甘蓝抗芜菁花叶病毒育种研究进展

摘要：本文简述了甘蓝TuMV抗性种质资源的现状和各种分子生物技术应用发展的前景,从TuMV的发生、甘蓝抗TuMV种质资源的挖掘,甘蓝对TuMV的抗性规律,植-病互作分子机制,甘蓝抗TuMV分子标记的开发与应用和基因工程技术在甘蓝抗TuMV育种中的应用等方面综述了近年来的研究进展,为今后甘蓝抗性育种提供参考和借鉴。     

Allelic variation of a clubroot resistance gene (Crr1a) in Japanese cultivars of Chinese cabbage (Brassica rapa L.)

Clubroot resistance (CR) is an important trait in Chinese cabbage breeding worldwide. Although Crr1a, the gene responsible for clubroot-resistance, has been cloned and shown to encode the NLR protein, its allelic variation and molecular function remain unknown. Here, we investigated the sequence variation and function of three Crr1a alleles cloned from six CR F₁ cultivars of Chinese cabbage. Gain-of-function analysis revealed that Crr1a^Kinami90_a isolated from the cv. ‘Kinami 90’ conferred clubroot resistance as observed for Crr1a^G004. Because two susceptible alleles commonly lacked 172 amino acids in the C-terminal region, we investigated clubroot resistance in transgenic Arabidopsis harboring the chimeric Crr1a, in which 172 amino acids of the functional alleles were fused to the susceptible alleles. The fusion of the C-terminal region to the susceptible alleles restored resistance, indicating that their susceptibility was caused by the lack of the C-terminus. We developed DNA markers to detect the two functional Crr1a alleles, and demonstrated that the functional Crr1a alleles were frequently found in European fodder turnips, whereas they were rarely introduced into Japanese CR cultivars of Chinese cabbage. These results would contribute to CR breeding via marker-assisted selection and help our understanding of the molecular mechanisms underlying clubroot resistance.     

Quantitative trait loci analysis for resistance against Turnip mosaic virus based on a doubled-haploid population in Chinese cabbage

Turnip mosaic virus (TuMV) as the major virus infecting Brassica crops, often cause severe yield and quality losses in Chinese cabbage production in China. In this study, quantitative trait loci (QTL) analysis for TuMV resistance was conducted with a population of 100 doubled-haploid lines derived from the F₁ between 91-112 (resistant) and T12-19 (susceptible) through microspore culture. A total of 376 molecular markers including 235 amplified fragment length polymorphisms, 129 random amplified polymorphic DNAs, 10 simple sequence repeats, one SCAR and one morphological marker were employed to construct a linkage map with 10 linkage groups covering 809.1 cM with an average distance of 2.2 cM between loci. Resistance was assessed by artificial inoculation at the seedling stage and at the adult stage in field conditions, respectively. Four QTLs controlling TuMV resistance were identified with JoinMap QTL 4.0 and interval mapping method. Two QTLs ( Tu1 , Tu2 ) were associated with resistance at the seedling stage, each accounting for 58.2% and 14.7% of the phenotypic variation, respectively. Two QTLs ( Tu3 , Tu4 ) were found corresponding to the disease resistance at the adult plant stage, explaining 48.5% and 32.0% of the phenotypic variation, respectively. Marker-assisted selection for these major QTLs involved in TuMV resistance could be useful in Chinese-cabbage breeding programmes.     

Linkage analysis of RFLP markers for clubroot resistance and pigmentation in Chinese cabbage (Brassica rapa ssp. pekinensis)

A restriction fragment length polymorphism (RFLP) – based linkage map of Chinese cabbage (Brassica rapa ssp. pekinensis) (2n=20) including two agronomic traits, clubroot resistance and orange-yellow pigmentation, was constructed using doubled haploid parents. The total linkage distance was 735 cM; 63 loci were distributed into ten linkage groups. Clubroot resistance of the parental line T136-8 to the current pathotype, race 2, was predominantly controlled by a single dominant gene that originated from European turnip. The locus for clubroot resistance by the dominant major gene (CRa) was mapped on linkage group 3, and RFLP loci HC352b and HC181 were located 3 cM and 12 cM from it, respectively. The locus HC352b was identified by a 4.4 Kb Eco R I fragment, which segregated for null allele. The absence of an allelic fragment in HC352b could be interpreted by deletion in the resistance source; homozygotes for CRa could be efficiently selected by detecting null types for the marker. Orange-yellow pigmentation expressed in head inner leaves and petals was governed by a single recessive gene. The locus (Oy) for the pigmentation was mapped on linkage group 1, being located 17–19 cM from three RFLP loci that were closely linked to each other. The linkage analysis for clubroot resistance and unique pigmentation revealed some informative RFLP markers. Identification of molecular markers for clubroot resistance and other agronomically important traits would provide useful information in breeding programs of Chinese cabbage. This revised version was published online in August 2006 with corrections to the Cover Date.     

