Mapping of resistance to the potato cyst nematode Globodera rostochiensis from the wild potato species Solanum vernei

A population of diploid potato (Solanum tuberosum) was used for the genetic analysis and mapping of a locus for resistance to the potato cyst nematode Globodera rostochiensis, introgressed from the wild potato species Solanum vernei. Resistance tests of 108 genotypes of a F₁ population revealed the presence of a single locus with a dominant allele for resistance to G. rostochiensis pathotype Ro1. This locus, designated GroV1, was located on chromosome 5 with RFLP markers. Fine-mapping was performed with RAPD and SCAR markers. The GroV1 locus was found in the same region of the potato genome as the S. tuberosum ssp. andigena H1 nematode resistance locus. Both resistance loci could not excluded to be allelic. The identification of markers flanking the GroV1 locus offers a valuable strategy for marker-assisted selection for introgression of this nematode resistance.Abbreviations BSA bulked segregant analysis - RAPD random-amplified polymorphic DNA - RFLP restriction fragment length polymorphism - SCAR sequence-characterized amplified region     

Inter-simple sequence repeat markers and flow cytometry for the characterization of closely related Citrus limon germplasms

The genetic relationship among commercial cultivars of Citrus limon (lemon) was analysed by inter-simple sequence repeats (ISSR) and flow cytometry techniques. Two cultivars with a close germplasm were distinguished by screening 10 SSR primers and by measuring DNA content of prestained nuclei.     

AFLP-derived SCARs facilitate construction of a 1.1 Mb sequence-ready map of a region that spans the Vf locus in the apple genome

The availability of high-density anchored markers is a prerequisite for reliable construction of a deep coverage BAC contig, which leads to creation of a sequence-ready map in the target chromosomal region. Unfortunately, such markers are not available for most plant species, including woody perennial plants. Here, we report on an efficient approach to build a megabase-size sequence-ready map in the apple genome for the Vf region containing apple scab resistance gene(s) by targeting AFLP-derived SCAR markers to this specific genomic region. A total of 11 AFLP-derived SCAR markers, previously tagged to the Vf locus, along with three other Vf-linked SCAR markers have been used to screen two apple genome BAC libraries. A single BAC contig which spans the Vf region at a physical distance of approximately 1,100 kb has been constructed by assembling the recovered BAC clones, followed by closure of inter-contig gaps. The contig is 4 ×deep, and provides a minimal tiling path of 16 contiguous and overlapping BAC clones, thus generating a sequence-ready map. Within the Vf region, duplication events have occurred frequently, and the Vf locus is restricted to the ca. 290 kb region covered by a minimum of three overlapping BAC clones.     

Identification of a codominant scar marker linked to the seedlessness character in grapevine

 The variety Vitis vinifera cv Sultanine presents a type of seedlessness in which fertilization occurs but seeds subsequently fail to develop. It has been suggested that this trait might be controlled by three complementary recessive genes regulated by a dominant gene named I. Bulk segregant analysis was used to search for random amplified polymorphic DNA (RAPD) markers linked to the I gene in progeny obtained by crossing two partially seedless genotypes. One hundred and forty decamer primers were screened using bulks obtained by pooling the DNA of extreme individuals from the phenotypic distribution. We identified two RAPD markers which appeared tightly linked to I (at 0.7 and 3.5 cM respectively). The closest marker was used to develop a codominant SCAR (sequence characterized amplified region), named SCC8. This latter marker appeared of great value either to exclude from the progeny potentially seeded individuals or to select for seedless individuals. Indeed, all the seeded individuals of the progeny were found to be homozygous scc8 ^-/scc8 ^-, and all the individuals homozygous SCC8 ⁺/SCC8 ⁺ were seedless. Moreover, this marker was successfully applied to other natural seedless varieties where codominance persisted. SCC8 was also used to dissect more precisely the genetics of seedlessness. ANOVA analysis indicated that this SCAR marker accounted for at least 64.9% of the phenotypic variation of the seed’s fresh weight and for at least 78.7% of the phenotypic variation of the seed’s dry matter. These results confirmed the presence of a major gene, and also the existence of other complementary recessive genes, controlling the expression of seedlessness. Received: 29 July 1997 / Accepted: 16 March 1998     

Development of sex-linked PCR markers for gender identification in Actinidia

 Two sex-linked random amplified polymorphic DNA (RAPD) markers identified from Actinidia chinensis were converted into sequence-characterised amplified regions (SCARs) for the large-scale screening of Actinidia breeding populations. Initial SCAR primers converted one RAPD (SmX) into a dominant marker, but the other (SmY), which was potentially more useful because of its linkage to the male determining ‘Y’ locus, failed to retain polymorphism. This difficulty was overcome by cloning and sequencing the alternate ‘allele’ from female plants, and then designing ‘allele’-specific primers that utilised nucleotide differences between the sexes. Using a quick squash-blot method of DNA extraction, the SCAR primers were tested in 120 A. chinensis plants to determine their gender. The system is now in use for large-scale screening of seedling populations in the Actinidia breeding programme. The sex-linked SCAR primers also functioned with plants from some other geographically separate accessions of A. chinensis and with plants in the closely related polyploid species A. deliciosa, but did not amplify a sex-linked band in more distantly related species of Actinidia. Received: 27 December 1997 / Accepted: 5 March 1998     

