Multi-level analysis of the interactions between REVOLUTA and MORE AXILLARY BRANCHES 2 in controlling plant development reveals parallel, independent and antagonistic functions
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Multi-level analysis of the interactions between REVOLUTA and MORE AXILLARY BRANCHES 2 in controlling plant development reveals parallel, independent and antagonistic functions. / Hong, Shin-Young; Botterweg-Paredes, Esther; Doll, Jasmin; Eguen, Tenai; Blaakmeer, Anko; Matton, Sanne; Xie, Yakun; Lunding, Bjørg Skjøth; Zentgraf, Ulrike; Guan, Chunmei; Jiao, Yuling; Wenkel, Stephan.
I: Development, Bind 147, dev183681, 2020.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - Multi-level analysis of the interactions between REVOLUTA and MORE AXILLARY BRANCHES 2 in controlling plant development reveals parallel, independent and antagonistic functions
AU - Hong, Shin-Young
AU - Botterweg-Paredes, Esther
AU - Doll, Jasmin
AU - Eguen, Tenai
AU - Blaakmeer, Anko
AU - Matton, Sanne
AU - Xie, Yakun
AU - Lunding, Bjørg Skjøth
AU - Zentgraf, Ulrike
AU - Guan, Chunmei
AU - Jiao, Yuling
AU - Wenkel, Stephan
PY - 2020
Y1 - 2020
N2 - Class III homeodomain leucine zipper (HD-ZIPIII) transcription factors play fundamental roles in controlling plant development. The known HD-ZIPIII target genes encode proteins involved in the production and dissipation of the auxin signal, HD-ZIPII transcription factors and components that feedback-regulate HD-ZIPIII expression or protein activity. Here we investigated the regulatory hierarchies of the control of MORE AXILLARY BRANCHES2 (MAX2) by the HD-ZIPIII protein REVOLUTA (REV). We found that REV can interact with the promoter of MAX2 In agreement had rev10D, gain-of-function mutants increased levels of MAX2 expression while rev loss-of-function mutants showed lower levels of MAX2 in some tissues. Like REV, plays MAX2 known roles in the control of plant architecture, photobiology and senescence which prompted us to initiate a multi-level analysis of growth phenotypes of hd-zipIII, max2 and respective higher order mutants thereof. Our data suggest a complex relationship of synergistic and antagonistic activities between REV and MAX2 and these interactions appear to depend on the developmental context and not all involve the direct regulation of MAX2 by REV.
AB - Class III homeodomain leucine zipper (HD-ZIPIII) transcription factors play fundamental roles in controlling plant development. The known HD-ZIPIII target genes encode proteins involved in the production and dissipation of the auxin signal, HD-ZIPII transcription factors and components that feedback-regulate HD-ZIPIII expression or protein activity. Here we investigated the regulatory hierarchies of the control of MORE AXILLARY BRANCHES2 (MAX2) by the HD-ZIPIII protein REVOLUTA (REV). We found that REV can interact with the promoter of MAX2 In agreement had rev10D, gain-of-function mutants increased levels of MAX2 expression while rev loss-of-function mutants showed lower levels of MAX2 in some tissues. Like REV, plays MAX2 known roles in the control of plant architecture, photobiology and senescence which prompted us to initiate a multi-level analysis of growth phenotypes of hd-zipIII, max2 and respective higher order mutants thereof. Our data suggest a complex relationship of synergistic and antagonistic activities between REV and MAX2 and these interactions appear to depend on the developmental context and not all involve the direct regulation of MAX2 by REV.
U2 - 10.1242/dev.183681
DO - 10.1242/dev.183681
M3 - Journal article
C2 - 32345745
VL - 147
JO - Development
JF - Development
SN - 0950-1991
M1 - dev183681
ER -
ID: 240743488