2014
DOI: 10.3389/fpls.2014.00373
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Unraveling plant hormone signaling through the use of small molecules

Abstract: Plants have acquired the capacity to grow continuously and adjust their morphology in response to endogenous and external signals, leading to a high architectural plasticity. The dynamic and differential distribution of phytohormones is an essential factor in these developmental changes. Phytohormone perception is a fast but complex process modulating specific developmental reprogramming. In recent years, chemical genomics or the use of small molecules to modulate target protein function has emerged as a power… Show more

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Cited by 61 publications
(39 citation statements)
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References 167 publications
(260 reference statements)
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“…Chemical genetics is a powerful alternative strategy that employs small molecules as probes to dissect biological processes (Dejonghe and Russinova, 2014;Rigal et al, 2014). These small chemicals can be applied to any tissue and anytime in the life cycle, with appropriate concentrations of chemicals, to knock down a targeted protein.…”
Section: Introductionmentioning
confidence: 99%
“…Chemical genetics is a powerful alternative strategy that employs small molecules as probes to dissect biological processes (Dejonghe and Russinova, 2014;Rigal et al, 2014). These small chemicals can be applied to any tissue and anytime in the life cycle, with appropriate concentrations of chemicals, to knock down a targeted protein.…”
Section: Introductionmentioning
confidence: 99%
“…Our study thus brings us a step closer to a better quantitative understanding of the TIR1-AUX/IAA interaction system of auxin perception in a tissue-specific manner. Besides IAA, several other phytohormones including jasmonate-isoleucine, gibberellin, brassinosteroids and abscisic acid (ABA), also function by modulating the protein-protein interactions of their co-receptors (67). Isolation of novel molecules modulating the interactions of coreceptor complexes could therefore also be useful in uncovering the signaling components of these phytohormones.…”
Section: Discussionmentioning
confidence: 99%
“…To reach this aim, they introduced a NBD fluorophore moiety into 5-hydroxy-IAA and 7-hydroxy-NAA on the ground that alkoxy substitution on that position did not affect their transport through AUX1, PIN, and ABCBs auxin transporters but rendered the analogues inactive at auxin receptors ( Figure 8) (Tsuda et al, 2011). Indeed, several anti-auxin molecules have been developed by inserting bulky groups on the alpha carbon of IAA: such compounds bind with TIR1 receptors as natural IAA but prevent the interaction with co-receptors Aux/IAA required to induce bioactivity (Rigal et al, 2014). Interestingly, loss of bioactivity which is usually seen as an adverse consequence of fluorophore binding is here a specific requirement of the designed conjugate.…”
Section: Auxinmentioning
confidence: 97%