Calcium Inhibits Ion-Stimulated Stomatal Opening in Epidermal Strips of Commelina communis L.

Inoue, H. and Katoh, Y. 1987. Calcium inhibitsion-stimulatedstomatal opening in epidermal strips of Commelina communis L.—J.exp. Bot. 38: 142–149. Ca²⁺ suppressed both the ion-stimulated stomatal opening andH⁺ extrusion of pre-illuminated epidermal strips isolated fromCommelina communis L. In the absence of Ca²⁺, the rate of H⁺release was 18 nmol H⁺ cm^–2 h^–1 per epidermal stripunit area in 150 mol m^–3 KCL at pH 7?4. Half-maximum inhibitionof stomatal opening was observed with 220 mmol m^–3 ofCa²⁺. The hexavalent dye, ruthenium red, showed concentration-dependentprevention of the inhibition by Ca²⁺ of the ion-stimulated stomatalopening. The effect of ruthenium red was non-competitive, andthe K₁ for the calcium inhibition was found to be 3?6 mmol m^–3.The calcium inhibition of H⁺ extrusion was also prevented byruthenium red. These results suggest that Ca²⁺ inhibits theactivity of electrogenic H⁺ translocating ATPase of the guardcell plasma membrane and leads to the suppression of stomatalopening. Key words: Calcium, Commelina communis, ruthenium red, stomata     

Electron flow from hydrogen peroxide in photosystem II-catalyzed oxidation-reduction reactions of spinach chloroplast fragments

Oxidation-reduction reactions of photosystem II were investigatedin spinach chloroplast fragments. Chloroplast fragments treatedwith 8-hydroxyquinoline sulfate showed only a low activity forthe 2,6-dichlorophenolindophenol (DPIP) Hill reaction, as wasobserved in chloroplast fragments treated with a high-concentrationof Tris buffer. Hydrogen peroxide could donate electrons tophotoreaction center II in chloroplast fragments treated with8-hydroxyquinoline, high-concentration Tris, or ethylene glycol,but water could not serve as an electron donor in these preparations.Electrons from hydrogen peroxide were transferred to DPIP, ferricyanide,and p-benzoquinone viaphotosystem II. (Received May 12, 1971; )     

CHLOROPHYLL-SENSITIZED REDUCTION OF PLASTOQUINONE BY ASCORBIC ACID AND QUENCHING OF CHLOROPHYLL-FLUORESCENCE BY PLASTOQUINONE

1. Photochemical reduction of plastoquinone by ascorbic acid inethanol was sensitized with some derivatives of chlorophyll.The order of effectiveness was as follows: allomerized chlorophylla > chlorophyllin a > chlorophyll a > chlorophyll b> pheophytin a.
2. Quenching of the fluorescence of chlorophylla by plastoquinonewas observed. The quenching constant calculatedwas 71 litreper mole.

¹Contribution No. 159 from the Department of Biology, Facultyof Science, Kyushu University. Supported in part by a grant-in-aidfor Fundamental Scientific Research from the Ministry of Education. ²Present address: Biological Laboratory, General Education Department,Kyushu University, Ropponmatsu, Fukuoka. ³Present address: Biological Institute, Daiichi College of PharmaceuticalSciences, Tamagawa-machi, Takamiya, Fukuoka.     

EFFECT OF LIPASE-DIGESTION ON PHOTOCHEMICAL ACTIVITIES OF ISOLATED CHLOROPLASTS

In order to elucidate the role of lipids in photosynthesis,chloroplasts were digested with lipase, and the effect of lipase-digestionon some photochemical activities was studied. The HILL reactionwas sensitive to the digestion, but chloroplasts having intactmembrane were somewhat resistant to the action of lipase. Theinactivation by lipase digestion seems to be due to the destructionof a component necessary for the Hill reaction to proceed. Thechloroplasts treated with lipase showed the following activities. (1) Active photooxidation of reduced cytochrome c and menadione. (2) Photooxidation of ascorbate, which was enhanced in the presenceof DPIP, and retarded in the absence of the dye. (3) NADP-photoreduction in the presence of the DPIP-ascorbatecouple, as the electron donor. These facts suggested that the site attacked with lipase wasresponsible for the photochemical oxygen evolution. The decrease in the fluorescence intensity of chlorophyll awas also observed during the digestion. ¹Present address : Biological Laboratory, General EducationDeparment, Kyushu University, Otsubo-machi, Fukuoka.     

The Genesis and Transmission of Epidermal Potentials of Newt Embryonic Cells in Vivo and in Vitro

The genesis and transmission of action potentials in epidermal cells of a newt ( Cynops pyrrhogaster ) embryo were investigated quantitatively in vivo during development and in vitro in the absence of nerve cells. Typical action potentials, composed of a fast spike followed by a slow action potential, can be recorded from any of the epidermal cells from Stage 24/25 to 35/36. The potential is graded with current intensity, and only the slow component induces transmission to other epidermal cells. The fast spike is found in all epidermal cells from Stage 24/25 to Stage 50; it is abolished by Stage 52. The slow potential disappears at Stage 38 just before or after hatching. The cultured epithelioid explants (epithelioid aggregate) and cultured monolayer cells taken from the presumptive epidermal tissue of the ectoderm of the pregastrula, indicate that sequential changes in the genesis of the dual action potentials are similar to those of the intact embryo. In monolayer cell culture devoid of nerve cells, the epidermal cells, also generate a two-step action potential. Such two-step potentials are characteristic of both ciliated and non-ciliated epidermal cells and occur even during mitotic activity. In contrast, cultured neural plate cells isolated from the neurula generate typical spike-like action potentials.     

Brood ball size but not egg size correlates with maternal size in a dung beetle,Onthophagus atripennis

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