Gas exchange in leaves of the root hemiparasitemelampyrum arvense L. before and after attachment to the host plant

Gas exchange characteristics of a hemiparasiteMelampyrum arvense L. before and after attachment to the hostCapsella bursa pastoris (L.) Med. were compared. The net photosynthetic rates (P_N) on a leaf area basis were extremely low and in comparison to the value obtained for the host were about 15 % and 23 % for the unattached and attached hemiparasite, respectively. Also the concentration of photosynthetic pigments was low (as compared with the host the content of chlorophylls was about 33 % and 49 % and of carotenoids about 38 % and 36 % in the unattached and attached hemiparasite, respectively). On the other hand the rates of respiration were high (about 1.8 and 2.6 times higher in the unattached and attached hemiparasite, respectively, than in the host). In darkness stomatal conductance (g_S) of the host and the unattached hemiparasite was rapidly reduced to 10 % of the value obtained in light, g_S of the attached hemiparasite was decreased only by about 30%. A total reduction of g_S occurred at relative water content (RWC) of 85 %, 75% and 45 % for the unattached hemiparasite, the host, and the attached hemiparasite, respectively. The transpiration (E) rate in the preparasitic stage was very low, being 2.6 and 4.5 times smaller than in the host and the attached hemiparasite, respectively. In the attached hemiparasite WUE was 7.5 and 3 times poorer than in the host and in the preparasitic stage, respectively.     

Cytokinins in the hemiparasiteMelampyrum arvense L. before and after attachment to the host

Concentration of cytokinins (CKs) of zeatin-type (Z) and isopentyladenine-type (iP) were determined using an enzyme-linked immunosorbent assay (ELISA) technique in xylem sap and bulk leaf extract of the hemiparasiteMelampyrum arvense before and after attachment to the host (Capsella bursa pastoris). In all the samples Z-type were dominant, though the iP-type was also frequent. The results also demonstrate that in comparison with the unattached hemiparasite after attachment to the host the concentration of Z-type in xylem sap increased about 92 and 182 times in the light and dark phase, respectively, and that of the iP-type about 34 times in the two phases. The concentration of Z-type and iP-type in leaves expressed per dm³ of cell water was at the level of 10^-7 M and 10^-8 M, respectively in the unattached hemiparasite. After attachment, the concentration of CKs increased to 10^-5 M and 10^-6 M for Z-type and iP-type, respectively. In xylem sap the concentration of Z-type was at the level of 10^-9 M and 10^-7 M and in the unattached and attached hemiparasite, respectively. The concentrations of iP-type were 10^-10 M and 10^-8 M for the unattached and attached hemiparasite, respectively. The diurnal oscillation of CK concentration was evident in the unattached hemiparasite, but after attachment their level was nearly constant and independent of the diurnal cycle.     

Thidiazuron influences the endogenous levels of cytokinins and IAA during the flowering of isolated shoots of Dendrobium

This study reports the effects of thidiazuron (TDZ) on the endogenous levels of indoleacetic acid (IAA), zeatin, zeatin riboside ([9R]Z), isopentenyladenine and isopentenyladenosine ([9R]iP) as well as structural changes in the apical meristem of Dendrobium Second Love shoots during flower induction and initial development in vitro. The results revealed that the presence of 1.8microM TDZ had a profound effect on the endogenous cytokinins (CKs) and IAA levels of the explants, when compared to those grown on a TDZ-free medium. A significant increase in CKs (especially [9R]iP and [9R]Z) and IAA in the first samples (taken at day 5) grown on TDZ-enriched medium was associated with flower induction, while a second increase in the level of these hormones after 25d of culture was related to flower development. The histological changes detected in the shoot apical meristem of explants grown in the presence of 1.8microM TDZ during 30d of culture are also described. Based on these findings, it is suggested that both auxin and CKs seem to be involved with the floral transition of Dendrobium Second Love in vitro. However, a possible direct effect of TDZ on flower formation is not discarded.     

