VvHDZ28 positively regulate salicylic acid biosynthesis during seed abortion in Thompson Seedless.

Seedlessness in grapes is one of the features most appreciated by consumers. However, the mechanisms underlying seedlessness in grapes remain obscure. Here, we observe small globular embryos and globular embryos in Pinot Noir and Thompson Seedless from 20 to 30 days after flowering (DAF). From 40 to 50 DAF, we observe torpedo embryos and cotyledon embryos in Pinot Noir but aborted embryos and endosperm in Thompson Seedless. Thus, RNA-Seq analyses of seeds at these stages from Thompson Seedless and Pinot Noir were performed. A total of 6442 differentially expressed genes were identified. Among these, genes involved in SA biosynthesis, VvEDS1 and VvSARD1, were more highly expressed in Thompson Seedless than in Pinot Noir. Moreover, the content of endogenous SA is at least five times higher in Thompson Seedless than in Pinot Noir. Increased trimethylation of H3K27 of VvEDS1 and VvSARD1 may be correlated with lower SA content in Pinot Noir. We also demonstrate that VvHDZ28 positively regulates the expression of VvEDS1. Moreover, over-expression of VvHDZ28 results in seedless fruit and increased SA contents in Solanum lycopersicum. Our results reveal the potential role of SA and feedback regulation of VvHDZ28 in seedless grapes.

Molecular cloning and functional characterization of a seed-specific VvßVPE gene promoter from Vitis vinifera.

MAIN CONCLUSION: The grapevine VvßVPE promoter is specifically expressed in the seed. The - 1306~- 1045 bp core region restricts expression in other tissues and organs. Vacuolar processing enzyme (VPE) is a cysteine proteinase regulating vacuolar protein maturation and executing programmed cell death (PCD) in plants. Vitis vinifera (Vv)ßVPE is a ß-type VPE showing seed-specific expression that processes seed proteins during ovule development. However, the regulation of the seed-specific gene expression is far from understood. In this study, we characterize VvßVPE promoter (pVvßVPE) from 12 seeded and seedless grape genotypes. 94.56% of the pVvßVPE coding sequence is consistent. Two ßVPE promoters were constructed and transformed into Arabidopsis thaliana via ß-glucuronidase (GUS) fused expression vectors, using cv. Pinot Noir and cv. Thompson as seed and seedless candidates. GUS staining in different tissues and organs revealed that VvßVPE expresses specifically in the embryo, including the cotyledon, hypocotyl and suspensor, but not in the leaf, stem, root or flowers of the seedling. Using promoter deletion analysis, we created four incomplete VvßVPE promoters and found each pVvßVPE deletion could drive GUS gene to express in seeds. Interestingly, seed specificity disappeared when the promoter missed the core - 1306~- 1045 bp region. All deletion promoters presenting various quantified GUS activities indicate that the region - 1704~- 1306 bp inhibits, and the region - 705~- 861 bp promotes gene expression of VvßVPE. Our results demonstrate that pVvßVPE is a seed-specific promoter in both seeded and seedless grapes. Moreover, the core region of pVvßVPE (- 1306~- 1045 bp) is the key one responsible for seed-specific expression.

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.

Breeding for seedless grapes using Chinese wild Vitis spp. II. In vitro embryo rescue and plant development.

BACKGROUND: Since 1982, the embryo rescue technique has been widely applied to embryo germination of stenospermic grapes in cross-breeding programmes. This project aimed to: (1) use embryos to breed new seedless cultivars of Vitis vinifera as the female parents utilising wild Chinese Vitis spp. as the male parents; and (2) develop an efficient method for in vitro embryo rescue and plant development. RESULTS: Among the different genotypes, the productions of hybrid plants were significantly different, ranged from 21.1% ('Ruby Seedless' × 'Beichun') to only 1.1% ('Pink Seedless' × 'Beichun'), except for the combinations from which no surviving seedlings were obtained. We collected hybridisation fruits from 28 June to 3 August, and obtained their best sampling times described within days after flowering. The highest rates of embryo formation (24.3%) and plant development (91.4%) were found when ovules of 'Ruby Seedless' were cultured in MM4 + 500 mg L(-1) mashed banana. CONCLUSION: Seven new hybrids of V. vinifera with wild Chinese Vitis spp. were obtained. As a result of early nuclear-free character identification, 17 seedless grape lines were obtained. An efficient system of seedless grape breeding through embryo rescue was also established.