Nachmansohn D (2000)
On the physiological significance of choline esterase. 1939
Yale J Biol Med 73: 241

Nachmansohn D (1977)
Nerve excitability: transition from descriptive phenomenology to chemical analysis of mechanisms
Klin Wochenschr 55: 715

Nachmansohn D (1976)
Transduction of chemical into electrical energy
Proceedings of the National Academy of Sciences of the United States of America 73: 82

Neumann E, Nachmansohn D (1975)
Nerve excitability--toward an integrating concept
Biomembranes 7: 99

Nachmansohn D, Neumann E (1974)
Properties and function of proteins in excitable membranes: an integral model of nerve excitability
Annals of the New York Academy of Sciences 227: 275

Neumann E, Nachmansohn D, Katchalsky A (1973)
An attempt at an integral interpretation of nerve excitability
Proc Natl Acad Sci U S A 70: 727

Nachmansohn D (1972)
Biochemistry as part of my life
Annual Review of Biochemistry 41: 1

Nachmansohn D (1971)
Chemical events in conducting and synaptic membranes during electrical activity
Proc Natl Acad Sci U S A 68: 3170

Hoskin FC, Nachmansohn D (1970)
Proteins in excitable membranes
Science 170: 1228

Nachmansohn D (1970)
Proteins in excitable membranes: their properties and function in bioelectricity are discussed
Science 168: 1059

Bartels E, Nachmansohn D (1969)
Organophosphate inhibitors of acetylcholine-receptor and -esterase tested on the electroplax
Archives of Biochemistry & Biophysics 133: 1

Deal WJ, Erlanger BF, Nachmansohn D (1969)
Photoregulation of biological activity by photochromic reagents. 3. Photoregulation of bioelectricity by acetylcholine receptor inhibitors
Proc Natl Acad Sci U S A 64: 1230

Nachmansohn D (1969)
Proteins of excitable membranes
Journal of General Physiology 54: 187

Nachmansohn D (1968)
Proteins in bioelectricity: the control of ion movements across excitable membranes
Proc Natl Acad Sci U S A 61: 1034

Nachmansohn D (1968)
Proteins in bioelectrogenesis: the control of ion movements in excitable membranes
Science 160: 440

Nachmansohn D (1967)
[Excitable membrane. Macromolecules bound together in bioelectrogenesis]
Bulletin de la societe de chimie biologique (Paris) 49: 1177

Nachmansohn D (1967)
Chemical control of excitable membranes during electrical activity
Protoplasma 63: 295

Nachmansohn D (1966)
Chemical control of the permeability cycle in excitable membranes during electrical activity
Annals of the New York Academy of Sciences 137: 877

Nachmansohn D (1966)
Role of acetylcholine in neuromuscular transmission
Annals of the New York Academy of Sciences 135: 136

Podleski TR, Nachmansohn D (1966)
Similarities between active sites of acetylcholine receptor and acetylcholinesterase tested with quinolinium ions
Proc Natl Acad Sci U S A 56: 1034

Rosenberg P, Mautner HG, Nachmansohn D (1966)
Similarity of effects of oxygen, sulfur, and selenium isologs on the acetylcholine receptor in excitable membranes of junctions and axons
Proc Natl Acad Sci U S A 55: 835

Bartels E, Nachmansohn D (1965)
Molecular structure determining the action of local anesthetics on the acetylcholine receptor
Biochemische Zeitschrift 342: 359

Brzin M, Dettbarn WD, Rosenberg P, Nachmansohn D (1965)
Cholinesterase activity per unit surface area of conducting membranes
Journal of Cell Biology 26: 353

Greenberg H, Nachmansohn D (1965)
Studies of Acid Phosphomonoesterases and Their Inhibition by Diisopropylphosphorofluoridate
Journal of Biological Chemistry 240: 1639

Nachmansohn D (1965)
Chemical control of the permeability cycle in excitable membranes during activity
Israel Journal of Medical Sciences 1: 1201

Davis FA, Nachmansohn D (1964)
Acetylcholine Formation in Lobster Sensory Axons
Biochimica & Biophysica Acta 88: 384

