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Strigolactone inhibition of shoot branching

A carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be derived from carotenoids and are known to trigger the germination of parasitic plant seeds and stimulate symbiotic fungi. Here we present evidence... Full description

Journal Title: Nature 2008, Vol.455 (7210), p.189-195
Main Author: Gomez-Roldan, M.V
Other Authors: Fermas, S , Brewer, P.B , Puech-Pages, V , Dun, E.A , Pillot, J.P , Letisse, F , Matusova, R , Danoun, S , Portais, J.C , Bouwmeester, H.J , Becard, G , Beveridge, C.A , Rameau, C , Rochange, S.F
Format: Electronic Article Electronic Article
Language: English
Subjects:
pea
Publisher: London: Nature Publishing
ID: ISSN: 0028-0836
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recordid: cdi_wageningen_narcis_oai_library_wur_nl_wurpubs_373702
title: Strigolactone inhibition of shoot branching
format: Article
creator:
  • Gomez-Roldan, M.V
  • Fermas, S
  • Brewer, P.B
  • Puech-Pages, V
  • Dun, E.A
  • Pillot, J.P
  • Letisse, F
  • Matusova, R
  • Danoun, S
  • Portais, J.C
  • Bouwmeester, H.J
  • Becard, G
  • Beveridge, C.A
  • Rameau, C
  • Rochange, S.F
subjects:
  • apical dominance
  • Arabidopsis
  • Arabidopsis - drug effects
  • Arabidopsis - genetics
  • Arabidopsis - growth & development
  • Arabidopsis Proteins - genetics
  • Arabidopsis Proteins - metabolism
  • arbuscular
  • arbuscular-mycorrhizal fungi
  • beverages
  • Biological and medical sciences
  • Chemical agents
  • Dioxygenases
  • food
  • Fundamental and applied biological sciences. Psychology
  • fungi
  • Genes, Plant - genetics
  • germination
  • germination stimulants
  • Growth (Plants)
  • Lactones - analysis
  • Lactones - chemistry
  • Lactones - metabolism
  • Lactones - pharmacology
  • Life Sciences
  • Mutation
  • Mycorrhizae - physiology
  • mycorrhizal fungi
  • Oxygenases - genetics
  • Oxygenases - metabolism
  • Parasitism
  • Parasitism and symbiosis
  • pea
  • Peas - drug effects
  • Peas - growth & development
  • Peas - metabolism
  • Peas - parasitology
  • Phenotype
  • phosphorus deficiency
  • Physiological aspects
  • Plant growth inhibiting substances
  • Plant Growth Regulators - analysis
  • Plant Growth Regulators - chemistry
  • Plant Growth Regulators - metabolism
  • Plant Growth Regulators - pharmacology
  • Plant physiology and development
  • Plant Proteins - genetics
  • Plant Proteins - metabolism
  • Plant Roots - drug effects
  • Plant Roots - metabolism
  • Plant Shoots - drug effects
  • Plant Shoots - growth & development
  • Plant Shoots - metabolism
  • Plant Shoots - parasitology
  • rms1 mutant
  • root parasitic plants
  • seed
  • seed-germination
  • signal
  • Symbiosis
  • Terpenes - analysis
  • Terpenes - chemistry
  • Terpenes - metabolism
  • Terpenes - pharmacology
  • Vegetative apparatus, growth and morphogenesis. Senescence
ispartof: Nature, 2008, Vol.455 (7210), p.189-195
description: A carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be derived from carotenoids and are known to trigger the germination of parasitic plant seeds and stimulate symbiotic fungi. Here we present evidence that carotenoid cleavage dioxygenase 8 shoot branching mutants of pea are strigolactone deficient and that strigolactone application restores the wild-type branching phenotype to ccd8 mutants. Moreover, we show that other branching mutants previously characterized as lacking a response to the branching inhibition signal also lack strigolactone response, and are not deficient in strigolactones. These responses are conserved in Arabidopsis. In agreement with the expected properties of the hormonal signal, exogenous strigolactone can be transported in shoots and act at low concentrations. We suggest that endogenous strigolactones or related compounds inhibit shoot branching in plants. Furthermore, ccd8 mutants demonstrate the diverse effects of strigolactones in shoot branching, mycorrhizal symbiosis and parasitic weed interaction.
