J. Murdoch Ritchie

J. Murdoch Ritchie's AcademicInfluence.com Rankings

J. Murdoch Ritchie

Physics

#3337

World Rank

#4767

Historical Rank

Biophysics

#95

World Rank

#102

Historical Rank

physics Degrees

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Physics

Why Is J. Murdoch Ritchie Influential?

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According to Wikipedia, Joseph Murdoch Ritchie was a Scottish born American biophysicist and a professor at Yale University. Early life and education Ritchie studied mathematics and physics at the University of Aberdeen, then did his doctorate at University College, London in biophysics in 1952.

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J. Murdoch Ritchie's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

The physiological cost of negative work (1952) (578)
A quantitative description of membrane currents in rabbit myelinated nerve. (1979) (526)
On the electrogenic sodium pump in mammalian non‐myelinated nerve fibres and its activation by various external cations (1968) (419)
Molecular dissection of the myelinated axon (1993) (345)
The binding of saxitoxin and tetrodotoxin to excitable tissue. (1977) (344)
Density of sodium channels in mammalian myelinated nerve fibers and nature of the axonal membrane under the myelin sheath. (1977) (323)
Potassium channels in nodal and internodal axonal membrane of mammalian myelinated fibres (1980) (260)
The hyperpolarization which follows activity in mammalian non‐medullated fibres (1957) (248)
The presence of voltage-gated sodium, potassium and chloride channels in rat cultured astrocytes (1985) (226)
Evidence for the presence of potassium channels in the paranodal region of acutely demyelinated mammalian single nerve fibres. (1981) (219)
The binding of labelled tetrodotoxin to non‐myelinated nerve fibres (1972) (186)
On the mode of action of local anesthetics. (1966) (185)
The dynamics of muscular contraction (1958) (181)
Neuronal-type Na+ and K+ channels in rabbit cultured Schwann cells (1984) (177)
The origin of the initial heat associated with a single impulse in mammalian non‐myelinated nerve fibres (1968) (172)
A new method for labelling saxitoxin and its binding to non‐myelinated fibres of the rabbit vagus, lobster walking leg, and garfish olfactory nerves. (1976) (169)
On the active structure of local anesthetics. (1965) (152)
On the relation between fibre diameter and conduction velocity in myelinated nerve fibres (1982) (140)
The movements of labelled ions in mammalian non‐myelinated nerve fibres. (1965) (135)
Non‐medullated fibres in the saphenous nerve which signal touch (1957) (134)
The effect of nitrate on the active state of muscle (1954) (134)
Voltage-dependent sodium and potassium channels in mammalian cultured Schwann cells. (1985) (133)
The binding of labelled saxitoxin to the sodium channels in nerve membranes (1973) (127)
The Action of Local Anesthetics on Ion Channels of Excitable Tissues (1987) (127)
High conductance anion-selective channels in rat cultured Schwann cells (1984) (125)
Evidence that tetrodotoxin and saxitoxin act at a metal cation binding site in the sodium channels of nerve membrane. (1974) (116)
The oxygen consumption of mammalian non‐myelinated nerve fibres at rest and during activity (1967) (116)
Mammalian nonmyelinated nerve fibers. (1962) (108)
Ion channels in schwann and glial cells (1985) (108)
On the physiological role of internodal potassium channels and the security of conduction in myelinated nerve fibres (1984) (107)
Sodium and potassium channels in regenerating and developing mammalian myelinated nerves (1982) (103)
Physiological Basis of Conduction in Myelinated Nerve Fibers (1977) (103)
The action of acetylcholine and some related substances on conduction in mammalian non‐myelinated nerve fibres (1961) (102)
The effect of adrenaline on the contraction of mammalian skeletal muscle (1952) (102)
Evidence for the presence of potassium channels in the internode of frog myelinated nerve fibres. (1982) (101)
