Using SCC8, SCF27 and VMC7f2 markers in grapevine breeding for seedlessness via marker assisted selection

We used molecular markers associated with seedlessness in grapes, namely SCC8, SCF27 and VMC7f2, to improve the efficiency of seedless grapevine breeding via marker assisted selection (MAS). DNA from 372 F(1) hybrid progeny from the cross between seeded "Alphonse Lavallée" and seedless "Sultani" was amplified by PCR using three markers. After digestion of SCC8 marker amplification products by restriction enzyme BgIII, 40 individuals showed homozygous SCC8+/SCC8+ alleles at the seed development inhibitor (SdI) locus. DNA from 80 of the progeny amplified with the SCF27 marker produced bands; 174 individuals had 198-bp alleles of the VMC7f2 marker associated with seedlessness. In the second year, based on MAS, 183 F(1) hybrids were designated as seedless grapevine candidates because they were positive for a minimum of one marker. Twenty individuals were selected as genetic resources for future studies on seedless grapevine breeding because they carried alleles for the three markers associated with seedlessness. The VMC7f2 SSR marker was identified as the marker most associated with seedlessness.     

Validation Assay of p3_VvAGL11 Marker in a Wide Range of Genetic Background for Early Selection of Stenospermocarpy in Vitis vinifera L.

DNA markers technology, derived from research in molecular biology and genomics, offers great promise for plant breeding, allowing the “molecular breeding” via marker-assisted selection. Grapevine genomic resources allowed, in recent years, the characterization at molecular level of genes involved in interesting phenotypes such as stenospermocarpic seedlessness, a trait really appreciated by consumers. Recent studies in table grapes revealed that the VvAGL11 gene, member of the D-lineage MADS-box family, controls the ovule identity, and thus potentially playing an important role in stenospermocarpy. Intragenic markers of VvAGL11 have been found and tested for breeding purposes. In the present paper, we describe an in deep assay on a total of 475 genotypes derived by our own grape germplasm and seeded × seedless crosses F₁ offspring, to evaluate and verify the “diagnostic” power of VvAGL11 in marker-assisted selection. We found only 8/475 that were seeded and carried the seedless-associated allele in the STS p3_VvAGL11. However, and most importantly, there were no seedless varieties without such allele. We validated the marker as a 100 % effective tool for early negative selection of stenospermocarpy in Vitis vinifera L. crosses.     

A genetic analysis of seed and berry weight in grapevine.

Fruit size and seedlessness are highly relevant traits in many fruit crop species, and both are primary targets of breeding programs for table grapes. In this work we performed a quantitative genetic analysis of size and seedlessness in an F1 segregating population derived from the cross between a classical seeded (Vitis vinifera L. 'Dominga') and a newly bred seedless ('Autumn Seedless') cultivar. Fruit size was scored as berry weight (BW), and for seedlessness we considered both seed fresh weight (SFW) and the number of seeds and seed traces (SN) per berry. Quantitative trait loci (QTL) analysis of BW detected 3 QTLs affecting this trait and accounting for up to 67% of the total phenotypic variance. QTL analysis for seedlessness detected 3 QTLs affecting SN (explaining up to 35% of total variance) and 6 affecting SFW (explaining up to 90% of total variance). Among them, a major effect QTL explained almost half of the phenotypic variation for SFW. Comparative analysis of QTLs for these traits reduced the number of grapevine genomic regions involved, one of them being a major effect QTL for seedlessness. Association analyses showed that microsatellite locus VMC7F2, closely linked to this QTL, is a useful marker for selection of seedlessnes.     

