PhMYB4 fine-tunes the floral volatile signature of Petunia×hybrida through PhC4H

In Petunia×hybrida cv 'Mitchell Diploid' (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and daily at molecular, metabolic, and biochemical levels. Multiple genes have been shown to encode proteins that either directly catalyse...

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Published in	Journal of experimental botany Vol. 62; no. 3; pp. 1133 - 1143
Main Authors	Colquhoun, Thomas A., Kim, Joo Young, Wedde, Ashlyn E., Levin, Laura A., Schmitt, Kyle C., Schuurink, Robert C., Clark, David G.
Format	Journal Article
Language	English
Published	Oxford Oxford University Press 01.01.2011
Subjects	Biological and medical sciences Biosynthesis Complementary DNA Flowers Fundamental and applied biological sciences. Psychology Genes Petals Plant cells Plants RESEARCH PAPER Research Papers RNA Transcription factors Transcriptional regulatory elements benzenoid/phenylpropanoid Flower Petunia hybrida R2R3-MYB Benzene derivatives Volatiles Dicotyledones Angiospermae Botany Flower crop Spermatophyta Phenylpropanoids Solanaceae Transcription factor petunia
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Abstract	In Petunia×hybrida cv 'Mitchell Diploid' (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and daily at molecular, metabolic, and biochemical levels. Multiple genes have been shown to encode proteins that either directly catalyse a biochemical reaction yielding FVBP compounds or are involved in metabolite flux prior to the formation of FVBP compounds. It was hypothesized that multiple transcription factors are involved in the precise regulation of all necessary genes, resulting in the specific volatile signature of MD flowers. After acquiring all available petunia transcript sequences with homology to Arabidopsis thaliana R2R3-MYB transcription factors, PhMYB4 (named for its close identity to AtMYB4) was identified, cloned, and characterized. PhMYB4 transcripts accumulate to relatively high levels in floral tissues at anthesis and throughout open flower stages, which coincides with the spatial and developmental distribution of FVBP production and emission. Upon RNAi suppression of PhMYB4 (ir-PhMYB4) both petunia CINNAMATE-4-HYDROXYLASE (PhC4H1 and PhC4H2) gene transcript levels were significantly increased. In addition, ir-PhMYB4 plants emit higher levels of FVBP compounds derived from p-coumaric acid (isoeugenol and eugenol) compared with MD. Together, these results indicate that PhMYB4 functions in the repression of C4H transcription, indirectly controlling the balance of FVBP production in petunia floral tissue (i.e. fine-tunes).
AbstractList	In Petunia×hybrida cv 'Mitchell Diploid' (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and daily at molecular, metabolic, and biochemical levels. Multiple genes have been shown to encode proteins that either directly catalyse a biochemical reaction yielding FVBP compounds or are involved in metabolite flux prior to the formation of FVBP compounds. It was hypothesized that multiple transcription factors are involved in the precise regulation of all necessary genes, resulting in the specific volatile signature of MD flowers. After acquiring all available petunia transcript sequences with homology to Arabidopsis thaliana R2R3-MYB transcription factors, PhMYB4 (named for its close identity to AtMYB4) was identified, cloned, and characterized. PhMYB4 transcripts accumulate to relatively high levels in floral tissues at anthesis and throughout open flower stages, which coincides with the spatial and developmental distribution of FVBP production and emission. Upon RNAi suppression of PhMYB4 (ir-PhMYB4) both petunia CINNAMATE-4-HYDROXYLASE (PhC4H1 and PhC4H2) gene transcript levels were significantly increased. In addition, ir-PhMYB4 plants emit higher levels of FVBP compounds derived from p-coumaric acid (isoeugenol and eugenol) compared with MD. Together, these results indicate that