Depressor reflexes from medullated and non‐medullated fibres in the rabbit's aortic nerve (1956) (101)
Voltage-gated ion channels in schwann cells and glia (1992) (98)
The action of acetylcholine on conduction in mammalian non‐myelinated fibres and its prevention by anticholinesterase (1960) (96)
The effect of the nerve sheath on the action of local anesthetics. (1965) (93)
A pharmacological approach to the structure of sodium channels in myelinated axons. (1979) (92)
A technique for recording functional activity in specific groups of medullated and non‐medullated fibres in whole nerve trunks (1957) (89)
A voltage-gated chloride conductance in rat cultured astrocytes (1986) (88)
The binding of tetrodotoxin to nerve membranes (1971) (86)
The effect of previous stimulation on the active state of muscle (1955) (82)
The excitatory action of acetylcholine on cutaneous non‐myelinated fibres (1960) (78)
Sodium currents in Schwann cells from myelinated and non‐myelinated nerves of neonatal and adult rabbits. (1990) (75)
The production and absorption of heat associated with electrical activity in nerve and electric organ (1985) (75)
Cloning of a sodium channel alpha subunit from rabbit Schwann cells. (1995) (71)
Cardiovascular reflexes produced by electrical excitation of non‐medullated afferents in the vagus, carotid sinus and aortic nerves (1956) (70)
The binding of tetrodotoxin and α‐bungarotoxin to normal and denervated mammalian muscle (1974) (69)
Effects of stretch on single myelinated nerve fibres (1954) (65)
On the control of glycogenolysis in mammalian nervous tissue by calcium (1971) (65)
A comparison of the effect of temperature, metabolic inhibitors and of ouabain on the electrogenic component of the sodium pump in mammalian non‐myelinated nerve fibres (1969) (65)
Sodium and potassium channels in demyelinated and remyelinated mammalian nerve (1981) (63)
On the active form of 4‐aminopyridine: block of K+ currents in rabbit Schwann cells. (1991) (61)
The after‐effects of repetitive stimulation on mammalian non‐medullated fibres (1956) (61)
The interaction at equilibrium between tetrodotoxin and mammalian non‐myelinated nerve fibres (1972) (59)
The relation between force and velocity of shortening in rat muscle (1954) (58)
Anomalous temperature dependence of the sodium conductance in rabbit nerve compared with frog nerve (1979) (56)
On excitation of non‐medullated afferent fibres in the vagus and aortic nerves by pharmacological agents (1957) (54)
A calcium -activated cation-selective channel in rat cultured Schwann cells (1984) (53)
On the permeability of mammalian non‐myelinated fibres to sodium and to lithium ions (1963) (53)
The binding of tritiated ouabain to mammalian non‐myelinated nerve fibres (1970) (53)
The heat production associated with the passage of a single impulse in pike olfactory nerve fibres. (1975) (49)
Extraneuronal saxitoxin binding sites in rabbit myelinated nerve. (1983) (49)
ON THE ROLE OF ACETYLCHOLINE IN CONDUCTION IN MAMMALIAN NON‐MYELINATED NERVE FIBERS * (1963) (48)
The effect of cooling on the size of the action potential of mammalian non‐medullated fibres (1956) (44)
The binding of labelled saxitoxin to the sodium channels in normal and denervated mammalian muscle, and in amphibian muscle. (1977) (44)
Sodium-channel turnover in rabbit cultured Schwann cells (1988) (43)
The onset of shortening in striated muscle (1951) (42)
The role of non‐myelinated fibres in signalling cooling of the skin (1960) (42)
A note on the mechanism of resistance to anoxia and ischaemia in pathophysiological mammalian myelinated nerve. (1985) (42)
The kinetics of the interaction between tetrodotoxin and mammalian nonmyelinated nerve fibers. (1972) (41)
Two types of 4‐aminopyridine‐sensitive potassium current in rabbit Schwann cells. (1993) (40)
The dependence on external cations of the oxygen consumption of mammalian non‐myelinated fibres at rest and during activity (1968) (39)
Early tension relaxation during a muscle twitch (1951) (39)
