scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1022660521 |
P356 | DOI | 10.1038/NCHEMBIO.1428 |
P698 | PubMed publication ID | 24390427 |
P50 | author | Rudi Vennekens | Q37840068 |
Thomas Voets | Q40270934 | ||
Joris Vriens | Q55692142 | ||
Balázs István Tóth | Q57316650 | ||
P2093 | author name string | Bernd Nilius | |
Annelies Janssens | |||
Katharina Held | |||
Sara Kerselaers | |||
P2860 | cites work | Alternative splicing switches the divalent cation selectivity of TRPM3 channels | Q24299887 |
The capsaicin receptor: a heat-activated ion channel in the pain pathway | Q24322558 | ||
International Union of Basic and Clinical Pharmacology. LXXVI. Current progress in the mammalian TRP ion channel family | Q24623493 | ||
Design of a potent and selective inhibitor of the intermediate-conductance Ca2+-activated K+ channel, IKCa1: a potential immunosuppressant | Q24675998 | ||
TRP-PLIK, a bifunctional protein with kinase and ion channel activities | Q28143098 | ||
The conduction pore of a cardiac potassium channel | Q28262167 | ||
Transient receptor potential cation channels in disease | Q28284143 | ||
In vitro susceptibilities of clinical yeast isolates to the new antifungal eberconazole compared with their susceptibilities to clotrimazole and ketoconazole | Q28343297 | ||
TRPA1 contributes to cold, mechanical, and chemical nociception but is not essential for hair-cell transduction | Q28505709 | ||
Identification of a cold receptor reveals a general role for TRP channels in thermosensation | Q28580334 | ||
Homo- and heterotetrameric architecture of the epithelial Ca2+ channels TRPV5 and TRPV6. | Q28586678 | ||
Nociceptor and hair cell transducer properties of TRPA1, a channel for pain and hearing | Q28588331 | ||
TRP channels as cellular sensors | Q29615917 | ||
TRPA1 acts as a cold sensor in vitro and in vivo | Q30485737 | ||
TRPM3 channel stimulated by pregnenolone sulphate in synovial fibroblasts and negatively coupled to hyaluronan | Q33595202 | ||
A double-blind randomized comparative trial: eberconazole 1% cream versus clotrimazole 1% cream twice daily in Candida and dermatophyte skin infections | Q34085890 | ||
Tamoxifen: a most unlikely pioneering medicine | Q34180688 | ||
The Ca2+-activated cation channel TRPM4 is regulated by phosphatidylinositol 4,5-biphosphate | Q34410954 | ||
Overview of molecular relationships in the voltage-gated ion channel superfamily. | Q34480285 | ||
Novel inhibitors of the Gardos channel for the treatment of sickle cell disease | Q34743319 | ||
Transient receptor potential M3 channels are ionotropic steroid receptors in pancreatic beta cells. | Q34870762 | ||
Potentially predictive and manipulable blood serum correlates of aging in the healthy human male: progressive decreases in bioavailable testosterone, dehydroepiandrosterone sulfate, and the ratio of insulin-like growth factor 1 to growth hormone | Q36660056 | ||
Menthol pain relief through cumulative inactivation of voltage-gated sodium channels | Q39254610 | ||
Agonist-induced changes in Ca(2+) permeation through the nociceptor cation channel TRPA1. | Q39344547 | ||
Ligand stoichiometry of the cold- and menthol-activated channel TRPM8. | Q39482079 | ||
TRPM3 is a nociceptor channel involved in the detection of noxious heat | Q39545788 | ||
TRPV1 shows dynamic ionic selectivity during agonist stimulation. | Q39994761 | ||
TRPM8 voltage sensor mutants reveal a mechanism for integrating thermal and chemical stimuli | Q40172246 | ||
Inhibition of TRPM2 channels by the antifungal agents clotrimazole and econazole. | Q40467443 | ||
The principle of temperature-dependent gating in cold- and heat-sensitive TRP channels | Q40526282 | ||
Outer pore architecture of a Ca2+-selective TRP channel | Q40596874 | ||
Molecular and functional characterization of the melastatin-related cation channel TRPM3. | Q40658876 | ||
Pore dilation of neuronal P2X receptor channels | Q40960421 | ||
Gated regulation of CRAC channel ion selectivity by STIM1. | Q40999366 | ||
Effect of insulin on area and Na+ channel density of apical membrane of cultured toad kidney cells | Q41411241 | ||
Dynamic changes in the TRPA1 selectivity filter lead to progressive but reversible pore dilation | Q43067153 | ||
Sex- and age-related changes in epitestosterone in relation to pregnenolone sulfate and testosterone in normal subjects. | Q43982468 | ||
