about
Identification of an immune-responsive mesolimbocortical serotonergic system: potential role in regulation of emotional behaviorChallenges in the Diagnosis and Management of Well-Differentiated Neuroendocrine Tumors of the Lung (Typical and Atypical Carcinoid): Current Status and Future ConsiderationsHistorical perspectives of cellular oxygen sensing and responses to hypoxiaPost-transcriptional control of human maxiK potassium channel activity and acute oxygen sensitivity by chronic hypoxiaAcute oxygen sensing: diverse but convergent mechanisms in airway and arterial chemoreceptorsSelective gene expression analysis of the neuroepithelial body microenvironment in postnatal lungs with special interest for potential stem cell characteristics.Chemosensory functions for pulmonary neuroendocrine cellsGABAergic signaling in the pulmonary neuroepithelial body microenvironment: functional imaging in GAD67-GFP mice.Airway chemotransduction: from oxygen sensor to cellular effector.Nitrosamines as nicotinic receptor ligandsThe growth factor independence-1 transcription factor: new functions and new insights.Pulmonary neuroendocrine cell system in pediatric lung disease-recent advances.Using guinea pigs in studies relevant to asthma and COPD.Sensory innervation of the Gills: O2-sensitive chemoreceptors and mechanoreceptors.That warm fuzzy feeling: brain serotonergic neurons and the regulation of emotion.Are nicotine replacement therapy, varenicline or bupropion options for pregnant mothers to quit smoking? Effects on the respiratory system of the offspring.Mechanisms of respiratory innervation during embryonic development.Sensory nerves in lung and airways.NOX2 (gp91phox) is a predominant O2 sensor in a human airway chemoreceptor cell line: biochemical, molecular, and electrophysiological evidence.Loss of GFI1 impairs pulmonary neuroendorine cell proliferation, but the neuroendocrine phenotype has limited impact on post-naphthalene airway repairExpression of neuroendocrine markers in non-small cell lung cancer.Mechanical stretch-induced serotonin release from pulmonary neuroendocrine cells: implications for lung development.Cystic fibrosis transmembrane conductance regulator modulates neurosecretory function in pulmonary neuroendocrine cell-related tumor cell line models.Hypoxia inhibits human recombinant large conductance, Ca(2+)-activated K(+) (maxi-K) channels by a mechanism which is membrane delimited and Ca(2+) sensitive.Pulmonary neuroendocrine cells, airway innervation, and smooth muscle are altered in Cftr null mice.Dual sensory innervation of pulmonary neuroepithelial bodies.Combined antisense and pharmacological approaches implicate hTASK as an airway O(2) sensing K(+) channel.Expression of CFTR and Cl(-) conductances in cells of pulmonary neuroepithelial bodies.Neuroepithelial bodies: a morphologic substrate for the link between neuronal nitric oxide and sensitivity to airway hypoxia?Expression of functional nicotinic acetylcholine receptors in neuroepithelial bodies of neonatal hamster lung.Role of endogenous carbon monoxide in the control of breathing in zebrafish (Danio rerio).Neuronal nicotinic acetylcholine receptors: not just in brain.Innervation of pulmonary neuroendocrine cells and neuroepithelial bodies in developing rabbit lung.Development of the neural crest-derived intrinsic innervation of the human lung.Reflexes of the lung and airways.Carbon dioxide enhances substance P-induced epithelium-dependent bronchial smooth muscle relaxation in Sprague-Dawley rats.Sporadic coordinated shifts of regional ventilation and perfusion in juvenile pigs with normal gas exchange.Pulmonary neuroepithelial bodies are polymodal airway sensors: evidence for CO2/H+ sensing.Pulmonary neuroendocrine cells and neuroepithelial bodies in sudden infant death syndrome: potential markers of airway chemoreceptor dysfunction.Sensory Processing and Integration at the Carotid Body Tripartite Synapse: Neurotransmitter Functions and Effects of Chronic Hypoxia.
