about
A Pin1/mutant p53 axis promotes aggressiveness in breast cancerFunctional high-throughput screening identifies the miR-15 microRNA family as cellular restriction factors for Salmonella infectionMicroRNAs in the interaction between host and bacterial pathogensA candidate approach implicates the secreted Salmonella effector protein SpvB in P-body disassembly.Functional screening identifies miRNAs inducing cardiac regeneration.Effect of class IV laser therapy on chemotherapy-induced oral mucositis: a clinical and experimental study.Rotavirus increases levels of lipidated LC3 supporting accumulation of infectious progeny virus without inducing autophagosome formation.MicroRNA Screening and the Quest for Biologically Relevant Targets.Genome-wide RNAi screening identifies host restriction factors critical for in vivo AAV transductionCationic liposomes for gene delivery.Analysis of host microRNA function uncovers a role for miR-29b-2-5p in Shigella capture by filopodia.Glucocorticoid receptor signalling activates YAP in breast cancer.MicroRNAs in glioblastoma: role in pathogenesis and opportunities for targeted therapies.Lemur tyrosine kinase 2 (LMTK2) is a determinant of cell sensitivity to apoptosis by regulating the levels of the BCL2 family members.Cell-Penetrating Peptides-Mechanisms of Cellular Uptake and Generation of Delivery Systems.Production of in vivo-biotinylated rotavirus particles.Nanoparticles from lipid-based liquid crystals: emulsifier influence on morphology and cytotoxicity.Processing of recombinant AAV genomes occurs in specific nuclear structures that overlap with foci of DNA-damage-response proteins.Human MageB2 Protein Expression Enhances E2F Transcriptional Activity, Cell Proliferation, and Resistance to Ribotoxic StressId genes are essential for early heart formationOn the mechanisms of the internalization of S4(13)-PV cell-penetrating peptide.Reversible acetylation regulates vascular endothelial growth factor receptor-2 activity.Biophysical characterization of cationic liposome-DNA complexes and their interaction with cells.Electrochemical sensing of the behaviour of oligonucleotide lipoplexes at charged interfaces.S4(13)-PV cell penetrating peptide and cationic liposomes act synergistically to mediate intracellular delivery of plasmid DNA.S4(13)-PV cell-penetrating peptide forms nanoparticle-like structures to gain entry into cells.Epigenetic silencing of miR-296 and miR-512 ensures hTERT dependent apoptosis protection and telomere maintenance in basal-type breast cancer cells.Mechanical cues control mutant p53 stability through a mevalonate-RhoA axis.High-throughput screening uncovers miRNAs enhancing glioblastoma cell susceptibility to tyrosine kinase inhibitors.Cell-autonomous and cell non-autonomous downregulation of tumor suppressor DAB2IP by microRNA-149-3p promotes aggressiveness of cancer cells.MiR-16 regulates the pro-tumorigenic potential of lung fibroblasts through the inhibition of HGF production in an FGFR-1- and MEK1-dependent manner.cIAP1 regulates the EGFR/Snai2 axis in triple-negative breast cancer cells.Metabolic control of YAP and TAZ by the mevalonate pathway.Specific mesothelial signature marks the heterogeneity of mesenchymal stem cells from high-grade serous ovarian cancer.Shedding light on microRNA function via microscopy-based screeningInteraction of S413-PV cell penetrating peptide with model membranes: relevance to peptide translocation across biological membranesCellular uptake of S4 13 -PV peptide occurs upon conformational changes induced by peptide–membrane interactionsStress-induced host membrane remodeling protects from infection by non-motile bacterial pathogensSterol regulatory element binding protein 1 couples mechanical cues and lipid metabolismCellular TRIM33 restrains HIV-1 infection by targeting viral integrase for proteasomal degradation
P50
Q24312083-B22B53A1-8DE3-4563-96F9-C4F79B27C433Q24490032-0D90EE50-C514-4911-AB55-6541014EBAB1Q26828842-58C151C2-B7DB-4154-A561-D3E21933A044Q33842068-87F32BF5-D598-4A42-9DC9-FB4089B5ADA9Q34504097-4853F4E5-2273-464C-A8DD-DFEF2F5EC1D0Q35008427-72309B2F-C5E1-424A-B5A2-35B401DAB6D8Q35149419-152E815E-E9A0-4643-961E-FF61D68F7238Q35590504-CDD72972-F3AD-446F-93CD-46136465C245Q36056761-7C2022F0-DEC1-4704-8FCA-D49B6329E5ADQ36316712-A906190D-44D5-4349-BEA5-3498D62FD59FQ36342251-BEE32721-2B45-4368-BC54-329DAFAC8F55Q37598468-A79837B8-249B-420C-8E7E-EAF3EF1B7A60Q38329198-9A313479-75F4-44DC-A0D2-59AA05C61AAEQ38723407-92CAFB25-EFD2-4926-9F9A-2F2A7B30D5C9Q38974236-EB175EDA-1EB0-4964-A558-A2F20C459E19Q39375055-9A5FE0E7-F3D7-4EAE-AFC3-DA4A690347AFQ39737455-70820074-6076-405E-BDF0-3C6485FDF56EQ40021077-059C482C-FF69-4B75-BB68-D8348F1352AFQ40430454-63D6D06E-5850-4055-AE08-0C5341E0C616Q41590446-B4233D11-6F2A-4D75-A150-84EED26DBF3EQ41879197-82D78876-1A7F-475B-8406-B6B1FC636EE9Q42647940-1243673A-3146-4069-8DEB-5FC160BFCB8EQ44721547-85ECB65A-31E2-4C11-BDCD-06043F1BD2FFQ45142255-DE3D9A06-F7C1-4DF7-BA44-11F29F3B6431Q45421794-24D370C4-506A-431E-BCD0-D7A4F8C0DCF2Q45857412-201C6D25-D9DD-4513-A0FD-DDE148C9B8BBQ47107766-CBC59845-3F56-4E2D-9570-861095A2847AQ47236792-939787B0-E1CE-428B-9751-E755272B309DQ47606186-C1EF486E-8873-4696-9EFC-38FFF64276DFQ52641750-E74FEDEB-5121-42E3-9CD4-8CC9F5EA85F2Q52646457-9E76307E-F10E-43D5-83C0-3615B2EADDD8Q52718170-DCEF67FB-E470-4155-81FB-E97A2FF06F81Q52768568-91CCE9FF-C52D-4CD9-BE1C-3B3A6F47DD09Q54737381-64E4C594-6E74-43CA-9CF3-363E5251DB59Q57187441-11D3A9C2-6DC9-497E-A4E4-64A8C874093EQ57355724-9A22E1F5-69C0-4044-888A-B6A07157635BQ57359230-C7A85643-4D70-482E-9244-3205A3E00041Q58616115-3973A4DB-6246-4CC9-8DFE-3BBDBBE36D89Q64063164-0DED84A0-5A89-4159-8C5B-701717D78B29Q64106198-465BC8CF-44B4-4DB4-A5C6-6280D35FBC72
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Miguel Mano
@ast
Miguel Mano
@en
Miguel Mano
@es
Miguel Mano
@nl
Miguel Mano
@sl
type
label
Miguel Mano
@ast
Miguel Mano
@en
Miguel Mano
@es
Miguel Mano
@nl
Miguel Mano
@sl
prefLabel
Miguel Mano
@ast
Miguel Mano
@en
Miguel Mano
@es
Miguel Mano
@nl
Miguel Mano
@sl
P1053
A-4462-2013
P106
P1153
8839364900
P21
P31
P3829
P496
0000-0003-1922-4824