Four areas containing different cell morphologies were mapped on Porphyra blades and five different cell types (i.e. tapered with long extensions, large and vacuolated, vegetative and dividing, and reproductive: males and females) were identified in them. Tissues from these areas were dissociated, and protoplasts and single cells were isolated from the dissociated tissue of each distinct region. Regeneration rates of the isolated cells and protoplasts (isolates) varied depending on their morphological type. Regeneration rates were lowest in cultured isolates from the area just above the holdfast (ca. 1 %) and increased gradually to over 80% in isolates from areas of vegetative and reproductive regions away from the holdfast. Four distinct morphological patterns were observed among the regenerating plants. Cells isolated from vegetative areas developed into leafy plants while in liquid culture, and into calli when grown on solid medium. Isolates from reproductive areas developed into either a long thin or short thick filamentous plant. Those from ripe patches of carposporangia developed into thin conchocelis filaments, while isolates from non‐differentiated cells bordering the ripe reproductive patches developed into thick filaments resembling the morphology of conchosporangial branches. The blade of Porphyra appears simple as it consists of a single cell layer; however, it is complex both morphologically and physiologically.
The marine amoeba Trichosphaerium Am‐I‐7 was used as a tool for preparing unialgal axenic cultures of nondigestible Symbiodinium and Porphyridium species. The resistance of these unicellular algae to the amoebal digestive enzymes, and the differential digestion of bacteria, protozoans, and other algae, resulted in cleansed cells of Symbiodinium and Porphyridium that remained in the amoebal food vacuoles. During multiple fission, the amoeba evacuated its food vacuoles and released the trapped and intact algae, which were then successfully cultured. This method of cleaning was especially useful with algal species that were sensitive to antibiotics or other germicidal agents.
Lithium chloride facilitates the softening of cell walls resulting in a simple, quick (2 h) method for DNA extraction from the red seaweed Porphyra perforata J. Agardh. A 5‐min treatment of tissues in Lid at 55°C extracts DNA that is relatively free of the viscous polysaccharides and proteins that are usually coextracted in large amounts from cell walls and cytoplasm. This protocol does not require grinding of tissues, hydroxyapatite binding, cetyl trimethyl ammonium bromide treatments, enzymatic treatments, phenol extraction, or CsCl‐gradient centrifugation. The resulting DNA is of sufficient quality to be used as a template for polymerase chain reaction amplification.
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