2015
DOI: 10.1105/tpc.114.133595
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The Yin-Yang of Hormones: Cytokinin and Auxin Interactions in Plant Development

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Cited by 492 publications
(399 citation statements)
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References 216 publications
(298 reference statements)
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“…Evidence accumulated in the past few years suggests that the distinct distribution of these two hormones plays pivotal roles in tissue patterning (Chandler and Werr, 2015;Schaller et al, 2015). For instance, in the vascular tissue of Arabidopsis roots, a central localized xylem axis bisects the intervening procambium cells and thus forms a bisymmetric structure (Nieminen et al, 2015;De Rybel et al, 2016).…”
Section: Mutually Exclusive Distribution Pattern Of Cytokinin and Auxmentioning
confidence: 99%
“…Evidence accumulated in the past few years suggests that the distinct distribution of these two hormones plays pivotal roles in tissue patterning (Chandler and Werr, 2015;Schaller et al, 2015). For instance, in the vascular tissue of Arabidopsis roots, a central localized xylem axis bisects the intervening procambium cells and thus forms a bisymmetric structure (Nieminen et al, 2015;De Rybel et al, 2016).…”
Section: Mutually Exclusive Distribution Pattern Of Cytokinin and Auxmentioning
confidence: 99%
“…As vasculature proliferation during de novo root formation associates to J0121-and WIND1-marked cells, requires auxin and cytokinin signaling and involves ALF4, we propose it is a type of callus, and therefore we refer to it as "endogenous callus" to differentiate it from callus obtained by exogenous hormone supplementation. In our model, time-dependent auxin accumulation in a subset of vascular cells activates proliferation, whereas cytokinins might regulate the expression of genes that are directly involved in callus formation (such as WIND1 or ALF4) or that are downstream targets of the auxin signal involved in callus formation (LATERAL ORGAN BOUNDARIES DOMAIN factors; Schaller et al, 2015). Particularly, we found that IAA18 and IAA28 are both involved in endogenous callus formation, although only mutations in IAA18 affect whole regeneration response, whereas ARABIDOPSIS HIS PHOSPHO-TRANSFER PROTEIN1 (AHP1) to AHP3 and ARABIDOPSIS RESPONSE REGULATOR1 (ARR1), ARR10, and ARR12 were involved in vasculature proliferation and regeneration response.…”
Section: Vasculature Proliferation and Endogenous Callus Formationmentioning
confidence: 99%
“…2007; Schaller et al. 2015). Interestingly, it has been previously suggested that the transport of auxin might be perturbed by weak electric fields (Morris 1980).…”
Section: Resultsmentioning
confidence: 99%