2011
DOI: 10.1104/pp.111.186783
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Antagonistic Action of Strigolactone and Cytokinin in Bud Outgrowth Control  

Abstract: Cytokinin (CK) has long been implicated as a promoter of bud outgrowth in plants, but exactly how this is achieved in coordination with other plant hormones is unclear. The recent discovery of strigolactones (SLs) as the long-sought branchinhibiting hormone allowed us to test how CK and SL coordinately regulate bud outgrowth in pea (Pisum sativum). We found that SL-deficient plants are more sensitive to stimulation of bud growth by low concentrations of locally applied CK than wildtype plants. Furthermore, in … Show more

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Cited by 390 publications
(420 citation statements)
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“…Together with auxin and cytokinin, the SLs and their derivatives mediate the remarkable plasticity of plant architecture that results from outgrowth of axillary branches Dun et al, 2012). In addition to having a hormonal role in plants, SLs stimulate development of arbuscular mycorrhizae and are essential for establishment of these symbioses in maize (Zea mays; GomezRoldan et al, 2007).…”
mentioning
confidence: 99%
“…Together with auxin and cytokinin, the SLs and their derivatives mediate the remarkable plasticity of plant architecture that results from outgrowth of axillary branches Dun et al, 2012). In addition to having a hormonal role in plants, SLs stimulate development of arbuscular mycorrhizae and are essential for establishment of these symbioses in maize (Zea mays; GomezRoldan et al, 2007).…”
mentioning
confidence: 99%
“…bud was treated with SL alone, it activated slightly earlier than untreated buds. This does not support a direct role for SL acting locally in the bud to inhibit growth (Brewer et al, 2009;Dun et al, 2012); rather, it argues for the auxin transport canalization model for the regulation of bud outgrowth and its modulation by SLs (Shinohara et al, 2013). Crawford et al (2010) proposed that SLs were acting to set the global context by which buds compete for auxin export into the main stem.…”
Section: Salix Spp Bud Response To Strigolactone and Auxinmentioning
confidence: 99%
“…This could be achieved by influencing the transcription of growth-regulating genes in the bud (Aguilar-Martínez et al, 2007;Brewer et al, 2009;Braun et al, 2012;Dun et al, 2012) and/or by modulating auxin transport properties, both locally and systemically, thereby affecting the ability of buds to establish auxin transport canalization into the main stem (Bennett et al, 2006;Lazar and Goodman, 2006;Lin et al, 2009;Prusinkiewicz et al, 2009;Crawford et al, 2010;Marhavý et al, 2011;Shinohara et al, 2013). Activation of buds will in turn affect the amount of auxin transported out into the main stem.…”
mentioning
confidence: 99%
“…This activity was shown by both computational model and experimental data, and it was correlated to the level of shoot branching observed in various mutant combinations and strigolactone treatments (Shinohara et al, 2013). In pea, strigolactones were shown to induce the expression of the budspecific target gene BRANCHED1, which encodes a transcription factor repressing bud outgrowth (Dun et al, 2012), and be an auxin-promoted secondary messenger (Brewer et al, 2009;Ferguson and Beveridge, 2009;Dun et al, 2012Dun et al, , 2013. Other activities of strigolactone include repression of adventitious root formation (Rasmussen et al, 2012) and plant height .…”
mentioning
confidence: 99%