P2X2 receptors differentiate placodal vs. neural crest C-fiber phenotypes innervating guinea pig lungs and esophagus. - Wikidata - awgldk - TriplyDB

P2X2 receptors differentiate placodal vs. neural crest C-fiber phenotypes innervating guinea pig lungs and esophagus.

P2X2 receptors differentiate placodal vs. neural crest C-fiber phenotypes innervating guinea pig lungs and esophagus.

http://www.wikidata.org/entity/Q36977275

about

The therapeutic promise of ATP antagonism at P2X3 receptors in respiratory and urological disorders Oxidative stress as activators of sensory nerves for cough Thy1.2 YFP-16 transgenic mouse labels a subset of large-diameter sensory neurons that lack TRPV1 expression In pursuit of P2X3 antagonists: novel therapeutics for chronic pain and afferent sensitization.Neuromodulation by extracellular ATP and P2X receptors in the CNS.Differential purinergic signaling in bladder sensory neurons of naïve and bladder-inflamed mice Calcium transient evoked by TRPV1 activators is enhanced by tumor necrosis factor-{alpha} in rat pulmonary sensory neurons.Adenosine-induced activation of esophageal nociceptors.Characterization of synapses in the rat subnucleus centralis of the nucleus tractus solitarius.A synergistic effect of simultaneous TRPA1 and TRPV1 activations on vagal pulmonary C-fiber afferents Vanilloid, purinergic, and CCK receptors activate glutamate release on single neurons of the nucleus tractus solitarius centralis.TRPM8 function and expression in vagal sensory neurons and afferent nerves innervating guinea pig esophagus Role of calcium ions in the positive interaction between TRPA1 and TRPV1 channels in bronchopulmonary sensory neurons Neurotrophin and GDNF family ligand receptor expression in vagal sensory nerve subtypes innervating the adult guinea pig respiratory tract.The Role of the Paratrigeminal Nucleus in Vagal Afferent Evoked Respiratory Reflexes: A Neuroanatomical and Functional Study in Guinea Pigs Selective inhibition of vagal afferent nerve pathways regulating cough using Nav 1.7 shRNA silencing in guinea pig nodose ganglia.The role of trigeminal nasal TRPM8-expressing afferent neurons in the antitussive effects of menthol.Transient receptor potential cation channel, subfamily V, member 4 and airway sensory afferent activation: Role of adenosine triphosphate.Vagal Afferent Innervation of the Airways in Health and Disease.Cough and gastroesophageal reflux: insights from animal models.Sensing pulmonary oxidative stress by lung vagal afferents.Targeting peripheral afferent nerve terminals for cough and dyspnea.Sensory nerves in lung and airways.Preferential activation of the vagal nodose nociceptive subtype by TRPA1 agonists in the guinea pig esophagus.Role of reactive oxygen species and TRP channels in the cough reflex.The nervous system of airways and its remodeling in inflammatory lung diseases.P2X3 antagonists: novel therapeutics for afferent sensitization and chronic pain.Altered expression of P2X3 in vagal and spinal afferents following esophagitis in rats.Acid sensitivity of the spinal dorsal root ganglia C-fiber nociceptors innervating the guinea pig esophagus The emerging role of transient receptor potential channels in chronic lung disease.Sensory neuron-specific GPCR Mrgprs are itch receptors mediating chloroquine-induced pruritus.Vagal afferent nerves with the properties of nociceptors.The expression profile of acid-sensing ion channel (ASIC) subunits ASIC1a, ASIC1b, ASIC2a, ASIC2b, and ASIC3 in the esophageal vagal afferent nerve subtypes.Evidence for multiple sensory circuits in the brain arising from the respiratory system: an anterograde viral tract tracing study in rodents.Characterization of cardiovascular reflexes evoked by airway stimulation with allylisothiocyanate, capsaicin, and ATP in Sprague-Dawley rats.Distinct and common expression of receptors for inflammatory mediators in vagal nodose versus jugular capsaicin-sensitive/TRPV1-positive neurons detected by low input RNA sequencing.Thrombin and trypsin directly activate vagal C-fibres in mouse lung via protease-activated receptor-1.Phenotypic distinctions between neural crest and placodal derived vagal C-fibres in mouse lungs.Transgene expression and effective gene silencing in vagal afferent neurons in vivo using recombinant adeno-associated virus vectors.Activation of mouse bronchopulmonary C-fibres by serotonin and allergen-ovalbumin challenge.

