about
Heme-protein active site models via self-assembly in water.Direct-written polymer field-effect transistors operating at 20 MHz.Nanotechnology-based strategies for the detection and quantification of microRNA.Gold-nanoparticle-based colorimetric discrimination of cancer-related point mutations with picomolar sensitivity.Inhibition of Leptin-ObR Interaction Does not Prevent Leptin Translocation Across a Human Blood-Brain Barrier Model.Impact of substrate elasticity on human hematopoietic stem and progenitor cell adhesion and motility.Glycopeptide-functionalized gold nanoparticles for antibody induction against the tumor associated mucin-1 glycoprotein.Reversible site-specific tagging of enzymatically synthesized RNAs using aldehyde-hydrazine chemistry and protease-cleavable linkers.Conjugation of peptides to the passivation shell of gold nanoparticles for targeting of cell-surface receptors.Duality of mechanism in the tetramethylfluoroformamidinium hexafluorophosphate-mediated synthesis of N-benzyloxycarbonylamino acid fluorides.Guest encapsulation and self-assembly of molecular capsules in polar solvents via multiple ionic interactions.Efficient preparation of organic substrate-RNA conjugates via in vitro transcription.Allosterically activated Diels-Alder catalysis by a ribozyme.Can nanotechnology improve cancer diagnosis through miRNA detection?Absolute and direct microRNA quantification using DNA-gold nanoparticle probes.DNA-based phosphane ligands.InP/ZnS as a safer alternative to CdSe/ZnS core/shell quantum dots: in vitro and in vivo toxicity assessment.Nucleic acid enzymesAllylic Amination by a DNA-Diene-Iridium(I) Hybrid CatalystNon-covalent synthesis of calix[4]arene-capped porphyrins in polar solvents via ionic interactionsMicrofabrication of pH-responsive 3D hydrogel structures via two-photon polymerization of high-molecular-weight poly(ethylene glycol) diacrylatesPolymeric Substrates with Tunable Elasticity and Nanoscopically Controlled Biomolecule PresentationMetallodendrimers as transphosphorylation catalystsQuantification and reactivity of functional groups in the ligand shell of PEGylated gold nanoparticles via a fluorescence-based assayGold Nanoparticles Functionalized with RGD-Semipeptides: A Simple yet Highly Effective Targeting System for αV β3 IntegrinsStructure-Based Design of Potent Tumor-Associated Antigens: Modulation of Peptide Presentation by Single-Atom O/S or O/Se Substitutions at the Glycosidic LinkageDirectional Immobilization of Proteins on Gold Nanoparticles Is Essential for Their Biological Activity: Leptin as a Case StudyConopeptide-Functionalized Nanoparticles Selectively Antagonize Extrasynaptic N-Methyl-d-aspartate Receptors and Protect Hippocampal Neurons from Excitotoxicity In Vitro
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Q30824664-7AB8C128-F026-454F-8158-ED9E10D1E6B6Q30831545-41E33C40-3A27-4423-8853-27B66610096EQ38225714-910DDA45-0198-4937-B4C7-909F7B62E6E6Q38315299-D64E1C05-76BA-4BF5-94E4-F2F7E7562A3FQ38781423-5E50AB77-9332-4E3E-A91D-1C6FFC0A6884Q39354571-FD748009-061F-4233-B680-3F5F11AE8789Q40016233-982D7A74-26F8-4DA9-91B3-988B1DD87BBEQ41856209-2C832915-E9FA-4532-8F2E-69A464BA0C20Q42861389-D45ED9FE-262B-421B-96C4-FA84FDFD6C5CQ43711657-D2BA889A-7AC1-4D29-8D7A-93A424D14EDCQ44016198-A1CAA3D1-BB0E-46D2-BBAD-7A8FF66326C3Q46559618-FF34CA62-4050-4CD7-AF3B-207C4CDC8107Q46619795-38D6FF86-6775-493B-A6E6-F0CE33DCAD4EQ51028215-764FC39D-C691-4EF6-B3A4-E244315419FFQ51755202-984422E5-4CA5-48E2-A397-6BF747A641F1Q52674596-1EFBA890-56CE-4A2F-A7C0-2BD666D952B9Q52746202-ABC20CEF-A458-4DDC-B12C-C224AC513F7FQ56899411-212D7D62-A6B0-4775-B8DE-6E3FC1F691F7Q56961311-DC0D9926-6C87-4FDF-980E-319BEA9AD2A5Q57666387-087025C6-DC67-4C78-85E3-34EBB3DD1FAFQ60182563-9DB04892-9BA6-44D5-B8C8-C9357D9EC1F0Q63340415-62C5015C-539B-4F7C-A617-D62BEBF13AA4Q80321707-F3BCC7A2-28D7-4F1B-81FD-23D433324E61Q83777790-220691FE-70BF-4D48-824D-6E2A98AD8E84Q89162091-6095F056-DEDA-491C-997B-8841BBEFC84FQ91376449-9E9FF937-F811-4A88-AAE3-A8723CD10292Q92084001-83848BA0-40B7-4E7C-AF24-226BED78E8AEQ96219812-705B1400-0670-472E-98D7-BDEEF599EF6B
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description
hulumtues
@sq
researcher
@en
ricercatore
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scheikundige
@nl
հետազոտող
@hy
name
Roberto Fiammengo
@ast
Roberto Fiammengo
@en
Roberto Fiammengo
@es
Roberto Fiammengo
@nl
Roberto Fiammengo
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type
label
Roberto Fiammengo
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Roberto Fiammengo
@en
Roberto Fiammengo
@es
Roberto Fiammengo
@nl
Roberto Fiammengo
@sl
prefLabel
Roberto Fiammengo
@ast
Roberto Fiammengo
@en
Roberto Fiammengo
@es
Roberto Fiammengo
@nl
Roberto Fiammengo
@sl
P214
P227
P1153
6508134644
P21
P214
P227
1025157117
P31
P496
0000-0002-6087-6851
P735
P7859
viaf-252524641