Silencing of chaperonin 21, that was differentially expressed in inflorescence of seedless and seeded grapes,promoted seed abortion in tobacco and tomato fruits

Vitis vinifera L. cv. ‘Thompson Seedless’ presents a type of stenospermocarpy in grape where fertilization occurs but seeds abort and fail to develop. To unravel the molecular basis for stenospermocarpy in grapes, subtractive hybridization was carried out in order to isolate differentially regulated genes that participate in the seedlessness machinery. Two ‘Thompson’ lines, a seeded and a seedless, were screened during different flower developmental stages. One of the genes, that was differentially expressed between the seeded and seedless lines, was the chloroplast chaperonin 21 (ch-Cpn21). ch-Cpn21 is a 21-kDa co-chaperonin polypeptide formed by two GroES-like domains fused together in tandem. Silencing of ch-Cpn21 in Nicotiana benthamiana plants resulted in leaf stunting, chlorosis, as well as ovary necrogenesis leading to seed abortion. Moreover, organ-specific silencing of ch-Cpn21 only in Lycopersicum esculentum fruits resulted in the development of seedless tomatoes. These results suggest that ch-Cpn21 may play a role in seed abortion in stenospermocarpic grapes.     

Molecular characterization of a SCAR marker purportedly linked to seedlessness in grapevine (Vitis)

Molecular markers associated with seedlessness in grapevine (Vitis vinifera) could be used for early trait selection in breeding programs and provide useful tools for elucidating the molecular mechanisms underlying seed abortion. In this study, the sequence fidelity of a previously reported seedlessness-linked Sequence-Characterized Amplified Region (SCAR) marker (GenBank accession #AY327513, Yang et al. in Chinese J Agri Biotech 3:13–17, 2006) was determined by comparative sequence analysis. Using available genomics resources, the SCAR marker was mapped to an overlapping region between exon-1 and intron-1 of a putative histidine triad protein (HIT) gene corresponding to an ORF of 588 bp for a peptide of 195 residues and a gene structure with 8 exons in a 14.7 kbp genomic region. However, PCR and DNA sequence analyses revealed that both seeded and seedless phenotypes of Vitis species contained highly homologous sequences in an EcoRI-delimited region of up to 5 kbp surrounding the SCAR marker. The absence of linkage between the marker and the seedlessness trait does not support a role for the HIT gene in seedlessness development, or the potential for the use of this SCAR marker in the identification/selection of seedless progeny.     

Development of molecular markers linked to the 'Fiesta' linkage group 7 major QTL for fire blight resistance and their application for marker-assisted selection.

A fire blight resistance QTL explaining 34.3%-46.6% of the phenotypic variation was recently identified on linkage group 7 of apple cultivar 'Fiesta' (F7). However, markers flanking this QTL were AFLP and RAPD markers unsuitable for marker-assisted selection (MAS). Two RAPD markers bracketing the QTL have been transformed into SCAR (sequence-characterized amplified region) markers, and an SSR marker specific for the region was developed. Pedigree analysis of 'Fiesta' with these markers enabled tracking of the F7 QTL allele back to 'Cox's Orange Pippin'. Stability of the effect of this QTL allele in different backgrounds was analyzed by inoculating progeny plants of a cross between 'Milwa', a susceptible cultivar, and '1217', a moderately resistant cultivar, and a set of cultivars that carry or lack the allele conferring increased fire blight resistance. Progenies and cultivars that carried both markers were significantly more resistant than those that did not carry both markers, indicating high stability of the F7 QTL allele in different backgrounds. This stability and the availability of reproducible markers bracketing the QTL make this locus promising for use in MAS.     

An improved embryo-rescue protocol for hybrid progeny from seedless Vitis vinifera grapes × wild Chinese Vitis species

A highly efficient technique of embryo rescue is critical when using stenospermocarpic Vitis vinifera cultivars (female parents) to breed novel, disease-resistant, seedless grape cultivars by hybridizing with wild Chinese Vitis species (male parents) having many disease-resistance alleles. The effects of various factors on the improvement of embryo formation, germination, and plantlet development for seven hybrid combinations were studied. The results indicated that Beichun and Shuangyou were the best male parents. The best sampling time for ovule inoculation differed among the female parents. When hybrid ovules were cultured on a double-phase medium with five different solid medium types, percent embryo formation was highest (11.3–28.3%) on a modified MM3 medium. Percentages of embryo germination (15.4–55.4%) and plantlet development (11.15–44.6%) were all highest when embryos were cultured on Woody Plant Medium?+?5.7 μM indole-3-acetic acid?+?4.4 μM 6-benzylaminopurine?+?1.4 μM gibberellic acid?+?2% sucrose?+?0.05% casein hydrolysate?+?0.3% activated charcoal?+?0.7% agar. In the absence of other amino acids, the addition of proline significantly increased embryo formation (36.1%), embryo germination (64.6%), and plantlet development (90.5%). A highly efficient protocol has been developed for hybrid embryo rescue from seedless V. vinifera grapes?×?wild Chinese Vitis species that results in a significant improvement in breeding efficiency for new disease-resistant seedless grapes.     

