Faculty Bibliography

1. The reversal potential of the slow outward current in Purkinje fibres varies with [K](o) in accordance with the expected potassium equilibrium potential. It is concluded that virtually all of this current is carried by potassium ions.2. The magnitude of the current is determined by two separable factors. The first factor is directly proportional to a variable obeying first-order voltage-dependent kinetics of the Hodgkin-Huxley type but with extremely long time constants. The time constants of this variable are extremely sensitive to temperature and the Q(10) over the range 26-38 degrees C is 6.3. The second factor shows inward-going rectification with a marked negative slope in the current-voltage relation beyond about 25 mV positive to the K equilibrium potential. The current-voltage relations measured at different values of [K](o) cross each other on the outward current side of the equilibrium potential.4. The changes in slow potassium current during pace-maker activity have been calculated. It is shown that the mechanism of the pace-maker potential differs in several important respects from that described by Noble's (1962) model. The negative slope in the current-voltage relation appears to be an important factor in generating the last phase of pace-maker depolarization.5. The role of the slow potassium current during the action potential and the consequences of the high temperature dependence of the kinetics are discussed

Body muscle cells of the bloodworm Glycera, a polychaete annelid, were studied by electron microscopy and compared with muscle cells of the more slowly acting nematode Ascaris, which have been described previously. Both muscles are obliquely striated. The predominant type of bloodworm fiber is characterized by a prominent transversely oriented sarcoplasmic reticulum with numerous dyads at the surface of each cell. Thick myofilaments are approximately 3 micro long and overlap along approximately 60% of their length in extended fibers and approximately 80% in shortened fibers. There is virtually no endomysium and very little intracellular skeleton, and the cells are attached by desmosomes to one another rather than to connective tissue. Dense bodies are absent from the fibers and in their place are Z lines, which are truly linear rather than planar. Scattered among the predominant fibers are others, less orderly in arrangement, in which the SR is much less prominent and in which the thick filaments are thicker and longer and overlap to an even smaller degree. It is suggested that physiological differences between bloodworm and Ascaris muscles derive from differences in the proportion of series to parallel linkages between the contractile elements, differences in the amount and disposition of the SR, and differences in the impedance to shear within the myofibrils