P2860
Q24684368-BE72BA39-4E51-4BE5-B3B8-FAF7A4EE10E1Q28084155-CC39E43D-075A-45E4-A435-E24BF6F79168Q28140830-236295A2-9572-4F84-9994-63D859C57D60Q28206353-686FA27F-F568-492D-947E-C0650B8E864CQ28362891-D6E0F435-169B-416C-8A66-67C631DF6EA2Q33651475-EF0707E9-CFAF-437E-A597-4C7E55D3A2E4Q33799656-282897D1-9F7F-443B-B351-F290CD061FD3Q34660046-26E798E0-E752-4B54-953D-3E23CC84CD4DQ35019710-18EE2AC4-2FCB-4C35-9266-6FE94C6EDB30Q36004695-D5FD35E8-81A4-417E-868C-9FADFC822184Q36485192-0F81EE68-7640-448B-A3F9-7A2EEEB2A0ACQ37000667-3E9732D7-CA97-4FC2-97B1-8B6FD0C5D350Q37157003-062244CE-7CE1-45C2-8BF8-2F7C40EC7DCAQ37330607-2FD4E865-DE5A-416D-B399-BE0E8D43ED23Q37346829-657BE525-292D-4492-91FB-AA803B6F1C17Q37586662-80CB910C-E446-456A-A18D-531E8040DF21Q38131278-B4A61CA4-2620-45A8-86EC-717357850A56Q38201386-0D2D2804-D973-4A2A-820D-AB33F5853165Q39302060-9EA494BC-FCD1-4AEE-A67F-77A720D57503Q39637834-4DB7AB07-805A-4807-A935-CAFEE066655AQ40242983-F6340FF8-79C9-44CC-8828-83D161372F6AQ40385296-DFBA0051-CBF3-4C66-926E-E512BFD9F46AQ40694654-04FA6484-AAD4-485E-91C6-9F3C005D7940Q40734768-4E3635C1-E9FC-48B3-9B78-40FFE3E702B5Q41824428-4B969299-16E1-4CE2-B06E-9292278FDDC0Q42437269-AD5AD7A1-CEFD-46B9-A265-1B5F741F97C2Q43601762-514A5F0C-1B4D-4360-AB9B-E8F80A259960Q43706783-D72E85EB-B78A-4F74-9096-8C9C960CFACCQ44062641-F83C2135-27B3-4CC1-A329-58E7CC083EF7Q44486008-0BDF3E95-9C12-460D-B945-8B2921BFDC56Q44585149-ACEF2319-B316-4596-AC3E-CEC592E5F8F2Q44646894-5ED187D8-06A9-4946-9379-ED6740C2D73BQ44765774-AD00C588-95CE-4A6A-857E-6BCCB69893D3Q46989313-A5BFC250-124D-4EA4-AC5C-67C5A001E6F3Q48543967-9D02273E-BDC8-4886-A0F5-D47BCCA1E84EQ50515016-DBD82120-CD9A-45DF-B50A-B8B814CF0E3FQ50960495-163E1286-B06B-4773-8802-A1E9A1FAF78FQ51744638-CD13F632-A4A1-4882-B891-B203BB59804AQ53563997-100E15EE-2260-4931-B2DF-B54FDB31F8BBQ54943256-4EF72EFE-A78F-4B51-98BC-A3CD6009883E
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Neuroepithelial bodies as airway oxygen sensors.
@ast
Neuroepithelial bodies as airway oxygen sensors.
@en
type
label
Neuroepithelial bodies as airway oxygen sensors.
@ast
Neuroepithelial bodies as airway oxygen sensors.
@en
prefLabel
Neuroepithelial bodies as airway oxygen sensors.
@ast
Neuroepithelial bodies as airway oxygen sensors.
@en
P1476
Neuroepithelial bodies as airway oxygen sensors.
@en
P2093
P304
P356
10.1016/S0034-5687(99)00018-3
P577
1999-04-01T00:00:00Z