.     

Identification of AFLP fragments linked to one recessive genic male sterility (RGMS) in rapeseed (Brassica napus L.) and conversion to SCAR markers for marker-aided selection

117AB is a recessive genic male sterility (RGMS) line in which the sterility is controlled by a duplicate recessive gene named ms, located at two separate loci. In the RGMS line, the genotype of the sterile plant (117A) is msmsmsms, and that of the fertile plant (117B) is Msmsmsms. The present study was aimed to identify DNA markers linked to the ms locus by amplified fragment length polymorphism (AFLP). From the survey of 512 AFLP primer combinations, 6 AFLP fragments (y1, k1, k2, k3, k4, k5) were identified as being tightly linked to the Ms locus. The genetic distances between the markers and the Ms locus were all less than 8 cM, among which two fragments, designated as k2 and k3, co-segregated with the target gene in the tested population. Fragment k2 was successfully converted into a sequence characterized amplified region (SCAR) marker. The markers detected could be valuable in marker-assisted breeding of RGMS in Brassica napus.     

A SCAR marker linked to the ToMV resistance gene, Tm22, in tomato

A polymerase chain reaction (PCR)-based co-dominant marker was developed which is tightly linked to Tm2². This dominant locus confers resistance to ToMV in tomato. Random-amplified-polymorphic DNA (RAPD) screening was carried out with DNA from ToMV-susceptible and resistant tomato near-isogenic lines. A polymorphic band linked to ToMV resistance was observed. The polymorphic fragment was cloned and the DNA sequences of both ends determined. Specific PCR primers were designed from these sequences. PCR amplification with the specific primers resulted in an amplified band (SCAR) in both susceptible and resistant tomato lines. The amplified band from the susceptible lines could, however, be discerned from that of the resistant ones after cleavage with the restriction enzyme Hind III. In an F₂ population of 90, the polymorphic markers co-segregated with susceptibility or resistance, as determined by biological assays for ToMV resistance. The reported SCAR marker is linked to ToMV resistance not only in cultivars derived from American lineage, but also from European lineage. This method enables the distinction of homozygous and heterozygous individual plants in segregating populations, and provides a convenient and rapid assay for both selection and quality control during breeding programs and hybrid seed production, respectively. This revised version was published online in July 2006 with corrections to the Cover Date.     

Construction of high-resolution linkage map of the Ms locus, a restorer-of-fertility gene in onion (Allium cepa L.)

For the purpose of developing closely-linked molecular markers to the Ms locus, a restorer-of-fertility gene in onions (Allium cepa L.), bulked segregant analysis and randomly amplified polymorphic DNA (RAPD) analyses were utilized. Five RAPD markers polymorphic between male-fertile and male-sterile bulks were identified. These RAPD markers were converted into a simple PCR marker or cleaved amplified polymorphic sequence (CAPS) markers after sequencing the RAPD products and obtaining flanking sequences of the RAPD markers by genome walking. A linkage map was constructed with the Ms locus and flanking markers using a F₂ population. There was no recombinant between the Ms locus and two CAPS markers, jnurf05 and jnurf17. To increase resolution among these closely linked molecular markers and the Ms locus, a total of 1,346 F_2:3 and 2,927 F_2:4 plants were analyzed with two flanking markers for detection of recombinants. Segregation of male-fertility phenotypes in large-sized populations confirmed allelic segregation distortion in favor of the recessive Ms allele. Analysis of the recombinants with closely linked markers revealed only two recombinants between the Ms locus and the jnurf05 markers among 4,273 segregating plants, showing very tight linkage between the two loci. However, linkage disequilibrium between the two loci was not too strong among the breeding lines. Despite weak linkage disequilibrium, these tightly linked markers are useful in accurate marker-assisted selection of the Ms alleles and ultimate isolation of the Ms gene by map-based cloning approach.     

