Haisheng Sun

GENETIC DIVERSITY OF CHINESE WILD GRAPE SPECIES BY SSR AND SRAP MARKERS

ABSTRACT Simple Sequence Repeats (SSR) and Sequence-Related Amplified Polymorphism (SRAP) were used to analyze the genetic diversity of 26 genotypes from 15 Chinese wild grape species and one interspecific hybrid of Vitis L. A total of 90 alleles were amplified by ten SSR primers, and primer heterozygosity varied from 0.653 to 0.883. Twelve out of 169 SRAP primer combinations were selected for SRAP analysis. A total of 223 bands were produced, of which 208 bands were polymorphic ones; the average percentage of polymorphic bands was 93.3%. The results of clustering analysis based on SSR markers showed that most of the wild grapes could be distinguished at genetic similarity coefficient level of 0.74, and 27 genotypes could be divided into four main clusters at 0.64. The dendrogram obtained with SRAP data was almost consistent with traditional morphological classification. At the genetic similarity coefficient of 0.84, 27 genotypes could be separated. This also confirmed that V. heyneana subsp. ficifolia is a subspecies of V. heyneana, and V. adenoclada alone is a species.

Endophytic Bacterium Pseudomonas fluorescens RG11 May Transform Tryptophan to Melatonin and Promote Endogenous Melatonin Levels in the Roots of Four Grape Cultivars

Endophytes have been verified to synthesize melatonin in vitro and promote abiotic stress-induced production of endogenous melatonin in grape (Vitis vinifera L.) roots. This study aimed to further characterize the biotransformation of tryptophan to melatonin in the endophytic bacterium Pseudomonas fluorescens RG11 and to investigate its capacity for enhancing endogenous melatonin levels in the roots of different grape cultivars. Using ultra performance liquid chromatography-tandem mass spectrometry combined with 15N double-labeled L-tryptophan as the precursor for melatonin, we detected isotope-labeled 5-hydroxytryptophan, serotonin, N-acetylserotonin, and melatonin, but tryptamine was not detected during the in vitro incubation of P. fluorescens RG11. Furthermore, the production capacity of these four compounds peaked during the exponential growth phase. RG11 colonization increased the endogenous levels of 5-hydroxytryptophan, N-acetylserotonin, and melatonin, but reduced those of tryptamine and serotonin, in the roots of the Red Globe grape cultivar under salt stress conditions. Quantitative real-time PCR revealed that RG11 reduced the transcription of grapevine tryptophan decarboxylase and serotonin N-acetyltransferase genes when compared to the un-inoculated control. These results correlated with decreased reactive oxygen species bursts and cell damage, which were alleviated by RG11 colonization under salt stress conditions. Additionally, RG11 promoted plant growth and enhanced the levels of endogenous melatonin in different grape cultivars. Intraspecific variation in the levels of melatonin precursors was found among four grape cultivars, and the associated root crude extracts appeared to significantly induce RG11 melatonin biosynthesis in vitro. Overall, this study provides useful information that enhances the existing knowledge of a potential melatonin synthesis pathway in rhizobacteria, and it reveals plant–rhizobacterium interactions that affect melatonin biosynthesis in plants subjected to abiotic stress conditions.

Transcriptome analysis of genes involved in anthocyanins biosynthesis and transport in berries of black and white spine grapes (Vitis davidii)

