Fawzi A. Razem scite author profile

The phytohormone abscisic acid (ABA) regulates various physiological processes in plants. The molecular mechanisms by which this is achieved are not fully understood. Genetic approaches have characterized several downstream components of ABA signalling, but a receptor for ABA has remained elusive. Although studies indicate that several ABA response genes encode RNA-binding or RNA-processing proteins, none has been found to be functional in binding ABA. Here we show that FCA, an RNA-binding protein involved in flowering, binds ABA with high affinity in an interaction that is stereospecific and follows receptor kinetics. The interaction between FCA and ABA has molecular effects on downstream events in the autonomous floral pathway and, consequently, on the ability of the plant to undergo transition to flowering. We further show that ABA binding exerts a direct control on the FCA-mediated processing of precursor messenger RNA. Our results indicate that FCA is an ABA receptor involved in RNA metabolism and in controlling flowering time.

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The poly(phenolic) domain of potato suberin: a non-lignin cell wall bio-polymer

Bernards

2001

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Reactive oxygen species production in association with suberization: evidence for an NADPH-dependent oxidase

Razem¹,

Bernards²

2003

Journal of Experimental Botany

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In response to wounding, potato tubers generate reactive oxygen species (ROS) in association with suberization. Immediately following wounding, an initial burst of ROS occurs, reaching a maximum within 30 to 60 min. In addition to this initial oxidative burst, at least three other massive bursts occur at 42, 63 and 100 h post-wounding. These latter bursts are associated with wound healing and are probably involved in the oxidative cross-linking of suberin poly(phenolics). The source of ROS is likely to be a plasma membrane NADPH-dependent oxidase immunorelated to the human phagocyte plasma membrane oxidase. The initial oxidative burst does not appear to be dependent on new protein synthesis, but the subsequent bursts are associated with an increase in oxidase protein components. Oxidase activity is enhanced in vitro by hydroxycinnamic acids and conjugates associated with the wound healing response in potato.

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Turning on gibberellin and abscisic acid signaling

Razem

Baron

Hill

2006

Current Opinion in Plant Biology

126

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Oxidases, peroxidases and hydrogen peroxide: The suberin connection

Bernards

Summerhurst

Razem

2004

Phytochemistry Reviews

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Anatomical and ultrastructural changes of the floral nectary ofPisum sativum L. during flower development

Razem

Davis

1999

Protoplasma

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Summary. The floral nectary of Pisum sativum L. is situated on the receptacle at the base of the gynoecium. The gland receives phloem alone which departed the vascular bundles supplying the staminal column. Throughout the nectary, only the companion cells of the phloem exhibited wall ingrowths typical of transfer cells. Modified stomata on the nectary surface served as exits for nectar, but stomatal pores developed well before the commencement of secretion. Furthermore, stomatal pores on the nectary usually closed by occlusion, not by guard-cell movements. Pore occlusion was detected most frequently in post-secretory and secretory glands, and less commonly in pre-secretory nectaries. A quantitative stereological study revealed few changes in nectary fine structure between buds, flowers secreting nectar, and post-secretory flowers. Dissolution of abundant starch grains in plastids of subepidermal secretory cells when secretion commenced suggests that starch is a precursor of nectar carbohydrate production. Throughout nectary development, mitochondria were consistently the most plentiful organelle in both epidermal and subepidermal cells, and in addition to the relative paucity of dictyosomes, endoplasmic reticulum, and their associated vesicles, the evidence suggests that floral nectar secretion in P. sativum is an energy-requiring (eccrine) process, rather that granulocrine.

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Hydrogen Peroxide Is Required for Poly(phenolic) Domain Formation during Wound-Induced Suberization

Razem

Bernards

2002

J. Agric. Food Chem.

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The requirement for hydrogen peroxide (H(2)O(2)) during suberization was demonstrated in wound-induced potato tubers by monitoring the extent of phenolic polymerization after the inhibition of H(2)O(2) production using diphenyleneiodonium (DPI). In DPI-treated tissues the extent of phenolic polymerization in suberized tissues, measured using DFRC (Derivatization Followed by Reductive Cleavage) and thioglycolic acid analyses, was greatly reduced relative to untreated controls. Concomitantly, a large quantity of new soluble phenolics accumulated in the DPI-treated tissue some of which were not present in the controls. We suggest that the inhibition of H(2)O(2) production prevented these phenolics from being oxidized by cell wall peroxidases. As a result, these phenolics were left unpolymerized and accumulated in the tissue. Several of the soluble phenolics were identified as hydroxycinnamic acid derivatives. From the data presented, it was concluded that H(2)O(2) is required for the polymerization step in the formation of the poly(phenolic) domain of suberized potato tubers.

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Purification and Characterization of a Barley Aleurone Abscisic Acid-binding Protein

Razem

Luo

Liu

et al. 2004

Journal of Biological Chemistry

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A protein designated ABAP1 and encoded by a novel gene (GenBank TM accession number AF127388) was purified and shown to specifically bind abscisic acid (ABA). ABAP1 protein is a 472-amino acid polypeptide containing a WW protein interaction domain and is induced by ABA in barley aleurone layers. Polyclonal antiidiotypic antibodies (AB2) cross-reacted with purified ABAP1 and with a corresponding 52-kDa protein associated with membrane fractions of ABA-treated barley aleurones. ABAP1 genes were detected in diverse monocot and dicot species, including wheat, tobacco, alfalfa, garden pea, and oilseed rape. Our data show that ABAP1 exerts high binding affinity for ABA. The interaction is reversible, follows saturation kinetics, and has stereospecificity, thus meeting the criteria for an ABA-binding protein.

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Fawzi A. Razem

The RNA-binding protein FCA is an abscisic acid receptor

The poly(phenolic) domain of potato suberin: a non-lignin cell wall bio-polymer

Reactive oxygen species production in association with suberization: evidence for an NADPH-dependent oxidase

Turning on gibberellin and abscisic acid signaling

Oxidases, peroxidases and hydrogen peroxide: The suberin connection

Anatomical and ultrastructural changes of the floral nectary ofPisum sativum L. during flower development

Hydrogen Peroxide Is Required for Poly(phenolic) Domain Formation during Wound-Induced Suberization

Purification and Characterization of a Barley Aleurone Abscisic Acid-binding Protein

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