Patterns of cytokinins and leaf gas exchange among canopy layers of a mature sugar maple (<Emphasis Type="Italic">Acer saccharum</Emphasis>) stand

Leaf cytokinins (CKs) were profiled within four locations throughout the inner and outer layers of a mature sugar maple (Acer saccharum) canopy. Leaf CK was associated with leaf gas exchange activity and some corresponding microclimate variables. Both inner and outer layers in the upper canopy had higher concentrations of leaf CKs than the lower canopy layers and the difference was comprised primarily by riboside forms of CK. Transpiration (E) showed a similar pattern to leaf CK content, with significantly higher rates in the upper canopy. There was, however, no clear pattern discernable in stomatal conductance (gs), other than it tended to be higher in the outer canopy layers. The upper/outer canopy showed a significantly different environment than all other canopy positions with higher photosynthetically active radiation (PAR), ultra-violet light (UV-B) and leaf temperature. Simple linear regression analysis showed that the nucleotide CK group (including iPNT, cis- and trans-[9RMP]Z, [9RMP]DZ) was positively related to PAR. Exogenous applications of benzylaminopurine (BAP), showed that low concentrations of BAP reduced E and g _s, and indicated that CK may help regulate stomatal aperture. The similar patterns in E and CK content suggest that CKs and leaf gas exchange are functionally connected.     

A hormonal misunderstanding in Acca sellowiana embryogenesis: levels of zygotic embryogenesis do not match those of somatic embryogenesis

Endogenous levels of IAA, ABA and four types of CKs were analyzed in zygotic and indirect (ISE) and direct somatic embryogenesis of Acca sellowiana. Zygotic and somatic embryos at different developmental stages were sampled for morphological and hormonal analysis. Both embryo types showed substantial asymmetry in hormone levels. Zygotic embryos displayed a conspicuous peak of IAA in early developmental stages. The results outlined the hormonal variations occurring during zygotic and somatic embryogenesis regarding the timing, nature and hormonal status involved in both processes. The short transient pulse of IAA observed on the 3rd day in culture was suggested to be involved with the signaling for the induction of somatic embryogenesis. Fertilized ovule development was associated with increased IAA levels 21?C24?days after pollination, followed by a sharp decrease in the cotyledonary stage, both in zygotic and somatic embryos. There was a prominent increase in ABA levels in cultures which generated ISE 24?C30?days after pollination, a period that corresponds to the heart and torpedo stages. The levels of total CKs (Z, [9R]Z, iP and [9R]iP) were also always higher in zygotic than in somatic embryogenesis. While zygotic embryogenesis was dominated by the presence of zeatin, the somatic process, contrarily, was characterized by a large variation of the other cytokinin forms and amounts studied. The above results, when taken together, could be related to the previously observed high frequency formation of anomalous somatic embryos formed in A. sellowiana, as well as to their low germination ability.     

A reassessment of the intervention of calmodulin in the regulation of stomatal movement

Commelina cammunis L., a monocotyledonous plant whose stomata are highly sensitive to calcium ions, was used to study calmodulin (CaM) involvement in stomatal movements. CaM was detected and quantified in guard cell and mesophyll cell protoplasts by western blot and by ⁴⁵Ca²⁺-overlays. CaM was found to be 3- to 7-fold more abundant on a per protein basis in guard cell than in mesophyll cell protoplasts. Numerous guard cell proteins that bind CaM in a Ca²⁺-dependent manner were detected by gold-labelled CaM overlays. Using bioassays with epidermal strips, different CaM-antagonists were found to induce a net stimulation of stomatal opening in darkness or under illumination (trifluoperazine > compound 48/80 ∼ fluphenazine > W7 > W5). As CaM is frequently involved in the regulation of phosphorylation processes, the effects of different inhibitors of protein kinases on stomatal movements were studied. In red plus blue light, a promotion of the stomatal aperture was observed in the nanomolar range with K252a and KT5926 and in the micromolar range with KT5720 ≫ ML7 ∼ ML9 ≫ H7 > KN62. Only the inhibitors with a high specificity for Ca²⁺-CaM dependent protein kinases (K252a, KT5926, ML7, ML9) triggered a stomatal opening in darkness and increased stomatal aperture in red plus blue light. Taken together, these data strongly suggest that a Ca²⁺- or a Ca²⁺-CaM-dependent protein kinase plays a central role in the calcium transduction pathway leading to the maintaining of stomatal closure.     

