|
L. Abood:
University Rochester
Rochester, N.Y.
|
Membrane
structure
Chemical aspects of excitation and conduction
Synaptic transmission |
B.
Agranoff:
University of Michigan Medical School
Ann Arbor, Michigan |
Learning
and memory
Experimental methods
Nucleic acid metabolism |
|
R. W. Albers:
NINDS
Bethesda, Md.
|
Membrane
structure and transport
Chemistry of transducers |
S.
Appel :
Duke University School of Medicine
Durruham, North Carolina |
Cytoarchitecture
Synaptic transmission |
J.
Axelrod:
NIMH
Bethesda, Md, |
Catechol
and Indole amines
Neuroendocrine control mechanisms |
S.
Barondes:
Albert Einstein College of Medicine
Bronx, N. Y.
|
Learning
and memory
Cytoarchitecture
Brain protein metabolism |
R.
Brady:
NINDS
Bethesda, Md. |
Inherited
disorders
Lipids of nervous system |
M.
Cohen:
Presbyterian -St. Luke's Hospital
Chicago, Il. |
Carbohydrates
Biochemistry of coma, toxic-metabolic states
Biochemical aids to diagnosis |
R.
Fishman:
University of California School of Medicine
San Francisco, CA |
Biochemistry
of coma, toxic-metabolic states
CSF and fluid compartments
Blood-brain barriers |
|
J. Gergely:
Retina
Foundation
Boston, Mass.
|
Biochemistry
of muscle |
|
F. Hoskins:
College of Physicians and Surgeons Columbia University
New York, N.Y.
|
Chemical
aspects of excitation and conduction
Acetylcholine metabolism |
R.
Katzman:
Albert Einstein College of Medicine
Bronx, N.Y. |
Cerebral
edema
Blood-brain barriers
CSF and fluid compartments |
A.
Lajtha:
New York State Research Inst.
for Neurochemistry & Drug Adiction
Wards Island, N.Y. |
Blood-brain
barriers
Amino acid metabolism
Amino acids as transmitters |
G.
Lehrer:
Mount Sinai School of Medicine
New York, N.Y. |
Experimental
methods
Acetylcholine metabolism
Carbohydrates |
D.
MacDougal:
Washington University School of Medicine
St. Louis, Missouri |
Experimental
methods
Carbohydrates
Respiration and energy metabolism |
G.
McKhann:
The Johns Hopkins University School of Medicine
Baltimore, Md. |
Nutritional
deprivation
Amino acid metabolism |
J.
Menkes:
University of California School of Medicine
Los Angeles, Calif. |
Inherited
disorders
Biochemical aids to diagnosis
Demyelinacing diseases |
W.
Norton:
Albert Einstein College of Medicine
Bronx, N.Y. |
Myelin
metabolism
Demyelinatittg diseases |
J.
0'Brien:
University of California School of Medicine
LaJolla, Calif. |
Inherited
disorders
Demyelinating diseases
Myelin metabolism |
J.
Posner: Cornell:
University School of Medicine
New York, N.Y. |
Cerebral
energy metabolism and respiration |
E.
Roberts:
City of Hope Medical Center
Duarte, Calif. |
Chemistry
of transducers
Synaptic transmission
Amino acids as transmitters |
E.
Robins:
Washington University School of Medicine
St. Louis, Missouri |
Chemical
theories of mental disorders and psychopherm-
acology
Brain protein metabolism |
E.
Shooter:
Stanford University School of Medicine
Palo Alto, Calif. |
Growth,
maturation and ageing
Nucleic acid metabolism |
G.
Siegel :
Mount Sinai School of Medicine
New York, N, Y. |
Maintainence
of ionic gradients |
T.
Sburkes:
McGill University
Montreal, Canada |
Psychopharmacology
Catechol and indole amines |
K.
Suzuki:
Hospital of the University of Pennsylvania
Philadelphia, Pa. |
Inherited
disorders
Lipids of nervous system |
P.
Swanson;
University of Washington School of Medicine
Seattle, Washington |
Metabolism
and respiration
Maintainence of ionic gradients |
W.
Toortellotte:
University of Michigan Medical School
Ann Arbor, Michigan |
Biochemistry
of coma, toxic-metabolic states
Biochemical aids to diagnosis
Demyelinating diseases |
D.
Tower:
NINDS
Bethesda, Md. |
Cerebral
edema
Metabolism and respiration |
M.
Winilck:
New York Hospital -Cornell Medical Center
New York, N.Y. |
Nutritional
deprivation
Growth, maturation and ageing |