青海大黄油菜粒色性状分子标记的开发和图谱整合

利用青海大黄油菜和褐籽白菜型油菜09A-126构建BC₄和F₂分离群体, 结合AFLP与群体分离分析法(bulked segregant analysis, BSA)筛选引物, 获得5个与黄籽基因Brsc1紧密连锁的分子标记Y11~Y15。5个AFLP特异片段的序列, 均与白菜型油菜的A9染色体部分序列表现同源。将5个AFLP标记成功转化为5个SCAR标记(SC11~SC15)。利用目标基因所在染色体区段序列筛选到7个与目标基因紧密连锁的SSR标记(BrID10607、KS10760、B089L03-3和A1~A4)。利用SCAR和SSR标记扫描F₂群体中部分单株, 发现SC14和A1为共显性标记。用BC₄群体将Brsc1定位在标记Y06和A4之间1.7 Mb的区间内, 遗传距离分别为0.115 cM和0.98 cM。标记Y05和Y12与Brsc1共分离。本研究为黄籽油菜分子标记辅助选择育种体系的建立及目标基因的进一步精细定位和图位克隆奠定了基础。     

Conversion of the RAPD OPC021150 marker of the Rfo restorer gene into a SCAR marker for rapid selection of oilseed rape

The Rfo fertility restorer gene for the Ogura cytoplasmic male sterility (CMS) applied for oilseed rape hybrid seed production can be monitored with the use of the RAPD OPC02₁₁₅₀ marker while molecular breeding. The aim of this work was to convert the RAPD marker into a more suitable SCAR marker. Total DNA was isolated from a doubled haploid line derived from the line BO20 (INRA, France). A fragment of 1150‐bp linked to the Rfo gene was PCR amplified with the use of the RAPD OPC02 primer, cloned and sequenced. A pair of primers was designed and PCR amplification was performed to develop a SCAR marker for the Rfo gene. The new marker was applied for analysis of 220 oilseed rape lines comprising doubled haploid and inbred restorer lines, restored hybrids as well as F₁ and F₂ recombinant generations involving restorer lines. Simultaneously, the RAPD OPC02 marker was used and it revealed that the markers are equivalent to each other. However, the developed new SCAR marker has made the analysis more practical, rapid and efficient.     

大葱雄性不育分子标记辅助选择的研究

大葱雄性不育在杂种优势利用中具有重要价值,传统方法选育不育系效率低,分子标记辅助育种可提高育种效率。本研究试图建立大葱雄性不育辅助育种的技术体系,加快大葱不育系、保持系的育种进程。利用RAPD技术分析了多态性片段S132800、S38960、S72300、S731100、S2002400与大葱育性的连锁关系,重组率分别为0、7．5％、0、4．2％、0。其中S132800、S2002400能在多数品种中区分N、S胞质,且重组率接近0,用于胞质鉴定具有很高的准确率,因而具有较高的利用价值。以S132800、S2002400为探针对不育系和保持系mtDNA的酶切片段进行了Southern杂交分析,结果表明它们在N、S胞质中存在多态性。预示着它们可能是与大葱CMS相关的片段。鉴于RAPD标记的应用有一定局限性,进一步对特异片段S132800、S2002400进行了克隆、测序和SCAR标记转化,其中S132800成功转化为SCAR标记,而S2002400转化后多态性消失。为进一步降低成本,简化了SCAR扩增产物的检测技术,初步建立了大葱不育系、保持系分子标记辅助选择的技术体系。研究表明,SCAR产物加入EB直接检测存在一定误差,而通过快速电泳可以快速、准确地鉴定单株的胞质类型。RAPD标记和SCAR标记在育种中应用有望提高大葱不育系、保持系的育种效率。     

High-resolution mapping of the nud locus controlling the naked caryopsis in barley

The hulled or naked caryopsis character of barley is an important agronomic trait because of the direct link to its use. A single recessive gene, nud, located on the long arm of chromosome 7H, controls the naked caryopsis character. Previously, linked amplified fragment length polymorphism (AFLP) bands from bulked segregant analysis were screened, and the nud gene was mapped in a population of 151 F₂ plants. In the present study, the aim was to construct a high‐resolution map of the nud gene towards its positional cloning. Two AFLP bands were converted into sequence‐characterized amplified region (SCAR) markers (sKT5 and sKT9), and a previously reported SCAR marker sKT3 was improved for more reliable detection of polymorphism. A total of 2380 segregants derived from five cross‐combinations were analysed, and the nud gene was flanked by sKT3 and sKT9, at the 0.6‐cM proximal and the 0.06‐cM distal side, respectively. The SCAR markers developed in this study should be useful for marker‐assisted selection in naked barley breeding employing crosses between naked and hulled accessions.     