Dettbarn WD, Rosenberg P, Nachmansohn D (1964)
Restoration by a Specific Chemical Reaction of Irreversibly Blocked Axonal Electrical Activity
Life Sciences 3: 55

Nachmansohn D (1964)
Chemical Control of Bioelectric Currents in Membranes of Conducting Cells
J Mt Sinai Hosp N Y 31: 580

Nachmansohn D (1964)
Israel Spanier Wechsler (1886-1962)
J Mt Sinai Hosp N Y 31: 549

Nachmansohn D (1963)
The Chemical Basis of Claude Bernard's Observations on Curare
Biochemische Zeitschrift 338: 454

Nachmansohn D (1963)
[Chemical factors controlling ion movements during nervous activity.]
Bulletin de la societe de chimie biologique (Paris) 45: 29

Nachmansohn D (1963)
Choline Acetylase
Handbook of Experimental Pharmacology

Nachmansohn D (1963)
Actions on axons, and evidence for the role of acetylcholine in axonal conduction
Handbook of Experimental Pharmacology 15: 701

Greenberg H, Nachmansohn D (1962)
Isolation of serine phosphate from the active site of human prostatic acid phosphatase; inhibition of the enzyme by DFP
Biochemical & Biophysical Research Communications 7: 186

Nachmansohn D (1962)
Letter to the Editor
Science 136: 177

Nachmansohn D (1962)
Basic aspects of nerve activity explained by biochemical analysis
Jama 179: 639

Nachmansohn D (1961)
Chemical factors controlling nerve activity
Science 134: 1962

Dettbarn WD, Higman H, Rosenberg P, Nachmansohn D (1960)
Rapid and reversible block of electrical activity by powerful marine biotoxins
Science 132: 300

Hinterbuchner LP, Nachmansohn D (1960)
Electrical activity evoked by a specific chemical reaction
Biochimica & Biophysica Acta 44: 554

Longo VG, Nachmansohn D, Bovet D (1960)
[Electroencephalographic aspects of the antagonism between 2-pyridine aldoxime iodomethylate (PAM) and isopropyl methylfluorophosphate (sarin).]
Archives Internationales de Pharmacodynamie et de Therapie 123: 282

Nachmansohn D (1960)
Chemical and molecular forces underlying nerve activity
Arzneimittelforschung 10: 387

Rosenberg P, Higman H, Nachmansohn D (1960)
An improved isolated single electroplax preparation. I. Effect of compounds acting primarily at the synapses
Biochimica & Biophysica Acta 44: 151

Kewitz H, Nachmansohn D (1959)
A specific antidote against lethal alkyl phosphate intoxication. IV. Effects in brain
Archives of Biochemistry & Biophysics 66: 271

Nachmansohn D (1959)
Role of acetylcholine in axonal conduction and neuromuscular transmission
Am J Phys Med 38: 190

Nachmansohn D (1959)
Basic problems of drug action on the myoneural junction
Anesthesiology 20: 421

Dettbarn WD, Wilson IB, Nachmansohn D (1958)
Action of lipid-soluble quaternary ammonium ions on conducting membranes
Science 128: 1275

Schoffeniels E, Wilson IB, Nachmansohn D (1958)
Overshoot and block of conduction by lipid-soluble acetylcholine analogues
Biochimica & Biophysica Acta 27: 629

Kewitz H, Nachmansohn D (1957)
A specific antidote against lethal alkyl phosphate intoxication. IV. Effects in brain
Archives of Biochemistry & Biophysics 66: 271

Nachmansohn D (1957)
[Conduction of nerve impulses at the molecular level.]
Bulletin de la societe de chimie biologique (Paris) 39: 1021

Schoffeniels E, Nachmansohn D (1957)
An isolated single electroplax preparation. I. New data on the effect of acetylcholine and related compounds
Biochimica & Biophysica Acta 26: 1

Kewitz H, Nachmansohn D, Wilson IB (1956)
A specific antidote against lethal alkyl phosphate intoxication. II. Antidotal properties
Archives of Biochemistry & Biophysics 64: 456

