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Sóvágó Imre

Sóvágó Imre
University of Debrecen Faculty of Science and Technology
Institute of Chemistry
Department of Inorganic and Analytical Chemistry

Publication list

Tudóstér co-authors statistics filterable publication list
Uploaded publications:
150
Publications in DEA:
119
OA:
11
Date range:
1981-2024
2024
1.
Kastal, Z., Balabán, A., Vida, S., Kállay, C., Nagy, L., Várnagy, K., Sóvágó, I.: Copper(II), Nickel(II) and Zinc(II) Complexes of Peptide Fragments of Tau Protein.
Molecules. 29 (10), 1-18, (article identifier: 2171), 2024.
doi DEA WoS Scopus
Journal metrics:
Q1 Analytical Chemistry
Q1 Chemistry (miscellaneous)
Q2 Drug Discovery
Q2 Medicine (miscellaneous)
Q2 Molecular Medicine
Q1 Organic Chemistry
Q1 Pharmaceutical Science
Q1 Physical and Theoretical Chemistry
2023
2.
Sóvágó, I., Várnagy, K., Kállay, C., Grenács, Á.: Interactions of copper(II) and zinc(II) ions with the peptide fragments of proteins related to neurodegenerative disorders: similarities and differences.
Curr. Med. Chem. 30 (36), 4050-4071, 2023.
doi DEA WoS Scopus
Journal metrics:
Q2 Biochemistry
Q2 Drug Discovery
Q2 Molecular Medicine
Q1 Organic Chemistry
Q2 Pharmacology
2021
3.
Balogh, B. D., Szakács, B., Di Natale, G., Tabbi, G., Pappalardo, G., Sóvágó, I., Várnagy, K.: Copper (II) binding properties of an octapeptide fragment from the R3 region of tau protein: A combined potentiometric, spectroscopic and mass spectrometric study.
J. Inorg. Biochem. 217, 1-13, (article identifier: 111358), 2021.
doi DEA WoS Scopus
Journal metrics:
Q3 Biochemistry
Q2 Inorganic Chemistry
4.
Balogh, B. D., Szunyog, G., Lukács, M., Szakács, B., Sóvágó, I., Várnagy, K.: Thermodynamics and structural characterization of the nickel(II) and zinc(II) complexes of various peptide fragments of tau protein.
Dalton Trans. 50 (40), 14411-14420, 2021.
doi DEA WoS Scopus
Journal metrics:
Q1 Inorganic Chemistry
2020
5.
Csire, G., Turi, I., Sóvágó, I., Kárpáti, E., Kállay, C.: Complex formation processes and metal ion catalyzed oxidation of model peptides related to the metal binding site of the human prion protein.
J. Inorg. Biochem. 203, 1-9, (article identifier: 110927), 2020.
doi DEA WoS Scopus
Journal metrics:
Q3 Biochemistry
Q2 Inorganic Chemistry
2019
6.
Szunyog, G., Várnagy, K., Sóvágó, I., Laskai, A., Szűcs, D.: A comparative study on the nickel binding ability of peptides containing separate cysteinyl residues.
Dalton Trans. 48 (44), 16800-16811, 2019.
doi DEA WoS Scopus
Journal metrics:
Q1 Inorganic Chemistry
7.
Lukács, M., Szunyog, G., Grenács, Á., Lihi, N., Kállay, C., Di Natale, G., Campagna, T., Lanza, V., Tabbi, G., Pappalardo, G., Sóvágó, I., Várnagy, K.: Copper(II) Coordination Abilities of the Tau Protein's N-Terminus Peptide Fragments: A Combined Potentiometric, Spectroscopic and Mass Spectrometric Study.
ChemPlusChem. 84 (11), 1697-1708, 2019.
doi DEA WoS Scopus
Journal metrics:
Q1 Chemistry (miscellaneous)
8.
Balogh, B. D., Bihari, Z., Buglyó, P., Csire, G., Kerekes, Z., Lukács, M., Sóvágó, I., Várnagy, K.: Metal binding selectivity of an N-terminally free multihistidine peptide HAVAHHH-NH.
New J. Chem. 43 (2), 907-916, 2019.
doi DEA WoS Scopus
Journal metrics:
Q3 Catalysis
Q2 Chemistry (miscellaneous)
Q1 Materials Chemistry
9.
Lihi, N., Csire, G., Szakács, B., May, N. V., Várnagy, K., Sóvágó, I., Fábián, I.: Stabilization of the Nickel Binding Loop in NiSOD and Related Model Complexes: Thermodynamic and Structural Features.
Inorg. Chem. 58 (2), 1414-1424, 2019.
doi DEA WoS Scopus
Journal metrics:
Q1 Chemistry (miscellaneous)
D1 Inorganic Chemistry
Q1 Physical and Theoretical Chemistry
10.
Csire, G., Gajda, T., Kolozsi, A., Pappalardo, G., Sóvágó, I., Várnagy, K., Lihi, N., Fábián, I.: The ability of the NiSOD binding loop to chelate zinc( ii ): the role of the terminal amino group in the enzymatic functions.
Dalton Trans. 48 (18), 6217-6227, 2019.
doi DEA WoS Scopus
Journal metrics:
Q1 Inorganic Chemistry
2017
11.
