about
Facilitation of TRPV4 by TRPV1 is required for itch transmission in some sensory neuron populationsOptical control demonstrates switch-like PIP3 dynamics underlying the initiation of immune cell migration.A G-protein subunit translocation embedded network motif underlies GPCR regulation of calcium oscillationsDescending control of itch transmission by the serotonergic system via 5-HT1A-facilitated GRP-GRPR signalingSubcellular optogenetics - controlling signaling and single-cell behavior.Reversible G Protein βγ9 Distribution-Based Assay Reveals Molecular Underpinnings in Subcellular, Single-Cell, and Multicellular GPCR and G Protein Activity.Metal-activated C-peptide facilitates glucose clearance and the release of a nitric oxide stimulus via the GLUT1 transporter.The structure of dynamic GPCR signaling networks.Hydroxyurea stimulates the release of ATP from rabbit erythrocytes through an increase in calcium and nitric oxide production.Alteration of Golgi structure in senescent cells and its regulation by a G protein γ subunit.Gγ identity dictates efficacy of Gβγ signaling and macrophage migration.Measurement of GPCR-G protein activity in living cells.Two independent but synchronized Gβγ subunit-controlled pathways are essential for trailing-edge retraction during macrophage migration.G protein γ (Gγ) subtype dependent targeting of GRK2 to M3 receptor by Gβγ.Blue light excited retinal intercepts cellular signaling.Melanopsin (Opn4) utilizes Gαi and Gβγ as major signal transducersRegulation of G Protein βγ SignalingComparison of Calcium Dynamics and Specific Features for G Protein-Coupled Receptor-Targeting Drugs Using Live Cell Imaging and Automated AnalysisStatins Perturb Gβγ Signaling and Cell Behavior in a Gγ Subtype Dependent Manner
P50
Q28816919-64609CA5-0FE7-4BD0-B385-CC5ED288246EQ30539244-927F9881-EC8F-4EFD-BD01-3C2BCEC6C9B5Q33990930-9B91AF2A-FF06-442B-B455-B856AF4D4C55Q34625536-BF9ED9D8-B5E8-4E6E-803B-008B8A31CD24Q34803206-F6948B52-CD8B-49F9-AC63-C347CD097880Q36173816-9B55301D-B9F4-4C24-8E2A-6DC45FA0C761Q37426635-7BE3D8BE-28E1-4314-9207-7DA507F8F6DEQ38205234-DE4D26D9-6590-4D76-8723-78C83ACBA214Q40506406-F8B2251E-4FC0-4407-9374-5D96297F7B79Q42725466-13D914A9-09EB-48C6-B69B-038164467202Q47215817-29A0D024-98F5-4B8F-A776-D69EA1BD721DQ47721718-41E434A9-5F81-4F0E-918E-2DB360E41299Q47867509-5771C0FE-F6E6-417D-AEDB-D3BA6C5159B8Q54977176-B1339F8F-26BE-408A-BEF0-BA7CFAD76138Q55652682-A4A9704B-75E7-44AD-A955-1A6194648876Q88523553-68B48CCB-451E-4740-933C-EA2FD58F9163Q88731077-CC8DF271-37FE-4694-BE74-B9893854CBC7Q89428889-9F134079-80F6-406F-BEFB-FAA2781B906FQ91594463-D686ADF4-2121-4290-9DB4-3FDD575D0421
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
ricercatore
@it
wetenschapper
@nl
研究者
@zh
name
Ajith Karunarathne
@ast
Ajith Karunarathne
@en
Ajith Karunarathne
@es
Ajith Karunarathne
@nl
type
label
Ajith Karunarathne
@ast
Ajith Karunarathne
@en
Ajith Karunarathne
@es
Ajith Karunarathne
@nl
prefLabel
Ajith Karunarathne
@ast
Ajith Karunarathne
@en
Ajith Karunarathne
@es
Ajith Karunarathne
@nl
P31
P496
0000-0003-3136-2015