NYUHSL Faculty Bibliography

Searched for:

school:SOM

Department/Unit:Neuroscience Institute

Total Results:

13368

Nature. 1974:251(5475):504-5.DOI: 10.1038/251504a0

Functional reinnervation in kitten visual cortex

Movshon, J A; Blakemore, C

PMID: 4424712

ISSN: 0028-0836

CID: 113083

Life sciences. 1974:15(7):1309-16.DOI: 10.1016/0024-3205(74)90312-9

The effects of serum osmolarity on cerebrospinal fluid volume flow

Hochwald, G M; Wald, A; DiMattio, J; Malhan, C

PMID: 4549978

ISSN: 0024-3205

CID: 163787

Psychopharmacology bulletin. 1974:10(4).DOI:

Proceedings: Drugs, mood, and amines: a profile in psychobiological research

Shopsin, B; Friedman, E; Gershon, S; Goldstein, M

PMID: 4473795

ISSN: 0048-5764

CID: 104974

Anatomical record. 1974:178(2):375-376.DOI:

QUANTITATIVE COMPUTER-ANALYSIS OF MORPHOLOGY OF CEREBELLAR NEURONS .1. GRANULE CELLS [Meeting Abstract]

HILLMAN, DE; CHUJO, M; LLINAS, R

ISI:A1974S251400229

ISSN: 0003-276x

CID: 105124

Journal of physiology. 1974:242(2):121P-123P.DOI:

Proceedings: Velocity preferences of simple and complex cells in the cat's striate cortex

Movshon, J A

PMID: 4455790

ISSN: 0022-3751

CID: 113084

Journal of physiology. 1974:242(2):95P-96P.DOI:

Proceedings: Cyclic AMP: cell-to-cell movement and inotropic effect in ventricular muscle, studied by a cut-end method

Tsien, R W; Weingart, R

PMID: 4376174

ISSN: 0022-3751

CID: 136916

European journal of pharmacology. 1974:28(1):89-94.DOI: 10.1016/0014-2999(74)90116-2

Possible involvement of central adrenaline neurons in vasomotor and respiratory control. Studies with clonidine and its interactions with piperoxane and yohimbine

Bolme, P; Corrodi, H; Fuxe, K; Hokfelt, T; Lidbrink, P; Goldstein, M

PMID: 4154207

ISSN: 0014-2999

CID: 158379

Journal of neurophysiology. 1974:37(5):1020-40.DOI: 10.1152/jn.1974.37.5.1020

Physiological and biochemical properties of neuromuscular transmission between identified motoneurons and gill muscle in Aplysia

Carew, T J; Pinsker, H; Rubinson, K; Kandel, E R

PMID: 4370262

ISSN: 0022-3077

CID: 163442

Journal of experimental zoology. 1974:189(3):357-78.DOI: 10.1002/jez.1401890309

Pigmented retinal epithelium involvement in photoreceptor development and function

Hollyfield, J G; Witkovsky, P

PMID: 4547269

ISSN: 0022-104x

CID: 163206

Journal of general physiology. 1974:64(3):320-42.DOI: 10.1085/jgp.64.3.320

Mode of action of chronotropic agents in cardiac Purkinje fibers. Does epinephrine act by directly modifying the external surface charge?

Tsien, R W

Hauswirth et al. (1968) proposed that epinephrine acts on i(KK2) by adding its own positive charge to the external membrane surface near the i(KK2) channel. This hypothesis was tested by using noncationic compounds, theophylline and R07-2956, which mimicked epinephrine's effects on pacemaker activity and on i(KK2). In maximally effective doses, theophylline or R07-2956 occluded the effect of epinephrine, indicating a shared final common mechanism. Since theophylline and R07-2956 are noncationic at pH 7.4, the common mechanism cannot be a direct change in external surface charge. On the contrary, epinephrine does not interfere with the voltage shift produced by La(+++), which is thought to modify the external surface charge. The results argue against the original hypothesis but leave open the possibility that an alteration in internal surface charge generates the observed voltage shift. The potency of theophylline and R07-2956 as phosphodiesterase inhibitors suggests that the final common mechanism begins with the elevation of intracellular cyclic AMP, leading to a saturable process which limits the voltage shift's magnitude. This hypothesis is used to generate dose-response curves describing the combined effects of epinephrine and theophylline, and these are compared with experimental data

PMCID:2226176

PMID: 4370200

ISSN: 0022-1295

CID: 136918