| Record ID | marc_ithaca_college/ic_marc.mrc:164228536:1992 |
| Source | Ithaca College Library |
| Download Link | /show-records/marc_ithaca_college/ic_marc.mrc:164228536:1992?format=raw |
LEADER: 01992cam a2200349 a 4500
001 257017
005 19990507153341.0
008 931227s1995 maua b 001 0 eng c
010 $a 93049890 $o29702508
035 $9ADD-1889
040 $aDNLM/DLC$cDLC$dNLM$dCDS$dOCL$dUKM$dXIM
015 $aGB95-7249
020 $a0262100533
050 00 $aQP355.2$b.J64 1995
060 00 $a1995 D-161
060 10 $aWL 102.5$bJ72f 1995
069 0 $a9418154
082 00 $a591.1/88$220
049 $aXIMM
100 1 $aJohnston, Daniel,$d1947-
245 10 $aFoundations of cellular neurophysiology /$cDaniel Johnston and Samuel Miao-sin Wu ; with illustrations and simulations by Richard Gray.
260 $aCambridge, Mass. :$bMIT Press,$cc1995.
300 $axxxi, 676 p. :$bill. ;$c24 cm.
500 $a"A Bradford book."
504 $aIncludes bibliographical references (p. [635]-665) and index.
505 0 $aIntroduction -- Ion movement in excitable cells -- Electrical properties of the excitable membrane -- Functional properties of dendrites -- Nonlinear properties of excitable membranes -- Hodgkin and Huxley's analysis of the squid giant axon -- Functional diversity of voltage-gated ionic conductances -- Molecular structure and unitary currents of ion channels -- Stochastic analysis of single-channel function -- Formulation of stochastic channel mechanisms -- Synaptic transmission I: presynaptic mechanisms -- Synaptic transmission II: Ca²⁺ and transmitter release --Synaptic transmission III: postsynpatic mechanisms -- Extracellular field recordings -- Cellular neurophysiology of learning and memory -- Basic electricity and electrical circuits -- Optical methods in cellular neurophysiology -- Short answers to homework problems -- Complete solutions to problems.
650 0 $aNeurophysiology.
650 0 $aNeurons.
650 0 $aNeurons$xPhysiology.
650 0 $aIon channels$xPhysiology.
650 0 $aNeural transmission$xPhysiology.
700 1 $aWu, Samuel Miao-sin.