language: eng
source:
identifier: ISSN: 0028-0836
fulltext: no_fulltext
issn:
  • 0028-0836
  • 1476-4687
  • 1476-4679
url: Link


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titleStrigolactone inhibition of shoot branching
creatorGomez-Roldan, M.V ; Fermas, S ; Brewer, P.B ; Puech-Pages, V ; Dun, E.A ; Pillot, J.P ; Letisse, F ; Matusova, R ; Danoun, S ; Portais, J.C ; Bouwmeester, H.J ; Becard, G ; Beveridge, C.A ; Rameau, C ; Rochange, S.F
creatorcontribGomez-Roldan, M.V ; Fermas, S ; Brewer, P.B ; Puech-Pages, V ; Dun, E.A ; Pillot, J.P ; Letisse, F ; Matusova, R ; Danoun, S ; Portais, J.C ; Bouwmeester, H.J ; Becard, G ; Beveridge, C.A ; Rameau, C ; Rochange, S.F
descriptionA carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be derived from carotenoids and are known to trigger the germination of parasitic plant seeds and stimulate symbiotic fungi. Here we present evidence that carotenoid cleavage dioxygenase 8 shoot branching mutants of pea are strigolactone deficient and that strigolactone application restores the wild-type branching phenotype to ccd8 mutants. Moreover, we show that other branching mutants previously characterized as lacking a response to the branching inhibition signal also lack strigolactone response, and are not deficient in strigolactones. These responses are conserved in Arabidopsis. In agreement with the expected properties of the hormonal signal, exogenous strigolactone can be transported in shoots and act at low concentrations. We suggest that endogenous strigolactones or related compounds inhibit shoot branching in plants. Furthermore, ccd8 mutants demonstrate the diverse effects of strigolactones in shoot branching, mycorrhizal symbiosis and parasitic weed interaction.
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subjectapical dominance ; Arabidopsis ; Arabidopsis - drug effects ; Arabidopsis - genetics ; Arabidopsis - growth & development ; Arabidopsis Proteins - genetics ; Arabidopsis Proteins - metabolism ; arbuscular ; arbuscular-mycorrhizal fungi ; beverages ; Biological and medical sciences ; Chemical agents ; Dioxygenases ; food ; Fundamental and applied biological sciences. Psychology ; fungi ; Genes, Plant - genetics ; germination ; germination stimulants ; Growth (Plants) ; Lactones - analysis ; Lactones - chemistry ; Lactones - metabolism ; Lactones - pharmacology ; Life Sciences ; Mutation ; Mycorrhizae - physiology ; mycorrhizal fungi ; Oxygenases - genetics ; Oxygenases - metabolism ; Parasitism ; Parasitism and symbiosis ; pea ; Peas - drug effects ; Peas - growth & development ; Peas - metabolism ; Peas - parasitology ; Phenotype ; phosphorus deficiency ; Physiological aspects ; Plant growth inhibiting substances ; Plant Growth Regulators - analysis ; Plant Growth Regulators - chemistry ; Plant Growth Regulators - metabolism ; Plant Growth Regulators - pharmacology ; Plant physiology and development ; Plant Proteins - genetics ; Plant Proteins - metabolism ; Plant Roots - drug effects ; Plant Roots - metabolism ; Plant Shoots - drug effects ; Plant Shoots - growth & development ; Plant Shoots - metabolism ; Plant Shoots - parasitology ; rms1 mutant ; root parasitic plants ; seed ; seed-germination ; signal ; Symbiosis ; Terpenes - analysis ; Terpenes - chemistry ; Terpenes - metabolism ; Terpenes - pharmacology ; Vegetative apparatus, growth and morphogenesis. Senescence
ispartofNature, 2008, Vol.455 (7210), p.189-195
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6Letisse, F
7Matusova, R
8Danoun, S
9Portais, J.C
10Bouwmeester, H.J
11Becard, G
12Beveridge, C.A
13Rameau, C
14Rochange, S.F
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0Strigolactone inhibition of shoot branching
1Nature
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descriptionA carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be derived from carotenoids and are known to trigger the germination of parasitic plant seeds and stimulate symbiotic fungi. Here we present evidence that carotenoid cleavage dioxygenase 8 shoot branching mutants of pea are strigolactone deficient and that strigolactone application restores the wild-type branching phenotype to ccd8 mutants. Moreover, we show that other branching mutants previously characterized as lacking a response to the branching inhibition signal also lack strigolactone response, and are not deficient in strigolactones. These responses are conserved in Arabidopsis. In agreement with the expected properties of the hormonal signal, exogenous strigolactone can be transported in shoots and act at low concentrations. We suggest that endogenous strigolactones or related compounds inhibit shoot branching in plants. Furthermore, ccd8 mutants demonstrate the diverse effects of strigolactones in shoot branching, mycorrhizal symbiosis and parasitic weed interaction.