A reassessment of the intervention of calmodulin in the regulation of stomatal movement

Commelina cammunis L., a monocotyledonous plant whose stomata are highly sensitive to calcium ions, was used to study calmodulin (CaM) involvement in stomatal movements. CaM was detected and quantified in guard cell and mesophyll cell protoplasts by western blot and by ⁴⁵Ca²⁺-overlays. CaM was found to be 3- to 7-fold more abundant on a per protein basis in guard cell than in mesophyll cell protoplasts. Numerous guard cell proteins that bind CaM in a Ca²⁺-dependent manner were detected by gold-labelled CaM overlays. Using bioassays with epidermal strips, different CaM-antagonists were found to induce a net stimulation of stomatal opening in darkness or under illumination (trifluoperazine > compound 48/80 ≅ fluphenazine > W7 > W5). As CaM is frequently involved in the regulation of phosphorylation processes, the effects of different inhibitors of protein kinases on stomatal movements were studied. In red plus blue light, a promotion of the stomatal aperture was observed in the nanomolar range with K252a and KT5926 and in the micromolar range with KT5720 ≫ ML7 ≅ ML9 ≫ H7 > KN62. Only the inhibitors with a high specificity for Ca²⁺-CaM dependent protein kinases (K252a, KT5926, ML7, ML9) triggered a stomatal opening in darkness and increased stomatal aperture in red plus blue light. Taken together, these data strongly suggest that a Ca²⁺- or a Ca²⁺-CaM-dependent protein kinase plays a central role in the calcium transduction pathway leading to the maintaining of stomatal closure.     

Zinc Requirement for Stomatal Opening in Cauliflower

Zn deficiency induced increases in epicuticular wax deposits, lamina thickness, degree of succulence, water saturation deficit, diffusive resistance, and proline accumulation and decreases in carbonic anhydrase activity, water potential, stomatal aperture, and transpiration in the leaves of cauliflower (Brassica oleracea L. var botrytis cv Pusa) plants. Restoration of Zn supply to the deficient plants increased stomatal aperture, transpiration, and carbonic anhydrase activity significantly within 2 h. However, leaf water potential in the Zn-deficient plants did not recover within 24 h after resupply of Zn. The guard cells in epidermal peels from the Zn-deficient leaves had less K+ than those from the controls. Stomatal aperture in the epidermal peels from Zn-deficient leaves was 64% less than in the controls when the epidermal strips were floated on 125 mM KCl. Supplementing the ambient medium 25 mM KCl with ZnCl2 enhanced stomatal aperture in both control and Zn-deficient peels, and the effect was significant in the latter. The observations indicate involvement of Zn in stomatal opening, possibly as a constituent of carbonic anhydrase needed for maintaining adequate [HCO3-] in the guard cells, and also as a factor affecting K+ uptake by the guard cells.     

An evaluation of the role of cytokinins in the development of abnormal inflorescences in oil palms (Elaeis guineensis Jacq.) regenerated from tissue culture