Identification of SCAR markers linked to <Emphasis Type="Italic">or</Emphasis>, a gene inducing beta-carotene accumulation in Chinese cabbage

The or mutation in Chinese cabbage (Brassica rapa L. ssp. pekinensis) is a recessive, single-locus mutation that causes the head leaves of the plant to accumulate carotenoids and turn orange. In China, considerable attention has been focused in recent years on breeding the variety with orange head leaves. In this study, sequence-characterized amplified region (SCAR) markers linked to the or gene were identified based on random amplified polymorphic DNA (RAPD) and amplified fragment length polymorphism (AFLP) by performing a bulked segregant analysis (BSA) using a doubled haploid (DH) population derived from the F₁ cross between 91-112 (white head leaves) and T12-19 (orange head leaves) via microspore culture. Two RAPD markers—OPB01-845 and OPAX18-656—and 1 AFLP marker, namely, P67M54-172, were identified to be linked to the or gene, and they were successfully converted into the SCAR markers SCR-845, SCOR204, and SCOR127, respectively. In a linkage analysis, these 3 SCAR markers and 2 previously published simple sequence repeat markers, namely, BRMS-51 and Ni4D09 (located on R9 linkage group), were mapped to the same linkage group with the or gene at a LOD score of 6.0, indicating that the or gene should be located on the linkage group R9 of the A genome. In addition, accuracies of 92%, 90%, and 89.1% were obtained when 110 different inbred breeding lines of Chinese cabbage were used for investigation with these 3 SCAR markers, indicating that these makers could be used in marker-assisted selection in orange head leaf breeding programs for Chinese cabbage.     

Development of simple PCR-based markers linked to the <Emphasis Type="Italic">Ms</Emphasis> locus,a restorer-of-fertility gene in onion (<Emphasis Type="Italic">Allium cepa</Emphasis> L.)

In order to implement reliable marker-assisted selection systems for the restorer-of-fertility locus (Ms) in onions (Allium cepa L.), simple PCR-based codominant markers linked to the Ms locus were developed. Based on the EST probe sequences of previously reported RFLP markers, full-length genomic sequences of the gene encoding putative oligopeptide transporter (OPT) was obtained by RACE. The first intron contained two 108 and 439-bp indel polymorphisms between the two Ms allele-linked OPT alleles. A simple PCR marker for OPT was developed by designing a primer pair on the flanking regions of the 108-bp indel which is created by two tandem repeats. The second simple PCR marker was developed from the EST probe encoding photosystem I subunit O (PsaO). Two 14 and 39-bp tandem repeats were identified from the 5′ upstream sequences of the PsaO-coding gene, which were isolated by genome walking. Three different compositions of these tandem repeats were identified from diverse onion germplasm. A primer set binding to the flanking sequence of these polymorphic repeats was used to amplify three different marker haplotypes. The OPT marker was tightly linked to the Ms locus at a distance of 1.5 cM, but the analysis of the linkage relationship showed little linkage disequilibrium between the marker and the Ms locus. Even so, these simple PCR markers are valuable tools for the marker-assisted selection of segregating individuals in onion F₁ hybrid breeding programs.     

Development of SCAR and CAPS markers linked to a recessive male sterility gene in lettuce (<Emphasis Type="Italic">Lactuca sativa</Emphasis> L.)

Genetic male sterility (GMS) has been a useful system for the production of hybrid varieties in self-pollinated plants. We obtained a GMS line developed from a spontaneous mutation in lettuce (Lactuca sativa L.). Genetic analysis in our previous study revealed that the sterility was controlled by a recessive gene which was named ms-S. For simple and quick screening of individuals showing male sterility, we attempted molecular mapping of the ms-S locus using an amplified fragment length polymorphism (AFLP) technique. From the examination of 4,096 AFLP primer combinations, 63 AFLP markers were found to be linked to the gene and nine of them were successfully converted into sequence characterized amplified region (SCAR) markers and cleaved amplified polymorphic sequence (CAPS) markers. Linkage analysis indicated that these nine markers were closely linked to the ms-S gene and all were located on the same side of the gene. The minimum genetic distance between the ms-S gene and a marker was 3.1 cM. These results provide additional information for map-based cloning of the ms-S gene and will be of great help for lettuce breeding using GMS to produce F₁ hybrids.     

