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Short day transcriptomic programming during induction of dormancy in grapevine

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  • Bud dormancy in grapevine is an adaptive strategy for the survival of drought, high and low temperatures and freeze dehydration stress that limit the range of cultivar adaptation. Therefore, development of a comprehensive understanding of the biological mechanisms involved in bud dormancy is needed to promote advances in selection and breeding, and to develop improved cultural practices for existing grape cultivars. The seasonally indeterminate grapevine, which continuously develops compound axillary buds during the growing season, provides an excellent system for dissecting dormancy, because the grapevine does not transition through terminal bud development prior to dormancy. This study used gene expression patterns and targeted metabolite analysis of two grapevine genotypes that are short photoperiod responsive (Vitis riparia) and non-responsive (V. hybrid, Seyval) for dormancy development to determine differences between bud maturation and dormancy commitment. Grapevine gene expression and metabolites were monitored at seven time points under long (LD, 15 h) and short (SD, 13 h) day treatments. The use of age-matched buds and a small (2 h) photoperiod difference minimized developmental differences and allowed us to separate general photoperiod from dormancy specific gene responses. Gene expression profiles indicated three distinct phases (perception, induction and dormancy) in SD-induced dormancy development in V. riparia. Different genes from the NAC DOMAIN CONTAINING PROTEIN 19 and WRKY families of transcription factors were differentially expressed in each phase of dormancy. Metabolite and transcriptome analyses indicated ABA, trehalose, raffinose and resveratrol compounds have a potential role in dormancy commitment. Finally, a comparison between V. riparia compound axillary bud dormancy and dormancy responses in other species emphasized the relationship between dormancy and the expression of RESVERATROL SYNTHASE and genes associated with C3HC4-TYPE RING FINGER and NAC DOMAIN CONTAINING PROTEIN 19 transcription factors.
  • This is the publisher’s final pdf. The published article is copyrighted by the author(s) and published by Frontiers. The published article can be found at: http://journal.frontiersin.org/journal/plant-science. The Supplementary Material for this article can be found online at: http://journal.frontiersin.org/article/10.3389/fpls.2015.00834
  • Keywords: resveratrol, Seyval, Vitis riparia, ABA, bud, VitisNet, raffinose, trehalose
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  • Fennell, A. Y., Schlauch, K. A., Gouthu, S., Deluc, L. G., Khadka, V., Sreekantan, L., ... & Mathiason, K. L. (2015). Short day transcriptomic programming during induction of dormancy in grapevine. Frontiers in Plant Science, 6, 834. doi:10.3389/fpls.2015.00834
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  • 6
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  • This work was supported by National Science Foundation Plant Genome Research Grant DBI0604755, South Dakota State University Experiment Station and the South Dakota State University Functional Genomics Core Facility and the University of Nevada, Reno Proteomics Center. The Nevada Proteomics Center and the Nevada Center for Bioinformatics are supported by a grant from the National Institute of General Medical Sciences (P20GM103440).
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