The duration of the plateau of full activity in frog muscle (1954) (38)
Multiple kinetic components of sodium channel inactivation in rabbit Schwann cells. (1992) (38)
Local Anesthetics: do benzocaine and lidocaine act at the same single site? (1978) (37)
Tetrodotoxin and saxitoxin, and the sodium channels of excitable tissue (1980) (36)
The action of quinine and quinidine on the contractions of striated muscle (1955) (33)
Energetic aspects of nerve conduction: the relationships between heat production, electrical activity and metabolism. (1973) (33)
The movement of potassium ions during electrical activity, and the kinetics of the recovery process, in the non‐myelinated fibres of the garfish olfactory nerve. (1975) (33)
Two types of potassium current in rabbit cultured Schwann cells (1988) (32)
The ionic content of mammalian non‐myelinated nerve fibres and its alteration as a result of electrical activity (1968) (31)
A study of the effect of the pattern of electrical stimulation of the aortic nerve on the reflex depressor responses (1956) (30)
The effect of surface charge on the nerve membrane on the action of tetrodotoxin and saxitoxin in frog myelinated nerve. (1975) (30)
On the frequency of firing of mammalian non‐medullated nerve fibres (1957) (27)
The ionic requirements for the action of acetylcholine on mammalian non‐myelinated fibres (1963) (26)
The initial heat production associated with the nerve impulse in crustacean and mammalian non‐myelinated nerve fibres (1965) (25)
The conduction of impulses through the superior cervical and accessory cervical ganglia of the rabbit (1956) (24)
Binding of tetrodotoxin and saxitoxin to sodium channels. (1975) (24)
Electrogenic Ion Pumping in Nervous Tissue (1971) (24)
Optical studies on the kinetics of the sodium pump in mammalian non‐myelinated nerve fibres (1971) (24)
Pathophysiology of Conduction in Demyelinated Nerve Fibers (1977) (23)
On the metabolic basis of nervous activity (1969) (23)
The active structure of local anesthetics. (1965) (22)
Oxygen consumption and phosphate efflux in mammalian non‐myelinated nerve fibres. (1980) (22)
The effect of some cations on the active state of muscle (1956) (22)
The action of capsaicin on type I delayed rectifier K+ currents in rabbit Schwann cells (1994) (21)
Phosphate efflux and oxygen consumption in small non‐myelinated nerve fibres at rest and during activity (1979) (20)
Ion channels in rabbit cultured fibroblasts (1986) (20)
The initial heat production in garfish olfactory nerve fibres (1979) (19)
Sodium channels in the axolemma of normal and degenerating rabbit optic nerve (1984) (19)
Mechanism of action of local anaesthetic agents and biotoxins. (1975) (19)
Characteristics of type I and type II K+ channels in rabbit cultured Schwann cells. (1996) (18)
Observations on the mechanism for the active extrusion of lithium in mammalian non‐myelinated nerve fibres. (1980) (17)
On the block of outward potassium current in rabbit Schwann cells by internal sodium ions (1992) (16)
Loose patch clamp recording of ionic currents in demyelinated frog nerve fibers (1985) (16)
Δ9-Tetrahydrocannabinol: Effects on Mammalian Nonmyelinated Nerve Fibers (1973) (15)
Distribution of sodium and potassium channels in mammalian myelinated nerve. (1981) (15)
Optical recording of action potential propagation in demyelinated frog nerve. (1987) (15)
Action potential conduction and sodium channel content in the optic nerve of the myelin-deficient rat (1993) (15)
Voltage-gated cation and anion channels in mammalian Schwann cells and astrocytes. (1987) (13)
Distribution of Saxitoxin‐binding Sites in Mammalian Neural Tissue (1986) (13)
Metabolism and Function in Nerve Fibers (1971) (13)
The effect of some quanternary ammonium compounds and local anaesthetics on the electrogenic component of the sodium pump in mammalian non-myelinated nerve fibres. (1969) (12)
THE ACTION OF ACETYLCHOLINE AND RELATED DRUGS ON MAMMALIAN NON-MYELINATED NERVE FIBRES (1965) (12)
