The Branching Gene <i>RAMOSUS1</i> Mediates Interactions among Two Novel Signals and Auxin in Pea

Foo, Eloise; Bullier, Erika; Goussot, Magali; Foucher, Fabrice; Rameau, Catherine; Beveridge, Christine A.

doi:10.1105/tpc.104.026716

Cited by 252 publications

(323 citation statements)

References 44 publications

(102 reference statements)

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“…In addition to causing bud outgrowth, decapitation has been shown to deplete IAA levels in the main stem (Foo et al, 2005;Morris et al, 2005), which in turn may reduce strigolactone levels (Foo et al, 2005;Johnson et al, 2006). If auxin in the stem inhibits bud outgrowth via strigolactones, then strigolactone application to wild-type buds should prevent their outgrowth regardless of decapitation.…”

Section: Strigolactone Completely Represses Bud Outgrowth After Decapmentioning

confidence: 99%

“…Auxin has been shown to promote the expression of SMS synthesis genes (Sorefan et al, 2003;Bainbridge et al, 2005;Foo et al, 2005;Johnson et al, 2006;Arite et al, 2007). As a result, branching mutants defective in auxin response may have reduced strigolactone biosynthesis, which may be the cause of their increased branching phenotype.…”

Section: Strigolactone Reduces Branching In Auxin Response Increased mentioning

confidence: 99%

“…Decapitation resulted in reduced IAA levels and decreased expression of SMS synthesis genes (Sorefan et al, 2003;Foo et al, 2005;Johnson et al, 2006). Applying IAA to the decapitated plants rescued the drop in gene expression (Sorefan et al, 2003;Foo et al, 2005;Johnson et al, 2006).…”

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confidence: 97%

“…Auxin is known to promote the expression of SMS synthesis genes (Sorefan et al, 2003;Bainbridge et al, 2005;Foo et al, 2005;Johnson et al, 2006;Arite et al, 2007). Decapitation resulted in reduced IAA levels and decreased expression of SMS synthesis genes (Sorefan et al, 2003;Foo et al, 2005;Johnson et al, 2006).…”

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confidence: 99%

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Strigolactone Acts Downstream of Auxin to Regulate Bud Outgrowth in Pea and Arabidopsis

et al. 2009

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During the last century, two key hypotheses have been proposed to explain apical dominance in plants: auxin promotes the production of a second messenger that moves up into buds to repress their outgrowth, and auxin saturation in the stem inhibits auxin transport from buds, thereby inhibiting bud outgrowth. The recent discovery of strigolactone as the novel shootbranching inhibitor allowed us to test its mode of action in relation to these hypotheses. We found that exogenously applied strigolactone inhibited bud outgrowth in pea (Pisum sativum) even when auxin was depleted after decapitation. We also found that strigolactone application reduced branching in Arabidopsis (Arabidopsis thaliana) auxin response mutants, suggesting that auxin may act through strigolactones to facilitate apical dominance. Moreover, strigolactone application to tiny buds of mutant or decapitated pea plants rapidly stopped outgrowth, in contrast to applying N-1-naphthylphthalamic acid (NPA), an auxin transport inhibitor, which significantly slowed growth only after several days. Whereas strigolactone or NPA applied to growing buds reduced bud length, only NPA blocked auxin transport in the bud. Wild-type and strigolactone biosynthesis mutant pea and Arabidopsis shoots were capable of instantly transporting additional amounts of auxin in excess of endogenous levels, contrary to predictions of auxin transport models. These data suggest that strigolactone does not act primarily by affecting auxin transport from buds. Rather, the primary repressor of bud outgrowth appears to be the auxindependent production of strigolactones.

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Section: Strigolactone Completely Represses Bud Outgrowth After Decapmentioning

confidence: 99%

Section: Strigolactone Reduces Branching In Auxin Response Increased mentioning

confidence: 99%

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confidence: 97%

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Strigolactone Acts Downstream of Auxin to Regulate Bud Outgrowth in Pea and Arabidopsis

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“…Auxin application was also shown to promote the expression of strigolactone synthesis genes in plant stems (Foo et al 2005;Hayward et al 2009), suggesting that auxin should reduce adventitious rooting. However, auxin-induced strigolactone signaling is not the key process regulating adventitious rooting, because both auxin and strigolactone mutants respond to strigolactone and auxin treatments, respectively (Rasmussen et al 2012).…”

Section: Strigolactones Inhibit Adventitious Root Formationmentioning

confidence: 99%

Strigolactones fine-tune the root system

Rasmussen

Depuydt

Goormachtig

et al. 2013

Planta

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Strigolactones were originally discovered to be involved in parasitic weed germination, in mycorrhizal association and in the control of shoot architecture. Despite their clear role in rhizosphere signaling, comparatively less attention has been given to the belowground function of strigolactones on plant development. However, research has revealed that strigolactones play a key role in the regulation of the root system including adventitious roots, primary root length, lateral roots, root hairs and nodulation. Here, we review the recent progress regarding strigolactone regulation of the root system and the antagonism and interplay with other hormones

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Inflorescence Architecture– Moving Beyond Description to Development, Genes and Evolution

Singer¹

Flowering and Its Manipulation

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The Branching Gene RAMOSUS1 Mediates Interactions among Two Novel Signals and Auxin in Pea

Cited by 252 publications

References 44 publications

Strigolactone Acts Downstream of Auxin to Regulate Bud Outgrowth in Pea and Arabidopsis

Strigolactone Acts Downstream of Auxin to Regulate Bud Outgrowth in Pea and Arabidopsis

Strigolactones fine-tune the root system

Inflorescence Architecture– Moving Beyond Description to Development, Genes and Evolution

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