Development and validation of a PCR-based functional marker system for the major wide-compatible gene locus S5 in rice

The major wide-compatibility gene locus S5 in rice (Oryza sativa L.) located on chromosome 6 has been recently cloned and a 136-bp deletion in the candidate gene encoding aspartyl protease has been characterized to be specific for wide-compatible varieties, while many single nucleotide polymorphisms have been identified at S5 between indica and japonica rice types. In the present study, we designed a PCR-based multiplex functional marker system targeting the deletion and the SNPs for precise determination of the allelic status at S5. By deploying the marker system, the allelic status at the S5 locus in 584 rice genotypes has been assayed. A total of 116 genotypes, including 11 cultivars, two known wide-compatible varieties, 48 IRRI germplasm lines, 12 Indian aromatic rice genotypes, 37 restorer lines and six breeding lines, have been identified to possess the 136-bp deletion specific for the neutral allele at S5. The marker system was able to clearly distinguish indica and japonica alleles from the neutral allele and has been validated in a mapping population derived from the three-way cross IR36/Dular//Akihikari, which segregated for spikelet sterility/fertility. The functional marker system targeting S5 developed in the present study will be very useful in rapid identification of wide-compatible genotypes, in predicting the success of inter-subspecific crosses and in targeted introgression of the wide-compatible allele of S5 into elite indica and japonica rice varieties.     

葡萄无核基因定位与作图的研究

以UBC 269484和GSLP1569的序列为支点,设计合成了包括UBC 269和GSLP1在内的9条引物,以葡萄 有核亲本红地球和无核亲本红光无核的DNA为模板,对这9个引物进行筛选,结果GSLP1、39970524 5号引物和 39970524 6号引物在无核亲本红光无核上扩增出了特异标记GSLP1569、39970524 5 564、39970524 6 1538和 39970524 6 1200。用这3个特异引物在红地球、红光无核、无核白和红地球×红光无核杂交组合F1代163株杂 种的DNA样上进行PCR扩增,结果4个特异标记在F1群体中与无核主效基因共分离。4个特异标记也出现于所 用组合中无核基因原始供给者无核白上。这些标记和葡萄无核主效基因相连锁。用QTXb17遗传作图软件,对葡 萄无核主效基因S定位与作图,当P=0.01时,LOD值在32.7～46.4之间,置信界限在0.2～9.9之间。这4个 特异标记和无核主效基因S处于在同一连锁群,位于无核主效基因S的两侧,覆盖基因组12.3cM。特异标记 39970524 5 564、GSLP1569、39970524 6 1538、39970524 6 1200距S基因的遗传距离分别为0.6cM、1.2cM、 4.9cM和11.1cM。     

烟草赤星病抗性主效QTL人工选择响应研究

分析赤星病抗性主效QTL的人工选择响应,可为烟草赤星病抗性分子标记辅助选择提供一定的理论基础。本研究利用与主效QTL紧密连锁的分子标记J9和J4,分析随机群体、人工选择群体和自然群体中响应分子标记的等位基因频率,研究相关标记位点在不同群体中的等位基因变化规律。结果发现:(1)赤星病抗性主效QTL等位基因在不同选择强度(5%、10%和20%)的正向选择条件下均发生了显著性偏分离,其中在10%的正向选择强度下偏分离显著性最高。(2)在不同世代(F3、F4、F5和F6)的赤星病抗性育种选择群体中,J9位点抗病亲本等位基因型频率显著高于感病亲本基因型频率,表明来源于抗源净叶黄的主效抗性QTL与赤星病抗性显著关联。(3)在198份自然群体中,包括烟草赤星病抗性品种中烟86、单育二号在内的50份烟草种质携带与抗源净叶黄相同的基因型,表明该主效QTL被广泛应用于烟草赤星病抗性改良中。本研究验证了之前定位到的主效抗病QTL的准确性;分析了该主效QTL的人工选择响应,相关结果为烟草赤星病抗性改良提供了一定的理论基础。     

