Hemichannels formed by connexin 43 play an important role in the release of prostaglandin E(2) by osteocytes in response to mechanical strain. - Wikidata - awgldk - TriplyDB

Hemichannels formed by connexin 43 play an important role in the release of prostaglandin E(2) by osteocytes in response to mechanical strain.

Hemichannels formed by connexin 43 play an important role in the release of prostaglandin E(2) by osteocytes in response to mechanical strain.

http://www.wikidata.org/entity/Q44697304

about

Intracellular Cleavage of the Cx43 C-Terminal Domain by Matrix-Metalloproteases: A Novel Contributor to Inflammation?In vitro and in vivo approaches to study osteocyte biology Mechanical strain opens connexin 43 hemichannels in osteocytes: a novel mechanism for the release of prostaglandin Gap junctions.Dendritic processes of osteocytes are mechanotransducers that induce the opening of hemichannels.Oscillating fluid flow activation of gap junction hemichannels induces ATP release from MLO-Y4 osteocytes.A new method to investigate how mechanical loading of osteocytes controls osteoblasts Cx43 and mechanotransduction in bone.Roles of gap junctions and hemichannels in bone cell functions and in signal transmission of mechanical stress.Gap junction- and hemichannel-independent actions of connexins Spinning around or stagnation - what do osteoblasts and chondroblasts really like?Connexin43 and pannexin1 channels in osteoblasts: who is the "hemichannel"?Gap junctions and hemichannels in signal transmission, function and development of bone Connexin43 hemichannels mediate small molecule exchange between chondrocytes and matrix in biomechanically-stimulated temporomandibular joint cartilage.Connexin channel permeability to cytoplasmic molecules.Absence of Cx43 selectively from osteocytes enhances responsiveness to mechanical force in mice Gap Junctions and Biophysical Regulation of Bone Cells Neurological manifestations of oculodentodigital dysplasia: a Cx43 channelopathy of the central nervous system?Connexin 43 hemichannel opening associated with Prostaglandin E(2) release is adaptively regulated by mechanical stimulation Mechanotransduction and strain amplification in osteocyte cell processes.Osteocyte primary cilium and its role in bone mechanotransduction.Lymphatic communication: connexin junction, what's your function?Connexins and pannexins: Coordinating cellular communication in the testis and epididymis.Paracrine signaling through plasma membrane hemichannels Advancing our understanding of osteocyte cell biology.Shifting paradigms on the role of connexin43 in the skeletal response to mechanical load.Regulation of hemichannels and gap junction channels by cytokines in antigen-presenting cells.Aberrant connexin26 hemichannels underlying keratitis-ichthyosis-deafness syndrome are potently inhibited by mefloquine.Dark horse in osteocyte biology: Glycocalyx around the dendrites is critical for osteocyte mechanosensing.Biological responses of osteocytic connexin 43 hemichannels to simulated microgravity.

P2860

Q26783641-C5B3A877-FF73-46C0-A779-E96074D18867 Q26858876-F9FC93A3-4E59-461C-A837-791589E2093A Q33876996-64F36F6B-947F-4E34-921E-E022AC3A0655 Q34020827-00AE1FC7-B2F4-4B63-B81A-067DDC40B505 Q34068635-0ADBD7F7-4B9E-4396-9853-D6D7C65A97B0 Q34090465-45BEC08E-7A12-42FA-87A9-5A8B7F403758 Q34658332-9BE552D5-22E7-4B6C-95B8-C29519164246 Q35163731-60F14EA1-C219-4CA1-B02A-38B77CBD73A0 Q35634085-837E1636-60A5-456C-9923-71C8B5C504E9 Q35697226-7317C088-A5DC-422A-8CF5-A24043488399 Q35958575-0BB4EF26-862C-436A-BDAD-0C8BA5C9E618 Q36186983-8B4FD5A3-9E43-4FF1-AED8-8EC77FAD9F6C Q36231023-4A1B11BE-A833-4075-BF81-9DA63FB79FC3 Q36446463-048B0111-502D-4D2F-868F-0E51AA8CBC9C Q36807032-0DA729B8-A2A1-49F8-8C3F-CDF9279A3B99 Q36874711-F43C4107-603A-41AB-9EC0-9A1AF2A5340C Q36916597-BBCB67D3-9F1E-4724-A2DF-A289150943FF Q37199244-A1E8F85B-8061-49B0-AB1F-EFBCC56F1387 Q37280096-951C99E5-67F4-4CAF-AC3B-A8FC74816552 Q37693128-5CFA4AC7-577B-43A4-986A-B79A4684AEB5 Q37730964-E5FA37FF-5B16-4126-B0C4-3082AEAC7CB3 Q37967901-E80AF341-3ECF-42A2-8D40-425B325FA4B3 Q37983849-296D458A-2F7D-4052-8847-F25E39B58489 Q38026335-6EE2CBBE-AEE2-4854-AA7E-30D26354C99A Q38032564-0014E22A-64C3-404B-88A4-D4245DF3E0F0 Q38192647-604AC2E8-D1E3-44B4-98A7-5DE97FCEF6A1 Q38258654-D86E077A-F659-44B8-9403-ED1C52AFB9E4 Q41946636-B9A2478C-4585-4056-9F4E-F570AFB4BF3F Q42236232-0210037D-A1C5-453F-B42F-6363D7DA1D03 Q47159313-96C99126-5356-432F-B7C2-7B02082CBA2F

