about
Structure-function analysis of G protein-coupled receptor kinase-5. Role of the carboxyl terminus in kinase regulationIntravital imaging of mesenchymal stem cell trafficking and association with platelets and neutrophils.Mutational analysis of Gbetagamma and phospholipid interaction with G protein-coupled receptor kinase 2Essential role for the peroxiredoxin Prdx1 in erythrocyte antioxidant defence and tumour suppressionIntegrin avidity regulation: are changes in affinity and conformation underemphasized?RIAM, an Ena/VASP and Profilin ligand, interacts with Rap1-GTP and mediates Rap1-induced adhesionSelective regulation of Galpha(q/11) by an RGS domain in the G protein-coupled receptor kinase, GRK2ETS-related gene (ERG) controls endothelial cell permeability via transcriptional regulation of the claudin 5 (CLDN5) geneStructural basis of integrin regulation and signalingA small molecule agonist of an integrin, alphaLbeta2.Specific and covalent labeling of a membrane protein with organic fluorochromes and quantum dotsCdc42 interacting protein 4 (CIP4) is essential for integrin-dependent T-cell trafficking.Mesenchymal stem cells transmigrate between and directly through tumor necrosis factor-α-activated endothelial cells via both leukocyte-like and novel mechanismsRelease of cellular tension signals self-restorative ventral lamellipodia to heal barrier micro-wounds.Probing the biomechanical contribution of the endothelium to lymphocyte migration: diapedesis by the path of least resistance.Soluble adhesion molecules as markers for sepsis and the potential pathophysiological discrepancy in neonates, children and adults.Disrupting integrin transmembrane domain heterodimerization increases ligand binding affinity, not valency or clustering.Novel role of CD47 in rat microvascular endothelium: signaling and regulation of T-cell transendothelial migration.Role of BRAFV600E in the first preclinical model of multifocal infiltrating myopericytoma development and microenvironmentDirected evolution to probe protein allostery and integrin I domains of 200,000-fold higher affinity.Cellular and extracellular programming of cell fate through engineered intracrine-, paracrine-, and endocrine-like mechanismsRegulation of outside-in signaling and affinity by the beta2 I domain of integrin alphaLbeta2.Actin foci facilitate activation of the phospholipase C-γ in primary T lymphocytes via the WASP pathwaySelective gene silencing in activated leukocytes by targeting siRNAs to the integrin lymphocyte function-associated antigen-1.Dimerization and the effectiveness of ICAM-1 in mediating LFA-1-dependent adhesionA transmigratory cup in leukocyte diapedesis both through individual vascular endothelial cells and between themThe primacy of affinity over clustering in regulation of adhesiveness of the integrin {alpha}L{beta}2.The receptor PD-1 controls follicular regulatory T cells in the lymph nodes and blood.Mechanisms for transcellular diapedesis: probing and pathfinding by 'invadosome-like protrusions'.Central role for hydrogen peroxide in P2Y1 ADP receptor-mediated cellular responses in vascular endotheliumGlassy dynamics, cell mechanics, and endothelial permeability.Active Rap1, a small GTPase that induces malignant transformation of hematopoietic progenitors, localizes in the nucleus and regulates protein expression.Activation-induced conformational changes in the I domain region of lymphocyte function-associated antigen 1.Ultrastructure and function of dimeric, soluble intercellular adhesion molecule-1 (ICAM-1).Substrate stiffening promotes endothelial monolayer disruption through enhanced physical forces.ERG is required for the differentiation of embryonic stem cells along the endothelial lineage.Transition from rolling to firm adhesion is regulated by the conformation of the I domain of the integrin lymphocyte function-associated antigen-1.Bidirectional transmembrane signaling by cytoplasmic domain separation in integrins.G-protein-coupled receptors: turn-ons and turn-offs.Binding and phosphorylation of tubulin by G protein-coupled receptor kinases.