Altamirano M, Coates CW, Grundfest H, Nachmansohn D (1955)
Electrical activity in electric tissue. III. Modifications of electrical activity by acetylcholine and related compounds
Biochimica & Biophysica Acta 16: 449

Altamirano M, Schleyer WL, Coates CW, Nachmansohn D (1955)
Electrical activity in electric tissue. I. The difference between tertiary and quaternary nitrogen compounds in relation to their chemical and electrical activities
Biochimica & Biophysica Acta 16: 268

Nachmansohn D (1955)
The generation of bioelectric potentials
Circulation Research 3: 429

Nachmansohn D (1955)
Mechanisms of impulse transmission across neuromuscular junctions
Am J Phys Med 34: 33

Nachmansohn D (1955)
[Role of acetylcholine in the elementary processes of nerve conduction.]
Ergeb Physiol 48: 575

Nachmansohn D, Wilson IB (1955)
Acetylcholinesterase
Methods Enzymol 1: 642

Altamirano M, Coates CW, Grundfest H, Nachmansohn D (1953)
Mechanisms of bioelectric activity in electric tissue. I. The response to indirect and direct stimulation of electroplaques of Electrophorus electricus
Journal of General Physiology 37: 91

Berman R, Wilson IB, Nachmansohn D (1953)
Choline acetylase specificity in relation to biological function
Biochimica & Biophysica Acta 12: 315

Nachmansohn D (1953)
Metabolism and function of the nerve cell
Harvey Lect 49: 57

Grundfest H, Nachmansohn D, Kao CY, Chambers R (1952)
Mode of blocking of axonal activity by curare and inhibitors of acetylcholinesterase
Nature 169: 190

Korkes S, Del Campillo A, Korey SR, Stern JR, Nachmansohn D, Ochoa S (1952)
Coupling of acetyl donor systems with choline acetylase
Journal of Biological Chemistry 198: 215

Nachmansohn D (1952)
Nerve function and irradiation effects
Journal of Cellular Physiology Suppl 39: 137

Nachmansohn D (1952)
[Metabolism and function of the nerve cell.]
Bulletin de la societe de chimie biologique (Paris) 34: 447

Nachmansohn D, Ochoa S, Lipmann FA (1952)
Otto Meyerhof: 1884-1951
Science 115: 365

Nachmansohn D, Wilson IB, Korey SR, Berman R (1952)
Choline acetylase. VI. Substitution of adenosinetriphosphate acetate by thiolacetate
Journal of Biological Chemistry 195: 25

Nachmansohn D (1952)
[Conduction of the nerve impulse and the synaptic transmission.]
Rend Ist Sup Sanit 15: 1266

Nachmansohn D (1952)
[Published works of O. Meyerhof and his associates.]
Ergeb Physiol 47: vi

Korey SR, de BB, Nachmansohn D (1951)
Choline acetylase. V. Esterifications and transacetylations
Journal of Biological Chemistry 189: 705

Nachmansohn D, Wilson IB (1951)
The enzymic hydrolysis and synthesis of acetylcholine
Adv Enzymol Relat Areas Mol Biol 12: 259

Bergmann F, Wilson IB, Nachmansohn D (1950)
Acetylcholinesterase. IX. Structural features determining the inhibition by amino acids and related compounds
Journal of Biological Chemistry 186: 693

Bergmann F, Wilson IB, Nachmansohn D (1950)
The inhibitory effect of stilbamidine, curare and related compounds and its relationship to the active groups of acetylcholine esterase; action of stilbamidine upon nerve impulse conduction
Biochimica & Biophysica Acta 6: 217

Nachmansohn D (1950)
Studies on permeability in relation to nerve function, axonal conduction and synaptic transmission
Biochimica & Biophysica Acta 4: 78

Wilson IB, Bergmann F, Nachmansohn D (1950)
Acetylcholinesterase. X. Mechanism of the catalysis of acylation reactions
Journal of Biological Chemistry 186: 781

Agustinsson KB, Nachmansohn D (1949)
Studies on cholinesterase; kinetics of the inhibition of acetylcholine esterase
Journal of Biological Chemistry 179: 543

