VvDAM-SVPs genes are regulated by FLOWERING LOCUS T (VvFT) and not by ABA/low temperature-induced VvCBFs transcription factors in grapevine buds

Main conclusion In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1 transcription factors. In Vitis vinifera , in which dormancy is induced by the photoperiod, VvDAM-SVPs gene expression is reg...

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Published in	Planta Vol. 253; no. 2; p. 31
Main Authors	Vergara, Ricardo, Noriega, Ximena, Pérez, Francisco J.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.02.2021 Springer Nature B.V
Subjects	Abscisic acid Agriculture Biomedical and Life Sciences Buds Cold Temperature Deciduous trees Dormancy Ecology Embryos Flowering FLOWERING LOCUS T gene Flowers - genetics Flowers - metabolism Forestry Fruit trees Fruits Gene expression Gene Expression Regulation, Plant - genetics Genes Genes, Plant - genetics Genomes Life Sciences Loci Low temperature Original Article Plant Sciences Plants (botany) Prunus persica Transcription factors Transcription Factors - genetics Transcription Factors - metabolism Trees Vitis - genetics Vitis - metabolism Vitis vinifera DAM genes FLOWERING LOCUS T CBF/DREB1 Endodormancy Grapevine buds
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Abstract	Main conclusion In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1 transcription factors. In Vitis vinifera , in which dormancy is induced by the photoperiod, VvDAM-SVPs gene expression is regulated by FLOWERING LOCUS T ( VvFT ). Using the sequences of the six peach ( Prunus persica ) DORMACY-ASSOCIATED MADS-box genes ( DAM ) as query, eight putative DAM genes belonging to the family of MADS-box transcription factors and related to the Arabidopsis floral regulators SHORT VEGETATIVE PHASE ( SVP ) and AGAMOUS LIKE 24 ( AGL24 ) were identified in the V. vinifera genome. Among these, five belong to the subfamily SVP-like genes which have been associated with the regulation of flowering and dormancy in annual and perennial plants, respectively. It has been proposed that they play a direct role in the induction and maintenance of endodormancy (ED) through the regulation of the FLOWERING LOCUS T ( FT ) gene. In the present study, it is demonstrated that in V. vinifera : (1) VvDAM-SVPs genes are not regulated by ABA/low temperature-induced VvCBFs transcription factors as described for other species of deciduous fruit trees. (2) A contrasting expression pattern between VvDAM3-SVP and VvFT was found under different experimental conditions related to the entry and exit of grapevine buds from ED. (3) Overexpression of VvFT in somatic grapevine embryos (SGE) repressed the expression of VvDAM3-SVP and VvDAM4-SVP . Taken together, the results suggest that VvDAM3-SVP could be associated with ED in grapevine buds, and that its expression could be regulated by VvFT .
AbstractList	In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1 transcription factors. In Vitis vinifera, in which dormancy is induced by the photoperiod, VvDAM-SVPs gene expression is regulated by FLOWERING LOCUS T (VvFT). Using the sequences of the six peach (Prunus persica) DORMACY-ASSOCIATED MADS-box genes (DAM) as query, eight putative DAM genes belonging to the family of MADS-box transcription factors and related to the Arabidopsis floral regulators SHORT VEGETATIVE PHASE (SVP) and AGAMOUS LIKE 24 (AGL24) were identified in the V. vinifera genome. Among these, five belong to the subfamily SVP-like genes which have been associated with the regulation of flowering and dormancy in annual and perennial plants, respectively. It has been proposed that they play a direct role in the induction and maintenance of endodormancy (ED) through the regulation of the FLOWERING LOCUS T (FT) gene. In the present study, it is demonstrated that in V. vinifera: (1) VvDAM-SVPs genes are not regulated by ABA/low temperature-induced VvCBFs transcription factors as described for other species of deciduous fruit trees. (2) A contrasting expression pattern between VvDAM3-SVP and VvFT was found under different experimental conditions related to the entry and exit of grapevine buds from ED. (3) Overexpression of VvFT in somatic grapevine embryos (SGE) repressed the expression of VvDAM3-SVP and VvDAM4-SVP. Taken together, the results suggest that VvDAM3-SVP could be associated with ED in grapevine buds, and that its expression could be regulated by VvFT. MAIN CONCLUSIONIn deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1 transcription factors. In Vitis vinifera, in which dormancy is induced by the photoperiod, VvDAM-SVPs gene expression is regulated by FLOWERING LOCUS T (VvFT). Using the sequences of the six peach (Prunus persica) DORMACY-ASSOCIATED MADS-box genes (DAM) as query, eight putative DAM genes belonging to the family of MADS-box transcription factors and related to the Arabidopsis floral regulators SHORT VEGETATIVE PHASE (SVP) and AGAMOUS LIKE 24 (AGL24) were identified in the V. vinifera