| “ú•t | ’S“– | “à—e |
| 4/ 2 | ‹xu | @ |
| 4/ 9 | š ˆä | The evolution of primate color vision |
| 4/16 | ‹{’n | Self-organizing optic-cup morphogenesis in three-dimensional culture |
| 4/23 | ‹xu | @ |
| 4/30 | ‘åŒF | ON-pathway-dominant glycinergic regulation of cholinergic amacrine cells in the mouse retina |
| “ú•t | ’S“– | “à—e |
| 5/ 7 | ‹xu | @ |
| 5/14 | ‹xu | @ |
| 5/21 | –x”ö | Acetylcholine induces GABA release onto rod bipolar cells through heteromeric nicotinic receptors expressed in A17 amacrine cells |
| 5/28 | “¡“c | Protective effects of ginsenoside Rg1 on astrocytes and cerebral ischemic-reperfusion mice |
| “ú•t | ’S“– | “à—e |
| 6/ 4 | ‹xu | @ |
| 6/11 | ‹x“ú | y‘’·‚Ì“úz |
| 6/18 | “úûü | Retinal output changes qualitatively with every change in ambient illuminance |
| 6/25 | ‹xu | @ |
| “ú•t | ’S“– | “à—e |
| 7/ 2 | ‹xu | @ |
| 7/ 9 | ‹xu | @ |
| 7/16 | ‰Í‡ | ”|—{×–E•]‰¿Œn‚ð—p‚¢‚½H–¡•]‰¿ |
| 7/23-8/27 | ‹xu | y‰Ä‹x‚Ýz |
| “ú•t | ’S“– | “à—e |
| 9/ 3 | ‹xu | @ |
| 9/10 | ‹xu | @ |
| 9/17 | š ˆä | A confederacy of senses |
| 9/24 | ‹xu | @ |
| “ú•t | ’S“– | “à—e |
| 10/ 1 | ‹xu | y“¡“cˆãŠw‰ïz |
| 10/ 8 | ‹xu | @ |
| 10/15 | ‹xu | @ |
| 10/22 | ‹xu | @ |
| 10/29 | ‘åŒF | Synthetic conantokin peptides potently inhibit N-methyl-D-aspartate receptor-mediated currents of retinal ganglion cells |
| “ú•t | ’S“– | “à—e |
| 11/ 5 | ‹{’n | Involvement of GABA transporters in atropine-treated myopic retina as revealed by iTRAQ quantitative proteomics |
| 11/12 | ‹xu | @ |
| 11/19 | “¡“c | Pre-ischemic exercise reduces apoptosis in hippocampal CA3 cells after cerebral ischemia by modulation of the Bax/Bcl-2 proteins ratio and prevention of caspase-3 activation |
| 11/26 | ‹xu | @ |
| “ú•t | ’S“– | “à—e |
| 12/ 3 | ‹xu | @ |
| 12/10 | ‹xu | y–Y”N‰ïz |
| 12/17- | ‹xu | y“~‹x‚Ýz |
| “ú•t | ’S“– | “à—e |
| 1/ 7 | ‹xu | @ |
| 1/14 | –x”ö | Morphology and function of three VIP-expressing amacrine cell types in the mouse retina |
| 1/21 | ‹xu | @ |
| 1/28 | ‹xu | @ |
| “ú•t | ’S“– | “à—e |
| 2/ 4 | “úûü | Sidekick 2 directs formation of a retinal circuit that detects differential motion |
| 2/11 | ‹x“ú | @ |
| 2/18 | ‰Í‡ | S”•Ï“®‚ɑ΂·‚鸖û‚ÌŒø‰Ê |
| 2/25 | ‹xu | @ |
| “ú•t | ’S“– | “à—e |
| 3/ 3 | ‹{’n | The functional diversity of retinal ganglion cells in the mouse |
| 3/10 | ‹xu | @ |
| 3/17 | ‹xu | @ |
| 3/24 | ‹xu | y¶—Šw‰ïz |
| 3/31 | ‹xu | @ |
| @@ | ‚SŒŽ | ‚TŒŽ | ‚UŒŽ | ‚VŒŽ | ‚WŒŽ | ‚XŒŽ | 10ŒŽ | 11ŒŽ | 12ŒŽ | ‚PŒŽ | ‚QŒŽ | ‚RŒŽ |
| Fujita | @ | 5/28 | @ | @ | @ | @ | @ | 11/19 | @ | @ | @ | @ |
| Hidaka | @ | @ | 6/18 | @ | @ | @ | @ | @ | @ | @ | 2/4 | @ |
| Horio | @ | 5/21 | @ | @ | @ | @ | @ | @ | @ | 1/14 | @ | @ |
| Kawai | @ | @ | @ | 7/16 | @ | @ | @ | @ | @ | @ | 2/18 | @ |
| Kunii | 4/ 9 | @ | @ | @ | @ | 9/17 | @ | @ | @ | @ | @ | @ |
| Miyachi | 4/16 | @ | @ | @ | @ | @ | @ | 11/ 5 | @ | @ | @ | 3/3 |
| Ohkuma | 4/30 | @ | @ | @ | @ | @ | 10/29 | @ | @ | @ | @ | @ |