Augustinsson KB, Nachmansohn D (1949)
Distinction between Acetylcholine-Esterase and Other Choline Ester-splitting Enzymes
Science 110: 98

Augustinsson KB, Nachmansohn D (1949)
Studies on cholinesterase. VI. Kinetics of the inhibition of acetylcholine esterase
Journal of Biological Chemistry 179: 543

Nachmansohn D, Hestrin S, Voripaieff H (1949)
Enzymatic synthesis of a compound with acetylcholine-like biological activity
Journal of Biological Chemistry 180: 875

Feld EA, Rothenberg MA, Nachmansohn D (1948)
On the mechanism of the action of diisopropyl fluorophosphate
Federation Proceedings 7: 32

Feld EA, Grundfest H, Nachmansohn D, Rothenberg MA (1948)
Effect of di-isopropyl flourphosphate on action potential and cholinesterase of nerve
Journal of Neurophysiology 11: 125

Nachmansohn D (1948)
The role of acetylcholine in conduction
Bulletin of Johns Hopkins Hospital 83: 463

Nachmansohn D (1948)
Effect of anticholinesterases on conduction
Biological Bulletin 95: 241

Nachmansohn D, Rothenberg MA (1948)
The difference between pharmacological action and the physiological role of acetylcholine
Federation Proceedings 7: 84

Nachmansohn D, Weiss MS (1948)
Studies on choline acetylase; effect of citric acid
Journal of Biological Chemistry 172: 677

Nachmansohn D, Rothenberg MA, Feld EA (1948)
Studies on cholinesterase. V. Kinetics of enzyme inhibition
Journal of Biological Chemistry 174: 247

Nachmansohn D (1948)
Physostigmin ein Gegengift des Curare
Zentralbl Physiol 14: 255

Rothenberg MA, Sprinson DB, Nachmansohn D (1948)
Site of action of acetylcholine
Journal of Neurophysiology 11: 111

Sharples W, Grundfest H, Nachmansohn D (1948)
Adenosinetriphosphatase and conduction of the nerve impulse
Federation Proceedings 7: 113

Weiss MS, Voripaieff H, Nachmansohn D (1948)
Inhibitors of choline acetylase
Federation Proceedings 7: 198

Grundfest H, Nachmansohn D, Rothenberg MA (1947)
Effect of di-isopropyl fluorphosphate (DFP) on action potential and cholinesterase of nerve
Journal of Neurophysiology 10: 155

Nachmansohn D, Feld EA (1947)
Studies on cholinesterase; on the mechanism of diisopropyl fluorophosphate action in vivo
Journal of Biological Chemistry 171: 715

Nachmansohn D, Rothenberg MA, Feld EA (1947)
The in vitro reversibility of cholinesterase inhibition by diisopropyl fluorophosphate (DFP)
Arch Biochem 14: 197

Nachmansohn D, Berman M, Weiss MS (1947)
Presence of choline acetylase in striated and cardiac muscle
Journal of Biological Chemistry 167: 295

Nachmansohn D (1947)
On the role of acetylcholine in the mechanism of nerve activity
Recent Prog Horm Res 1: 1

Nachmansohn D, Rothenberg MA (1947)
Effect of anticholinesterases on conduction of nerve and muscle
Federation Proceedings 6: 169

Rothenberg MA, Nachmansohn D (1947)
Studies on cholinesterase; purification of the enzyme from electric tissue by fractional ammonium sulfate precipitation
Journal of Biological Chemistry 168: 223

Berman M, Nachmansohn D (1946)
On the formation of acetylcholine by choline acetylase in the nerve axon
Federation Proceedings 5: 122

Bullock TH, Nachmansohn D, Rothenberg MA (1946)
Effects of inhibitors of choline esterase on the nerve action potential
Journal of Neurophysiology 9: 9

Couteaux R, Grundfest H, Nachmansohn D, Rothenberg MA (1946)
Effect of Di-Isopropyl Fluorophosphate (DFP) on the Action Potential of Muscle
Science 104: 317