Tissue cultures and regenerant plants from cell lines producing palms with normal and abnormal flowers were analyzed for cytokinin content and compared with zygotic embryos and seedlings. Immature inflorescences at the critical stage of flower development dissected from normal and abnormal palms were also analyzed. High performance liquid chromatography (HPLC)/radioimmunoassay and HPLC/enzyme-linked immunosorbent assay methods were used over a period of several years to measure the isoprenoid cytokinins. The results of analyses of endogenous aromatic cytokinins, present at comparable levels, will be reported separately. Oil palm cultures and regenerant plants contained relatively high concentrations of the 9-glucosides of isopentenyladenine ([9G]iP) and zeatin ([9G]Z). The predominant biologically active isoprenoid cytokinin present was zeatin riboside ([9R]Z), with lesser amounts of isopentenyladenine (iP) and isopentenyladenosine ([9R]iP). There was evidence of small amounts of dihydrozeatin compounds, but high concentrations (mainly as dihydrozeatin-9-glucoside ([9G]DHZ)) were confined to the haustorium of the zygotic embryo. Callus tissue contained very low concentrations of cytokinin. Frequently only [9G]iP could be detected, at about 1 pmol · g^-1 fresh weight, with [9R]Z at less than 0.05 pmol · g^-1. In comparison, nodular embryogenic tissues in vitro contained between 30 and 1,500 pmol · g^-1 of [9G]iP, 5–50 pmol · g^-1 of [9G]Z, and up to 12 pmol · g^-1 of [9R]Z. Shoots of regenerant plantlets and seedlings contained lower concentrations of [9G]iP (3–30 pmol · g^-1), although this was still the predominant cytokinin. [9R]Z and [9G]Z were present at between 2 and 15 pmol · g^-1, with iP at 1–5 pmol · g^-1 and [9R]iP at between 1 and 12 pmol · g^-1. Seedlings contained similar amounts with the exception of a lower [9G]iP content (5–10 pmol · g^-1) and more [9R]iP (10–20 pmol · g^-1). Root tissues of ramets contained significantly higher concentrations of [9G]iP than shoots. Comparison of two isogenic lines of one clone giving rise to normal and abnormal palms showed significantly higher concentrations of [9R]Z and [9G]Z in the normal than in the abnormal line and, in embryoids only, higher [9G]iP in the normal line. In all other cases the between-done differences were greater than any normal/abnormal differences. There was a general tendency for increased concentrations of [9G]iP in abnormal lines and for this compound to be in a higher concentration in embryoids and plants derived from culture than in zygotic embryos and seedlings. Analysis of cytokinins in immature female inflorescences of normal and abnormal palms of a single clone showed the abnormal inflorescences to have higher concentrations of [9R]Z and [9R]DHZ and less [9G]Z than the normal inflorescences at comparable stages of development.Abbreviations HPLC high performance liquid chromatography - [9G]iP 9-glucoside of isopentenyladenine - [9G]Z 9-glucoside of zeatin - [9R]Z zeatin riboside - iP isopentenyladenine - [9R]iP isopentenyladenosine - [9G]DHZ dihydrozeation-9-glucoside - ELISA enzyme-linked radioimmunosorbentassay - ANOVAR analysis of variance     

Stomatal opening in isolated epidermis of Commelina benghalensis L. heterophasic response to KCl concentration

The pattern of stomatal opening in epidermal strips detached from leaves of Commelina benghalensis was examined. Two different phases could be distinguished in the stomatal response to KCl, one at low concentrations of KCl (up to 60 mM) and the other at high KCl concentrations (above 100 mM). The stomatal opening at low KCl concentrations was stimulated remarkably by light or fusicoccin and was suppressed by abscisic acid. At higher KCl concentrations, the stimulation by light or FC as well as the inhibition by ABA was limited. Both phases of stomatal response to KCl were sensitive to carbonyl cyanide-m-chlorophenyl hydrazone. The results suggest that illumination or FC favours selectively stomatal opening only at low KCl concentrations. The ionic participation in the stomatal opening is similar to the heterophasic uptake of ions by plant cells/roots.Abbreviations FC fusicoccin - ABA abscisic acid - CCCP carbonyl cyanide-m-chlorophenyl hydrazone     

Plant growth regulators as putative physiological markers of developmental stage in Prunus persica

Prunus persica plants of different ages and statesof maturation were analysed to compare their phytohormonal status. Endogenouslevels of indole-3-acetic acid (IAA), abscisic acid (ABA), and severalcytokinins (Cks): zeatin (Z), zeatin riboside ([9R]Z), dihydrozeatin ((diH)Z),dihydrozeatin riboside ((diH)Z[9R]), isopentenyl adenine (iP) and isopentenyladenosine ([9R]iP), were measured in order to determine their possible use asphysiological indices of phase change and maturation. A decrease in Ck levels(Z, [9R]Z, (diH)Z, (diH)[9R]Z, and iP, [9RiP) was found from the embryonic tojuvenile stage as well as a decrease in the ratio of iP-type (iP and[9R]iP)/Z-type Cks paralleling the increase in tree age. ABA levels increasedduring maturation in Prunus persica and the ratio ofCks/IAA decreased with tree age. From our results, we propose that the balancesof Cks/IAA and iP-type/Z-type Cks are good indices of different developmentalstates in Prunus persica.     