Increase in efflux of inorganic phosphate during electrical activity in small non‐myelinated nerve fibres. (1978) (12)
Metabolic Turnover in the Nervous System (1971) (11)
Characterization of exchange-labeled saxitoxin and the origin of linear uptake by excitable tissue. (1977) (11)
VIP-containing neurons in the cerebral cortex: cellular actions and interactions with the noradrenergic system (1986) (9)
The recovery heat production in non‐myelinated garfish olfactory nerve fibres. (1979) (8)
The binding of labelled tetrodotoxin and cobra toxin by the rat diaphragm. (1973) (8)
The binding of tetrodotoxin and alpha-bungarotoxin to normal and denervated mammalian muscle. (1974) (7)
On the binding of iabelled saxitoxin to the squid giant axon (1984) (7)
Discharges in non-medullated afferent fibres in the cat's saphenous nerve in response to touch and to drugs. (1957) (6)
Proceedings: Binding to nerve and muscle of saxitoxin labelled by a new method of tritium exchange. (1976) (6)
Ionic and gating currents in mammalian myelinated nerve. (1981) (6)
Sodium channels in muscle and nerve (1979) (6)
Effects of Electromagnetic Radiation on Calcium in the Brain. (1982) (5)
The effect of delta9-tetrahydrocannabinol on the activation of sodium conductance in node of Ranvier. (1978) (5)
Binding of radioactively labeled saxitoxin to the squid giant axon (1979) (5)
The binding of labelled saxitoxin to normal and denervated muscle [proceedings]. (1976) (5)
Sodium channels in the cytoplasm of Schwann cells. (1990) (5)
An Overview of the Mechanisms of Local Anesthetic Action Past, Present, and Future (1986) (4)
The oxygen consumption of mammalian non-myelinated nerve fibres. (1966) (3)
The heat production of mammalian non-myelinated (C) nerve fibers. (1966) (3)
The binding of tritium-labelled tetrodotoxin to non-myelinated nerve. (1972) (2)
The binding of labelled saxitoxin to mammalian non-myelinated nerve fibres. (1973) (2)
The density of sodium pumping sites in mammlian non-myelinated nerve fibres. (1969) (1)
Ion channels in neural membranes : proceedings of the 11th International Conference on Biological Membranes held at Crans-sur-Sierre, Switzerland, June 10-14, 1985 (1986) (1)
Distribution and Functional Significance of Sodium and Potassium Channels in Normal and Acutely Demyelinated Mammalian Myelinated Nerve (1982) (1)
Recording work done at the Plymouth Laboratory (1952) (1)
Effects of metabolic inhibitors, potassium and lithium ions on the post-tetanic hyperpolarization in mammalian non-medullated fibres. (1957) (1)
The initial heat production of amphibian myelinated nerve fibres. (1970) (1)
Increase in phosphate efflux during activity in small nonmyelinated nerve fibres [proceedings]. (1977) (0)
Evidence ThatTetrodotoxin andSaxitoxin ActataMetalCation Binding Site intheSodiumChannels ofNerveMembrane (solubilized membrane/receptors/surface charge) (1974) (0)
Oxygen consumption and phosphate efflux in mammalian non-myelinated nerve fibres [proceedings]. (1979) (0)
The Neurobiology of Disease: Ion channels in normal and pathophysiological mammalian peripheral myelinated nerve (1996) (0)
Voltage-gated Sodium, Potassium and Chloride Channels in Rat Cultured Astrocytes (1986) (0)
Control of membrane function : short-term and long-term : proceedings of the 13th International Conference on Biological Membranes held at Crans-sur-Sierre, Switzerland, June 19-22, 1989 (1990) (0)
Recording work done at the Plymouth Laboratory (1952) (0)
BINDING OF LABELED TETRODOTOXIN AND COBRA TOXIN BY RAT DIAPHRAGM (1973) (0)
Phosphate efflux and oxygen consumption during electrical activity in garfish olfactory nerve fibres [proceedings]. (1978) (0)
Release of vasoactive intestinal peptide (VIP) in mouse neocortex: Ca2+-channels subtypes and involvement of arachidonic acid metabolites (1990) (0)
Proceedings: Tetrodotoxin binding to innervated and denervated rat diaphragm homogenates. (1974) (0)
Action of adrenaline on some mechanical properties of mammalian muscle (1952) (0)

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