Faculty Bibliography
Searched for:
school:SOM
Department/Unit:Neuroscience Institute
Total Results:
13401
The mechanism of oscillatory activity at low membrane potentials in cardiac Purkinje fibres
1. The mechanism of oscillations at low membrane potentials in Purkinje fibres has been investigated using voltage clamp experiments.2. The oscillations are generated by time-dependent variations in an outward current component, i(x1), that is activated over the voltage range -40 to 10 mV. During normal activity, this current is responsible for initiating full repolarization to the resting potential (Noble & Tsien, 1969b) so that the oscillations represent a failure of the normal repolarization process, probably as a consequence of a small change in background (leakage) current.3. These oscillations are distinct from the normal pacemaker activity of Purkinje fibres which is generated by a separate time-dependent current, i(K2) (Noble & Tsien, 1968). i(K2) shows no time-dependence when the membrane potential variations are entirely positive to -65 mV and cannot, therefore, be involved in the oscillatory activity apart from contributing a background outward current.4. The amplitude and frequency of the oscillations are very sensitive to applied currents less than 1 muA/cm(2). Larger currents abolish the oscillatory activity.5. The mechanism of the oscillations is discussed in relation to the possible mechanisms underlying the natural pacemaker activity of the sino-atrial (SA) node
PMCID:1350427
PMID: 5761950
ISSN: 0022-3751
CID: 136926
Drug induced changes of abnormal movements in monkeys with central nervous system lesions
PMID: 4981780
ISSN: 0010-5678
CID: 117412
Electrophysiological analysis of synaptic transmission
Baltimore, Williams & Wilkins Co., 1969
Extent: ix, 372 p. illus. 23 cm
ISBN: n/a
CID: 294
Neurobiology of cerebellar evolution and development
[Chicago : American Medical Association, 1969]
Extent: x, 931 p. illus. (part col.) 29 cm
ISBN: n/a
CID: 295
Functional aspects of interneuronal evolution in the cerebellar cortex
PMID: 5397400
ISSN: 0082-7134
CID: 10029
Electrical analysis of an agranular cerebellum [Meeting Abstract]
ORIGINAL:0005203
ISSN: 0531-5131
CID: 55715
Federation proceedings (Federation of American Societies for Experimental Biology). 1969:28:784-784.DOI:
Dendritic spikes recorded at different levels from alligator Purkinje cells [Meeting Abstract]
ORIGINAL:0005193
ISSN: 0014-9446
CID: 55705
Frog cerebellar activity evoked by constant angular acceleration [Meeting Abstract]
ORIGINAL:0005204
ISSN: 0031-9376
CID: 55716
Zeitschrift fur Zellforschung und mikroskopische Anatomie (1948). 1969:100(1):60-82.DOI: 10.1007/bf00343821
Synaptic relationships in the plexiform layers of carp retina
PMID: 5354186
ISSN: 0340-0336
CID: 163215
Adrenaline: mechanism of action on the pacemaker potential in cardiac Purkinje fibers
The pacemaker potential in Purkinje fibers is generated by a slow fall in potassium current which allows the inward background currents to depolarize the membrane. Adrenaline shifts the relation between activation of the potassium current and membrane potential in a depolarizing direction. Consequently, during the pacemaker potential, the potassium current falls more rapidly to lower values and the inward currents then depolarize the membrane more quickly. The shift in the potassium activation curve produced by adrenaline is large compared to that produced by calcium ions. The molecular action of adrenaline may involve either a large change in the surface charge of the membrane or a change in the dependence of the potassium permeability on the local electric field
PMID: 4386717
ISSN: 0036-8075
CID: 136929