The twisted ion-permeation pathway of a resting voltage-sensing domain | Q45002461 | ||
Voltage-sensing arginines in a potassium channel permeate and occlude cation-selective pores | Q45252796 | ||
A novel sustained-release clotrimazole varnish for local treatment of oral candidiasis. | Q46031059 | ||
Ion permeation through a voltage- sensitive gating pore in brain sodium channels having voltage sensor mutations | Q46615032 | ||
Transient receptor potential channels in sensory neurons are targets of the antimycotic agent clotrimazole | Q46804915 | ||
Gating pore current in an inherited ion channelopathy | Q48799799 | ||
Flutrimazole 1% dermal cream in the treatment of dermatomycoses: a randomized, multicentre, double‐blind, comparative clinical trial with 1% clotrimazole cream | Q72021052 | ||
P433 | issue | 3 | |
P304 | page(s) | 188-195 | |
P577 | publication date | 2014-01-05 | |
P1433 | published in | Nature Chemical Biology | Q904026 |
P1476 | title | Opening of an alternative ion permeation pathway in a nociceptor TRP channel | |
P478 | volume | 10 |
Q59072502 | A TRP channel trio mediates acute noxious heat sensing |
Q35212579 | Activation of TRPM3 by a potent synthetic ligand reveals a role in peptide release |
Q35122126 | Activation of TRPM7 channels by small molecules under physiological conditions |
Q42133705 | CREB, AP-1, ternary complex factors and MAP kinases connect transient receptor potential melastatin-3 (TRPM3) channel stimulation with increased c-Fos expression |
Q58791916 | Carboxamido steroids inhibit the opening properties of transient receptor potential ion channels by lipid raft modulation |
Q36924610 | Diclofenac, a nonsteroidal anti-inflammatory drug, is an antagonist of human TRPM3 isoforms |
Q58726115 | Functional Expression of TRP Ion Channels in Endometrial Stromal Cells of Endometriosis Patients |
Q95288881 | Gain of channel function and modified gating properties in TRPM3 mutants causing intellectual disability and epilepsy |
Q90220699 | Identification and classification of a new TRPM3 variant (γ subtype) |
Q38614213 | Inhibition of Transient Receptor Potential Melastatin 3 ion channels by G-protein βγ subunits. |
Q35946504 | Molecular and cellular mechanisms that initiate pain and itch |
Q64963359 | Molecular mechanisms of coupling to voltage sensors in voltage-evoked cellular signals. |
Q55401194 | Mutations in the voltage-sensing domain affect the alternative ion permeation pathway in the TRPM3 channel. |
Q90193598 | Noncanonical Ion Channel Behaviour in Pain |
Q26999694 | Permeation, regulation and control of expression of TRP channels by trace metal ions |
Q42403885 | Phosphoinositide regulation of TRPM channels - TRPM3 joins the club! |
Q36945667 | Phosphoinositide signaling in somatosensory neurons |
Q30846820 | Primidone inhibits TRPM3 and attenuates thermal nociception in vivo |
Q35795763 | Regulation of the transient receptor potential channel TRPM3 by phosphoinositides |
Q35126683 | Role of the outer pore domain in transient receptor potential vanilloid 1 dynamic permeability to large cations |
Q47176855 | Sensing the heat with TRPM3. |
Q36570932 | Stimulation-dependent gating of TRPM3 channel in planar lipid bilayers |
Q28066420 | TRP Channels in Skin Biology and Pathophysiology |
Q45930731 | TRP Channels: Pain enters through the side door. |
Q35101675 | TRPM3 expression in mouse retina. |
Q26745813 | TRPM3 in temperature sensing and beyond |
Q39994417 | TRPM3 joins the ranks of PI(4,5)P2 sensitive ion channels |
Q89763845 | TRPM3_miR-204: a complex locus for eye development and disease |
Q30836888 | The First Extracellular Linker Is Important for Several Aspects of the Gating Mechanism of Human TRPA1 Channel. |
Q64082085 | The TRPP2-dependent channel of renal primary cilia also requires TRPM3 |
Q35883351 | The molecular and cellular basis of thermosensation in mammals |
Q39405181 | The triggering pathway to insulin secretion: Functional similarities and differences between the human and the mouse β cells and their translational relevance |
Q26849317 | Transient receptor potential channels as drug targets: from the science of basic research to the art of medicine |
Q38222961 | What do we really know and what do we need to know: some controversies, perspectives, and surprises |
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