一个新的白菜苗期TuMV-C4抗性主效QTL定位及连锁分子标记开发

为寻找与TuMV抗性基因紧密连锁的分子标记,选用高抗病毒病大白菜自交系91-112和高感病毒病自交系T12-19以及由二者为双亲构建的包含100个株系的DH群体为材料,通过SSR和InDel标记的遗传分析,在A09上定位了一个新的与大白菜苗期TuMV-C4抗性相关的主效QTL位点BrTuA09。在此基础上,针对该QTL位点所在的标记区间,根据作图群体双亲的重测序结果,设计合成27对引物,其中11个InDel在双亲间具有多态性,且条带单一、扩增稳定;连锁分析发现,11个InDel标记均被定位在A09连锁群上BrTuA09的置信区间。利用BC1群体进行标记验证发现,这些标记对高抗单株选择的准确率均达到78%以上,可应用于分子标记辅助选择,为大白菜TuMV抗病分子育种奠定了良好的基础。     

Inheritance of resistance to turnip mosaic virus in Chinese cabbage

Summary Turnip mosaic virus (TuMV) is the most important virus of commercially grown cole crops in many Asian countries, affecting both yield and quality. TuMV-infected Chinese cabbage becomes unmarketable because of the presence of black spots and necrosis often induced by the virus. Resistance breeding is complicated by the existence of five strains of the virus, one of which was discovered in 1985 for the first time in Taiwan. Resistance to strains C1 to C3 is readily available among the Chinese cabbage germplasm at AVRDC, whereas resistance to strains C4 and C5 is rarely found. To elucidate the inheritance of resistance to TuMV, P₁, P₂, F₁, F₂ and BC₁ generations of crosses between the resistant line 0–2 and three susceptible lines, E-7, E-9 and FL-9, were inoculated with strains C4 and C5. Segregation ratios obtained by visual observation and enzyme-linked immunosorbent assay (ELISA) indicate that two recessive genes confer resistance to both TuMV-C4 and TuMV-C5.     

芜菁种质资源抽薹性状鉴定及评价

为了加快芜菁种质资源育种进程,筛选耐抽薹品种,本试验将46份不同品种芜菁在2℃条件下人工春化30 d后,在25℃光照15 h、20℃黑暗9 h环境中进行常规栽培管理,观察其抽薹情况,筛选出17份极耐抽薹品种,2份极易抽薹品种。其中芜菁品种W05最早抽薹开花,W10和W38两份品种极易抽薹,抽薹率均为100%。利用隶属函数法将所有品种分为五类。由抽薹指标的相关性分析可知,显蕾期与开花期成极显著正相关,叶片数与花薹长呈极显著正相关,蕾薹长与薹高差和抽薹速度呈极显著正相关,薹高差与抽薹天数和抽薹速度呈极显著正相关。利用主成分分析筛选出显蕾期、开花期、抽薹天数和叶片数四个主成分,这四个指标可代表所有抽薹指标85.34%信息。通过综合得分发现,筛选出的四个主成分在不同品种间的表现不同。本试验结果可为芜菁耐抽薹品种的选育提供理论依据。     

Identification and characterization of a RAPD/SCAR marker linked to a resistance gene for soybean mosaic virus in soybean

