Irina Staxén scite author profile

Oscillations in cytosolic free Ca Stomata form pores in the epidermis of the leaf that allow CO 2 uptake for photosynthesis and water loss via transpiration. During drought, the loss of water through transpiration is reduced in response to an increase in the levels of the plant hormone abscisic acid (ABA) in the leaves (1). ABA stimulates the efflux of K ϩ from the guard cells that surround the stomatal pore, resulting in a reduction in guard-cell turgor and a decrease in the width of the pore (2). An increase in cytosolic free Ca 2ϩ concentration ([Ca 2ϩ ] cyt ) has been shown to be an early event in the signal transduction pathway by which ABA stimulates a reduction in guard-cell turgor (3-8). In addition, components of Ca 2ϩ -based second messenger systems found in animals have been identified in guard cells (9). However, little is known about the process by which the information required to describe the strength of the ABA stimulus is encoded in ABA-induced changes in guard-cell [Ca 2ϩ ] cyt or the mechanism(s) by which these changes are generated.It has been proposed that oscillations in [Ca 2ϩ ] cyt have the potential to increase the amount of information encoded by changes in [Ca 2ϩ ] cyt in plant cells through the generation of a stimulus-specific Ca 2ϩ signature (9, 10). Studies in animals suggest that signaling information may be encoded in the period and͞or the amplitude of stimulus-induced oscillations in [Ca 2ϩ

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The control of specificity in guard cell signal transduction

Hetherington¹,

Gray

Leckie

et al. 1998

Phil. Trans. R. Soc. Lond. B

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Stomatal guard cells have proven to be an attractive system for dissecting the mechanisms of stimulusr esponse coupling in plants. In this review we focus on the intracellular signal transduction pathways by which extracellular signals bring about closure and opening of the stomatal pore. It is proposed that guard cell signal transduction pathways may be organized into functional arrays or signalling cassettes that contain elements common to a number of converging signalling pathways. The purpose of these signalling cassettes may be to funnel extracellular signals down onto the ion transporters that control the £uxes of ions that underlie stomatal movements. Evidence is emerging that speci¢city in guard cell signalling may be, in part, encoded in complex spatio-temporal patterns of increases in the concentration of cytosolic-free calcium ([Ca 2+ ] cyt ). It is suggested that oscillations in [Ca 2+ ] cyt may generate calcium signatures that encode information concerning the stimulus type and strength. New evidence is presented that suggests that these calcium signatures may integrate information when many stimuli are present.

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Effect of ultraviolet radiation on cell division and microtubule organization inPetunia hybrida protoplasts

1993

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A morphological and cytological study of Petunia hybrida exposed to UV-B radiation

Staxén¹,

Bornman²

1994

Physiol Plant

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A morphological and cytological study of Petunia hybrida exposed to UV‐B radiation

Staxén

Bornman

1994

Physiologia Plantarum

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The aim of this study was to investigate whether the cytoskeleton, and in particular the microtubular system, is affected by enhanced levels of ultraviolet‐B (280–320 nm, 9 kJ m−2 day−1 biologically effective UV‐B radiation) radiation in epidermal cells of Petunia x hybrida Vilm, isolated from leaves of plants grown under UV‐B radiation and visible light. In addition, morphological changes during development were monitored. In a previous study microtubules were depolymerized and delays in the different stages of the cell cycle were found when protoplasts of Petunia were irradiated with UV‐B radiation (Staxén et al. 1993. Protoplasma 173: 70–76). Thus it was of interest to ascertain whether the cytoskeleton would be similarly affected in an intact system. Assuming an effect of UV‐B radiation on the microtubular system, we wished to determine whether this could be correlated to concomitant changes in leaf morphology. Plants of Petunia hybrida were grown in greenhouse conditions in the presence or absence of UV‐B radiation. During the course of the experiment, samples were taken from young, expanding leaves and from older, fully expanded leaves and prepared for localization and analysis of microtubules from the adaxial epidermal cells. Morphology rather than the cytoskeleton was affected by UV radiation, despite the fact that the epidermal cytoskeleton would most likely be affected, since it is located in the cells which form the first intercepting layer for incident radiation. Morphological changes under UV‐B radiation, as compared to those under control conditions, were reflected in earlier flowering and an increase in leaf number. Cell division was thus stimulated as was also evidenced from the increased leaf area. Our results indicate that the number of stomata differentiated on a leaf area basis was not altered although the number of stomata per epidermal cell was reduced.

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Irina Staxén

Abscisic acid induces oscillations in guard-cell cytosolic free calcium that involve phosphoinositide-specific phospholipase C

The control of specificity in guard cell signal transduction

Effect of ultraviolet radiation on cell division and microtubule organization inPetunia hybrida protoplasts

A morphological and cytological study of Petunia hybrida exposed to UV-B radiation

A morphological and cytological study of Petunia hybrida exposed to UV‐B radiation

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