| scholarly article | Q13442814 |
| P2093 | author name string | Charles W Leffler | |
| Padmaja Koneru | |||
| P2860 | cites work | Carbon monoxide of vascular origin attenuates the sensitivity of renal arterial vessels to vasoconstrictors | Q28364549 |
| Carbon Monoxide: a Putative Neural Messenger | Q34305648 | ||
| Smooth muscle cell-derived carbon monoxide is a regulator of vascular cGMP. | Q34623491 | ||
| cGMP and S-nitrosylation: two routes for modulation of neuronal excitability by NO. | Q34831503 | ||
| Endothelial cell expression of vasoconstrictors and growth factors is regulated by smooth muscle cell-derived carbon monoxide | Q35767918 | ||
| Does carbon monoxide have a physiological function? | Q37215663 | ||
| The heme oxygenase system: a regulator of second messenger gases | Q41455806 | ||
| Different Pial Arteriolar Responses to Acetylcholine in the Newborn and Juvenile Pig | Q41662990 | ||
| Carbon monoxide formation in the ductus arteriosus in the lamb: implications for the regulation of muscle tone | Q41790996 | ||
| cAMP induces heme oxygenase-1 gene expression and carbon monoxide production in vascular smooth muscle | Q42442380 | ||
| Contributions of prostacyclin and nitric oxide to carbon monoxide-induced cerebrovascular dilation in piglets | Q43541600 | ||
| Carbon monoxide produced by isolated arterioles attenuates pressure-induced vasoconstriction | Q43640301 | ||
| Role of carbon monoxide in glutamate receptor-induced dilation of newborn pig pial arterioles | Q43988629 | ||
| Carbon monoxide dilates cerebral arterioles by enhancing the coupling of Ca2+ sparks to Ca2+-activated K+ channels. | Q44167979 | ||
| Mechanism of glutamate stimulation of CO production in cerebral microvessels | Q44353628 | ||
| Carbon monoxide mediates vasodilator effects of glutamate in isolated pressurized cerebral arterioles of newborn pigs | Q44383882 | ||
| Modulation of cyclic guanosine monophosphate levels in cultured aortic smooth muscle cells by carbon monoxide | Q44570929 | ||
| Regulation of cyclic GMP levels in the rat frontal cortex in vivo: effects of exogenous carbon monoxide and phosphodiesterase inhibition | Q48708648 | ||
| Expression of heme oxygenase-2 (HO-2)-like immunoreactivity in rat tissues | Q49029483 | ||
| Increases in cyclic AMP levels in rat brain regions in vivo following isoproterenol | Q49132427 | ||
| Glutamate-induced cerebral vasodilation is mediated by nitric oxide through N-methyl-D-aspartate receptors | Q49227362 | ||
| Carbon monoxide-releasing molecules: characterization of biochemical and vascular activities. | Q53674243 | ||
| P433 | issue | 1 | |
| P921 | main subject | carbon monoxide | Q2025 |
| P304 | page(s) | H304-9 | |
| P577 | publication date | 2004-01-01 | |
| P1433 | published in | American Journal of Physiology Heart and Circulatory Physiology | Q3193662 |
| P1476 | title | Role of cGMP in carbon monoxide-induced cerebral vasodilation in piglets | |
| P478 | volume | 286 |
| Q46892814 | A novel role for carbon monoxide as a potent regulator of intracellular Ca2+ and nitric oxide in rat pancreatic acinar cells |
| Q34307776 | Carbon Monoxide and the brain: time to rethink the dogma |
| Q24537955 | Carbon monoxide and hydrogen sulfide: gaseous messengers in cerebrovascular circulation. |
| Q35087025 | Carbon monoxide as an endogenous vascular modulator |
| Q37799882 | Carbon monoxide in biology and microbiology: surprising roles for the "Detroit perfume". |
| Q36699843 | Carbon monoxide stimulates Ca2+ -dependent big-conductance K channels in the cortical collecting duct |
| Q38112043 | Carbon monoxide transport and actions in blood and tissues |
| Q35758602 | Carbon monoxide: to boldly go where NO has gone before |
| Q50231132 | Cerebral artery signal transduction mechanisms: developmental changes in dynamics and Ca2+ sensitivity |
| Q37090266 | Cerebroprotective functions of HO-2. |
| Q41901853 | Cytochrome bd-I in Escherichia coli is less sensitive than cytochromes bd-II or bo'' to inhibition by the carbon monoxide-releasing molecule, CORM-3: N-acetylcysteine reduces CO-RM uptake and inhibition of respiration. |
| Q35687691 | Dependence of acetylcholine and ADP dilation of pial arterioles on heme oxygenase after transfusion of cell-free polymeric hemoglobin |
| Q36229368 | Distinct effects of intravascular and extravascular angiotensin II on cerebrovascular circulation of newborn pigs |
| Q28087154 | Extracellular hemoglobin: the case of a friend turned foe |
| Q33656069 | Glutamate regulates Ca2+ signals in smooth muscle cells of newborn piglet brain slice arterioles through astrocyte- and heme oxygenase-dependent mechanisms |
| Q37086406 | Heme oxygenase is necessary for the excitatory response of cultured neonatal rat rostral ventrolateral medulla neurons to hypoxia |
| Q34078151 | Interactions of multiple gas-transducing systems: hallmarks and uncertainties of CO, NO, and H2S gas biology |
| Q37286471 | Low doses of carbon monoxide protect against experimental focal brain ischemia |
| Q40645314 | Nitric oxide increases carbon monoxide production by piglet cerebral microvessels |
| Q45263659 | Permissive contributions of NO and prostacyclin in CO-induced cerebrovascular dilation in piglets |
| Q46090471 | Photodelivery of CO by designed PhotoCORMs: correlation between absorption in the visible region and metal-CO bond labilization in carbonyl complexes |
| Q37109201 | Roles of glia limitans astrocytes and carbon monoxide in adenosine diphosphate-induced pial arteriolar dilation in newborn pigs |
| Q29036279 | The therapeutic potential of carbon monoxide |
| Q57318136 | Therapeutic Aspects of Carbon Monoxide in Cardiovascular Disease |
| Q33994839 | Time-dependent action of carbon monoxide on the newborn cerebrovascular circulation |
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