BackgroundThe color of berry skin is an important economic trait for grape and is essentially determined by the components and content of anthocyanins. The fruit color of Chinese wild grapes is generally black, and the profile of anthocyanins in Chinese wild grapes is significantly different from that of Vitis vinifera. However, V. davidii is the only species that possesses white berry varieties among Chinese wild grape species. Thus, we performed a transcriptomic analysis to compare the difference of transcriptional level in black and white V. davidii, in order to find some key genes that are related to anthocyanins accumulation in V. davidii.ResultsThe results of anthocyanins detection revealed that 3,5-O-diglucoside anthocyanins is the predominant anthocyanins in V. davidii. It showed obvious differences from V. vinifera in the profile of the composition of anthocyanins. The transcriptome sequencing by Illumina mRNA-Seq technology generated an average of 57 million 100-base pair clean reads from each sample. Differential gene expression analysis revealed thousands of differential expression genes (DEGs) in the pairwise comparison of different fruit developmental stages between and within black and white V. davidii. After the analysis of functional category enrichment and differential expression patterns of DEGs, 46 genes were selected as the candidate genes. Some genes have been reported as being related to anthocyanins accumulation, and some genes were newly found in our study as probably being related to anthocyanins accumulation. We inferred that 3AT (VIT_03s0017g00870) played an important role in anthocyanin acylation, GST4 (VIT_04s0079g00690) and AM2 (VIT_16s0050g00910) played important roles in anthocyanins transport in V. davidii. The expression of some selected DEGs was further confirmed by quantitative real-time PCR (qRT-PCR).ConclusionsThe present study investigated the transcriptomic profiles of berry skin from black and white spine grapes at three fruit developmental stages by Illumina mRNA-Seq technology. It revealed the variety specificity of anthocyanins accumulation in V. davidi at the transcriptional level. The data reported here will provide a valuable resource for understanding anthocyanins accumulation in grapes, especially in V. davidii.

Genetic diversity assessment of Vitis ficifolia Bge. populations from Henan province of China by SRAP markers

Eighteen sequence-related amplified polymorphism (SRAP) primer combinations were used to assess the genetic diversity of 126 individuals from five different geographical populations of Vitis ficifolia Bge. The numbers of bands scored per primer combination ranged from 8 to 27, with an average of 18.6 bands. At the population level, the percentage of polymorphic bands (PPB), Neis gene diversity index (H) and Shannons information index (I) were the highest in the Shihe (Xinyang) population (77.31%, 0.1987, 0.2805) and the lowest in the Linzhou (Anyang) population (55.82%, 0.1112, 0.1727). At the species level, PPB, H and I were 80.56%, 0.2129 and 0.3075, respectively. The genetic differentiation coefficient (GST) was 0.2055 and the gene flow (Nm) was 1.9328, indicating strong intra-population genetic differentiation. Based on the unweighted pair group method based arithmetic average clustering diagram, the five studied populations may be divided into three groups. The clustering results were almost in accordance with the populations’ geographical distribution.

Identification of disease resistance genes from a Chinese wild grapevine (Vitis davidii) by analysing grape transcriptomes and transgenic Arabidopsis

Highlight Transcription profiles showed that 20 candidate genes were obviously co-expressed at 12 hpi in 30 Vitis davidii. VdWRKY53 trancription factor enhanced the resisitance in grapevine and Arabidopsis. Abstract The molecular mechanisms underlying disease tolerance in grapevines remain uncharacterized, even though there are substantial differences in the resistance of grapevine species to fungal and bacterial diseases. In this study, we identified genes and genetic networks involved in disease resistance in grapevines by comparing the transcriptomes of a strongly resistant clone of Chinese wild grapevine (Vitis davidii cv. Ciputao 941, DAC) and a susceptible clone of European grapevine (Vitis vinifera cv. Manicure Finger, VIM) before and after infection with white rot disease (Coniella diplodiella). Disease resistance-related genes were triggered in DAC approximately 12 hours post infection (hpi) with C. diplodiella. Twenty candidate resistant genes were co-expressed in DAC. One of these candidate genes, VdWRKY53 (GenBank accession KY124243), was over-expressed in transgenic Arabidopsis thaliana plants and was found to provide these plants with enhanced resistance to C. diplodiella, Pseudomonas syringae pv tomato PDC3000, and Golovinomyces cichoracearum. This result indicates that VdWRKY53 may be involved in nonspecific resistance via interaction with fungal and oomycete elicitor signals and the activation of defence gene expression. These results provide potential gene targets for molecular breeding to develop resistant grape cultivars.