about
PKCzetaII is a target for degradation through the tumour suppressor protein pVHLBeta 1-integrin-c-Met cooperation reveals an inside-in survival signalling on autophagy-related endomembranes.Identification and pharmacological properties of E339-3D6, the first nonpeptidic apelin receptor agonist.Role of the Vasopressin/Apelin Balance and Potential Use of Metabolically Stable Apelin Analogs in Water Metabolism Disorders.Biased signaling favoring gi over β-arrestin promoted by an apelin fragment lacking the C-terminal phenylalaninePhosphoprotein enriched in astrocytes-15 kDa expression inhibits astrocyte migration by a protein kinase C delta-dependent mechanismReciprocal regulation of plasma apelin and vasopressin by osmotic stimuliA new strategy for treating hypertension by blocking the activity of the brain renin-angiotensin system with aminopeptidase A inhibitors.Study of asparagine 353 in aminopeptidase A: characterization of a novel motif (GXMEN) implicated in exopeptidase specificity of monozinc aminopeptidases.Directed Molecular Evolution of an Engineered Gammaretroviral Envelope Protein with Dual Receptor Use Shows Stable Maintenance of Both Receptor Specificities.Loss-of-function point mutations associated with renal tubular dysgenesis provide insights about renin function and cellular trafficking.Involvement of arginine 878 together with Ca2+ in mouse aminopeptidase A substrate specificity for N-terminal acidic amino-acid residuesPhosphorylation is required for PMA- and cell-cycle-induced degradation of protein kinase Cdelta.Corrigendum: Beta 1-integrin-c-Met cooperation reveals an inside-in survival signalling on autophagy-related endomembranes.The von Hippel-Lindau tumour-suppressor protein interaction with protein kinase Cdelta.By interacting with the C-terminal Phe of apelin, Phe255 and Trp259 in helix VI of the apelin receptor are critical for internalization.Contribution of molecular modeling and site-directed mutagenesis to the identification of two structural residues, Arg-220 and Asp-227, in aminopeptidase A.Asp218 participates with Asp213 to bind a Ca2+ atom into the S1 subsite of aminopeptidase A: a key element for substrate specificity.Human brain aminopeptidase A: biochemical properties and distribution in brain nuclei.Tyrosine kinase and mitogen-activated protein kinase/extracellularly regulated kinase differentially regulate intracellular calcium concentration responses to angiotensin II/III and bradykinin in rat cortical thick ascending limb.Structure-activity relationship studies toward the discovery of selective apelin receptor agonists.A Time-Resolved FRET Cell-Based Binding Assay for the Apelin Receptor.Synthetic Modification within the "RPRL" Region of Apelin Peptides: Impact on Cardiovascular Activity and Stability to Neprilysin and Plasma Degradation.Convenient Access to Fluorescent Probes by Chemoselective Acylation of Hydrazinopeptides: Application to the Synthesis of the First Far-Red Ligand for Apelin Receptor Imaging.Comment on "Obestatin, a peptide encoded by the ghrelin gene, opposes ghrelin's effects on food intake".Development of original metabolically stable apelin-17 analogs with diuretic and cardiovascular effects.SDHD Immunohistochemistry: A New Tool to ValidateSDHxMutations in Pheochromocytoma/ParagangliomaHistidine 450 plays a critical role in catalysis and, with Ca2+, contributes to the substrate specificity of aminopeptidase ANew structural insights into the apelin receptor: identification of key residues for apelin bindingThe apelinergic system: a perspective on challenges and opportunities in cardiovascular and metabolic disorders
P50
Q24299736-1B71B506-5BE4-4B3C-B527-2B6B4EEDB030Q27342529-3B4C1C23-0987-4501-925D-22CA2FEF99EAQ33521153-855CDBD9-906A-4FDB-98A0-48D4154E65C1Q33742305-9D22271F-44FF-4724-B20A-0997AE4C80E9Q34107370-CCA251D9-2D3A-4518-AF79-EF28E530AE7EQ35190978-309043AB-0674-4B9C-B138-1F257B8E6A1FQ36662125-72A62AFB-E59E-4270-9072-0797FB18F9E8Q38201762-60EF4D57-6238-4422-A2F5-62F4C058EBC9Q38294408-963BFA7A-74CD-455F-AD2B-6F92ACEEB619Q38816595-66EC1F31-1BE4-4344-AF0F-7D5FA5DFC75EQ39637715-EC323062-C00C-4BF9-ABD1-8E10BE21A80DQ41635106-040C8FE5-8EAB-479B-94C7-72466B93AD27Q41845102-9FA4D6A2-8266-47D7-A6CF-D2D126DF8127Q41993899-EE48BCD9-67DF-4855-835F-B15D7EEC5843Q42014451-30A5B194-9B23-4F18-9765-F171C765D8CCQ42411890-31EFC8E4-1107-498F-914A-1AB2C3DF7AE6Q44013228-B14906CE-97CE-4FF1-9B2D-BB67319198B0Q46504280-AA1F7BDB-D7CB-491B-82ED-3DEF020D9539Q46646144-7DE87701-FE80-4A12-B8C3-9E6360AA717AQ46739984-3E887670-4A6F-41B0-B51C-1CE7D9726EAEQ46919885-5A94CE6C-932D-43C3-99C4-A2D3A278C4E8Q48042757-04E23E6D-0021-4588-8778-4158C187F15AQ48162674-333C1663-1973-4759-837C-3F0DB48337DEQ48278244-32D64295-ED76-40EF-8878-32456BB2AD71Q48278380-E26CCEFB-FBF2-4EA3-953A-26B411DA4FC1Q51343515-B54B6041-8084-452A-90E2-8A95A9FD27B1Q57817428-08DFEE86-9503-4A73-B2AB-FACC9F318DF7Q73543789-BA8774DC-3CF6-459C-9341-58DF846519FCQ85893370-1D6FD2F6-9E92-4EC8-9DE9-CC63A41D8FC1Q93007422-250825D8-F644-49ED-836D-E9959C69E1DE
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Xavier Iturrioz
@ast
Xavier Iturrioz
@en
Xavier Iturrioz
@es
Xavier Iturrioz
@nl
Xavier Iturrioz
@sl
type
label
Xavier Iturrioz
@ast
Xavier Iturrioz
@en
Xavier Iturrioz
@es
Xavier Iturrioz
@nl
Xavier Iturrioz
@sl
prefLabel
Xavier Iturrioz
@ast
Xavier Iturrioz
@en
Xavier Iturrioz
@es
Xavier Iturrioz
@nl
Xavier Iturrioz
@sl
P1053
Q-4406-2017
P106
P21
P2798
P31
P3829
P496
0000-0001-7143-8323