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W W Just O Leon G Werner 《Hoppe-Seyler's Zeitschrift für physiologische Chemie》1974,355(12):1565-1568
107.
Werner Ulbricht 《European biophysics journal : EBJ》1974,1(1):1-16
Ionic channels are discrete sites at which the passive movement of ions takes place during nervous excitation. Three types of channels are distinguished. 1. Leakage channels that are permanently open to various cations. 2. Na channels that open promptly on depolarization but slowly close again (inactivate) on sustained depolarization and that are predominantly permeable to Na+ ions. 3. K channels that on depolarization open after some delay but stay open and that are mainly passed by K+ ions. The selectivity sequence of the Na channels of the squid axon (or frog nerve) is as follows: Na+ ≈ Li+>(T1+)>NH+ 4?K+> Rb+, Cs+; that of K channels is: (T1+)>K+>Rb+>NH+ 4?Na+, Cs+, Na channels are selectively blocked by tetrodotoxin (TTX) or saxitoxin (STX), K channels by tetraethylammonium ions (TEA). Either channel type is reversibly blocked when one drug molecule binds to one site per channel, the equilibrium dissociation constant of these reactions being about 3×10?9 MTTX (or STX) and 4×10?4 M TEA, respectively. Because of their specificity and high affinity, TTX and STX are used to “titrate” the Na channels whose density appears to be of the order of 100/Μm2. The “gates” of the channels operate as a function of potential and time but independent of the permeating ion species. Drugs (e.g. veratridine) and enzymes (e.g. pronase, applied intraaxonally) cause profound changes in the gating function of the Na channels without influencing their selectivity. This points to separate structures for gating and ion discrimination. The latter is thought to be, in part, brought about by a “selectivity filter” of which detailed structural ideas exist. Recent experiments suggest that the gates of the Na channels are controlled by charged particles moving within the membrane under the influence of the electrical field. 相似文献
108.
Urs-Peter Roos 《Chromosoma》1973,40(1):43-82
Rat kangaroo (PtK2) cells were fixed and embedded in situ. Cells in mitosis were studied with the light microscope and thin sections examined with the electron microscope. Pericentriolar, osmiophilic material, rather than the centrioles, is probably involved in the formation of astral microtubules during prophase. Centriole migration occurs during prophase and early prometaphase. The nuclear envelope ruptures first in the vicinity of the asters. Nuclear pore complexes disintegrate as envelope fragments are dispersed to the periphery of the mitotic spindle. Microtubules invade the nucleus through gaps of the fragmented envelope. The number of microtubules and the degree of spindle organization increase during prometaphase and are maximal at metaphase. At this stage, chromosomes are aligned on the spindle equator, sister kinetochores facing opposite poles. Cytoplasmic organelles are excluded from the spindle. Prominent bundles of kinetochore microtubules converge towards the poles. Spindles in cold-treated cells consist almost exclusively of kinetochore tubules. Separating daughter chromosomes in early anaphase are connected by chromatin strands, possibly reflecting the rupturing of fibrous connections occasionally observed between sister chromatids in prometaphase. Breakdown of the spindle progresses from late anaphase to telophase, except for the stem bodies. Chromosomes decondense to form two masses. Nuclear envelope reconstruction, probably involving endoplasmic reticulum, begins on the lateral faces. Nuclear pores reappear on membrane segments in contact with chromatin. Microtubules are absent from reconstructed daughter nuclei.This report is to a large part based on a dissertation submitted by the author to the Graduate Council of the University of Florida in partial fulfillment of the requirements for the degree of Doctor of Philosophy. 相似文献
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Summary The expression of a newly transferred lacZ
+ gene in lacZ recipients carrying various mutations in the recA and recB genes was studied by measuring the rates of induced synthesis of -galactosidase in zygotes formed after mating with either F or Hfr donors. The ability to synthesize -galactosidase decreases with time in both recA and recB zygotes when the lacZ
+ gene is transferred from an Hfr donor, but not when the lacZ gene is transferred from an F donor. There is no such inactivation of the newly transferred lacZ
+ gene in Rec+ zygotes. We conclude that the functioning of the transferred DNA is progressively inactivated in rec recipients unless the DNA is contained in an episome such as F. 相似文献