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The electrophysiology of the cerebellar Purkinje cell revisited
Chapter by: Llinas R; Sugimori M
in: The cerebellum revisited by Llinas R; Sotelo C [Eds]
New York : Sprnger-Verlag, 1992
pp. 167-181
ISBN: 0387976930
CID: 3245
The central role of voltage-activated and receptor-operated calcium channels in neuronal cells
Bertolino M; Llinas RR
PMID: 1318672
ISSN: 0362-1642
CID: 9911
P-type calcium channels in the somata and dendrites of adult cerebellar Purkinje cells
Usowicz MM; Sugimori M; Cherksey B; Llinas R
The pharmacological and single-channel properties of Ca2+ channels were studied in the somata and dendrites of adult cerebellar Purkinje cells. The Ca2+ channels were exclusively of the high threshold type: low threshold Ca2+ channels were not found. These high threshold channels were not blocked by omega-conotoxin GVIA and were inhibited rather than activated by BAY K 8644. They were therefore pharmacologically distinct from high threshold N- and L-type channels. Funnel web spider toxin was an effective blocker. The channels opened to conductance levels of 9, 14, and 19 pS (in 110 mM Ba2+). These slope conductances were in the range of those reported for N- and L-type channels. Our results are in agreement with previous reports suggesting that Ca2+ channels in Purkinje cells can be classified as P-type channels according to their pharmacology. The results also suggest that distinctions among Ca2+ channel types based on the single-channel conductance are not definitive
PMID: 1281419
ISSN: 0896-6273
CID: 8201
Tonotopic organization of human auditory cortex revealed by multi-channel SQ
Yamamoto T; Uemura T; Llinas R
A 14-channel SQUID (superconducting quantum interference device) system has been used to record the magnetic signal from the human brain in response to an auditory stimuli (750, 1,000, 1,250 and 1,500 Hz, 70, 76 and 82 dB SPL, 500 ms duration). Three individuals with normal hearing were studied. The locations of magnetic response at the latency of 70 ms (P70), 100 ms (N100) and 160 ms (P160) from the onset of the auditory stimulus were identified. The location for N100 response corresponded to the primary auditory cortex (area 41), where a clear tonotopic organization was demonstrated. The amplitopic organization was less evident. These results suggest a flow of auditory signals in the temporal lobe and tonotopic organization in the auditory cortex.
PMID: 1604979
ISSN: 0001-6489
CID: 9910
Identification of a critical period for motor development in neonatal rats
Walton KD; Lieberman D; Llinas A; Begin M; Llinas RR
Manipulation of the developing nervous system has provided valuable insights into nervous system function. One important concept to arise from this type of study has been the identification of specific 'critical periods' for the development of various functions. A critical period has been most clearly shown for the visual system where monocular eye closure for a few weeks led to functionally significant changes in visually guided behaviors and the connectivity of the visual cortex. Critical periods have also been defined for other sensory systems. Although studies of the effect of manipulating sensory systems during development are sometimes difficult to interpret (e.g. Ref. 7), this difficulty is compounded in the case of the motor system. Problems arise because manipulations of the postnatal motor system are difficult to implement and usually require invasive procedures such as tenotomy, neurotomy, and nerve crush (for review, see Ref. 17). We have approached the problem of manipulating the motor environment by adapting a paradigm widely used to study the experimental effects of simulated weightlessness in adult rats: namely, tail suspension. This method has several advantages for manipulating the motor system: (i) because it is noninvasive, it is less discomforting than neurotomy, tenotomy or nerve crush; (ii) it does not immobilize the animals, they move about the cage and extend and flex their hindlimbs; and (iii) it specifically examines the importance of load-bearing on the development of antigravity muscles and their neuronal circuits.(ABSTRACT TRUNCATED AT 250 WORDS)
PMID: 1488121
ISSN: 0306-4522
CID: 8288
Distribution and functional significance of the P-type, voltage-dependent Ca2+ channels in the mammalian central nervous system
Llinas R; Sugimori M; Hillman DE; Cherksey B
In addition to the three types of voltage-dependent calcium channels presently recognized in the CNS, the L-, the T- and the N-types, a fourth distinct type known as the P-type channel has recently been described. This channel, initially recognized in Purkinje cells (and thus the name), is not blocked by dihydropyridines or by omega-conotoxin (GVIA), but is blocked by native funnel-web spider venom and by a polyamine (FTX) extracted from such venom. In addition, a synthetic polyamine (sFTX) has been produced that also specifically blocks P-channels in brain slices and at the neuromuscular junction, and blocks presynaptic Ca2+ currents in other vertebrate and invertebrate forms, as well as channels expressed in Xenopus oocytes following CNS mRNA injections. Using sFTX to form an affinity gel, a protein was isolated and reconstituted into lipid bilayers where it manifests single-channel properties that are electrophysiologically and pharmacologically similar to those of the native P-channels. Rabbits immunized with the isolated protein produced a polyclonal antibody that gave a positive western blot with the purified P-channel protein and generated a reaction product at specific sites in the CNS that agree with the physiological distribution of P-channel activity
PMID: 1382335
ISSN: 0166-2236
CID: 8465
Hindlimb suspension impairs swimming in neonatal rats: identification of a "critical period" for motor development
Chapter by: Walton K; Lierberman D; Llinas R
in: Abstracts (Third IBRO World Congress of Neuroscience) by
Oxford UK : Pergamon Press, 1991
pp. 309-
ISBN: n/a
CID: 3581
Calcium transients in nerve cells
Chapter by: Kostyuk PG; Meldolesi J; Llinas R; Lux HD; Nowycky M
in: Abstracts (Third IBRO World Congress of Neuroscience) by
Oxford UK : Pergamon Press, 1991
pp. 14-
ISBN: n/a
CID: 3584
IMAGING PRETERMINAL CALCIUM-CONCENTRATION MICRODOMAINS IN THE SQUID GIANT SYNAPSE [Note]
LLINAS, R; SUGIMORI, M; SILVER, RB
ISI:A1991GP15200015
ISSN: 0006-3185
CID: 51538
Distribution of P channel antibody labeling in the CNS
Chapter by: Hillman D; Chen S; Aung TT; Cherksey B; Sugimori M; Llinas R
in: Abstracts (Third IBRO World Congress of Neuroscience) by
Oxford UK : Pergamon Press, 1991
pp. 66-
ISBN: n/a
CID: 3579