Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf

Catharanthus roseus produces a diverse range of specialized metabolites of the monoterpenoid indole alkaloid (MIA) class in a heavily branched pathway. Recent great progress in identification of MIA biosynthesis genes revealed that the different pathway branch genes are expressed in a highly cell ty...

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Main Authors: Maite Colinas, Jacob Pollier, Dries Vaneechoutte, Deniz G. Malat, Fabian Schweizer, Liesbeth De Milde, Rebecca De Clercq, Joana G. Guedes, Teresa Martínez-Cortés, Francisco J. Molina-Hidalgo, Mariana Sottomayor, Klaas Vandepoele, Alain Goossens
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
AP2/ERF transcription factor
bHLH transcription factor
Catharanthus roseus
Madagascar periwinkle
monoterpenoid indole alkaloids
transcription factor gene clusters
transcription factor paralogs
synergistic regulation
Orca
Online Access:https://doi.org/10.3389/fpls.2021.687406.s003
https://figshare.com/articles/figure/Image_1_Subfunctionalization_of_Paralog_Transcription_Factors_Contributes_to_Regulation_of_Alkaloid_Pathway_Branch_Choice_in_Catharanthus_roseus_pdf/14671296
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spelling ftfrontimediafig:oai:figshare.com:article/14671296 2023-05-15T17:53:24+02:00 Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf Maite Colinas Jacob Pollier Dries Vaneechoutte Deniz G. Malat Fabian Schweizer Liesbeth De Milde Rebecca De Clercq Joana G. Guedes Teresa Martínez-Cortés Francisco J. Molina-Hidalgo Mariana Sottomayor Klaas Vandepoele Alain Goossens 2021-05-25T05:21:54Z https://doi.org/10.3389/fpls.2021.687406.s003 https://figshare.com/articles/figure/Image_1_Subfunctionalization_of_Paralog_Transcription_Factors_Contributes_to_Regulation_of_Alkaloid_Pathway_Branch_Choice_in_Catharanthus_roseus_pdf/14671296 unknown doi:10.3389/fpls.2021.687406.s003 https://figshare.com/articles/figure/Image_1_Subfunctionalization_of_Paralog_Transcription_Factors_Contributes_to_Regulation_of_Alkaloid_Pathway_Branch_Choice_in_Catharanthus_roseus_pdf/14671296 CC BY 4.0 CC-BY Botany Plant Biology Plant Systematics and Taxonomy Plant Cell and Molecular Biology Plant Developmental and Reproductive Biology Plant Pathology Plant Physiology Plant Biology not elsewhere classified AP2/ERF transcription factor bHLH transcription factor Catharanthus roseus Madagascar periwinkle monoterpenoid indole alkaloids transcription factor gene clusters transcription factor paralogs synergistic regulation Image Figure 2021 ftfrontimediafig https://doi.org/10.3389/fpls.2021.687406.s003 2021-05-26T22:59:11Z Catharanthus roseus produces a diverse range of specialized metabolites of the monoterpenoid indole alkaloid (MIA) class in a heavily branched pathway. Recent great progress in identification of MIA biosynthesis genes revealed that the different pathway branch genes are expressed in a highly cell type- and organ-specific and stress-dependent manner. This implies a complex control by specific transcription factors (TFs), only partly revealed today. We generated and mined a comprehensive compendium of publicly available C. roseus transcriptome data for MIA pathway branch-specific TFs. Functional analysis was performed through extensive comparative gene expression analysis and profiling of over 40 MIA metabolites in the C. roseus flower petal expression system. We identified additional members of the known BIS and ORCA regulators. Further detailed study of the ORCA TFs suggests subfunctionalization of ORCA paralogs in terms of target gene-specific regulation and synergistic activity with the central jasmonate response regulator MYC2. Moreover, we identified specific amino acid residues within the ORCA DNA-binding domains that contribute to the differential regulation of some MIA pathway branches. Our results advance our understanding of TF paralog specificity for which, despite the common occurrence of closely related paralogs in many species, comparative studies are scarce. Still Image Orca Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
AP2/ERF transcription factor
bHLH transcription factor
Catharanthus roseus