Soybean line `ICGR95-5383' [Glycinemax (L.) Merr.] is a newly releasedgermplasm from China and is resistant (R)to soybean mosaic virus (SMV). ICGR95-5383was crossed to the susceptible (S)cultivars `HB1', `Tiefeng21', `Amsoy', and`Williams' to investigate the inheritanceof SMV resistance. The F<sub>1</sub> and F<sub>2</sub>plants were inoculated with SMV-3 (the mostvirulent) strain from Northeast China. Theresults showed that F<sub>1</sub> plants from thefour R × S crosses were necrotic (N) andall F<sub>2</sub> populations segregated in a3(R+N):1S ratio, indicating thatICGR95-5383 carries a single gene withincomplete dominance for resistance to SMV. In a bulked segregant analysis (BSA) of theF<sub>2</sub>population from ICGR95-5383 × HB1, a codominant RAPD marker,OPN11<sub>980/1070</sub>, was found to be linkedto the resistance gene in ICGR95-5383. The980-base pair (bp) fragment OPN11<sub>980</sub>was amplified in the R parent ICGR95-5383,R bulk, and resistant F<sub>2</sub> plants. Theother 1070-bp fragment OPN11<sub>1070</sub> wasamplified in the S parent HB1, S bulk, andsusceptible F<sub>2</sub>plants.OPN11<sub>980/1070</sub> was amplified in theF<sub>1</sub> plants and the necroticF<sub>2</sub> plants from the R×S cross.Segregation analysis of the RAPD marker inthe F<sub>2</sub> population revealed that themarker OPN11<sub>980/1070</sub> is closely linkedto the resistance gene with a map distanceof 3.03 cM. OPN11<sub>980/1070</sub> was clonedand sequenced, and specific PCR primerswere designed to convertOPN11<sub>980/1070</sub> into sequencecharacterized amplified region (SCAR) makerSCN11<sub>980/1070</sub>. SCAR analysis of theF<sub>2</sub> population confirmed thatOPN11<sub>980/1070</sub> and SCN11<sub>980/1070</sub> areat the same locus linked to the SMVresistance gene. The RAPD markerOPN11<sub>980</sub> was used as RFLP probefor southern hybridization to soybeangenomic DNA. Southern analysis showed thatsoybean genome contains low-copy sequenceof OPN11<sub>980</sub>. Using a recombinant inbredmapping population of `Kefeng No.1' (R) ×Nannong1138-2'(S), OPN11_980/1070 was mapped to thesoybean molecular linkage group (MLG) Fbetween the restriction fragment lengthpolymorphism (RFLP) markers B212 (0.7 cM) and K07 (6.7 cM) and 3.03 cM apart from theSMV resistance gene.     

Genetics of resistance to five strains of turnip mosaic virus in Chinese cabbage

Summary Inheritance of resistance to turnip mosaic virus (TuMV) strains C1, C2, C3, C4, and C5 in Chinese cabbage (Brassica campestris subsp. pekinensis) was evaluated using monoclonal antibodies. Crosses were made between a resistant line, 0–2, and four susceptible line. Seoul (SE),SSD31 (SS), Cheongbang (CH), and Yaki 1 ho (YA), to determine the inheritance of resistance of 0–2 in different genetic backgrounds. Resistance to TuMV was controlled by a single dominant gene or double dominant genes depending on the strain and cross. The resistance genes of 0–2 were modified by susceptible parents such that a single dominant gene was involved in the SS×0–2 combination, but double dominant genes in the SE×0–2 against TuMV-C3 or TuMV-C5. ELISA tests using inoculated and noninoculated leaves in the same plant suggested that the dominant resistance genes inhibit virus movement rather than virus multiplication.     

大白菜营养茎长和宽的QTL定位和分析

以大白菜纯系'501'×'601'的F2:3家系为群体,对营养茎长和宽2个性状进行QTL定位和分析.结果表明,2个性状表现为连续分布,符合数量性状的遗传特征,且性状之间无显著差异.在5个连锁群共检测到7个QTL,且均以加性效应为主.控制营养茎长度的3个QTL分别位于A02、A04和A09连锁群,各QTL可解释的表型变异...     

Cloning, genetic and physical mapping of resistance gene analogs in barley (Hordeum vulgare L.)

