Transcriptional changes of gibberellin oxidase genes in grapevines with or without gibberellin application during inflorescence development

The concept that gibberellin (GA) application on seeded grapevines induces seedlessness has been known for decades in viticulture. GA was applied to inflorescence clusters of seeded diploid grapevine cultivar ‘Tamnara’ (Vitis spp.) at 14 days before full bloom (DBF). Morphological and molecular effe...

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Bibliographic Details
Published in:Journal of plant research 2014-03, Vol.127 (2), p.359-371
Main Authors: Jung, Chan Jin, Hur, Youn Young, Jung, Sung-Min, Noh, Jung-Ho, Do, Gyung-Ran, Park, Seo-June, Nam, Jong-Chul, Park, Kyo-Sun, Hwang, Hae-Sung, Choi, Doil, Lee, Hee Jae
Format: Article
Language:English
Subjects:
Arabidopsis
Biomedical and Life Sciences
Biosynthesis
Botany
Cultivars
cytochrome P-450
diploidy
DNA, Complementary - genetics
Enzymes
flowering
fruiting
Gene expression
gene expression regulation
Gene Expression Regulation, Plant
genes
gibberellins
Gibberellins - metabolism
Gibberellins - pharmacology
Inflorescence - drug effects
Inflorescence - enzymology
Inflorescence - genetics
Inflorescence - growth & development
Life Sciences
Oxidoreductases - genetics
Oxidoreductases - metabolism
Phylogeny
Plant Biochemistry
Plant diversity
Plant Ecology
plant ovary
Plant Physiology
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Sciences
Plants, Genetically Modified
Pollen
Regular Paper
RNA, Plant - genetics
seedless varieties
Seeds - drug effects
Seeds - enzymology
Seeds - genetics
Seeds - growth & development
transcription (genetics)
Vitaceae
Viticulture
Vitis
Vitis - drug effects
Vitis - enzymology
Vitis - genetics
Vitis - growth & development
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Summary:The concept that gibberellin (GA) application on seeded grapevines induces seedlessness has been known for decades in viticulture. GA was applied to inflorescence clusters of seeded diploid grapevine cultivar ‘Tamnara’ (Vitis spp.) at 14 days before full bloom (DBF). Morphological and molecular effects of GA application were examined on the induction of parthenocarpic fruit development. With GA application, ovaries were enlarged and pollen tube growth was completely inhibited. Vitis GA oxidase enzymes, key determinants for GA level, were characterized through phylogenetic analysis with Arabidopsis GA oxidase enzymes. Five VvGA 20-oxidase (VvGA20ox), three VvGA 3-oxidase (VvGA3ox), and nine VvGA 2-oxidase (VvGA2ox) family proteins, and one VvGA methyltransferase (VvGAMT) and one Vitis cytochrome P450 714A1 proteins were identified, and their expression patterns were analyzed during inflorescence development from 14 DBF to 5 days after full bloom (DAF). VvGA2ox1, VvGA20ox3, and VvGA3ox2 were the most abundantly expressed genes in each gene family at 7, 5, and 2 DBF, respectively. Following GA application at 14 DBF inducing seedlessness, GA catabolic genes such as VvGAMT2, VvGA2ox3, and VvGA2ox4 were up-regulated at 12 DBF, full bloom, and 5 DAF, respectively. Conversely, most GA biosynthetic genes, VvGA20oxs and VvGA3oxs, were down-regulated at near full bloom, and the timing of their peak expression was changed. These results suggest that GA application at pre-bloom changes the GA biosynthesis into GA catabolic pathway at near full bloom by altering the transcription level and timing of GA oxidase genes during grapevine inflorescence development.
ISSN:0918-9440
1618-0860
DOI:10.1007/s10265-013-0623-x