Blue light inhibits stomatal development in soybean isolines containing kaempferol-3-O-2G-glycosyl-gentiobioside (K9), a unique flavonoid glycoside

Stomata have a fundamental role in controlling plant photosynthesis and transpiration, but very little is known about factors controlling stomatal differentiation and development. Lines of soybean that contain a specific flavonol glycoside, kaempferol‐3‐O‐2‐glycosyl‐gentiobioside (K9), as well as greatly reduced stomatal density, especially on the adaxial epidermis, have been identified. The specific effects of blue light photoreceptors on stomatal development in K9 lines and their isoline pairs containing no K9 were studied. Low irradiances of blue light (7% of total photosynthetically active radiation) added to high irradiances from low‐pressure sodium lamps strongly inhibited stomatal development on the adaxial epidermis of K9 lines, but not in isoline pairs differing putatively in only one gene and lacking K9. Overall, blue light slightly increased stomatal density on the abaxial epidermis in all isolines, demonstrating differential regulation of stomatal development in the upper and lower epidermis. Blue light also caused an increase in leaf area in all isolines, indicating that changes in stomatal density were not the non‐specific result of alterations in leaf area. Morphological studies revealed that the blue light‐induced reduction in stomatal density in K9 lines was due to reduced stomatal initiation as well as aborted or abnormal stomatal development. As the phytochrome photostationary state was kept constant, the results indicate that one or more blue light receptors are involved in the control of stomatal development. This system should be useful for the study of mechanisms controlling stomatal development, even if the photo‐inhibitory response is unique to K9 lines.     

The stomata of the fern Adiantum capillus-veneris do not respond to CO2 in the dark and open by photosynthesis in guard cells

The stomata of the fern Adiantum capillus-veneris lack a blue light-specific opening response but open in response to red light. We investigated this light response of Adiantum stomata and found that the light wavelength dependence of stomatal opening matched that of photosynthesis. The simultaneous application of red (2 micromol m(-2) s(-1)) and far-red (50 micromol m(-2) s(-1)) light synergistically induced stomatal opening, but application of only one of these wavelengths was ineffective. Adiantum stomata did not respond to CO2 in the dark; the stomata neither opened under a low intercellular CO2 concentration nor closed under high intercellular CO2 concentration. Stomata in Arabidopsis (Arabidopsis thaliana), which were used as a control, showed clear sensitivity to CO2. In Adiantum, stomatal conductance showed much higher light sensitivity when the light was applied to the lower leaf surface, where stomata exist, than when it was applied to the upper surface. This suggests that guard cells likely sensed the light required for stomatal opening. In the epidermal fragments, red light induced both stomatal opening and K+ accumulation in guard cells, and both of these responses were inhibited by a photosynthetic inhibitor, 3-(3,4-dichlorophenyl)-1,1-dimethylurea. The stomatal opening was completely inhibited by CsCl, a K+ channel blocker. In intact fern leaves, red light-induced stomatal opening was also suppressed by 3-(3,4-dichlorophenyl)-1,1-dimethylurea. These results indicate that Adiantum stomata lack sensitivity to CO2 in the dark and that stomatal opening is driven by photosynthetic electron transport in guard cell chloroplasts, probably via K+ uptake.     

Stomatal Opening in Isolated Epidermal Strips of Vicia faba. II. Responses to KCl Concentration and the Role of Potassium Absorption

The stimulation by KCl of stomatal opening in isolated epidermal strips of Vicia faba was examined. In dark + normal air the opening response was maximal at 100 mm KCl while in light + CO₂-free air it was maximal at about 10 mm KCl. CO₂-free air was more influential than light in reducing the KCl concentration required for maximal opening. K⁺ was essential while Cl⁻ seemed to be of secondary importance in these processes.     