Effect of gibberellic acid and uniconazol on embryo abortion in the stenospermocarpic grape cultivars Emperatriz and Perlon

Hypothesizing that seed abortion in stenospermocarpic grapes (Vitis vinifera L.) is caused by high gibberellin levels in the seed during the first stages of its development, we studied the effect of gibberellic acid GA₃ and uniconazol (a GAs biosynthesis inhibitor) on this phenomenon. In vitro germination was analyzed in the seedless cultivars Emperatriz and Perlon, which were treated with 60 and 120 mg.^-l 1 uniconazol (5 and 15 days before bloom) and 100 mg.^-l 1 GA₃ (5 days after bloom). In addition, endogenous levels of free gibberellins in flowers and seeds of Emperatriz and Perlon were compared with their seedeed progenitor Emperador. Clusters were harvested at bloom and 20 days after bloom for gibberellin analysis and at commercial maturity for in vitro culture of the seeds. Considerable gibberellin activity was found in the three cultivars, but only small differences were detected between the seedless and the seeded genotypes. Exogenous applications of GA₃ had a deleterious effect on seed growth and on in vitro germination. Uniconazol also inhibited in vitro germination, though not affecting the total number of germinating embryos plus those rescued from non-germinating seeds. In conclusion, gibberellins do not appear to be directly involved in seed abortion of the stenospermocarpic cultivars Emperatriz and Perlon, although their participation in a more complex scenario should not be rejected, taking into account that in Perlon germination rates are positively correlated with the number of clusters per plant. Treatments with growth regulators also modified berry number per cluster, berry weight and rachis morphology. Finally, the plant source was a determinant affecting germination rates in vitro.     

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     

葡萄抗病无核胚挽救育种及分子标记辅助选择

以欧洲葡萄无核品种为母本,中国野生葡萄双优、欧山杂种北醇及8个欧洲葡萄品种为父本共进行了16个组合的杂交,通过胚挽救技术获得胚挽救苗55个株系。利用无核基因特异引物GSLP1、抗黑痘病和抗炭疽病基因RAPD标记对杂种株系进行分子检测,杂种中检测出拥有无核基因RAPD标记的22株、拥有抗黑痘病基因RAPD标记的16株、拥有抗炭疽病基因RAPD标记的9株。在这些胚挽救杂种苗中,同时拥有无核、抗黑痘病、抗炭疽病基因RAPD标记的胚挽救苗4株,同时拥有无核和抗黑痘病基因RAPD标记的胚挽救苗9株,同时拥有无核、抗炭疽病基因RAPD标记的胚挽救苗1株。     

Progress in grapevine breeding

Summary The European, or bunch grape, Vitis vinifera, is widely grown because of its high fruit quality and its capacity to grow in a wide range of climatic conditions. However, they are susceptible to fungal diseases and insect pests, especially when grown in cool, wet climates. The aim of a number of grapevine breeding programs throughout the world is to develop new varieties resistant to diseases using complex hybrids between European and American species of Vitis. Within these breeding programs it is essential to maintain heterozygosity and desirable hybrids are multiplied by asexual propagation. New approaches to grapevine improvement include the use of protoplast fusion to overcome sexual barriers, however the routine regeneration of plantlets from protoplasts and calluses is difficult. In vitro rescue of ovules from varieties with stenospermocarpic seeds shows considerable promise for breeding new seedless grapes. Eventually the use of plant transformation techniques to insert specific pieces of DNA coding for desirable genetic characteristics will provide opportunities for equipping well known grape cultivars with new characteristics.     

