Abscisic acid signaling is controlled by a BRANCHED1/HD-ZIP I cascade in Arabidopsis axillary buds
Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally themost important decision during branch development: whether the axillary bud, or branch primordium, grows out...
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| Published in | Proceedings of the National Academy of Sciences - PNAS Vol. 114; no. 2; pp. E245 - E254 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Academy of Sciences
10.01.2017
|
| Series | PNAS Plus |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally themost important decision during branch development: whether the axillary bud, or branch primordium, grows out to give a lateral shoot or remains dormant. Here we show that, inside the buds, the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcription factor BRANCHED1 (BRC1) binds to and positively regulates the transcription of three related Homeodomain leucine zipper protein (HD-ZIP)-encoding genes: HOMEOBOX PROTEIN 21 (HB21), HOMEOBOX PROTEIN 40 (HB40), and HOMEOBOX PROTEIN 53 (HB53). These three genes, together with BRC1, enhance 9-CIS-EPOXICAROTENOID DIOXIGENASE 3 (NCED3) expression, lead to abscisic acid accumulation, and trigger hormone response, thus causing suppression of bud development. This TCP/HD-ZIP genetic module seems to be conserved in dicot and monocotyledonous species to prevent branching under light-limiting conditions. |
|---|---|
| AbstractList | Shoot-branching patterns affect key aspects of plant life and are important targets for crop breeding. However, we are still ignorant of the genetic mechanisms controlling locally an important decision during branch development: whether the axillary bud grows out to give a lateral shoot or remains dormant. Here we show that the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcriptional regulator BRANCHED1 (BRC1), which acts inside axillary buds, binds and activates three genes encoding Homeodomain leucine zipper (HD-ZIP) transcription factors. These factors, together with BRC1, trigger a cascade leading to local abscisic acid (ABA) accumulation and response, essential for bud dormancy under light-limiting conditions. This finding demonstrates a direct relationship between
BRC1
and
ABA
signaling and places ABA downstream of BRC1 in the control of axillary bud dormancy.
Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally the most important decision during branch development: whether the axillary bud, or branch primordium, grows out to give a lateral shoot or remains dormant. Here we show that, inside the buds, the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcription factor BRANCHED1 (BRC1) binds to and positively regulates the transcription of three related Homeodomain leucine zipper protein (HD-ZIP)-encoding genes:
HOMEOBOX PROTEIN 21
(
HB21
),
HOMEOBOX PROTEIN 40
(
HB40
), and
HOMEOBOX PROTEIN 53
(
HB53
). These three genes, together with
BRC1
, enhance
9-CIS-EPOXICAROTENOID DIOXIGENASE 3
(
NCED3
) expression, lead to abscisic acid accumulation, and trigger hormone response, thus causing suppression of bud development. This TCP/HD-ZIP genetic module seems to be conserved in dicot and monocotyledonous species to prevent branching under light-limiting conditions. Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally the most important decision during branch development: whether the axillary bud, or branch primordium, grows out to give a lateral shoot or remains dormant. Here we show that, inside the buds, the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcription factor BRANCHED1 (BRC1) binds to and positively regulates the transcription of three related Homeodomain leucine zipper protein (HD-ZIP)-encoding genes: HOMEOBOX PROTEIN 21 (HB21), HOMEOBOX PROTEIN 40 (HB40), and HOMEOBOX PROTEIN 53 (HB53). These three genes, together with BRC1, enhance 9-CIS-EPOXICAROTENOID DIOXIGENASE 3 (NCED3) expression, lead to abscisic acid accumulation, and trigger hormone response, thus causing suppression of bud development. This TCP/HD-ZIP genetic module seems to be conserved in dicot and monocotyledonous species to prevent branching under light-limiting conditions. Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally themost important decision during branch development: whether the axillary bud, or branch primordium, grows out to give a lateral shoot or remains dormant. Here we show that, inside the buds, the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcription factor BRANCHED1 (BRC1) binds to and positively regulates the transcription of three related Homeodomain leucine zipper protein (HD-ZIP)-encoding genes: HOMEOBOX PROTEIN 21 (HB21), HOMEOBOX PROTEIN 40 (HB40), and HOMEOBOX PROTEIN 53 (HB53). These three genes, together with BRC1, enhance 9-CIS-EPOXICAROTENOID DIOXIGENASE 3 (NCED3) expression, lead to abscisic acid accumulation, and trigger hormone response, thus causing suppression of bud development. This TCP/HD-ZIP genetic module seems to be conserved in dicot and monocotyledonous species to prevent branching under light-limiting conditions. Significance Shoot-branching patterns affect key aspects of plant life and are important targets for crop breeding. However, we are still ignorant of the genetic mechanisms controlling locally an important decision during branch development: whether the axillary bud grows out to give a lateral shoot or remains dormant. Here we show that the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcriptional regulator BRANCHED1 (BRC1), which acts inside axillary buds, binds and activates three genes encoding Homeodomain leucine zipper (HD-ZIP) transcription factors. These factors, together with BRC1, trigger a cascade leading to local abscisic acid (ABA) accumulation and response, essential for bud dormancy under light-limiting conditions. This finding demonstrates a direct relationship between BRC1 and ABA signaling and places ABA downstream of BRC1 in the control of axillary bud dormancy. Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic networks controlling locally the most important decision during branch development: whether the axillary bud, or branch primordium, grows out to give a lateral shoot or remains dormant. Here we show that, inside the buds, the TEOSINTE BRANCHED1, CYCLOIDEA, PCF (TCP) transcription factor BRANCHED1 (BRC1) binds to and positively regulates the transcription of three related Homeodomain leucine zipper protein (HD-ZIP)-encoding genes: HOMEOBOX PROTEIN 21 ( HB21 ), HOMEOBOX PROTEIN 40 ( HB40 ), and HOMEOBOX PROTEIN 53 ( HB53 ). These three genes, together with BRC1 , enhance 9-CIS-EPOXICAROTENOID DIOXIGENASE 3 ( NCED3 ) expression, lead to abscisic acid accumulation, and trigger hormone response, thus causing suppression of bud development. This TCP/HD-ZIP genetic module seems to be conserved in dicot and monocotyledonous species to prevent branching under light-limiting conditions. |
| Author | Immink, Richard G. H. Pajoro, Alice Cubas, Pilar González-Grandío, Eduardo Franco-Zorrilla, José M. Tarancón, Carlos |
| Author_xml | – sequence: 1 givenname: Eduardo surname: González-Grandío fullname: González-Grandío, Eduardo organization: Department of Plant Molecular Genetics, Centro Nacional de Biotecnología/Consejo Superior de Investigaciones Científicas, Campus Universidad Autónoma de Madrid, 28049 Madrid, Spain – sequence: 2 givenname: Alice surname: Pajoro fullname: Pajoro, Alice organization: Laboratory of Molecular Biology, Wageningen University and Research, 6708 PB Wageningen, The Netherlands – sequence: 3 givenname: José M. surname: Franco-Zorrilla fullname: Franco-Zorrilla, José M. organization: Genomics Unit, Centro Nacional de Biotecnología/Consejo Superior de Investigaciones Científicas, Campus Universidad Autónoma de Madrid, 28049 Madrid, Spain – sequence: 4 givenname: Carlos surname: Tarancón fullname: Tarancón, Carlos organization: Department of Plant Molecular Genetics, Centro Nacional de Biotecnología/Consejo Superior de Investigaciones Científicas, Campus Universidad Autónoma de Madrid, 28049 Madrid, Spain – sequence: 5 givenname: Richard G. H. surname: Immink fullname: Immink, Richard G. H. organization: Bioscience, Wageningen Plant Research, Wageningen University and Research, 6708 PB Wageningen, The Netherlands – sequence: 6 givenname: Pilar surname: Cubas fullname: Cubas, Pilar organization: Department of Plant Molecular Genetics, Centro Nacional de Biotecnología/Consejo Superior de Investigaciones Científicas, Campus Universidad Autónoma de Madrid, 28049 Madrid, Spain |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28028241$$D View this record in MEDLINE/PubMed |
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| Copyright | Volumes 1–89 and 106–113, copyright as a collective work only; author(s) retains copyright to individual articles Copyright National Academy of Sciences Jan 10, 2017 Wageningen University & Research |
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| Keywords | abscisic acid HD-ZIP proteins TCP proteins bud dormancy Arabidopsis |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Author contributions: E.G.-G. and P.C. designed research; R.G.H.I. supervised research; E.G.-G., A.P., and P.C. performed research; J.M.F.-Z. and R.G.H.I. contributed new reagents/analytic tools; E.G.-G., J.M.F.-Z., C.T., and P.C. analyzed data; and E.G.-G. and P.C. wrote the paper. Edited by Ottoline Leyser, University of Cambridge, Cambridge, United Kingdom, and approved November 22, 2016 (received for review August 8, 2016) |
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| Snippet | Shoot-branching patterns determine key aspects of plant life and are important targets for crop breeding. However, we are still largely ignorant of the genetic... Significance Shoot-branching patterns affect key aspects of plant life and are important targets for crop breeding. However, we are still ignorant of the... Shoot-branching patterns affect key aspects of plant life and are important targets for crop breeding. However, we are still ignorant of the genetic mechanisms... |
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| SubjectTerms | Abscisic acid Arabidopsis Biological Sciences Bud dormancy Flowers & plants Gene expression HD-ZIP proteins Hormones PNAS Plus Signal transduction TCP proteins Transcription factors |
| Title | Abscisic acid signaling is controlled by a BRANCHED1/HD-ZIP I cascade in Arabidopsis axillary buds |
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