Ca2+ channel ligand sensitive responses to the phorbol ester 12-O-tetradecanoylphorbol 13-acetate in vascular smooth muscle

The action of a tumor-promoting phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA), on isolated rat aortic and tail artery strips has been characterized. TPA (10(-9)-10(-7) M) produced a graded contraction developing maximum tension over 30-40 min. The contraction was irreversible and was not relaxed by prolonged washing with physiologic saline. Relaxation occurred upon washing with Ca2+-free saline but readdition of Ca2+ restored response. TPA was without significant effect in rat tail arteries in physiologic saline but produced responses in saline containing elevated K+ (15 mM). The protein kinase C inhibitor, CP-46,665-1 (4-aminomethyl-1-[2,3-(di-n-decyloxy)n-propyl]-4-phenylpiperidine dihydrochloride) (5 X 10(-5) M), blocked the response to TPA but was without effect on responses to Bay K 8644 (2,6-dimethyl-3-carbomethoxy-5-nitro-4-(2-trifluoromethylphenyl) 1,4-dihydropyridine), KCl, phenylephrine, and B-HT 920 (6-allyl-2-amino-5,6,7,8-tetrahydro-4H-thiazolo[4,5-d]azepin dihydrochloride). The calcium channel antagonist nifedipine and its analogue, 2,6-dimethyl-3,5-dicarbomethoxy-4-(3-cyanophenyl)-1,4-dihydr opyridine, inhibited TPA responses with IC50 values of 9.28 X 10(-9) and 1.96 X 10(-7) M, respectively. Responses to Bay K 8644 in rat aorta were maximum in the presence of elevated KCl (10 mM), but TPA at concentrations of 10(-9) and 3 X 10(-9) M potentiated responses to Bay K 8644 in physiologic saline to levels approximating those in elevated K+ saline. TPA similarly potentiated responses to Ca2+ in Ca2+-free solution.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sugar Concentrations in Guard Cells of Vicia faba Illuminated with Red or Blue Light : Analysis by High Performance Liquid Chromatography

Concentrations of soluble sugars in guard cells in detached, sonicated epidermis from Vicia faba leaves were analyzed quantitatively by high performance liquid chromatography to determine the extent to which sugars could contribute to changes in the osmotic potentials of guard cells during stomatal opening. Stomata were illuminated over a period of 4 hours with saturating levels of red or blue light, or a combination of red and blue light. When stomata were irradiated for 3 hours with red light (50 micromoles per square meter per second) in a solution of 5 millimolar KCl and 0.1 millimolar CaCl₂, stomatal apertures increased a net maximum of 6.7 micrometers and the concentration of total soluble sugar was 289 femtomoles per guard cell (70% sucrose, 30% fructose). In an identical solution, 2.5 hours of irradiation with 25 micromoles per square meter per second of blue light caused a maximum net increase of 7.1 micrometers in stomatal aperture and the total soluble sugar concentration was 550 femtomoles per guard cell (91% sucrose, 9% fructose). Illumination with blue light at 25 micromoles per square meter per second in a solution lacking KCl caused a maximum net increase in stomatal aperture of 3.5 micrometers and the sugar concentration was 382 femtomoles per guard cell (82% sucrose, 18% fructose). In dual beam experiments, stomata irradiated with 50 micromoles per square meter per second of red light opened steadily with a concomitant increase in sugar production. Addition of 25 micromoles per square meter per second of blue light caused a further net gain of 3.7 micrometers in stomatal aperture and, after 2 hours, sugar concentrations had increased by an additional 138 femtomoles per guard cell. Experiments with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) were performed with epidermis illuminated with 50 micromoles per square meter per second of red light or with 25 micromoles per square meter per second of blue light in solutions containing or lacking KCl. DCMU completely inhibited sugar production under red light, had no effect on guard cell sugar production under blue light when KCl was present, and inhibited sugar production by about 50% when guard cells were illuminated with blue light in solutions lacking KCl. We conclude that soluble sugars can contribute significantly to the osmoregulation of guard cells in detached leaf epidermis of V. faba. These results are consistent with the operation of two different sugar-producing pathways in guard cells: a photosynthetic carbon reduction pathway and a pathway of blue light-induced starch degradation.     