A molecular marker linked to the Prv1 gene that confers resistance to Papaya ringspot virus-type W in melon

Papaya ringspot virus‐type W (PRSV‐W) is the most prevalent and important viral pathogen of cucurbits in Brazil. It can be effectively controlled by the incorporation of genetic resistance into susceptible melon cultivars. The present study identified amplified fragment length polymorphic (AFLP) markers linked to the PRSV‐W resistance Prv¹ allele. The susceptible yellow‐fleshed melon‐breeding line AF426^prv1 and its nearly isogenic‐resistant line AF426^Prv1, which carries the Prv¹ allele resident in the Indian cantaloupe U.S. Plant Introduction (PI) 180280, were screened for AFLP marker polymorphisms. Of 30 251 AFLP loci, only three were polymorphic between the nearly isogenic lines. Segregation analyses for these three polymorphic markers and the Prv¹ allele using a BC₁ population of 197 plants indicated close linkage (0.5% recombination frequency) between marker EK190 (HindIII‐CGA and MseI‐GTG; 190 bp) and Prv¹. Thus, EK190 might be a useful marker in breeding programmes aiming to develop melon cultivars resistant to PRSV‐W. The other two markers are closely linked to each other, but distantly linked to Prv¹.     

Development and characterization of SCAR markers associated with a dominant genic male sterility in rapeseed

Rs1046AB is a dominant genic male sterility (DGMS) line in rapeseed, in which the sterility has always been thought to be conditioned by the interaction of a male sterility gene ( Ms ) and its non-allelic restorer gene ( Rf ). This system provides not only a tool for assisting in recurrent selection but also a promising system for hybrid production. Based on previous studies, two amplified fragment length polymorphism markers linked with the Ms gene were converted into a dominant and a co-dominant sequence characterized amplified region (SCAR) marker, respectively. The putative linear order relationship of three dominant SCAR markers with the same genetic distance from the Rf gene, was also determined by an examination of whether the homologues of these markers are present or not in different lines carrying Rf . A bigger fragment generated by the closest marker linked to the Rf gene was observed in all lines carrying the recessive allele rf , suggesting that this marker is a co-dominant marker, which was further confirmed by nucleotide sequence comparison of these fragments. SCAR markers specific for Ms and Rf will be especially valuable in marker-assisted DGMS three-line breeding.     

AFLP-based STS markers closely linked to a fertility restoration locus (Rfm1) for cytoplasmic male sterility in barley

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.     

Development of RAPD and ISSR derived SCAR markers linked to <Emphasis Type="Italic">Xca1Bo</Emphasis> gene conferring resistance to black rot disease in cauliflower (<Emphasis Type="Italic">Brassica oleracea</Emphasis> var. <Emphasis Type="Italic">botrytis</Emphasis> L.)

Black rot caused by Xanthomonas campestris pv. campestris (Xcc) (Pam.) is the most devastating disease of cauliflower (Brassica oleracea var. botrytis L.; 2n = 2x = 18), taking a heavy toll of the crop. In this study, a random amplified polymorphic DNA (RAPD) and inter simple sequence repeat (ISSR) derived sequence characterized amplified region (SCAR) markers linked to the black rot resistance locus Xca1bo were developed and evaluated as a screening tool for resistance. The RAPD marker OPO-04₈₃₃ and ISSR marker ISSR-11₆₃₅ were identified as closely linked at 1.6 cM distance to the black rot resistance locus Xca1bo. Both the markers OPO-04₈₃₃ and ISSR-11₆₃₅ were cloned, sequenced and converted into SCAR markers and validated in 17 cauliflower breeding lines having different genetic backgrounds. These SCAR markers (ScOPO-04₈₃₃ and ScPKPS-11₆₃₅) amplified common locus and showed 100% accuracy in differentiating resistant and susceptible plants of cauliflower breeding lines. The SCAR markers ScOPO-04₈₃₃ and ScPKPS-11₆₃₅ are the first genetic markers found to be linked to the black rot resistance locus Xca1bo in cauliflower. These markers will be very useful in black rot resistance marker assisted breeding.     

