Specific photoaffinity labeling of two plasma membrane polypeptides with an azido auxin

Hicks, Glenn R.; Rayle, David L.; Jones, Alan M.; Lomax, Terri L.

doi:10.1073/pnas.86.13.4948

Cited by 72 publications

(42 citation statements)

References 25 publications

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“…Although there is recent evidence for a binding protein at the plasmalemma (Barbier-Brygoo et al, 1989;Hicks et al, 1989) and involvement of phosphatidylinositol metabolites (Ettlinger & Lehle, 1988) for auxin responses, and for Ca^^ in an ABA response (Napier et al, 1989), no complete response chain via a second messenger has been elucidated for any phytohormone. Approaches have been initiated with ABA in order to elucidate the pathway back towards tbe receptor.…”

Section: (C) Nuclear Response : Gene Expressionmentioning

confidence: 99%

Mechanisms of action of abscisic acid at the cellular level

1991

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summary Abscisic acid (ABA) has been implicated in the control of a diverse range of physiological processes in higher plants. In this review, we focus on the events which constitute the cellular responses to ABA. Current evidence suggests that it is possible to classify the responses to ABA on the basis of whether they are rapid, involving ion fluxes (typified by the stomatal response), or slower and requiring alterations to gene expression (for example the response of cereal embryos to ABA). In our consideration of ABA stimulus response coupling pathways, we have chosen to highlight the role of the calcium ion in the rapid responses, while we have concentrated on the contribution of as‐acting elements and trans‐acting factors in the regulation of ABA‐responsive genes. We also draw attention to the possibility that interaction may exist between these pathways. Additionally, we discuss the controls of ABA concentrations during development and in response to environmental stimuli. Factors which contribute to the controls of ABA sensitivity are also reviewed. In our conclusions, we suggest that a general role for ABA may be to prepare tissue for entry into a new and different physiological state, perhaps by resetting the direction of cellular metabolism.

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Section: (C) Nuclear Response : Gene Expressionmentioning

confidence: 99%

Mechanisms of action of abscisic acid at the cellular level

1991

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“…Initial biochemical characterization using equilibrium auxin-binding assays as a guide for purification ofthese proteins was met with limited success due to technical difficulties. Photoactivatable auxin analogues, such as 5-azido-[7-3H]indole-3-acetic acid (5-azido-[7-3H]IAA), turned out to be valuable tools to identify auxin-binding proteins (3)(4)(5)(6)(7)(8)(9). Here we report the photoaffinity labeling of a 24-kDa polypeptide in PM vesicles of Arabidopsis thaliana.…”

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confidence: 99%

Photoaffinity labeling of Arabidopsis thaliana plasma membrane vesicles by 5-azido-[7-3H]indole-3-acetic acid: identification of a glutathione S-transferase.

Zettl¹,

Schell²,

Palme³

1994

Proc. Natl. Acad. Sci. U.S.A.

132

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We used 5-azido-[7-3Hjindole-3-acetic acid (5-azido-[7-3H]IAA), a photoaffinity analogue of the plant hormone indole-3-acetic acid (IAA), to search for auxinbinding proteins in Arabidopsis thaliana membranes. We identified an auxin-binding protein with a molecular mass of 24 kDa (Atpm24) in microsomes as well as in plasma membrane vesicles. Atpm24 was solubilized by 1% Triton X-100 and partially purified. A cDNA clone (Atpm24.1) corresponding to Atpm24 was isolated. The amino acid sequence predicted from the Atpm24.1 cDNA contains 212 amino acid residues with a relative molecular mass of 24,128 Da. Data base searches revealed that the predicted protein has homology to glutathione S-transferases (GSTs; EC 2.5.1.18). When Atpm24.1 was expressed in Escherichia coli, we found a high level of GST activity in the bacterial extracts. We have analyzed the substrate specificity of this protein and found that cumene hydroperoxide and trans-stilbene oxide but not trans-cinnamic acid or IAA-CoA were substrates. A role for this GST in physiological processes of plants is discussed.

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“…After the final centrifugation, PM vesicles were solubilized as described below or resuspended in a small volume of buffer 1 plus protease inhibitors, flash frozen in liquid Nz, and stored at -7OOC. Marker enzyme assays indicate that zucchini hypocotyl PMs prepared in this manner are >95% pure (Hicks et al, 1989). Protein concentrations were astimated using either the method of Schaffner and Weissmann (1973), which eliminates interference by detergents, or a kit from Bio-Rad based on the Bradford assay.…”

Section: Preparation Of Membrane Vesiclesmentioning

confidence: 99%

“…Microsomal pellets were resuspended in buffer 2 (5 m KPi [pH 7.81, 250 m SUC, 4 m KCl), flash frozen in liquid Nz, and stored at -7OOC until use. PM vesicles were prepared by aqueous two-phase (dextran/PEG) separation of microsomal membrane preparations from zucchini seedlings as described by Hicks et al (1989). Protease inhibitors were replenished after each centrifugation.…”

Section: Preparation Of Membrane Vesiclesmentioning

confidence: 99%