Genome-wide analysis of the SCPL gene family in grape (Vitis vinifera L.)

Abstract Background B-box (BBX) zinc-finger transcription factors play important roles in plant growth, development, and stress response. Although these proteins have been studied in model plants such as Arabidopsis thaliana or Oryza sativa, little is known about the evolutionary history or expression patterns of BBX proteins in grapevine (Vitis vinifera L.). Results We identified a total of 25 VviBBX genes in the grapevine genome and named them according to the homology with Arabidopsis. These proteins were classified into five groups on the basis of their phylogenetic relationships, number of B-box domains, and presence or absence of a CCT domain or VP motif. BBX proteins within the same group showed similar exon-intron structures and were unevenly distributed in grapevine chromosomes. Synteny analyses suggested that only segmental duplication events contributed to the expansion of the VviBBX gene family in grapevine. The observed syntenic relationships between some BBX genes from grapevine and Arabidopsis suggest that they evolved from a common ancestor. Transcriptional analyses showed that the grapevine BBX genes were regulated distinctly in response to powdery mildew infection and various phytohormones. Moreover, the expression levels of a subset of BBX genes in ovules were much higher in seedless grapevine cultivars compared with seeded cultivars during ovule development, implying a potential role in seed abortion. Additionally, VviBBX8, VquBBX15a and VquBBX29b were all located in the nucleus and had transcriptional activity except for VquBBX29b. Conclusions The results of this study establish the genome-wide analysis of the grapevine BBX family and provide a framework for understanding the biological roles of BBX genes in grapevine.

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Genome-wide analysis and expression characterization of zinc finger homeodomain (ZHD) family genes responsed to different abiotic stresses and hormonal treatments in grape (Vitis vinifera L.)

10.21203/rs.3.rs-29270/v1 ◽

2020 ◽

Author(s):

Guojie Nai ◽

Juan Mao ◽

Shixiong Lu ◽

Yanmei Li ◽

Zonghuan Ma ◽

...

Keyword(s):

Gene Family ◽

Zinc Finger ◽

Defense Mechanisms ◽

Treatment Time ◽

Expression Profiles ◽

Vitis Vinifera L ◽

Genome Wide Analysis ◽

Genome Wide ◽

Expression Characterization

Abstract Background Zinc finger homeodomain (ZHD) proteins transcription factors (TFs) family occupy a crucial role in regulating plant growth and development. The ZHD TFs family had been studied in diverse organisms such as humans, Drosophila, nematode worms and plants. Especially in plants there is an extensive exploration involved in photosynthesis, defense mechanisms and responses to stress. In this further research, we will provide a better understanding of the ZHD gene family in grape. Results In this study, a total of 12 VvZHD genes were identified from the Grape Genome. The exploration of detailed bioinformatics found that the full length of VvZHD genes ranges from 150 bp (base pair) to 26706 bp, isoelectric points (pIs) were 6.25–9.68, molecular weights (MWs) ranged from 10.28 kilodaltons (KDa) to 97.93 kDa. Also, analysis of phylogenetic evolution showed there existed a common ancestor between Arabidopsis and grape. Ka (Nonsynonymous) / Ks (Synonymous) was lower than 1 and strong collinearity showed there were tandem duplications of genes between Arabidopsis and grape. Codon bias levels of ZHD gene family were relatively higher overall. Gene chip data analysis of cabernet sauvignon seedlings showed VvZHD genes had different expression under different time of different treatments, and with the prolongation of treatment time, most of VvZHD genes were slightly downregulated. The qRT-PCR was carried out under different hormones and stresses to verify expression profiles in grape roots and leaves. Results revealed that most VvZHD genes had higher expressions in roots but lower expressions in leaves. Also, most of the VvZHD gene members were responsed with high expressions after the treatment of ABA, IAA and MeJA in roots. However, VvZHD9, VvZHD11 and VvZHD12 were highly expressed by inducing of PEG in leaves. Conclusions Through genome-wide analysis and expression characterization of ZHD family genes, results showed 12 members had the diversity of function, structure and unique expression characterization under various abiotic stress and hormone treatments. This study will provide us with a newer insight on ZHD gene family of grape and promote to explore the biological functions of ZHD genes in other plants.

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