about
Statistical methods for analysis of high-throughput RNA interference screensPhosphorylation of Rab5a protein by protein kinase Cϵ is crucial for T-cell migration.Golgi phosphoprotein 2 (GOLPH2) is a novel bile acid-responsive modulator of oesophageal cell migration and invasion.Regulation of Protein Kinase C function by phosphorylation on conserved and non-conserved sites.Advances in bile acid medicinal chemistry.Hepatitis C virus--T-cell responses and viral escape mutations.Advances in siRNA delivery to T-cells: potential clinical applications for inflammatory disease, cancer and infection.Protein kinase C: a regulator of cytoskeleton remodelling and T-cell migration.Cellular proliferation and activation of NF kappa B are induced by autocrine production of tumor necrosis factor alpha in the human T lymphoma line HuT 78.A fluorescent analogue of tauroursodeoxycholic acid reduces ER stress and is cytoprotective.Roles for RACK1 in cancer cell migration and invasion.RACK1 to the future--a historical perspectiveUrsodeoxycholic acid amides as novel glucocorticoid receptor modulators.Bile acid toxicity structure-activity relationships: correlations between cell viability and lipophilicity in a panel of new and known bile acids using an oesophageal cell line (HET-1A).A high-content analysis toolbox permits dissection of diverse signaling pathways for T lymphocyte polarization.STAT3 knockdown by siRNA induces apoptosis in human cutaneous T-cell lymphoma line Hut78 via downregulation of Bcl-xL.An integrative genomic approach in oesophageal cells identifies TRB3 as a bile acid responsive gene, downregulated in Barrett's oesophagus, which regulates NF-kappaB activation and cytokine levels.Shear stress induces internalization of E-cadherin and invasiveness in metastatic oesophageal cancer cells by a Src-dependent pathway.Loss of PTEN expression does not contribute to PDK-1 activity and PKC activation-loop phosphorylation in Jurkat leukaemic T cells.The leukocyte protein L-plastin induces proliferation, invasion and loss of E-cadherin expression in colon cancer cells.Crucial importance of PKC-beta(I) in LFA-1-mediated locomotion of activated T cells.TNF-mediated cytotoxicity of L929 cells: role of staurosporine in enhancement of cytotoxicity and translocation of protein kinase C isozymes.Regulation of non-classical protein kinase C isoenzymes in a human T cell line.Unconjugated secondary bile acids activate the unfolded protein response and induce golgi fragmentation via a src-kinase-dependant mechanism.The effects of conjugated linoleic acid supplementation on immune function in healthy volunteers.Deoxycholic acid impairs glycosylation and fucosylation processes in esophageal epithelial cells.Bile acids modulate the Golgi membrane fission process via a protein kinase Ceta and protein kinase D-dependent pathway in colonic epithelial cells.New highly toxic bile acids derived from deoxycholic acid, chenodeoxycholic acid and lithocholic acid.Engagement of CD44 modulates cyclooxygenase induction, VEGF generation, and proliferation in human vascular endothelial cells.CD44 cross-linking induces protein kinase C-regulated migration of human T