about
Inhibition of pyrimidine biosynthesis pathway suppresses viral growth through innate immunityA phenotypic assay to identify Chikungunya virus inhibitors targeting the nonstructural protein nsP2.Synergy of the antibiotic colistin with echinocandin antifungals in Candida species.Interactions between proteins and platinum-containing anti-cancer drugs.Density functional theory study of eight-atom germanium clusters: effect of electron count on cluster geometry.Electromerism and linkage isomerism in biologically-relevant Fe-SO complexes.Fe-O versus O-O bond cleavage in reactive iron peroxide intermediates of superoxide reductase.Formation of mono- and binuclear neodymium(iii)-gluconate complexes in aqueous solutions in the pH range of 2-8.Multiconfigurational and DFT analyses of the electromeric formulation and UV-vis absorption spectra of the superoxide adduct of ferrous superoxide reductase.Biicosahedral metallaboranes: aromaticity in metal derivatives of three-dimensional analogues of naphthalene.Deviations from the Most Spherical Deltahedra in Rhenatricarbaboranes Having 2n + 2 Wadean Skeletal Electrons.Paramagnetism in Metallacarboranes: The Polyhedral Chromadicarbaborane Systems.Hypoelectronicity and Chirality in Dimetallaboranes of Group 9 Metals.Pseudo electron-deficient organometallics: limited reactivity towards electron-donating ligands.Tetracarbaboranes: nido structures without bridging hydrogens.Tetracarbalane structures: nido polyhedra and non-spherical deltahedra.Dimetallaborane analogues of the octaboranes of the type Cp2M2B6H10: structural variations with changes in the skeletal electron count.Nonspherical Deltahedra in Low-Energy Dicarbalane Structures Testing the Wade-Mingos Rules: The Regular Icosahedron Is Not Favored for the 12-Vertex Dicarbalane.New Class of Hybrid Materials for Detection, Capture, and "On-Demand" Release of Carbon Monoxide.Molybdatricarbaboranes as examples of isocloso metallaborane deltahedra with three carbon vertices.Dimetallaborane analogues of pentaborane.On the roles of the alanine and serine in the β-sheet structure of fibroinDensity functional study of 8- and 11-vertex polyhedral borane structures: comparison with bare germanium clustersDensity functional theory study of 11-atom germanium clusters: effect of electron count on cluster geometryThe prevalence of isocloso deltahedra in low-energy hypoelectronic metalladicarbaboranes with a single metal vertex: manganese and rhenium derivativesHypoelectronic dirhenaboranes having eight to twelve vertices: internal versus surface rhenium-rhenium bondingPerformance comparison of computational methods for modeling alpha-helical structuresLimited occurrence of isocloso deltahedra with 9 to 12 vertices in low-energy hypoelectronic diferradicarbaborane structuresDeltahedral ferratricarbaboranes: analogues of ferroceneThe acidity and self-catalyzed lactonization of l-gulonic acid: Thermodynamic, kinetic and computational studyVersatile coordination behaviour of the chloro-tetrazine-picolylamine ligand: mixed-valence binuclear Cu(i)/Cu(ii) complexesNeutral Rhenadicarbaboranes with Re(CO)2(NO) Vertices: A Theoretical Study of Building Blocks for Rhenacarborane-Based Drug Delivery Agents
P50
Q28534057-A1A9F02C-3167-464E-A3A1-120546C76E1CQ34415623-C03EF136-2CE6-4840-A085-BDE0EA517A83Q34573475-0DA2CFB0-DA14-4746-9A3F-1A46370B7A3AQ37870942-DB491ABE-2EF8-40E7-9BB0-99418B8D9A99Q42655648-BF35C33D-2470-47DA-AE34-2645F13C70BDQ44212609-5283746B-9063-47CD-9920-3E2F9714868AQ45967839-06486FF1-F4BD-48D3-9AF8-C5420661F7DFQ46379613-A5B47D0B-98FD-4151-AC13-7CB687B5E3C9Q46474023-0B95A30F-A691-464F-8B5D-4885C4A2F487Q46615608-AA2B9D78-5E6B-48B0-81F6-1FEA9B0C5249Q47303492-856A53FC-203A-48E6-9A0F-EB9056C74D90Q47711379-FA1AB05A-4925-4458-8234-0D7E1656E30CQ48052396-C2EEA1F7-221F-4D7B-BE2B-A8DF92F99D33Q50022263-744CF195-E2BD-4359-B644-21C73E9BDD45Q51107922-03193EDF-9ECB-44F8-AB4A-3EB319482DE9Q51276375-B3F570D2-EAF7-4C08-8ABA-29449C69FFFBQ51329136-FA198BAC-A669-4F16-BBF4-1897FF3D60AFQ51655318-2BE525D0-6777-4EA1-B185-8B0BAF7C4DF4Q52322525-FD237312-2F33-4BC8-9EE7-85A2FF76BB70Q53181158-C1C20AD0-01CB-4424-AE1A-C9F21BC52FD5Q53285941-4598255F-6338-4AE6-A6F8-7D8B455738A3Q57216975-1999C5FB-BE55-4E43-8AA2-B17E45804818Q81383764-BAB66836-0A8F-475F-8123-7DDB6A506A7FQ81721891-494A4673-67D5-419C-8B4E-5CEFC5EDF312Q84067680-85B4C9D8-97C6-4EB2-953C-E3FCB8F208F2Q84454654-892D79EB-D5DF-4218-A7A2-746346BB72C2Q84672843-83011674-D496-44D5-8727-B9B5464E8574Q84896712-01C7E281-8FD2-4B3F-8F38-13B91296B5F2Q86608383-E80ED751-AA59-4E96-A43B-022E0E7F66E8Q90505171-4CADAE6D-7383-40BF-B3F1-7F43D457BF9CQ91952000-FFC4AE8C-44B2-4145-869D-E60D671520FDQ92353699-69B65F55-A9CF-42CC-80BB-0FAFBD11A235
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alexandru Lupan
@ast
Alexandru Lupan
@en
Alexandru Lupan
@es
Alexandru Lupan
@nl
type
label
Alexandru Lupan
@ast
Alexandru Lupan
@en
Alexandru Lupan
@es
Alexandru Lupan
@nl
prefLabel
Alexandru Lupan
@ast
Alexandru Lupan
@en
Alexandru Lupan
@es
Alexandru Lupan
@nl
P106
P21
P31
P496
0000-0002-9353-7629