Sugar and Organic Acid Accumulation in Guard Cells of Vicia faba in Response to Red and Blue Light

Changes in neutral sugar and organic acid content of guard cells were quantitated by high-performance liquid chromatography during stomatal opening in different light qualities. Sonicated Vicia faba epidermal peels were irradiated with 10 [mu]mol m-2 s-1 of blue light, a fluence rate insufficient for the activation of guard cell photosynthesis, or 125 [mu]mol m-2 s-1 of red light, in the presence of 1 mM KCl, 0.1 mM CaCl2. The low-fluence-rate blue light stimulated an average net stomatal opening of 4.7 [mu]m in 2 h, whereas the saturating fluence rate of red light stimulated an average net opening of 3.8 [mu]m in 2 h. Under blue light, the malate content of guard cells increased to 173% of the initial level during the first 30 min of opening and declined as opening continued. Sucrose levels continuously rose throughout the blue light-stimulated opening, reaching 215% of the initial level after 2 h. The starch hydrolysis products maltose and maltotriose remained elevated at all times. Under red light, guard cells showed very little increase in organic acid or maltose levels, whereas sucrose levels increased to 208% of the initial level after 2 h. Total measured organic metabolite concentrations were correlated with stomatal apertures in all cases except where substantial malate increases occurred. These results support the hypothesis that light quality modulates alternative mechanisms of osmotic accumulation in guard cells, including potassium uptake, photosynthetic sugar production, and starch breakdown.     

Role of Ca and EGTA on Stomatal Movements in Commelina communis L

Ca²⁺ (0.1-1.0 millimolar) accelerated dark-induced stomatal closure and reduced stomatal apertures in the light in epidermal peels of Commelina communis L. In contrast, ethyleneglycol-bis-(β-aminoethyl ether) N,N′tetraacetic acid (EGTA) (2 millimolar), a Ca²⁺ chelator, prevented closure in the dark and accelerated opening in the light. EGTA did not promote significant opening in the dark. It is therefore concluded that EGTA does not increase ion uptake into guard cells, but rather prevents ion efflux. Addition of EGTA to incubating solutions with 10 millimolar KCl resulted in steady state apertures of 15.6 micrometers, whereas in the absence of EGTA similar apertures required 55 millimolar KCl and 150 millimolar KCl was needed in the presence of 1 millimolar CaCl₂. The results demonstrate the importance of Ca²⁺ in the regulation of stomatal closure and point to a role of Ca²⁺ in the regulation of K⁺ efflux from stomatal guard cells.     

Abscisic acid content in the root hemiparasiteMelampyrum arvense L. before and after attachment to the host plant

The content of abscisic acid (ABA) in abaxial leaf epidermis of the host (Capsella bursa pastoris) and the unattached hemiparasiteMelampyrum arvense showed diurnal changes. ABA content increased during the light period and declined rapidly upon the darkening of leaves. In an attached hemiparasite the content of ABA in the epidermis was maintained at an almost constant level irrespective of the diurnal cycle. As compared with the maximum level in the host, at the end of the light phase the content of ABA in abaxial epidermis constituted about 70 % and 164 % in the unattached and attached hemiparasite, respectively. No significant changes in ABA content were recorded in adaxial epidermis. In all the samples abaxial/adaxial epidermis ABA content ratio was about 3.6:1 in light phase. In darkness this ratio decreased to about 1.1:1 in the host and the unattached hemiparasite and did not show significant change after attachment. ABA content ratio in mesophyll was 1:0.7:1.5 for the host, the unattached, and attached hemiparasite, respectively. In comparison with the host the concentration of ABA in xylem sap of the hemiparasite constituted about 31 % and 152 % for the unattached and attachedM. arvense, respectively.     

Effect of ouabain on stomatal movements and transpiration rate of Secale cereale

Young rye seedlings (Secale cereale cv. Petkus) were grown for 12 or 18 din aerated nutrient solution. CO2-free air in light or in darkness induced stomatal opening. When light and CO2-free air were applied together, maximum stomatal opening was observed. Na+ channel inhibitor [3H]ouabain was taken up from nutrient medium and translocated into the leaves via the xylem sap. The presence of 10-5 M ouabain in the root medium for 20 h increased stomatal opening and transpiration rate. On the other hand, stomatal closing was not affected by the presence of ouabain. These results suggested that Na+ might play a role in stomatal movements. This revised version was published online in July 2006 with corrections to the Cover Date.