PhMYB4 functions in the repression of C4H transcription, indirectly controlling the balance of FVBP production in petunia floral tissue (i.e. fine-tunes). In Petunia×hybrida cv ‘Mitchell Diploid’ (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and daily at molecular, metabolic, and biochemical levels. Multiple genes have been shown to encode proteins that either directly catalyse a biochemical reaction yielding FVBP compounds or are involved in metabolite flux prior to the formation of FVBP compounds. It was hypothesized that multiple transcription factors are involved in the precise regulation of all necessary genes, resulting in the specific volatile signature of MD flowers. After acquiring all available petunia transcript sequences with homology to Arabidopsis thaliana R2R3-MYB transcription factors, PhMYB4 (named for its close identity to AtMYB4 ) was identified, cloned, and characterized. PhMYB4 transcripts accumulate to relatively high levels in floral tissues at anthesis and throughout open flower stages, which coincides with the spatial and developmental distribution of FVBP production and emission. Upon RNAi suppression of PhMYB4 ( ir-PhMYB4 ) both petunia CINNAMATE-4-HYDROXYLASE ( PhC4H1 and PhC4H2 ) gene transcript levels were significantly increased. In addition, ir-PhMYB4 plants emit higher levels of FVBP compounds derived from p -coumaric acid (isoeugenol and eugenol) compared with MD. Together, these results indicate that PhMYB4 functions in the repression of C4H transcription, indirectly controlling the balance of FVBP production in petunia floral tissue (i.e. fine-tunes).
Author	Schuurink, Robert C. Levin, Laura A. Kim, Joo Young Schmitt, Kyle C. Clark, David G. Colquhoun, Thomas A. Wedde, Ashlyn E.
AuthorAffiliation	2 Department of Plant Physiology, Swammerdam Institute for Life Sciences, Science Park 904, 1098 XH, Amsterdam, the Netherlands 1 Department of Environmental Horticulture, University of Florida, 1523 Fifield Hall, Gainesville, Florida 32611, USA
AuthorAffiliation_xml	– name: 1 Department of Environmental Horticulture, University of Florida, 1523 Fifield Hall, Gainesville, Florida 32611, USA – name: 2 Department of Plant Physiology, Swammerdam Institute for Life Sciences, Science Park 904, 1098 XH, Amsterdam, the Netherlands
Author_xml	– sequence: 1 givenname: Thomas A. surname: Colquhoun fullname: Colquhoun, Thomas A. – sequence: 2 givenname: Joo Young surname: Kim fullname: Kim, Joo Young – sequence: 3 givenname: Ashlyn E. surname: Wedde fullname: Wedde, Ashlyn E. – sequence: 4 givenname: Laura A. surname: Levin fullname: Levin, Laura A. – sequence: 5 givenname: Kyle C. surname: Schmitt fullname: Schmitt, Kyle C. – sequence: 6 givenname: Robert C. surname: Schuurink fullname: Schuurink, Robert C. – sequence: 7 givenname: David G. surname: Clark fullname: Clark, David G.
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Keywords	benzenoid/phenylpropanoid Flower Petunia hybrida R2R3-MYB Benzene derivatives Volatiles Dicotyledones Angiospermae Botany Flower crop Spermatophyta Phenylpropanoids Solanaceae Transcription factor petunia
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Snippet	In Petunia×hybrida cv 'Mitchell Diploid' (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and... In Petunia×hybrida cv ‘Mitchell Diploid’ (MD), floral volatile benzenoid/phenylpropanoid (FVBP) biosynthesis is controlled spatially, developmentally, and...
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SubjectTerms	Biological and medical sciences Biosynthesis Complementary DNA Flowers Fundamental and applied biological sciences. Psychology Genes Petals Plant cells Plants RESEARCH PAPER Research Papers RNA Transcription factors Transcriptional regulatory elements
Title	PhMYB4 fine-tunes the floral volatile signature of Petunia×hybrida through PhC4H
URI	https://www.jstor.org/stable/24039513 https://pubmed.ncbi.nlm.nih.gov/PMC3022401
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