Madagascar periwinkle
monoterpenoid indole alkaloids
transcription factor gene clusters
transcription factor paralogs
synergistic regulation
spellingShingle Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
AP2/ERF transcription factor
bHLH transcription factor
Catharanthus roseus
Madagascar periwinkle
monoterpenoid indole alkaloids
transcription factor gene clusters
transcription factor paralogs
synergistic regulation
Maite Colinas
Jacob Pollier
Dries Vaneechoutte
Deniz G. Malat
Fabian Schweizer
Liesbeth De Milde
Rebecca De Clercq
Joana G. Guedes
Teresa Martínez-Cortés
Francisco J. Molina-Hidalgo
Mariana Sottomayor
Klaas Vandepoele
Alain Goossens
Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
topic_facet Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
AP2/ERF transcription factor
bHLH transcription factor
Catharanthus roseus
Madagascar periwinkle
monoterpenoid indole alkaloids
transcription factor gene clusters
transcription factor paralogs
synergistic regulation
description Catharanthus roseus produces a diverse range of specialized metabolites of the monoterpenoid indole alkaloid (MIA) class in a heavily branched pathway. Recent great progress in identification of MIA biosynthesis genes revealed that the different pathway branch genes are expressed in a highly cell type- and organ-specific and stress-dependent manner. This implies a complex control by specific transcription factors (TFs), only partly revealed today. We generated and mined a comprehensive compendium of publicly available C. roseus transcriptome data for MIA pathway branch-specific TFs. Functional analysis was performed through extensive comparative gene expression analysis and profiling of over 40 MIA metabolites in the C. roseus flower petal expression system. We identified additional members of the known BIS and ORCA regulators. Further detailed study of the ORCA TFs suggests subfunctionalization of ORCA paralogs in terms of target gene-specific regulation and synergistic activity with the central jasmonate response regulator MYC2. Moreover, we identified specific amino acid residues within the ORCA DNA-binding domains that contribute to the differential regulation of some MIA pathway branches. Our results advance our understanding of TF paralog specificity for which, despite the common occurrence of closely related paralogs in many species, comparative studies are scarce.
format Still Image
author Maite Colinas
Jacob Pollier
Dries Vaneechoutte
Deniz G. Malat
Fabian Schweizer
Liesbeth De Milde
Rebecca De Clercq
Joana G. Guedes
Teresa Martínez-Cortés
Francisco J. Molina-Hidalgo
Mariana Sottomayor
Klaas Vandepoele
Alain Goossens
author_facet Maite Colinas
Jacob Pollier
Dries Vaneechoutte
Deniz G. Malat
Fabian Schweizer
Liesbeth De Milde
Rebecca De Clercq
Joana G. Guedes
Teresa Martínez-Cortés
Francisco J. Molina-Hidalgo
Mariana Sottomayor
Klaas Vandepoele
Alain Goossens
author_sort Maite Colinas
title Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
title_short Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
title_full Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
title_fullStr Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
title_full_unstemmed Image_1_Subfunctionalization of Paralog Transcription Factors Contributes to Regulation of Alkaloid Pathway Branch Choice in Catharanthus roseus.pdf
title_sort image_1_subfunctionalization of paralog transcription factors contributes to regulation of alkaloid pathway branch choice in catharanthus roseus.pdf
publishDate 2021
url https://doi.org/10.3389/fpls.2021.687406.s003
https://figshare.com/articles/figure/Image_1_Subfunctionalization_of_Paralog_Transcription_Factors_Contributes_to_Regulation_of_Alkaloid_Pathway_Branch_Choice_in_Catharanthus_roseus_pdf/14671296
genre Orca
genre_facet Orca
op_relation doi:10.3389/fpls.2021.687406.s003
https://figshare.com/articles/figure/Image_1_Subfunctionalization_of_Paralog_Transcription_Factors_Contributes_to_Regulation_of_Alkaloid_Pathway_Branch_Choice_in_Catharanthus_roseus_pdf/14671296
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fpls.2021.687406.s003
_version_ 1766161109212987392

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