genome. Among these, five belong to the subfamily SVP-like genes which have been associated with the regulation of flowering and dormancy in annual and perennial plants, respectively. It has been proposed that they play a direct role in the induction and maintenance of endodormancy (ED) through the regulation of the FLOWERING LOCUS T (FT) gene. In the present study, it is demonstrated that in V. vinifera: (1) VvDAM-SVPs genes are not regulated by ABA/low temperature-induced VvCBFs transcription factors as described for other species of deciduous fruit trees. (2) A contrasting expression pattern between VvDAM3-SVP and VvFT was found under different experimental conditions related to the entry and exit of grapevine buds from ED. (3) Overexpression of VvFT in somatic grapevine embryos (SGE) repressed the expression of VvDAM3-SVP and VvDAM4-SVP. Taken together, the results suggest that VvDAM3-SVP could be associated with ED in grapevine buds, and that its expression could be regulated by VvFT. Main conclusion In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1 transcription factors. In Vitis vinifera , in which dormancy is induced by the photoperiod, VvDAM-SVPs gene expression is regulated by FLOWERING LOCUS T ( VvFT ). Using the sequences of the six peach ( Prunus persica ) DORMACY-ASSOCIATED MADS-box genes ( DAM ) as query, eight putative DAM genes belonging to the family of MADS-box transcription factors and related to the Arabidopsis floral regulators SHORT VEGETATIVE PHASE ( SVP ) and AGAMOUS LIKE 24 ( AGL24 ) were identified in the V. vinifera genome. Among these, five belong to the subfamily SVP-like genes which have been associated with the regulation of flowering and dormancy in annual and perennial plants, respectively. It has been proposed that they play a direct role in the induction and maintenance of endodormancy (ED) through the regulation of the FLOWERING LOCUS T ( FT ) gene. In the present study, it is demonstrated that in V. vinifera : (1) VvDAM-SVPs genes are not regulated by ABA/low temperature-induced VvCBFs transcription factors as described for other species of deciduous fruit trees. (2) A contrasting expression pattern between VvDAM3-SVP and VvFT was found under different experimental conditions related to the entry and exit of grapevine buds from ED. (3) Overexpression of VvFT in somatic grapevine embryos (SGE) repressed the expression of VvDAM3-SVP and VvDAM4-SVP . Taken together, the results suggest that VvDAM3-SVP could be associated with ED in grapevine buds, and that its expression could be regulated by VvFT .
ArticleNumber	31
Author	Noriega, Ximena Vergara, Ricardo Pérez, Francisco J.
Author_xml	– sequence: 1 givenname: Ricardo surname: Vergara fullname: Vergara, Ricardo organization: Fac. Ciencias, Lab. de Bioquímica Vegetal, Universidad de Chile, Instituto de Investigaciones Agropecuarias – sequence: 2 givenname: Ximena surname: Noriega fullname: Noriega, Ximena organization: Fac. Ciencias, Lab. de Bioquímica Vegetal, Universidad de Chile – sequence: 3 givenname: Francisco J. orcidid: 0000-0002-8947-1305 surname: Pérez fullname: Pérez, Francisco J. email: frperez@uchile.cl organization: Fac. Ciencias, Lab. de Bioquímica Vegetal, Universidad de Chile
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Keywords	DAM genes FLOWERING LOCUS T CBF/DREB1 Endodormancy Grapevine buds
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Snippet	Main conclusion In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is... In deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is regulated by CBF/DREB1... Main conclusionIn deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is... MAIN CONCLUSIONIn deciduous fruit trees in which dormancy is induced by low temperatures, the expression of DORMACY-ASSOCIATED MADS-BOX genes (DAM) is...
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SourceType	Aggregation Database Index Database Publisher
StartPage	31
SubjectTerms	Abscisic acid Agriculture Biomedical and Life Sciences Buds Cold Temperature Deciduous trees Dormancy Ecology Embryos Flowering FLOWERING LOCUS T gene Flowers - genetics Flowers - metabolism Forestry Fruit trees Fruits Gene expression Gene Expression Regulation, Plant - genetics Genes Genes, Plant - genetics Genomes Life Sciences Loci Low temperature Original Article Plant Sciences Plants (botany) Prunus persica Transcription factors Transcription Factors - genetics Transcription Factors - metabolism Trees Vitis - genetics Vitis - metabolism Vitis vinifera
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Title	VvDAM-SVPs genes are regulated by FLOWERING LOCUS T (VvFT) and not by ABA/low temperature-induced VvCBFs transcription factors in grapevine buds
URI	https://link.springer.com/article/10.1007/s00425-020-03561-5 https://www.ncbi.nlm.nih.gov/pubmed/33438039 https://www.proquest.com/docview/2477093595/abstract/ https://search.proquest.com/docview/2477506721
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