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A method for isolating guard cell protoplasts (GCP) from mechanically prepared epidermis of Vicia faba is described. Epidermis was prepared by homogenizing leaves in a Waring blender in a solution of 10% Ficoll, 5 millimolar CaCl(2), and 0.1% polyvinylpyrrolidone 40 (PVP). Attached mesophyll and epidermal cells were removed by shaking epidermis in a solution of Cellulysin, mannitol, CaCl(2), PVP, and pepstatin A. Cleaned epidermis was transferred to a solution of mannitol, CaCl(2), PVP, pepstatin A, cellulase "Onozuka" RS, and pectolyase Y-23 for the isolation of GCP. Preparations made by this method included both adaxial and abaxial GCP and contained &lt;/=0.017% mesophyll protoplasts, &lt;/=0.6% mesophyll fragments, and no epidermal cell contaminants. Yields averaged 9 x 10(4) protoplasts/leaflet and 98 to 100% of the GCP excluded trypan blue, concentrated neutral red, and hydrolyzed fluorescein diacetate. Isolated GCP increased in diameter by 2.2 micrometers after incubation in darkness in 10 micromolar fusicoccin, 0.4 molar mannitol, 5 millimolar KCl, and 1 millimolar CaCl(2). Illumination of GCP with 800 micromoles per square meter per second of red light resulted in alkalinization of their suspension medium. When 10 micromolar per square meter per second of blue light was superimposed onto the red light background, the medium acidified. Measurements of chlorophyll a fast fluorescence transients from isolated GCP indicated that GCP were capable of electron transport, and slow transients contained the "M" peak usually associated with a functional photosynthetic carbon reduction pathway.

Isolation of Guard Cell Protoplasts from Mechanically Prepared Epidermis of Vicia faba Leaves