P50
Q22007990-84D605CB-1ADA-40D0-B294-15D994A40963Q27329981-DBD5DD8F-155F-4E9D-B854-D78370D1A428Q28140354-D554F105-F8B2-4D20-99B5-C977610E9E8CQ28191015-CBAE3C11-EE72-415F-9D75-7A1E51256B2FQ28205914-4869D922-9F1C-4A87-96B7-11F9F27A603BQ28286523-51475E90-95B3-4F3B-8608-8FD2760D8D45Q28611497-D037101F-B5D1-445D-A0F9-29EFDBF95445Q28771716-15D1D1A6-8826-42FE-9E48-ABDF037CBDD1Q29617618-7F39E8BC-5798-4864-87E8-BB61C5948FF3Q30478693-DD41A2F2-92FE-4039-B47E-7B33D7120F00Q30480043-1E10ADBC-16F4-43F1-83B8-FBA17BB53B7AQ30496633-8C184AEB-E7DD-4132-893B-D81C409B857DQ30525829-0B75CAF0-1F16-4FA0-B451-0E2BBD00E0D6Q30539318-1A4F56BF-EA8A-4E36-A08B-0382036D7DEDQ30586671-9A481949-90DE-445D-A0C3-0A7453BC0D89Q33585908-8BEAECE7-8CF6-472D-BDA8-FBD6E8615725Q33928601-2DD9F249-2CC9-4371-A598-99F291A199EEQ34024218-6BFFBA90-DB6A-49F1-82AA-1A3774736A1AQ34137706-AD7BE1A6-3412-483F-9F71-E4F26FE1AD3AQ34595967-C9580379-A9DA-4459-AA75-C11319A32657Q34596348-4F9569E9-8846-4BD1-B6BD-097A96B82019Q35016499-BFC4D2B6-7E93-4718-8F58-53D3506A65C4Q35165479-6FB62BC1-3896-4EA1-B0AA-B4B4B206D567Q35676793-977DB344-482C-487B-8268-F1992478AF32Q36238215-83EC2A5D-98BB-4A89-A5C8-C91157D2213AQ36322724-E3ACDE5B-4BC3-44E1-9F42-19BC1866C97FQ36322824-8BF9FA82-FB8F-4A9F-B523-9FE48319E456Q37210857-F0EDC2BB-416D-4A1C-9F92-9D9E3BF221EBQ37582685-EF3D9B23-328F-4E30-8C83-FB9E0B1C4F12Q37627930-76A1ECBC-D130-434A-8594-4063509E0482Q39157203-916C8246-9EF4-4FE8-B574-B413117C6ECAQ40135335-5536CF2C-166B-41FF-B397-9995A8907BA5Q40756882-F76B331E-BDB8-41A3-917D-6DE20EE74653Q40801390-F6D08CAA-5C95-4D87-93D1-C95FA3C07420Q42212876-6F93400B-6FAB-4BDE-8ECC-5A48F0B16701Q42940914-05F9F191-6AC2-49A6-A3F2-0982A808D070Q44170571-E4515C3B-B898-4B3F-87BF-4BB0F858F437Q44590985-C41EB457-4757-4D37-A023-BD6E71EBC203Q47754228-E487180A-0AE3-4DEE-B0E7-27F42109224CQ47761391-2007F134-6F66-4EDB-B095-602732D1D806
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Christopher V. Carman
@ast
Christopher V. Carman
@en
Christopher V. Carman
@es
Christopher V. Carman
@nl
Christopher V. Carman
@sl
type
label
Christopher V. Carman
@ast
Christopher V. Carman
@en
Christopher V. Carman
@es
Christopher V. Carman
@nl
Christopher V. Carman
@sl
prefLabel
Christopher V. Carman
@ast
Christopher V. Carman
@en
Christopher V. Carman
@es
Christopher V. Carman
@nl
Christopher V. Carman
@sl
P1053
L-8108-2016
P106
P1153
23987333900
P2038
Christopher_Carman
P21
P2798
P31
P3829
P496
0000-0001-7358-2548