The AUXIN BINDING PROTEIN 1 Is Required for Differential Auxin Responses Mediating Root Growth

Tromas, Alexandre; Braun, Nils; Muller, Philippe; Khodus, Tatyana; Paponov, Ivan A.; Palme, Klaus; Ljung, Karin; Lee, Ji‐Young; Benfey, Philip N.; Murray, James A. H.; Scheres, Ben; Perrot‐Rechenmann, Catherine

doi:10.1371/journal.pone.0006648

Cited by 125 publications

(144 citation statements)

References 52 publications

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“…It is well established that 1-aminocyclopropane-1-carboxylic acid synthase is coded by a gene inducible through the auxin-TIR1/AFB pathway (Abel et al, 1995;Wang et al, 2005), and there is evidence harking back to the 1960s that auxin transport is regulated by auxin (Apfelbaum and Burg, 1972). Cross talk between the TIR1 pathway and independent pathways has recently been shown for the control of root elongation growth (Tromas et al, 2009). …”

Section: Auxin Sensitivity Auxin Uptake and Rapid Auxin-induced Growthmentioning

confidence: 99%

Rapid Auxin-Induced Cell Expansion and Gene Expression: A Four-Decade-Old Question Revisited

et al. 2010

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Section: Auxin Sensitivity Auxin Uptake and Rapid Auxin-induced Growthmentioning

confidence: 99%

Rapid Auxin-Induced Cell Expansion and Gene Expression: A Four-Decade-Old Question Revisited

et al. 2010

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“…6a-c); conversely it is similar to the phenotype of double wei8-1tar mutants that contain reduced auxin 31 . Second, no alteration of free IAA was measured in roots, within up to 2 days following ABP1 inactivation in the immune-modulated SS12K9 line 16 , whereas alterations of gene expression are observed within few hours in similar conditions. Third, as shown above (Fig.…”

mentioning

confidence: 94%

“…On the basis of the current model of auxindependent transcriptional regulation, an increased degradation of AUX/IAA repressors might result either from an increase in auxin content promoting interaction of TIR1/AFBs and AUX/ IAAs coreceptors, or from a modulation of AUX/IAA repressor half-life through differential interaction with TIR1/AFBs independently of the presence of auxin 28 . Several lines of evidence support that the inactivation of ABP1 does not result in an increase in auxin content that would be responsible for enhanced AUX/IAA degradation: first, the root phenotype of ABP1-inactivated plants with elongated cells 16 , reduced root hairs and few or no lateral roots is opposite to the root phenotype of plants with elevated auxin content or roots treated with exogenous auxin 29,30 ( Fig. 6a-c); conversely it is similar to the phenotype of double wei8-1tar mutants that contain reduced auxin 31 .…”

mentioning

confidence: 99%

“…Loss of function of ABP1 and postembryonic functional inactivation of the protein by inducible cellular immunization or antisense were demonstrated to provoke lethality and severe developmental defects at all stages of development [14][15][16] . At the cellular level, ABP1 was shown to be required for cell division 14,16,17 and also for cell expansion in shoot tissues [14][15][16]18 . Interestingly, ABP1 was also reported to be required for a tight regulation of a number of auxin response genes 16 , thus suggesting that ABP1 and TIR1/AFB-AUX/IAA collectively contribute to mediate auxin responses.…”

mentioning

confidence: 99%

“…At the cellular level, ABP1 was shown to be required for cell division 14,16,17 and also for cell expansion in shoot tissues [14][15][16]18 . Interestingly, ABP1 was also reported to be required for a tight regulation of a number of auxin response genes 16 , thus suggesting that ABP1 and TIR1/AFB-AUX/IAA collectively contribute to mediate auxin responses.…”

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Auxin-Binding Protein 1 is a negative regulator of the SCFTIR1/AFB pathway

et al. 2013

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Auxin is a major plant hormone that controls most aspects of plant growth and development. Auxin is perceived by two distinct classes of receptors: transport inhibitor response 1 (TIR1, or auxin-related F-box (AFB)) and auxin/indole-3-acetic acid (AUX/IAA) coreceptors, that control transcriptional responses to auxin, and the auxin-binding protein 1 (ABP1), that controls a wide variety of growth and developmental processes. To date, the mode of action of ABP1 is still poorly understood and its functional interaction with TIR1/AFB-AUX/IAA coreceptors remains elusive. Here we combine genetic and biochemical approaches to gain insight into the integration of these two pathways. We find that ABP1 is genetically upstream of TIR1/AFBs; ABP1 knockdown leads to an enhanced degradation of AUX/IAA repressors, independently of its effects on endocytosis, through the SCF TIR1/AFB E3 ubiquitin ligase pathway. Combining positive and negative regulation of SCF ubiquitin-dependent pathways might be a common mechanism conferring tight control of hormone-mediated responses.

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Molecular dynamics simulations of the auxin-binding protein 1 in complex with indole-3-acetic acid and naphthalen-1-acetic acid

Grandits

Oostenbrink

2014

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Auxin-binding protein 1 (ABP1) is suggested to be an auxin receptor which plays an important role in several processes in green plants. Maize ABP1 was simulated with the natural auxin indole-3-acetic acid (IAA) and the synthetic analog naphthalen-1-acetic acid (NAA), to elucidate the role of the KDEL sequence and the helix at the C-terminus. The KDEL sequence weakens the intermolecular interactions between the monomers but stabilizes the C-terminal helix. Conformational changes at the C-terminus occur within the KDEL sequence and are influenced by the binding of the simulated ligands. This observation helps to explain experimental findings on ABP1 interactions with antibodies that are modulated by the presence of auxin, and supports the hypothesis that ABP1 acts as an auxin receptor. Stable hydrogen bonds between the monomers are formed between Glu40 and Glu62, Arg10 and Thr97, Lys39, and Glu62 in all simulations. The amino acids Ile22, Leu25, Trp44, Pro55, Ile130, and Phe149 are located in the binding pocket and are involved in hydrophobic interactions with the ring system of the ligand. Trp151 is stably involved in a face to end interaction with the ligand. The calculated free energy of binding using the linear interaction energy approach showed a higher binding affinity for NAA as compared to IAA. Our simulations confirm the asymmetric behavior of the two monomers, the stronger interaction of NAA than IAA and offers insight into the possible mechanism of ABP1 as an auxin receptor.

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The AUXIN BINDING PROTEIN 1 Is Required for Differential Auxin Responses Mediating Root Growth

Cited by 125 publications

References 52 publications

Rapid Auxin-Induced Cell Expansion and Gene Expression: A Four-Decade-Old Question Revisited

Rapid Auxin-Induced Cell Expansion and Gene Expression: A Four-Decade-Old Question Revisited

Auxin-Binding Protein 1 is a negative regulator of the SCFTIR1/AFB pathway

Molecular dynamics simulations of the auxin-binding protein 1 in complex with indole-3-acetic acid and naphthalen-1-acetic acid

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