P2860

Q27027820-245BEFCA-1D5C-4E0E-94D9-7E45C66F15FC Q28083707-46D67F94-4C6B-4815-B460-23ECE2CED252 Q28543902-2AE0EC76-2A88-498C-8F40-4C51BF5EF696 Q30409620-037AD477-FF2D-4D36-9E72-7C60AE3D82F6 Q33781729-76E9D1BE-CC93-4E6C-842C-4206BF2B8CF7 Q33817780-9A79B22D-905A-4139-82A7-6B53D10983CB Q34212700-5AB48318-2BBD-4137-BBA3-1802BF88669E Q34719090-E8586243-C589-4666-9912-C008AB4E3451 Q34980550-56D1C428-D751-4BE6-AE2C-CD8197F9CAB9 Q35034872-FC51DBBF-575F-447D-8DA4-2DEBC9BAE090 Q35160105-8B22931B-B919-452D-937C-FA1D1A9BC3FD Q35178648-32AA4AB8-1168-4F37-B646-AC59F496876C Q35749779-92056234-747E-4E6A-8F99-D62402A526FB Q35771548-ACC8B8E9-DE4C-41E4-8F98-FCD207177D4D Q36387484-A3BDDE9B-1C6F-466C-A646-6A1DD24B5100 Q36923884-4C5EBCB3-B04E-4243-9C56-16439D64679A Q37054644-B1B18813-4144-4D5B-A9AC-AAA39EBD4748 Q37056667-23D9DCE5-C92F-4347-AA40-77D2937BBEBA Q37169500-CDD51FED-1AE6-4C3E-B42B-135AAF1DC800 Q37367028-7CE70C14-10DD-4A83-AFC0-7057D3BE987B Q37877826-E175C791-97D5-4C16-8C33-F35E17C07E40 Q37894474-B0FC5B98-3AC4-4621-BD2B-0A664A8A3136 Q38201386-2A8F6F22-CFAC-48F5-AC03-7DAEAD04B6B6 Q38507579-8835F667-1FB1-40CF-BE56-D23D6137E760 Q38789318-181212F6-2A21-4572-825A-0688880F508A Q39090248-5023299D-73DD-4677-85EC-7F1DA8EFADBE Q39248588-451C0B73-9409-4AD4-AD4D-42FEE2192DF2 Q39848697-3C3D7F40-A20E-41EA-ABBD-165E67EBD10B Q41181641-CAB338A0-A645-4F1C-A73A-A5B563F3E364 Q41355467-2DF0C02F-48E8-4C4B-B826-4235C0DCF1C4 Q41686577-882A5DE1-AA96-41D8-8DEF-D62D0A7EA718 Q41970715-2B509E17-9D6D-4728-AC56-12DC655DA434 Q42065792-869E6205-2673-49D3-B95C-6B73ED3DD8F5 Q42197819-95969CF1-62C8-4B07-9365-901ABC72917E Q42564530-74304B49-50DD-4CCA-86FA-5B98FC1DDF3B Q42713333-4C91F225-D70B-49DF-8CF9-1537D909EF82 Q43168385-24229EF2-E33A-4106-A444-F0489139E83C Q44194195-954B5371-4645-4227-A8E5-D31D03EE3134 Q45373500-2C4CB708-2877-4E82-A0C5-7B8C7E1BABF3 Q47242227-BF944D20-13B6-42A1-BD75-EA34DA8DED67

P2860

P2X2 receptors differentiate placodal vs. neural crest C-fiber phenotypes innervating guinea pig lungs and esophagus.

http://www.wikidata.org/entity/Q36977275

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

2008年论文

@zh

2008年论文

@zh-cn

name

P2X2 receptors differentiate p ...... uinea pig lungs and esophagus.

@en

type

label

P2X2 receptors differentiate p ...... uinea pig lungs and esophagus.

@en

prefLabel

P2X2 receptors differentiate p ...... uinea pig lungs and esophagus.

