about
Pim-1 kinase protects mitochondrial integrity in cardiomyocytes.Human cardiac progenitor cells engineered with Pim-I kinase enhance myocardial repair.Nucleostemin rejuvenates cardiac progenitor cells and antagonizes myocardial aging.Asymmetric chromatid segregation in cardiac progenitor cells is enhanced by Pim-1 kinase.Use of DNA microarrays to monitor host response to virus and virus-derived gene therapy vectors.β-Adrenergic regulation of cardiac progenitor cell death versus survival and proliferation.Transcriptional profiling of HMGB1-induced myocardial repair identifies a key role for Notch signalingFibronectin is essential for reparative cardiac progenitor cell response after myocardial infarctionMetaboloepigenetics: the Emerging Network in Stem Cell Homeostasis Regulation.Physiological conditions influencing regenerative potential of stem cells.Nuclear redox imbalance affects circadian oscillation in HaCaT keratinocytes.Nucleolar localization and circadian regulation of Per2S, a novel splicing variant of the Period 2 gene.Different modulation of cellular transcription by adenovirus 5, DeltaE1/E3 adenovirus and helper-dependent vectors.Stem Cells and Cardiac Repair.Growth induction and low-oxygen apoptosis inhibition of human CD34+ progenitors in collagen gels.Altered SDF-1-mediated differentiation of bone marrow-derived endothelial progenitor cells in diabetes mellitus.Cardioprotective stimuli mediate phosphoinositide 3-kinase and phosphoinositide dependent kinase 1 nuclear accumulation in cardiomyocytes.Gene transfer into human cord blood-derived CD34(+) cells by adeno-associated viral vectors.Circulating miR-200c is up-regulated in paediatric patients with familial hypercholesterolaemia and correlates with miR-33a/b levels: implication of a ZEB1-dependent mechanism.Oxidative Stress-Induced miR-200c Disrupts the Regulatory Loop Among SIRT1, FOXO1, and eNOS.Electrophysiological properties of mouse bone marrow c-kit+ cells co-cultured onto neonatal cardiac myocytes.c-kit-Positive cardiac progenitor cells: the heart of stemness.Peroxiredoxin 2 nuclear levels are regulated by circadian clock synchronization in human keratinocytes.Monocyte dysfunction induced by low density lipoprotein occurs via a DUSP-1/p38 MAPK signaling impairment.Human cord blood CD34+ progenitor cells acquire functional cardiac properties through a cell fusion process.Functional properties of cells obtained from human cord blood CD34+ stem cells and mouse cardiac myocytes in coculture.Circulating miR-33a and miR-33b are up-regulated in familial hypercholesterolaemia in paediatric age.Myocardial infarction induces embryonic reprogramming of epicardial c-kit(+) cells: role of the pericardial fluid.Corrigendum to “Different modulation of cellular transcription by adenovirus 5, ΔE1/E3 adenovirus and helper-dependent vectors”Cardiomyocyte cell cycle dynamics and proliferation revealed through cardiac-specific transgenesis of fluorescent ubiquitinated cell cycle indicator (FUCCI)Enzyme-Lignin Nanocapsules Are Sustainable Catalysts and Vehicles for the Preparation of Unique Polyvalent Bioinks
P50
Q33828487-9DCC865B-4249-480D-8DE2-6D4AE2CB79D8Q34290791-033FB5E1-6689-42AF-825C-BBF2413BACE5Q34978698-8388AFA8-C4A4-4224-8CE2-F6316EB16233Q35976872-CE3E1496-4379-4705-B226-32292BEEE7FFQ36009861-4B6E2EE8-2C85-426B-9B17-A0329EC49EEBQ36677020-79A8EBBF-EFE3-429B-8E84-775C742D1818Q37254881-60A85B77-5AA3-4DD6-9170-73843EF4370DQ37274406-E0463D28-7FD1-4AB5-8C58-773B88A0EF3AQ38782203-07E5E5DC-81A5-4662-842E-36B1B4B4D290Q38813813-7EA9ECF3-1CD8-4CFE-869B-AE64B51C26B7Q38869093-D00613AD-65BE-4516-8AFD-BCF56030E3CDQ39066049-EB79766C-E5DC-42A5-BF22-D0A129FEFEA2Q40113588-C403B469-31EF-4B4A-BFE6-6FE7E7CE15C1Q40908545-4C69AA90-CF4E-4444-9DBB-E1E91B0E65CFQ41480960-F884DDF9-48CF-494E-B8BB-0092FA3D51C1Q41763265-95444163-1826-4C23-AE6B-22A6B21EDE41Q41912188-D6C3ADE4-FDB3-4087-B1ED-81DAEED7B948Q43071787-11CDA5BD-32F5-43A0-A7ED-BDD61CE4796DQ46320569-D8647531-49B6-4271-B23C-57C2F0B2DC76Q46446587-DF4584D7-BDA7-4E15-9519-C829F6E87F3CQ46507899-7E0F1B5E-1584-4A4D-B4C2-85938B478C8AQ46684066-BEBDA16C-A70A-4A29-8FAB-18EA61C2888CQ46895748-3E4A39CB-A499-4EB0-8E7D-4280B71F4AC4Q50097820-8353705B-2034-46D0-9123-D798172F5B38Q50525938-04B8DDB0-A20C-4555-BCDA-BC9158699041Q50648691-A165132D-2B48-490C-A274-D0EAFAF7B1D8Q51608153-C9980C49-9A82-4148-B25C-EB0A10F2340CQ54705281-B31A6779-87E9-468E-993D-3D4E47FA981EQ58464147-9AC72E8B-ADAB-4EA8-B58F-200234545D88Q90671484-4F729E13-6DA5-4C98-BB7D-87459C451D15Q92699469-3C9CE411-A2F2-40FE-BEB7-4B664A84270B
P50
description
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Daniele Avitabile
@ast
Daniele Avitabile
@en
Daniele Avitabile
@es
Daniele Avitabile
@fr
Daniele Avitabile
@nl
Daniele Avitabile
@sl
type
label
Daniele Avitabile
@ast
Daniele Avitabile
@en
Daniele Avitabile
@es
Daniele Avitabile
@fr
Daniele Avitabile
@nl
Daniele Avitabile
@sl
prefLabel
Daniele Avitabile
@ast
Daniele Avitabile
@en
Daniele Avitabile
@es
Daniele Avitabile
@fr
Daniele Avitabile
@nl
Daniele Avitabile
@sl
P108
P106
P108
P1153
22953030700
P21
P31
P496
0000-0002-1360-2700