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Literature DB >> 5779776

Molecular mechanisms of nerve excitation and conduction.

L Y Wei.

Abstract

Mesh：

Substances：
RNA

Year: 1969 PMID： 5779776 DOI： 10.1007/BF02478207

Source DB: PubMed Journal: Bull Math Biophys ISSN： 0007-4985

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16 in total

1. THE INITIAL HEAT PRODUCTION ASSOCIATED WITH THE NERVE IMPULSE IN CRUSTACEAN AND MAMMALIAN NON-MYELINATED NERVE FIBRES.

Authors: B C ABBOTT; J V HOWARTH; J M RITCHIE
Journal: J Physiol Date: 1965-05 Impact factor: 5.182

2. The effects of changes in internal ionic concentrations on the electrical properties of perfused giant axons.

Authors: P F BAKER; A L HODGKIN; T I SHAW
Journal: J Physiol Date: 1962-11 Impact factor: 5.182

3. A quantitative description of membrane current and its application to conduction and excitation in nerve.

Authors: A L HODGKIN; A F HUXLEY
Journal: J Physiol Date: 1952-08 Impact factor: 5.182

4. On the permeability change of stimulated nerve.

Authors: J F Danielli
Journal: J Physiol Date: 1941-08-11 Impact factor: 5.182

5. Electric dipole theory of chemical synaptic transmission.

Authors: L Y Wei
Journal: Biophys J Date: 1968-04 Impact factor: 4.033

6. Light scattering and birefringence changes during nerve activity.

Authors: L B Cohen; R D Keynes; B Hille
Journal: Nature Date: 1968-05-04 Impact factor: 49.962

7. Excitability of squid giant axons in the absence of univalent cations in the external medium.

Authors: I Tasaki; A Watanabe; I Singer
Journal: Proc Natl Acad Sci U S A Date: 1966-10 Impact factor: 11.205

8. Bi-ionic action potentials in squid giant axons internally perfused with sodium saltssalts.

Authors: A Watanabe; I Tasaki; L Lerman
Journal: Proc Natl Acad Sci U S A Date: 1967-12 Impact factor: 11.205

9. Excitation of internally perfused squid giant axons in sodium-free media.

Authors: I Tasaki; I Singer; A Watanabe
Journal: Proc Natl Acad Sci U S A Date: 1965-09 Impact factor: 11.205

10. POTENTIAL, IMPEDANCE, AND RECTIFICATION IN MEMBRANES.

Authors: D E Goldman
Journal: J Gen Physiol Date: 1943-09-20 Impact factor: 4.086

25 in total

1. Comparative evaluation of quantum theory of nerve excitation.

Authors: C Hodson; L Y Wei
Journal: Bull Math Biol Date: 1976 Impact factor: 1.758

2. Nerve excitations by the coupling of the dipoles and the membrane matrix.

Authors: C Y Lee
Journal: Bull Math Biol Date: 1976 Impact factor: 1.758

3. Quantum theory of nerve excitation.

Authors: L Y Wei
Journal: Bull Math Biophys Date: 1971-06

4. Semiconductor theory of ion transport in thin lipid membranes. I. Potential and field distributions.

Authors: L Y Wei; B Y Woo
Journal: Bull Math Biol Date: 1974-06 Impact factor: 1.758

5. Semiconductor theory of ion transport in thin lipid membranes. II. Surface recombination.

Authors: B Y Woo; L Y Wei
Journal: Bull Math Biol Date: 1974-06 Impact factor: 1.758

6. Electrically induced phase transitions via the dipole model in excitable membranes.

Authors: S P Almeida; J D Bond; T C Ward
Journal: Bull Math Biol Date: 1974-02 Impact factor: 1.758

7. Towards a physical understanding of physiological excitation as a cooperative specific adsorption phenomenon.

Authors: G Karreman
Journal: Bull Math Biol Date: 1973 Feb-Apr Impact factor: 1.758

8. A semiclassical theory for nerve excitation by a low intensity electromagnetic field.

Authors: R J Spiegel; W T Joines
Journal: Bull Math Biol Date: 1973 Nov-Dec Impact factor: 1.758

9. Comments on the dipole model and phase transitions in biological membranes.

Authors: M L Gupta
Journal: Biophys J Date: 1972-10 Impact factor: 4.033

10. The dipole model and phase transitions in biological membranes.

Authors: S P Almeida; J D Bond; T C Ward
Journal: Biophys J Date: 1971-12 Impact factor: 4.033