EST辅助的甘蓝型油菜显性核不育AFLP标记转化

甘蓝型油菜显性核不育广泛应用于轮回选择和杂种优势利用,不育基因标记的开发与应用对于基因克隆和育种实践具有重要意义。基于AFLP标记SA12MG14的序列信息,从拟南芥整合数据库中,检索与标记序列同源的甘蓝型油菜EST,结合标记和EST序列设计特异引物,转化成新的SCAR标记。获得的SCAR标记S6B3,具有很高的检测稳定性,在回交群体Popu2上分析验证,结果与AFLP标记完全一致。该标记与不育基因相距0.3 cM,将其用于临保系同源的纯合型不育系选育,可有效提高育种工作效率。     

甘蓝型油菜隐性核不育系20118A的育性遗传及分子标记辅助选择

以20118A不育系和临保系与22个油菜品种(系)杂交测交后代为材料, 采用经典遗传学和分子标记辅助选择方法, 验证该不育系统遗传控制体系及等位基因分布频率; 探索利用连锁共显性标记筛选两型系和临保系基因型的高效性和准确率。研究表明, 6个品种(系)与20118A测交产生的F₂世代, 所有组合可育株∶不育株均符合3∶1或13∶3分离规律, 而与20118A-TAM杂交产生的6个F₂中1个呈13∶3分离, 其余均为全可育, 育性符合1对隐性不育基因和1对隐性上位抑制基因互作控制的遗传模式; 进而采取反向验证方法, 从1 059个F₂分离单株中, 用新发展的Bnms₃/Bnrf连锁共显性标记跟踪选择, 直接获得临保系(ms₃ms₃rfrf)、纯合不育株(ms₃ms₃RfRf)和两型系可育株(Ms₃ms₃RfRf) 70、69和135株, 经测交或互交验证, 准确率均达95%以上; 根据20个测交品种的后代分离, BnRf位点上只出现Rf和rf两个等位基因, 推测第3个等位基因存在的频率很低, 基本可以根据两基因各2等位基因互作原理开展分子标记辅助育种。     

User‐friendly markers linked to Fusarium wilt race 1 resistance Fw gene for marker‐assisted selection in pea

Fusarium wilt is one of the most widespread diseases of pea. Resistance to Fusarium wilt race 1 was reported as a single gene, Fw, located on linkage group III. The previously reported AFLP and RAPD markers linked to Fw have limited usage in marker‐assisted selection due to their map distance and linkage phase. Using 80 F₈ recombinant inbred lines (RILs) derived from the cross of Green Arrow × PI 179449, we amplified 72 polymorphic markers between resistant and susceptible lines with the target region amplified polymorphism (TRAP) technique. Marker–trait association analysis revealed a significant association. Five candidate markers were identified and three were converted into user‐friendly dominant SCAR markers. Forty‐eight pea cultivars with known resistant or susceptible phenotypes to Fusarium wilt race 1 verified the marker–trait association. These three markers, Fw_Trap_480, Fw_Trap_340 and Fw_Trap_220, are tightly linked to and only 1.2 cM away from the Fw locus and are therefore ideal for marker‐assisted selection. These newly identified markers are useful to assist in the isolation of the Fusarium wilt race 1 resistance gene in pea.     

The use of AFLP markers for the identification of carrot breeding lines and F1 hybrids

Four inbred lines of carrot (cytoplasmic male‐steriles and corresponding maintainers) and eight of their F₁ hybrids were studied with the amplified fragment length polymorphism (AFLP) technique to examine their genetic relationship and produce markers useful for testing hybrid seed purity. Eighty‐six polymorphic amplicons were identified in bulked DNA samples using eight primer pair combinations. Genetic distance was estimated on the basis of the presence or absence of polymorphic bands. The dendrogram plotted on the basis of the AFLP data closely represented the pedigree relationships of the lines and their hybrids. From one to six amplicons specific for a breeding line were identified. Most of them were also present in the DNA bulks of respective F₁ hybrids. However, screening performed on individual plants of two parental lines and the corresponding hybrid indicated insufficient uniformity of parental lines, limiting the applicability of AFLP markers for testing hybrid seed purity.