lymphocytes.Stimulus-induced phosphorylation of PKC theta at the C-terminal hydrophobic-motif in human T lymphocytes.Biotransformation of benzaldehyde by Saccharomyces cerevisiae: characterization of the fermentation and toxicity effects of substrates and products.RNAi Screening with Self-Delivering, Synthetic siRNAs for Identification of Genes That Regulate Primary Human T Cell Migration.Analysis of dynamic tyrosine phosphoproteome in LFA-1 triggered migrating T-cells.Candidate Gene Knockdown in Celiac DiseaseSubcellular localization and translocation of protein kinase C isoforms zeta and epsilon in human peripheral blood lymphocytesCross-linking of LFA-1 induces secretion of macrophage inflammatory protein (MIP)-lalpha and MIP-1beta with consequent directed migration of activated lymphocytesLow pH and Helicobacter pylori increase nuclear factor kappa B binding in gastric epithelial cells: a common pathway for epithelial cell injury?Aromatic aldehydes as substrates for yeast and yeast alcohol dehydrogenaseNew fluorescent bile acids: synthesis, chemical characterization, and disastereoselective uptake by Caco-2 cells of 3-deoxy 3-NBD-amino deoxycholic and ursodeoxycholic acid
P50
Q24644919-0F272B78-7651-410E-8CAD-F375C9F199B0Q30583489-EBB9C5A5-0CD6-4913-8D94-6DAA28915680Q36750617-45C446BA-66FF-4EEC-BCB2-524E08C4BDA6Q37800216-165EC255-AEE1-4951-AD65-73804FF23981Q37913422-3A5F7CB1-887A-419F-9011-68E3A92407C7Q37962466-7942FF0D-7ACD-47A9-A8A9-19B4916E4522Q38144256-876487EE-A30F-4349-9758-E87D00976167Q38268433-E7A9B309-A320-41A0-85FD-5287928C7452Q38297323-7C4CDA02-0317-4212-A7CF-36ABBF12E4C7Q38737544-0ADB94E5-3C1E-4885-8820-F6C60319373AQ39197182-F6B89F86-A769-4EB9-A078-D0D627E2305EQ39372566-5254B173-E7DA-4864-8DA4-006165547873Q39620127-064FCB2E-CDEF-4425-A528-65DD1B65308DQ39667070-45921A24-5706-4040-A2B4-C797CED9A74AQ39705159-F77DA910-BB72-47CD-A1D9-D75A7858D0E8Q39730561-E3CAB18A-6325-4A2A-88B7-6526E616F8E7Q39742473-437E19DD-80C8-4715-98A3-D32D1C4812C1Q39853161-72309D3F-D804-4A26-9359-48E3CE60B30BQ40083227-7249B223-5958-46B2-9EB5-E3CC581CBA9CQ40351667-3F6A4C98-2F0E-4448-B824-78CD6022E4EAQ40803098-EBE089E8-13E2-461B-8A9E-82AD577DD628Q41129819-0129A001-B2B4-44B2-A0B6-1F4A37857DB1Q41390476-B687D94D-C863-41BC-918E-C999948EAAA1Q42316189-3FEBBC5E-E204-4DC5-A48E-81C8C98DE230Q42476884-20A5A88C-F470-4EEF-8A35-55E859765E3BQ42722534-45A5E693-A992-4631-874E-55B2219ADDC5Q43186622-3A19F6CC-98A8-469B-9288-8F4A7FEFC9FDQ44911191-215BD59F-CD00-4E25-B920-6071BACD0C59Q45216951-74D3F2FD-8AE5-4F6B-9577-784BC2D569E5Q45304540-811CF804-B23B-467D-BE54-AD539372957CQ46594624-B93B08BA-AE05-4F49-A209-4CD61B4A175BQ47869938-639DDABA-7B68-4B10-AF3B-D5287B3158C5Q50970984-45B1B97E-2843-45B3-9BC2-493366E24228Q54643161-1393508F-6ED3-4726-ADD5-A83A384678A3Q58037904-552A5976-4C52-478B-919F-101CC30F0FC0Q62270867-AC38D57B-377E-470A-9308-435564DCFA4FQ73166235-C67483CB-5133-4422-A988-288887C7ED00Q81026251-51F92D20-C79D-4915-9389-C42D797B4A07Q81546073-18EB2F8F-C4E8-4EFC-AD53-52A59CA15285Q83404992-A24AC5E4-6E69-4978-8EA7-54B3C1B082F9
P50
description
researcher
@en
wetenschapper
@nl
name
A Long
@en
A Long
@nl
type
label
A Long
@en
A Long
@nl
prefLabel
A Long
@en
A Long
@nl
P106
P31
P496
0000-0002-9918-9960