一条卡瓦胡椒特异RAPD带转化成SCAR标记的研究

采用27份不同来源的胡椒属(Piper)材料和1份不同属的草胡椒(Peperomia pellucida)材料用引物OPQ-03扩增得到一条约400碱基对(bp)卡瓦胡椒特异片段。对该片段进行了克隆和序列分析,并根据序列分析结果将上述RAPD分子标记转化为重复性和特异性更好的SCAR(sequence characterized amplifiedre-gions,序列特征化扩增区)分子标记。本研究设计出了1对卡瓦胡椒特异SCAR引物P7.1(5′-GGT CAC CTC ACC GCA GCA GGA TGA ACG-3′)和P7.2(5′-GGT CAC CTC AAT GAC ATG GGA TGA ATC-3′),用这对特异引物对本次试验的28份材料进行PCR扩增,结果只有不同属的草胡椒材料无任何扩增,其它材料均扩增出了预期大小440bp的特异带。     

筛选与尼罗罗非鱼性别相关的AFLP标记

尼罗罗非鱼(Tilapia)隶属于鲈形目(Perciformes)、鲈形亚目(Percoidei)、丽鱼科(Cichildae)的热带性鱼类,是联合国粮农组织向全世界推广的优良养殖鱼类,已成为世界性的主要养殖对象之一。由于繁殖快、成熟早,养殖过程中极易造成繁殖过剩,密度过大,个体过小等不利情况;另外,尼罗罗非鱼的雌雄个体之间具有明显的生长差异,从而影响产量的提高。目前解决这一问题最为理想的措施是单性养殖全雄鱼,这样既可以防止过度繁殖,又可利用雄鱼的生长优势。但是由于缺乏性别或性染色体特异的分子遗传标记,遗传性别的准确鉴定问题也一直是罗非鱼类性别控…     

黄瓜霜霉病抗病基因的RAPD及SCAR标记

以感霜霉病黄瓜L18-10-2和抗霜霉病黄瓜129为亲本构建F2代分离群体,以F3代植株霜霉病抗性鉴定表示F2代各单株抗病性并得以区分各单株杂合或纯合感病性,采用RAPD技术和转SCAR的方法筛选黄瓜抗霜霉病基因分子标记.结果显示,在318条RAPD引物中有18条引物表现出两亲本间多态性,其中引物P18的SB-SP18561扩增片段与霜霉病抗病基因之间紧密连锁,根据交换率和Kosambi函数公式计算其遗传距离为7.85 cM.回收SBSP18561片段并克隆和测序,其准确长度为561 bp.将该RAPD标记转换为SCAR标记,长度为494 bp,命名为SSBSP18494.     

Development of SCAR markers linked to a gene controlling absence of tannins in faba bean

Faba beans are inexpensive, nutrient-dense sources of plant protein, but anti-nutritional factors such as condensed tannins reduce the biological value of their protein. Two recessive genes, zt-1 and zt-2, control the absence of tannins in faba bean seeds and also determine a white flower character on the plant. However, crosses between them produce coloured F₁ plants with tannins that contaminate the crop. Therefore, it is important to identify the gene present in all tannin-free cultivars and gene bank accessions to enable breeders to choose appropriate genitors for their crosses. The aim of this study was the identification of markers linked to zt-1, one of the genes governing free tannin content in faba bean. A segregating F₂ population derived from the cross between the coloured flower and high tannin content genotype Vf6 and a zt-1 line was developed and characterized phenotypically. Bulked Segregant Analysis (BSA) was used to identify Random Amplified Polymorphic DNA (RAPD) markers linked to the zt-1 gene. Four RAPD loci (OPC5₅₅₁, OPG15₆₀₀, OPG11₁₁₇₁ and OPAF20₇₇₆) showed polymorphism between the contrasting bulks. The markers were sequenced to develop specific Sequence Characterised Amplified Regions (SCARs). Amplification of SCC5₅₅₁ produced a single product which was only observed in the white flowered and zero tannin content genotypes, whereas SCAR SCG11₁₁₇₁only produced a band in F₂ plants with coloured flower and high tannin content. SCARs SCC5₅₅₁ and SCG11₁₁₇₁ were tested for their applicability for routine screening in 37 faba bean genotypes differing in flower colour and tannin content. SCC5₅₅₁, allowed the prediction of the zt-1 genotypes with a 95% of accuracy, underscoring the potential of this SCAR marker as a cost-effective tool for MAS in large faba bean breeding populations.