P2860

Hemichannels formed by connexin 43 play an important role in the release of prostaglandin E(2) by osteocytes in response to mechanical strain.

http://www.wikidata.org/entity/Q44697304

description

2003 nî lūn-bûn

@nan

2003年の論文

@ja

2003年学术文章

@wuu

2003年学术文章

@zh

2003年学术文章

@zh-cn

2003年学术文章

@zh-hans

2003年学术文章

@zh-my

2003年学术文章

@zh-sg

2003年學術文章

@yue

2003年學術文章

@zh-hant

name

Hemichannels formed by connexi ...... the release of prostaglandin E

@nl

Hemichannels formed by connexi ...... response to mechanical strain.

@en

type

label

Hemichannels formed by connexi ...... the release of prostaglandin E

@nl

Hemichannels formed by connexi ...... response to mechanical strain.

@en

prefLabel

Hemichannels formed by connexi ...... the release of prostaglandin E

@nl

Hemichannels formed by connexi ...... response to mechanical strain.

@en

P1433

Q44697304-18AF0E3F-A13A-49F2-8F23-A91B01AC7407

P1476

Q44697304-B6C7CED2-B03C-4EB4-8B76-AA4F5BEEF1AC

P2093

Q44697304-D6D6E49F-109F-4421-896A-9A1D65183D3B

Q44697304-DFA00757-93FA-42FA-B4AE-2B283DD38F68

P2860

Q44697304-0C78EA6F-5F47-4A2C-A2E2-83E7135B8C19

Q44697304-0E7B297D-1768-4101-9F2D-C2DB80B9F3E2

Q44697304-13AD74E6-29A1-455F-94D7-7F74A31F9C6C

Q44697304-2048BBA0-50E6-481B-ADFA-338464D84F7D

Q44697304-23DC1BD6-ABD4-42C5-9E34-F2474875E007

Q44697304-24751C22-75E4-44D3-BE2A-1EC8AC37102B

Q44697304-2F88876A-33F0-4E20-88EB-648F55C8122F

Q44697304-315BC248-E063-4CCE-809C-94DE6434F7EF

Q44697304-418013F2-03FF-474D-A676-ADDB2FDD20FA

Q44697304-4B10FB48-3903-4FD2-8D2E-48F33202FB36

P304

Q44697304-5A4E7DEA-8E61-49F6-A5F9-6559062DA10B

P31

Q44697304-7AFBABDB-384A-4737-9D65-625BA7C150F7

P356

Q44697304-C86B00CD-81F5-4A34-8FC2-192AB21AB204

P433

Q44697304-A706D1A8-C3B2-482F-8771-7418017A8063

P478

Q44697304-FF592868-C934-4E74-83D2-D0D96E631F37

P577

Q44697304-ED3A6FDC-E4E4-4423-A570-A611411EA10F

P698

Q44697304-9BDD8E77-9165-4E14-9644-E1634FA81058

P356

CAC.10.4-6.259.264

P1433

Cell Communication & Adhesion

P1476

Hemichannels formed by connexi ...... response to mechanical strain.

@en

P2093

Jean X Jiang

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

Priscilla P Cherian

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

P2860

Substrate-induced regulation of gamma-aminobutyric acid transporter trafficking requires tyrosine phosphorylation

Ligand binding specificities of the eight types and subtypes of the mouse prostanoid receptors expressed in Chinese hamster ovary cells

Transduction of cell survival signals by connexin-43 hemichannels.

Molecular cloning and characterization of the four rat prostaglandin E2 prostanoid receptor subtypes.

Beyond the gap: functions of unpaired connexon channels.

Metabolic inhibition induces opening of unapposed connexin 43 gap junction hemichannels and reduces gap junctional communication in cortical astrocytes in culture.

Prostanoid receptors: subtypes and signaling.

Multisubunit assembly of an integral plasma membrane channel protein, gap junction connexin43, occurs after exit from the ER.

The eicosanoids and their biochemical mechanisms of action.

ATP release from human airway epithelial cells studied using a capillary cell culture system.

P304

259-264

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

P31

scholarly article

P356

10.1080/CAC.10.4-6.259.264

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

P433

4-6

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

P478

10

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

P577

2003-07-01T00:00:00Z

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

P698

14681026

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