Desensitization of the GABA_A Receptor Shifts the Dynamic Range of Retinal Horizontal Cells Due to Light and Dark Adaptation
スポンサーリンク
概要
著者
-
Usui Shiro
Deparment Of Information And Computer Sciences Toyohashi University Of Technology
-
Usui Shiro
Riken Saitama Jpn
-
Kamiyama Yoshimi
Department Of Clinical Pharmacology And Toxicology Showa Pharmaceutical University
-
KAWAI Fusao
Department of Information and Computer Sciences, Toyohashi University of Technology
-
Kawai Fusao
Department Of Agricultural Chemistry Kyoto University
-
Kawai Fusao
Department Of Information And Computer Sciences Toyohashi University Of Technology
関連論文
- Correlation between the Physicochemical Property of Some Nonsteroidal Anti-inflammatory Drugs and Changes in Adenosine Triphosphate, Glutathione and Hemoglobin in Rat Erythrocytes(Biopharmacy)
- Mathematical model study of continuous transmitter release in the synaptic terminal of goldfish retinal bipolar cells
- ELECTRICAL INTERACTIONS BETWEEN THE SINOATRIAL NODE AND ATRIAL MUSCLE THROUGH AN EXTERNAL CIRCUIT
- INHOMOGENEOUS CELLULAR ACTIVATION TIME AND Vmax IN NORMAL MYOCARDIAL TISSUE UNDER ELECTRICAL FIELD STIMULATION WITH A LOW POTENTIAL GRADIENT
- On the Statistical Properties of Least Squares Estimators of Layered Neural Networks
- Upper bound of the expected training error of neural network regression for a Gaussian noise sequence
- Dynamic Sample Selection : Theory
- Desensitization of the GABA_A Receptor Shifts the Dynamic Range of Retinal Horizontal Cells Due to Light and Dark Adaptation
- Ionic current model of rabbit retinal horizontal cell
- Bacterial Degradation of Water-insoluble Polymer : Polypropylene Glycol : Micronbial Degradation of Synthetic Polymers(II)
- Sample Selection Algorithm Utilizing Lipschitz Continuity Condition
- RULE EXTRACTION FROM TRAINED ARTIFICAL NEURAL NETWORKS
- Dynamic Sample Selection: Implementation
- PROBLEM OF RANK-DEFICIENCIES OF A JACOBEAN FOR A NEURAL NETWORK
- Quantitative Analysis of Na^+ and Ca^ Current Contributions on Spike Initiation in the Newt Olfactory Receptor Cell
- Suppression by odorants of voltage-gated and ligand-gated channels in retinal neurons
- Modulation by cGMP of the voltage-gated currents in newt olfactory receptor cells
- Spike encoding of olfactory receptor cells
- Voltage-gated ion channels in human photoreceptors
- Odorants suppress T- and L-type Ca^ currents in olfactory receptor cells by shifting their inactivation curves to a negative voltage
- Color Discrimination Mechanisms Mediating Visual Search