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0apical dominance
1Arabidopsis
2Arabidopsis - drug effects
3Arabidopsis - genetics
4Arabidopsis - growth & development
5Arabidopsis Proteins - genetics
6Arabidopsis Proteins - metabolism
7arbuscular
8arbuscular-mycorrhizal fungi
9beverages
10Biological and medical sciences
11Chemical agents
12Dioxygenases
13food
14Fundamental and applied biological sciences. Psychology
15fungi
16Genes, Plant - genetics
17germination
18germination stimulants
19Growth (Plants)
20Lactones - analysis
21Lactones - chemistry
22Lactones - metabolism
23Lactones - pharmacology
24Life Sciences
25Mutation
26Mycorrhizae - physiology
27mycorrhizal fungi
28Oxygenases - genetics
29Oxygenases - metabolism
30Parasitism
31Parasitism and symbiosis
32pea
33Peas - drug effects
34Peas - growth & development
35Peas - metabolism
36Peas - parasitology
37Phenotype
38phosphorus deficiency
39Physiological aspects
40Plant growth inhibiting substances
41Plant Growth Regulators - analysis
42Plant Growth Regulators - chemistry
43Plant Growth Regulators - metabolism
44Plant Growth Regulators - pharmacology
45Plant physiology and development
46Plant Proteins - genetics
47Plant Proteins - metabolism
48Plant Roots - drug effects
49Plant Roots - metabolism
50Plant Shoots - drug effects
51Plant Shoots - growth & development
52Plant Shoots - metabolism
53Plant Shoots - parasitology
54rms1 mutant
55root parasitic plants
56seed
57seed-germination
58signal
59Symbiosis
60Terpenes - analysis
61Terpenes - chemistry
62Terpenes - metabolism
63Terpenes - pharmacology
64Vegetative apparatus, growth and morphogenesis. Senescence
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titleStrigolactone inhibition of shoot branching
authorGomez-Roldan, M.V ; Fermas, S ; Brewer, P.B ; Puech-Pages, V ; Dun, E.A ; Pillot, J.P ; Letisse, F ; Matusova, R ; Danoun, S ; Portais, J.C ; Bouwmeester, H.J ; Becard, G ; Beveridge, C.A ; Rameau, C ; Rochange, S.F
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1Arabidopsis
2Arabidopsis - drug effects
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4Arabidopsis - growth & development
5Arabidopsis Proteins - genetics
6Arabidopsis Proteins - metabolism
7arbuscular
8arbuscular-mycorrhizal fungi
9beverages
10Biological and medical sciences
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12Dioxygenases
13food
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20Lactones - analysis
21Lactones - chemistry
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43Plant Growth Regulators - metabolism
44Plant Growth Regulators - pharmacology
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46Plant Proteins - genetics
47Plant Proteins - metabolism
48Plant Roots - drug effects
49Plant Roots - metabolism
50Plant Shoots - drug effects
51Plant Shoots - growth & development
52Plant Shoots - metabolism
53Plant Shoots - parasitology
54rms1 mutant
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56seed
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58signal
59Symbiosis
60Terpenes - analysis
61Terpenes - chemistry
62Terpenes - metabolism
63Terpenes - pharmacology
64Vegetative apparatus, growth and morphogenesis. Senescence
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abstractA carotenoid-derived hormonal signal that inhibits shoot branching in plants has long escaped identification. Strigolactones are compounds thought to be derived from carotenoids and are known to trigger the germination of parasitic plant seeds and stimulate symbiotic fungi. Here we present evidence that carotenoid cleavage dioxygenase 8 shoot branching mutants of pea are strigolactone deficient and that strigolactone application restores the wild-type branching phenotype to ccd8 mutants. Moreover, we show that other branching mutants previously characterized as lacking a response to the branching inhibition signal also lack strigolactone response, and are not deficient in strigolactones. These responses are conserved in Arabidopsis. In agreement with the expected properties of the hormonal signal, exogenous strigolactone can be transported in shoots and act at low concentrations. We suggest that endogenous strigolactones or related compounds inhibit shoot branching in plants. Furthermore, ccd8 mutants demonstrate the diverse effects of strigolactones in shoot branching, mycorrhizal symbiosis and parasitic weed interaction.
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