The majority of verified plant disease resistance genes isolated to date belong to the NBS‐LRR class, encoding proteins with a predicted nucleotide binding site (NBS) and a leucine‐rich repeat (LRR) region. Using degenerate primers, designed from the conserved motifs of the NBS region in tobacco N and Arabidopsis RPS2 genes, we isolated 190 resistance gene analogs (RGA) clones from barley genomic DNA. A total of 13 single‐ and low‐copy RGAs were genetically mapped onto chromosomes 1H–7H (except 5H) using three barley double haploid (DH) mapping populations: Steptoe × Morex, Harrington × TR306 and LUGC × Bowman. Sequence analysis of the RGAs showed that they are members of a diverse group. As a result of BLAST searches, one RGA proved unique as it did not detect any significant hit. Another RGA is putatively functional, because it detected several barley expressed sequence tag (EST) matches. To physically map the RGAs, 13 sequences were used to screen a 6.3 × cv. ‘Morex’ bacterial artificial chromosome (BAC) library. After fingerprint analysis, eight contigs were constructed incorporating 62 BAC clones. These BAC contigs are of great value for positional cloning of disease resistance genes, because they span the regions where various barley R genes have been genetically mapped.     

Development of gene‐based markers for the Turnip mosaic virus resistance gene retr02 in Brassica rapa

Turnip mosaic virus (TuMV) is responsible for a serious disease that affects the production of Chinese cabbage. Previous studies have cloned a series of TuMV resistance genes and developed molecular markers. In this study, a derived cleaved amplified polymorphism sequence (dCAPS) marker and a Kompetitive Allele Specific PCR (KASP) marker were developed based on a single recessive gene, retr02, which confers broad‐spectrum TuMV resistance in Chinese cabbage by means of an additional G at the junction of exon 1 and intron 1. The two markers were able to detect the retr02 allele in Chinese cabbage accessions used in breeding programmes. Compared with the dCAPS marker, the KASP marker was flexible, cost‐effective and quick to process, which is likely to be beneficial in establishing high‐throughput assays for marker‐assisted selection.     

Identificaiton of a clubroot resistance locus conferring resistance to a Plasmodiophora brassicae classified into pathotype group 3 in Chinese cabbage (Brassica rapa L.)

In Chinese cabbage (Brassica rapa), the clubroot resistance (CR) genes Crr1 and Crr2 are effective against the mild Plasmodiophora brassicae isolate Ano-01 and the more virulent isolate Wakayama-01, but not against isolate No. 14, classified into pathotype group 3. ‘Akiriso’, a clubroot-resistant F₁ cultivar, showed resistance to isolate No. 14. To increase the durability of resistance, we attempted to identify the CR locus in ‘Akiriso’. CR in ‘Akiriso’ segregated as a single dominant gene and was linked to several molecular markers that were also linked to CRb, a CR locus from cultivar ‘CR Shinki’. We developed additional markers around CRb and constructed partial genetic maps of this region in ‘Akiriso’ and ‘CR Shinki’. The positions and order of markers in the genetic maps of the two cultivars were very similar. The segregation ratios for resistance to isolate No. 14 in F₂ populations derived from each of the two cultivars were also very similar. These results suggest that the CR locus in ‘Akiriso’ is CRb or a tightly linked locus. The newly developed markers in this study were more closely linked to CRb than previously reported markers and will be useful for marker-assisted selection of CRb in Chinese cabbage breeding.     

大白菜TPS基因家族鉴定及其在高温胁迫下的表达分析

为明确大白菜TPS(BrTPS)家族成员信息及对高温胁迫信号的响应,本研究利用生物信息学方法,在大白菜基因组数据库中鉴定了BrTPS基因家族成员,并对其理化性质、进化特征、蛋白结构及在高温胁迫下的表达模式进行分析。结果表明,大白菜全基因组含有15个TPS基因家族成员,分布于8条染色体上。除BrTPS14和BrTPS15外,其余成员各含有1个TPS和1个TPP结构域,并且所含motif的排列顺序也完全一致。理化性质分析发现,15个成员的氨基酸长度介于129~1459 aa之间,分子量大小在14.73~165.83 kD之间,大部分BrTPS蛋白为酸性蛋白和亲水蛋白,以无规则卷曲作为二级结构主要构成元件。进化分析表明,大白菜TPS基因家族成员可分为2类,其中ClassⅠ包含5个成员,ClassⅡ包含10个成员。本研究对高温胁迫前后不同组织和持续高温胁迫下叶片中的表达分析,发现大部分的BrTPS基因可对高温胁迫产生响应,但在表达规律上存在差异。这些研究结果为后续研究大白菜TPS基因提供一定参考。     