New DNA markers for high molecular weight glutenin subunits in wheat

End-use quality is one of the priorities of modern wheat (Triticum aestivum L.) breeding. Even though quality is a complex trait, high molecular weight (HMW) glutenins play a major role in determining the bread making quality of wheat. DNA markers developed from the sequences of HMW glutenin genes were reported in several previous studies to facilitate marker-assisted selection (MAS). However, most of the previously available markers are dominant and amplify large DNA fragments, and thus are not ideal for high throughput genotyping using modern equipment. The objective of this study was to develop and validate co-dominant markers suitable for high throughput MAS for HMW glutenin subunits encoded at the Glu-A1 and Glu-D1 loci. Indels were identified by sequence alignment of allelic HMW glutenin genes, and were targeted to develop locus-specific co-dominant markers. Marker UMN19 was developed by targeting an 18-bp deletion in the coding sequence of subunit Ax2* of Glu-A1. A single DNA fragment was amplified by marker UMN19, and was placed onto chromosome 1AL. Sixteen wheat cultivars with known HMW glutenin subunits were used to validate marker UMN19. The cultivars with subunit Ax2* amplified the 362-bp fragment as expected, and a 344-bp fragment was observed for cultivars with subunit Ax1 or the Ax-null allele. Two co-dominant markers, UMN25 and UMN26, were developed for Glu-D1 by targeting the fragment size polymorphic sites between subunits Dx2 and Dx5, and between Dy10 and Dy12, respectively. The 16 wheat cultivars with known HMW glutenin subunit composition were genotyped with markers UMN25 and UMN26, and the genotypes perfectly matched their subunit types. Using an Applied Biosystems 3130xl Genetic Analyzer, four F₂ populations segregating for the Glu-A1 or Glu-D1 locus were successfully genotyped with primers UMN19, UMN25 and UMN26 labeled with fluorescent dyes.     

Scavenging effect of Indian grape polyphenols on 2,2'-diphenyl-1-picrylhydrazyl(DPPH) radical by electron spin resonance spectrometry

Antioxidant potency of Indian grape cultivars varying in their skin color, seed and polyphenol content (Bangalore blue, Pandhari sahebi, Sharad seedless and Thompson seedless) and their components (whole grapes, pulp with skin and seeds) was examined as 2,2'-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity using electron spin resonance spectrometry. The total polyphenols in Indian grapes ranged between 3-51%. Extracted polyphenols caused a concentration dependent and significant loss in DPPH radical signal, similar to known antioxidants-Vitamin C, catechin and procyanidin B3 used as references. Among seedless cultivars, polyphenols from Sharad was more potent as antioxidant than Thompson, showing IC50 values of 1250 +/- 30 and 2650 +/- 125 microg/ml, respectively. The inhibitory effect of polyphenols from seedless grape cultivars was as effective as that of seeded variety. The results indicate that polyphenols extracted from Indian grapes/ components (with /without seeds) exhibited free radical scavenging activity and their chemopreventive properties need to be exploited by in vivo model system.     

A molecular marker linked to the mollis gene conferring soft-seediness for marker-assisted selection applicable to a wide range of crosses in lupin (Lupinus angustifolius L.) breeding

To broaden the gene pool of domesticated commercial cultivars of narrow-leafed lupin (Lupinus angustifolius L.), wild accessions are used as parents in crossing in lupin breeding. Among the progenies from wild × domesticated (W × D) crosses, the soft-seediness gene mollis is the most difficult domestication gene to be selected by conventional breeding methods, where molecular marker-assisted selection (MAS) is highly desirable. MAS in plant breeding requires markers to be cost-effective and high-throughput, and be applicable to a wide range of crosses in a breeding program. In this study, representative plants from an F8 recombinant inbred line (RIL) population derived from a W × D cross, together with four cultivars and four wild types, were used in DNA fingerprinting by microsatellite-anchored fragment length polymorphisms (MFLP). Two co-dominant MFLP polymorphisms were identified as candidate markers linked to the mollis gene, and one of the candidate markers was selected and converted into a co-dominant, sequence-specific PCR marker. This marker, designated MoLi, showed a perfect match with phenotypes of seed coat permeability on a segregating population consisting of 115 F8 RILs, confirming the close genetic linkage to the mollis gene. Validation tests showed that the banding pattern of marker MoLi is consistent with all the 25 historical and current commercial cultivars released in Australia, and is consistent with mollis genotypes in 119 of the 125 accessions in the Australian L. angustifolius core collection. Marker MoLi provides a cost-effective way to select the mollis gene in a wide range of W × D crosses in lupin breeding.