| scholarly article | Q13442814 |
| P2093 | author name string | A V Dmitriev | |
| S C Mangel | |||
| P2860 | cites work | Vitamin B2-based blue-light photoreceptors in the retinohypothalamic tract as the photoactive pigments for setting the circadian clock in mammals | Q24655563 |
| Biological clocks in the retina: cellular mechanisms of biological timekeeping. | Q30467208 | ||
| Circadian rhythms in cultured mammalian retina | Q30468161 | ||
| Suprachiasmatic nucleus: use of 14C-labeled deoxyglucose uptake as a functional marker | Q34403620 | ||
| The Visual Input Stage of the Mammalian Circadian Pacemaking System: I. Is There a Clock in the Mammalian Eye? | Q34669050 | ||
| Modulation of pH by neuronal activity | Q35150590 | ||
| Modulation of transmission gain by protons at the photoreceptor output synapse | Q36632437 | ||
| Dopamine inhibits mammalian photoreceptor Na+,K+-ATPase activity via a selective effect on the alpha3 isozyme | Q37458552 | ||
| A circadian clock regulates rod and cone input to fish retinal cone horizontal cells | Q37600768 | ||
| ATP and brain function | Q38597443 | ||
| Energy-requiring cell functions in the ischemic brain. Their critical supply and possible inhibition in protective therapy | Q40128494 | ||
| Effects of light and darkness on pH outside rod photoreceptors in the cat retina | Q43512656 | ||
| Light-evoked changes in extracellular pH in frog retina | Q46078183 | ||
| Studies on the hormonal control of circadian outer segment disc shedding in the rat retina | Q48142468 | ||
| Energy metabolism of rabbit retina as related to function: high cost of Na+ transport | Q55036895 | ||
| On the molecular origin of photoreceptor noise | Q59063542 | ||
| Effects of melatonin on 2-deoxy-[1-14C]glucose uptake within rat suprachiasmatic nucleus | Q68480872 | ||
| Extracellular pH in the isolated retina of the toad in darkness and during illumination | Q69271372 | ||
| Circadian clock functions localized in xenopus retinal photoreceptors | Q70667487 | ||
| Circadian rhythm in rat retinal dopamine | Q71368233 | ||
| Alkaline and acid transients in cerebellar microenvironment | Q71690007 | ||
| Light-evoked oxygen responses in the isolated toad retina | Q71735815 | ||
| pH-gated dopaminergic modulation of horizontal cell gap junctions in mammalian retina | Q72352586 | ||
| Modulation of cone to horizontal cell transmission by calcium and pH in the fish retina | Q72945900 | ||
| The energetic cost of photoreception in retinal rods of mammals | Q73217857 | ||
| A circadian clock regulates the pH of the fish retina | Q73317864 | ||
| Melatonin induces membrane conductance changes in isolated retinal rod receptor cells | Q73346549 | ||
| Resistance of retinal extracellular space to Ca2+ level decrease: implications for the synaptic effects of divalent cations | Q77986230 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | circadian rhythm | Q208353 |
| P304 | page(s) | 2897-2902 | |
| P577 | publication date | 2001-04-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Circadian clock regulation of pH in the rabbit retina | |
| P478 | volume | 21 |
| Q45213399 | A circadian clock and light/dark adaptation differentially regulate adenosine in the mammalian retina. |
| Q39989818 | A genetically encoded ratiometric sensor to measure extracellular pH in microdomains bounded by basolateral membranes of epithelial cells |
| Q88964560 | Acid Suspends the Circadian Clock in Hypoxia through Inhibition of mTOR |
| Q28593365 | Acid-sensing ion channel 2 is important for retinal function and protects against light-induced retinal degeneration |
| Q46102984 | Acid-sensing ion channels in neurones of the rat suprachiasmatic nucleus |
| Q46231033 | Activation of TGF-beta/activin signalling resets the circadian clock through rapid induction of Dec1 transcripts |
| Q30440994 | An autonomous circadian clock in the inner mouse retina regulated by dopamine and GABA. |
| Q92956577 | Circadian clock regulation of cone to horizontal cell synaptic transfer in the goldfish retina |
| Q34687175 | Circadian organization of the mammalian retina |
| Q37591184 | Circadian organization of the mammalian retina: from gene regulation to physiology and diseases |
| Q35039027 | Circadian phototransduction and the regulation of biological rhythms. |
| Q57063816 | Circadian regulation in the retina: from molecules to network |
| Q54572253 | Coupling between A-type horizontal cells is mediated by connexin 50 gap junctions in the rabbit retina. |
| Q28728628 | Divergent roles of clock genes in retinal and suprachiasmatic nucleus circadian oscillators |
| Q44201735 | Dopamine mediates circadian clock regulation of rod and cone input to fish retinal horizontal cells |
| Q43832086 | Exocytosed protons feedback to suppress the Ca2+ current in mammalian cone photoreceptors |
| Q80811011 | Expression of circadian clock genes in retinal dopaminergic cells |
| Q48218153 | Extracellular protons enable activation of the calcium-dependent chloride channel TMEM16A. |
| Q33604674 | Identification of a circadian clock-controlled neural pathway in the rabbit retina |
| Q37353209 | Inhibitory effect of somatostatin-14 on L-type voltage-gated calcium channels in cultured cone photoreceptors requires intracellular calcium |
| Q34274436 | Lateral interactions in the outer retina |
| Q36828311 | Light-induced pH changes in the intact retinae of normal and early diabetic rats |
| Q36742073 | Mammalian retinal Müller cells have circadian clock function |
| Q34800154 | Molecular aspects of structure, gating, and physiology of pH-sensitive background K2P and Kir K+-transport channels |
| Q44991710 | Neurotransmitter modulation of extracellular H+ fluxes from isolated retinal horizontal cells of the skate |
| Q35032473 | Pannexin1 channel proteins in the zebrafish retina have shared and unique properties |
| Q45107062 | Properties of connexin26 hemichannels expressed in Xenopus oocytes |
| Q79855311 | Proton modulation of ion channels in isolated horizontal cells of the goldfish retina |
| Q48589474 | Proton transfer unlocks inactivation in cyclic nucleotide-gated A1 channels. |
| Q35541864 | Regulation and Modulation of pH in the Brain |
| Q44383068 | Regulation of inwardly rectifying K+ channels in retinal pigment epithelial cells by intracellular pH. |
| Q83839898 | Silencing acid-sensing ion channel 1a alters cone-mediated retinal function |
| Q46787365 | Tandem-pore domain potassium channels are functionally expressed in retinal (Müller) glial cells |
| Q64098397 | The NaH-Exchanger NHE1 Regulates Extra- and Intracellular pH and Nimodipine-sensitive [Ca] in the Suprachiasmatic Nucleus |
| Q37369724 | The electroretinogram as a method for studying circadian rhythms in the mammalian retina. |
| Q38859500 | The function and regulation of acid-sensing ion channels (ASICs) and the epithelial Na(+) channel (ENaC): IUPHAR Review 19. |
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