Abstract
BackgroundVegetative buds provide plants in temperate environments the possibility for growth and reproduction when environmental conditions are favorable. In grapevine, crucial developmental events take place within buds during two growing seasons in consecutive years. The first season, the shoot apical meristem within the bud differentiates all the basic elements of the shoot including flowering transition in lateral primordia and development of inflorescence primordia. These events practically end with bud dormancy. The second season, buds resume shoot growth associated to flower formation and development. Gene expression has been previously monitored at specific stages of bud development but has never been followed along the two growing seasons.ResultsGene expression changes were analyzed along the bud annual cycle at eight different time points. Principal Components Analysis (PCA) revealed that the main factors explaining the global gene expression differences were the processes of bud dormancy and active growth as well as stress responses. Accordingly, non dormant buds showed an enrichment in functional categories typical of actively proliferating and growing cells together with the over abundance of transcripts belonging to stress response pathways. Differential expression analyses performed between consecutive time points indicated that major transcriptional changes were associated to para/endodormancy, endo/ecodormancy and ecodormancy/bud break transitions. Transcripts encoding key regulators of reproductive development were grouped in three major expression clusters corresponding to: (i) transcripts associated to flowering induction, (ii) transcripts associated to flower meristem specification and initiation and (iii) transcripts putatively involved in dormancy. Within this cluster, a MADS-box gene (VvFLC2) and other transcripts with similar expression patterns could participate in dormancy regulation.ConclusionsThis work provides a global view of major transcriptional changes taking place along bud development in grapevine, highlighting those molecular and biological functions involved in the main events of bud development. As reported in other woody species, the results suggest that genes regulating flowering could also be involved in dormancy regulatory pathways in grapevine.
Highlights
Vegetative buds provide plants in temperate environments the possibility for growth and reproduction when environmental conditions are favorable
Tempranillo buds are endodormant in the second half of September (SEP) and endodormancy is released by the end of November (NOV), buds remain in an ecodormant stage from DEC to MAR [41]
To identify putative genes involved in flowering induction and flower development, we examined in detail the expression profiles of reproductive development key genes such as VFL, the MIKC-type MADS-box, the SPL and the Flowering Locus T (FT)-Terminal Flower1 (TFL1) gene families
Summary
Vegetative buds provide plants in temperate environments the possibility for growth and reproduction when environmental conditions are favorable. The first season, the shoot apical meristem within the bud differentiates all the basic elements of the shoot including flowering transition in lateral primordia and development of inflorescence primordia. These events practically end with bud dormancy. Gene expression has been previously monitored at specific stages of bud development but has never been followed along the two growing seasons. Polycarpic woody plants develop terminal or axillary buds with embryonic shoots from which complete branches can develop after specific signals [1]. Epigenetic regulation throughout chromatin modification has been proposed to be involved in dormancy regulatory processes based on differential expression of several chromatin modifying proteins [5]
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