Effect of sodium hexanitrocobaltate (III) decomposition on its staining of intracellular potassium ions.

D B Green, S M Dodge, J R Lee, G Tallman
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引用次数: 19

Abstract

The effect was examined of the chemical decomposition of the potassium stain sodium hexanitrocobaltate (III) (SHC), on its ability to produce stain granules of consistent size that could be used to estimate the K+ contents of stomatal guard cells. Stomata in detached epidermis from leaves of Vicia faba (fava bean) were stimulated to accumulate K+ by treating them with fusicoccin. Stomatal apertures and the fraction of guard cell area covered by K+ precipitate granules (K+ score) were measured by digitizing photographic enlargements, and K+ scores were correlated with the age of stain that had been stored either in open or closed containers. The ability of stain aged in open containers to produce consistent fractional cell coverage was compared to 1) the ability of identically treated stain to precipitate K+ from solutions of KCI, and to 2) the kinetics of decomposition of SHC. It was found that the fractional coverage of guard cells of stomata opened to the same apertures decreased with a first order rate constant of 2.3 x 10(-5)/sec. The mass of precipitate formed by treatment of KCl solutions was unchanged for 2 hr after initial preparation of the SHC, and decreased thereafter with a first order rate constant of 1.0 x 10(-5)/sec. When stored in tightly sealed containers, nearly 100 hr were required for an occasionally opened bottle of SHC to decay to the same efficacy as a solution left open to the air for 8 hr.

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六硝基钴酸钠(III)分解对细胞内钾离子染色的影响。
研究了六硝基钴酸钠(SHC)的化学分解对其产生一致大小的染色颗粒的影响,这些染色颗粒可用于估计气孔保护细胞的K+含量。用梭菌素刺激蚕豆叶片离体表皮气孔积累K+。通过数字化照片放大测量气孔孔径和K+沉淀颗粒覆盖的保护细胞面积(K+分数),K+分数与在开放或封闭容器中保存的染色年龄相关。将在开放容器中陈化的染色液产生一致的细胞覆盖率的能力与1)经过相同处理的染色液从KCI溶液中沉淀K+的能力以及2)SHC分解动力学进行了比较。结果表明,气孔向相同孔径开放时,气孔保护细胞的覆盖率以2.3 × 10(-5)/sec的一级速率常数下降。在初始制备SHC后,KCl溶液处理形成的沉淀质量在2小时内保持不变,随后以1.0 × 10(-5)/秒的一级速率常数减少。当储存在密封的容器中时,偶尔打开一瓶SHC需要近100小时才能达到与在空气中打开8小时的溶液相同的功效。
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Effect of sodium hexanitrocobaltate (III) decomposition on its staining of intracellular potassium ions. A modified mallory-cason staining procedure for large cryosections. A simple procedure to visualize osmicated storage lipids in semithin epoxy sections of plant tissues. Standard specimens for stain calibration: application to Romanowsky-Giemsa staining. Localization of plant lipids for light microscopy using p-phenylenediamine in tissues of Arachis hypogaea L.
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