Identification of AFLP and SSR markers linked with the male fertility restorer gene of CMS 06J45 in heading Chinese cabbage (Brassica rapa L. ssp. pekinensis)

In this study, AFLP and SSR techniques were combined with the bulk segregant analysis (BSA) method to map the restorer gene BrRfp using an F₂‐segregating population comprising 258 individuals developed by crossing the polima (pol)‐like cytoplasmic male sterility (CMS) line 06J45 and the restorer line 01S325 of heading Chinese cabbage. A survey of 2048 AFLP primer pairs identified 21 polymorphic fragments, approximately half of which exhibited high similarity with the A09 chromosome sequence of Brassica rapa in the Brassica database (BRAD). Based on the genome sequence, three specific AFLP fragments linked with BrRfp were successfully converted into sequence‐characterized amplified region (SCAR) markers, named SC1233, SC2673 and SC2141. Subsequently, 178 pairs of SSR primers were redesigned for further screening, with five producing polymorphic amplification patterns. Linkage analysis showed that these markers were distributed along both sides of the BrRfp gene, with two markers, SSR03 and SSR2528, co‐segregating with the BrRfp locus in the F₂ population. These results may be valuable for marker‐assisted selection and map‐based cloning in heading Chinese cabbage.     

Effect of thidiazuron on microspore embryogenesis and plantlet regeneration in Chinese flowering cabbage (Brassica rapa. var. parachinenis)

Traditional breeding methods require more than 6 years to obtain homozygous inbred lines, while isolated microspore culture (IMC) is an effective way to cultivate double haploid homozygous lines in only 2 years. However, low embryogenesis induction frequency in Chinese flowering cabbage remains a key obstacle to the practical application of this technique. Thidiazuron was added at different concentrations to NLN‐13 medium to estimate its effects on microspore embryogenesis and plantlet regeneration. Results showed that three genotypes responded positively. Optimum thidiazuron concentrations produced embryo yields of up to 14.67 embryos per bud and increased microspore embryogenesis frequency with up to 100% survival. Plantlet regeneration rates were up to 81.67%, and the treatment groups showed lower callus formation. We obtained up to 552 diploid plants from the tested genotypes, and the percentage of doubled haploid at different TDZ concentrations showed slight differences, and doubled haploid rates in the three genotypes were above 70%. They showed a high uniformity and can be directly used for hybrid breeding. This method accelerates microspore application in Chinese flowering cabbage hybrid breeding.     

Identification of resistance gene analogs in cotton (Gossypium hirsutum L.)

Sequence analyses of numerous plant disease resistance genes have revealed the presence of conserved motifs common to this class of genes, namely a nucleotide binding site (NBS) and leucine rich repeat region. In this study, thirty-three resistance gene analogs (RGAs) were cloned and sequenced from cotton (Gossypium hirsutum L.) following PCR with degenerate primers designed from the conserved NBS motif of plant resistance (R) genes. Phylogenetic analysis of the predicted amino acid sequences grouped the RGAs into four distinct classes from which several subgroups were delineated based on nucleic acid sequences. Gene database searches with the consensus protein sequences of each of the four classes and respective subgroups of cotton RGAs revealed their conserved NBS domains and homology to RGAs and known resistance genes from a variety of plant genera. Given the complete lack of knowledge regarding molecular organization of R genes in cotton, the cloned RGAs described here may be useful as probes to map, characterize, and manipulate R genes of the cotton genome. This revised version was published online in July 2006 with corrections to the Cover Date.     

水稻圆粒基因RS的鉴定和定位

阐明水稻籽粒大小相关基因的遗传和分子机制对水稻产量形成具有重要意义。利用甲基磺酸乙酯(ethyl methanesulfonate, EMS)诱变粳稻品种宁粳3号筛选获得圆粒突变体round seed (rs)。遗传分析表明,突变体rs圆粒表型由单隐性核基因控制。颖壳扫描电镜观察发现,rs籽粒变圆主要是细胞数目改变导致的。在突变体rs中,细胞周期相关基因的表达较野生型显著升高。将RS定位在第3染色体短臂标记RM3413与N3-5之间,物理距离约589 kb。RS突变影响BR信号途径,改变了粒型相关基因的表达。本研究有助于阐明水稻籽粒发育的分子机制。