Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
about
TRP Channels in Skin Biology and PathophysiologyFunction and regulation of TRPP2 ion channel revealed by a gain-of-function mutantHeterologously-expressed and Liposome-reconstituted Human Transient Receptor Potential Melastatin 4 Channel (TRPM4) is a Functional Tetramer.Rational design and validation of a vanilloid-sensitive TRPV2 ion channelSelective antagonism of TRPA1 produces limited efficacy in models of inflammatory- and neuropathic-induced mechanical hypersensitivity in rats.TRPA1 mediated aggravation of allergic contact dermatitis induced by DINP and regulated by NF-κB activation.TRP functions in the broncho-pulmonary system.Analysis of inter-residue contacts reveals folding stabilizers in P-loops of potassium, sodium, and TRPV channels.Cryo-EM structures of the mammalian endo-lysosomal TRPML1 channel elucidate the combined regulation mechanism.Swapping of transmembrane domains in the epithelial calcium channel TRPV6.A high-conductance chemo-optogenetic system based on the vertebrate channel Trpa1b.TRPA1-FGFR2 binding event is a regulatory oncogenic driver modulated by miRNA-142-3pAn environmental pollutant, 9,10-phenanthrenequinone, activates human TRPA1 via critical cysteines 621 and 665.TRPC Channel Structure and Properties.Shared CaM- and S100A1-binding epitopes in the distal TRPM4 N terminus.TRPA1 channels: molecular sentinels of cellular stress and tissue damage.Phosphorylation of the Transient Receptor Potential Ankyrin 1 by Cyclin-dependent Kinase 5 affects Chemo-nociception.Magnetic control of cellular processes using biofunctional nanoparticles.N-Acetyl-L-cysteine inhibits sulfur mustard-induced and TRPA1-dependent calcium influx.
P2860
Q28066420-84AA9A6C-95E3-4B8C-9A6C-363E01BB5856Q29147455-EE927A02-52B8-4D83-BC9E-14CB49B9765CQ35898155-B45AFC60-7FF1-4D40-A8A6-B540B0C21A14Q37065232-D0F8C620-6433-4FDA-A5C1-B8D40A52C04CQ37461547-B07B9A4C-6650-41F8-940B-9F2A623EF978Q37667869-7590DAF2-A526-4C66-A4F6-57EF8F8C3165Q38809502-FE61B810-5E4E-4831-B795-2D583B9C812EQ40233247-BE1D44EA-7DF4-418F-9F66-5708FE66DD27Q41596382-30A52E5E-F536-48A5-8A11-54BDB9B9D007Q41635630-CF0F8BFC-DD15-4726-8312-19FD741E1042Q41717577-B7C71C67-C502-476B-A7E6-A52A2D5C9731Q42378963-F1B224F2-C8B1-46D6-A13E-33FAF3378891Q46275971-07511254-504A-4172-9EA3-B11C7EB74205Q46663560-B9BA32ED-9024-409F-9676-238652D0ADC5Q47294438-34DCAD7C-8B3D-4784-BF53-E011F7053083Q47318311-5E76F7EE-8DD8-4635-AFCD-B3CACDAB2713Q48204556-02094F46-08E1-4C50-8943-75188018998DQ48258652-B7968988-3DA6-44FC-B46F-D7BEA4ACB099Q48302303-37E65D85-757B-4845-8E91-D1BFBDBC3124
P2860
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в липні 2015
@uk
name
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@en
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@nl
type
label
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@en
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@nl
prefLabel
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@en
Erratum: Structure of the TRPA1 ion channel suggests regulatory mechanisms
@nl
P2093
P356
P1433
P1476
Structure of the TRPA1 ion channel suggests regulatory mechanisms
@en
P2093
Candice E Paulsen
David Julius
Yifan Cheng
P2888
P356
10.1038/NATURE14871
P407
P577
2015-07-22T00:00:00Z
P6179
1014860403