Calcium-stimulated myofibrillar ATPase activity correlates with shortening velocity of muscle fibres in Xenopus laevis

Summary The iliofibularis muscle ofXenopus laevis is reported to contain five types of fibres which have different force—velocity relationships. Ten fibres of each type were selected on the basis of succinate dehydrogenase activity, cross-sectional area and location in the muscle, in order to assess the validity of the fibre type classification.Maximum calcium-stimulated myofibrillar ATPase activity (V _max) and apparent Michaelis constant (K _m) for ATP were determined for these 50 fibres from serial sections. The values obtained varied according to the type of fibre. Type 1 had the highest and type 5 the lowest values forK _m andV _max.In a separate experiment, single freeze-dried fibres were used to determine the relationship between their ATP content and apparentK _m for ATP. There was a tendency for high ATP concentrations in fibres with highK _m values.When myofibrillar ATPase activity was related to the maximum velocity of shortening of the five fibre types, a significant correlation was found. It is concluded that calcium-stimulated myofibrillar ATPase histochemistry allows an estimate of the maximum shortening velocity of muscle fibres fromXenopus laevis.     

Morphogenesis of the dorsal pigmentary pattern in wild-type and mutant Rana pipiens

The transition from larval to adult pigmentary patterns during metamorphosis of wild-type. burnsi, and kandiyohi R. pipiens is described. Larval fusiform epidermal melanocytes form a pattern that exactly corresponds to the adult spotting pattern. It is concluded that the larval epidermal pattern expresses a “prepattern” in the larval tissue for the adult pattern. This “prepattern” is visible in kandiyohi, but not in burnsi, tadpoles. The role of the extracellular environment in pigmentary pattern determination is discussed. Gradual changes in all chromatophore densities accompany larval development, while abrupt changes accompany metamorphic climax. There is a net increase in all chromatophore densities by the completion of metamorphosis. Kandiyohi density changes differ quantitatively but not qualitatively from those of wild type. In both wild type and kandiyohi, differentiation of many new dermal melanophores in presumptive spot regions effects expression of the adult spotting pattern. The relative roles of chromatophore differentiation and mitosis in pattern expression, and the hormonal control thereof, are discussed.     

Measurement of profiles of potassium activity and electrical potential in the intact root

Summary Profiles of potassium activity and electrical potential in the vacuoles of cells across the intact root of Helianthus annuus have been measured. No gradient in either potassium activity or potential difference was detected from epidermis to pericycle. The trans-root electrical potential was found to be made up of two components, a large P.D. between the outside solution and the outer cells and a small P.D. at the pericycle-xylem interface. The results indicated that all the living cells of the root have the same capacity to actively accumulate potassium.