@en

P1433

Q36977275-C6BEC08D-44C3-4104-9B8F-7EBB6BC66719

P1476

Q36977275-B1D8C968-F228-4B8D-BA64-4087D7774D2A

P2093

Q36977275-507C8DC1-AE5F-4054-A0A6-A822C5DDF104

Q36977275-8FBB2A4E-3A95-4E83-A4F7-86BFD870EE7F

Q36977275-B32A102C-D451-4E93-8CE9-2FF46C559704

Q36977275-E46F7931-C871-4647-B392-4C5332E7FAD9

Q36977275-E78FBB76-F024-4FC6-B3CD-88EDF91A6969

P2860

Q36977275-007F0000-79C9-468A-8EF7-E1DE9BD4D812

Q36977275-02600371-A15F-4378-BC0F-1CD08B612291

Q36977275-0F5EA62D-896E-4A93-B7D2-1C923188F0A8

Q36977275-13339062-C270-4CD9-818B-014E70CD8E20

Q36977275-273A0548-F245-4C8B-A3B8-FBCB6E5C9364

Q36977275-283C9605-1B7F-4EFC-A621-2D83C0CFCCF0

Q36977275-367B95C9-1654-4377-9FDE-171E27A73ED9

Q36977275-36993F8D-FDBD-4440-AE62-AEDA499796CB

Q36977275-4ADB6286-4EFA-4BE6-8368-B05E78E823AE

Q36977275-4B342557-DA2D-4E17-BE3F-7A9063F58F96

P304

Q36977275-4B85E7C2-F386-4C3E-A5D7-A491E9321CAF

P31

Q36977275-413A1ADE-A9DC-4A56-AC6C-54ABCE764959

P356

Q36977275-81CDD1D8-F6DA-484A-8580-F66E114FA8A8

P433

Q36977275-345288DC-ECC0-41C1-88C9-8D589E7EB265

P478

Q36977275-39235B9B-8060-421B-AFC0-43BEED349647

P577

Q36977275-28C95F12-C191-4129-B682-7216226431B5

P5875

Q36977275-BEE973D3-255D-4FBB-BFAD-3159B25FFFAB

P698

Q36977275-B6A73F5E-E6D1-4DFD-9560-692D88E51E55

P932

Q36977275-1FA20C7A-93F1-4A5B-ABBC-B10E2F59979B

P356

AJPLUNG.90360.2008

P1433

American Journal of Physiology - Lung Cellular and Molecular Physiology

P1476

P2X2 receptors differentiate p ...... uinea pig lungs and esophagus.

@en

P2093

Bradley J Undem

http://www.w3.org/2001/XMLSchema#string

Christina Nassenstein

http://www.w3.org/2001/XMLSchema#string

Fei Ru

http://www.w3.org/2001/XMLSchema#string

Kevin Kwong

http://www.w3.org/2001/XMLSchema#string

Marian Kollarik

http://www.w3.org/2001/XMLSchema#string

P2860

P2X1 and P2X3 receptors form stable trimers: a novel structural motif of ligand-gated ion channels.

International union of pharmacology. XXIV. Current status of the nomenclature and properties of P2X receptors and their subunits

P2X2 knockout mice and P2X2/P2X3 double knockout mice reveal a role for the P2X2 receptor subunit in mediating multiple sensory effects of ATP

Afferent properties and reflex functions of bronchopulmonary C-fibers.

P2X receptors in peripheral neurons.

Coexpression of P2X2 and P2X3 receptor subunits can account for ATP-gated currents in sensory neurons.

A-317491, a novel potent and selective non-nucleotide antagonist of P2X3 and P2X2/3 receptors, reduces chronic inflammatory and neuropathic pain in the rat.

Diinosine pentaphosphate: an antagonist which discriminates between recombinant P2X(3) and P2X(2/3) receptors and between two P2X receptors in rat sensory neurones

"Runx"ing towards sensory differentiation.

Vagal sensory receptors and their reflex effects.

P304

L858-65

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1152/AJPLUNG.90360.2008

http://www.w3.org/2001/XMLSchema#string

P433

5

http://www.w3.org/2001/XMLSchema#string

P478

295

http://www.w3.org/2001/XMLSchema#string

P577

2008-08-08T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

23158360

http://www.w3.org/2001/XMLSchema#string

P698

18689601

http://www.w3.org/2001/XMLSchema#string

P932

2584877

http://www.w3.org/2001/XMLSchema#string