Nachmansohn D (1946)
On the role of acetylcholine during nerve activity
Federation Proceedings 5: 75

Nachmansohn D, Berman M (1946)
Studies on choline acetylase; on the preparation of the coenzyme and its effect on the enzyme
Journal of Biological Chemistry 165: 551

Nachmansohn D, Coates CW, Rothenberg MA, Brown MV (1946)
On the energy source of the action potential in the electric organ of Electrophorus electricus
Journal of Biological Chemistry 165: 223

Nachmansohn D, John HM, Berman M (1946)
Studies on choline acetylase; the formation of acetylcholine in the nerve axon
Journal of Biological Chemistry 163: 475

Nachmansohn D, Coates CW, Rothenberg MA (1946)
Studies on cholinesterase; enzyme activity and voltage of the action potential in electric tissue
Journal of Biological Chemistry 163: 39

Nachmansohn D, Rothenberg MA (1946)
Chemical aspects of the transmission of nerve impulses
Prog Neurol Psychiatry 1: 59

Nachmansohn D (1946)
Chemical mechanism of nerve action
Annals of the New York Academy of Sciences 47: 395

Rothenberg MA, Nachmansohn D (1946)
On the permeability of the nerve axon to diisopropyl fluorophosphate
Federation Proceedings 5: 199

Nachmansohn D, John HM (1945)
On the Formation of Acetylcholine in the Nerve Axon
Science 102: 359

Nachmansohn D, Schneemann H (1945)
On the effect of drugs on cholinesterase
Journal of Biological Chemistry 159: 239

Nachmansohn D, Rothenberg MA (1945)
Studies on cholinesterase. I. On the specificity of the enzyme in nerve tissue
Journal of Biological Chemistry 158: 653

Nachmansohn D, Rothenberg MA (1944)
On the Specificity of Choline Esterase in Nervous Tissue
Science 100: 454

Fulton JF, Nachmansohn D (1943)
Acetylcholine and the Physiology of the Nervous System
Science 97: 569

Nachmansohn D, Machado AL (1943)
The formation of acetylcholine: a new enzyme: choline acetylase
Journal of Neurophysiology 6: 397

Bullock TH, Nachmansohn D (1942)
Cholinesterase in primitive nervous systems
J Cell Comp Physiol 20: 239

Nachmansohn D, Steinbach HB (1942)
On the Localization of Enzymes in Nerve Fibers
Science 95: 76

Nachmansohn D, Coates CW, Cox RT (1941)
Electric Potential and Activity of Choline Esterase in the Electric Organ of Electrophorus Electricus (Linnaeus)
Journal of General Physiology 25: 75

Boell EJ, Nachmansohn D (1940)
Localization of Choline Esterase in Nerve Fibers
Science 92: 513

Nachmansohn D (1940)
Electricity Elicited by an Organic Chemical Process
Science 91: 405

Nachmansohn D (1940)
Action of ions on cholinesterase
Nature 145: 513

Nachmansohn D (1940)
Choline esterase in brain and spinal cord of sheep embryos
Journal of Neurophysiology 3: 396

Nachmansohn D (1939)
Choline esterase in voluntary muscle
The Journal of Physiology 95: 29

Nachmansohn D (1939)
Cholinesterase dans le systeme nerveux central.
Bulletin de la societe de chimie biologique (Paris) 21: 761

Marnay A, Nachmansohn D (1938)
Choline esterase in voluntary muscle
The Journal of Physiology 92: 37

Bacq ZM, Nachmansohn D (1937)
Cholinesterase in invertebrate muscles
The Journal of Physiology 89: 368

Marnay A, Nachmansohn D (1937)
Cholinesterase in voluntary frog's muscle
The Journal of Physiology 89: 359

Marnay A, Nachmansohn D (1937)
Cholinesterase dans le muscle strie
Comptes Rendus des Seances de la Societe de Biologie et de Ses Filiales 124: 942

Marnay A, Nachmansohn D (1937)
Cholinesterase dans le nerf de homard
Comptes Rendus des Seances de la Societe de Biologie et de Ses Filiales 125: 1005