Lihi, N., Lukács, M., Szűcs, D., Várnagy, K., Sóvágó, I.: Nickel(II), zinc(II) and cadmium(II) complexes of peptides containing separate aspartyl and cysteinyl residues.
Polyhedron. 133, 364-373, 2017.
doi DEA WoS Scopus
Journal metrics:
Q3 Inorganic Chemistry
Q2 Materials Chemistry
Q3 Physical and Theoretical Chemistry
12.
Grenács, Á., Lihi, N., Sóvágó, I., Várnagy, K.: The influence of penicillamine/cysteine mutation on the metal complexes of peptides.
Dalton Trans. 46 (39), 13472-13481, 2017.
doi DEA WoS Scopus
Journal metrics:
Q1 Inorganic Chemistry
13.
Lihi, N., Sanna, D., Bányai, I., Várnagy, K., Sóvágó, I.: Unusual binding modes in the copper(II) and palladium(II) complexes of peptides containing both histidyl and cysteinyl residues.
New J. Chem. 41 (3), 1372-1379, 2017.
doi DEA WoS Scopus
Journal metrics:
Q2 Catalysis
Q1 Chemistry (miscellaneous)
Q1 Materials Chemistry
2016
14.
Sóvágó, I., Várnagy, K., Lihi, N., Grenács, Á.: Coordinating properties of peptides containing histidyl residues.
Coord. Chem. Rev. 327-328, 43-54, 2016.
doi DEA WoS Scopus
Journal metrics:
D1 Chemistry (miscellaneous)
15.
Buglyó, P., Nagy, E. M., Sóvágó, I., Ozsváth, A., Sanna, D., Farkas, E.: Metal ion binding capability of secondary (N-methyl) versus primary (N-H) dipeptide hydroxamic acids.
Polyhedron. 110, 172-181, 2016.
doi DEA WoS Scopus
Journal metrics:
Q3 Inorganic Chemistry
Q2 Materials Chemistry
Q3 Physical and Theoretical Chemistry
16.
Hadháziné Raics, M., Lihi, N., Laskai, A., Kállay, C., Várnagy, K., Sóvágó, I.: Nickel(II), zinc(II) and cadmium(II) complexes of hexapeptides containing separate histidyl and cysteinyl binding sites.
New J. Chem. 40 (6), 5420-5427, 2016.
doi DEA WoS Scopus
Journal metrics:
Q2 Catalysis
Q1 Chemistry (miscellaneous)
Q1 Materials Chemistry
2015
17.
Grenács, Á., Sanna, D., Sóvágó, I.: Copper(II) and nickel(II) binding sites of peptide containing adjacent histidyl residues.
J. Inorg. Biochem. 151, 87-93, 2015.
doi DEA
Journal metrics:
Q2 Biochemistry
Q1 Inorganic Chemistry
18.
Hadháziné Raics, M., Sanna, D., Sóvágó, I., Kállay, C.: Copper(II), nickel(II) and zinc(II) complexes of hexapeptides containing separate aspartyl and histidyl residues.
Inorg. Chim. Acta. 426, 99-106, 2015.
doi DEA WoS Scopus
Journal metrics:
Q3 Inorganic Chemistry
Q2 Materials Chemistry
Q2 Physical and Theoretical Chemistry
19.
Di Natale, G., Turi, I., Pappalardo, G., Sóvágó, I., Rizzarelli, E.: Cross-Talk Between the Octarepeat Domain and the Fifth Binding Site of Prion Protein Driven by the Interaction of Copper(II) with the N-terminus.
Chem.-Eur. J. 21 (10), 4071-4084, 2015.
doi DEA
Journal metrics:
D1 Chemistry (miscellaneous)
20.
Buglyó, P., Lénárt, K., Kozsup, M., Bényei, A., Kováts, É., Sóvágó, I., Farkas, E.: [Pd(en)(H2O)2]2+ and [Pd(pic)(H2O)2]2+ complexation by monohydroxamic acids: a solution equilibrium and solid state approach.
Polyhedron. 100, 392-399, 2015.
doi DEA WoS Scopus
Journal metrics:
Q2 Inorganic Chemistry
Q2 Materials Chemistry
Q2 Physical and Theoretical Chemistry
21.
Dávid, Á., Kállay, C., Sanna, D., Lihi, N., Sóvágó, I., Várnagy, K.: Potentiometric and spectroscopic studies on the copper(II) complexes of rat amylin fragments. The anchoring ability of specific non-coordinating side chains.
Dalton Trans. 44 (39), 17091-17099, 2015.
doi DEA
Journal metrics:
Q1 Inorganic Chemistry
22.
Lihi, N., Grenács, Á., Timári, S., Turi, I., Bányai, I., Sóvágó, I., Várnagy, K.: Zinc(II) and cadmium(II) complexes of N-terminally free peptides containing two separate cysteinyl binding sites.
New J. Chem. 39 (11), 8364-8372, 2015.
doi DEA
Journal metrics:
Q2 Catalysis
Q1 Chemistry (miscellaneous)
Q1 Materials Chemistry
2014
23.
Sóvágó, I., Grenács, Á.: Copper(II), nickel(II) and zinc(II) binding ability of the N-terminal fragments of amyloid-beta peptide.
J. Biol. Inorg. Chem. 19 (Suppl), S755, 2014.
doi DEA
24.
Grenács, Á., Sóvágó, I.: Copper(II), nickel(II) and zinc(II) complexes of the N-terminal nonapeptide fragment of amyloid-[beta] and its derivatives.
J. Inorg. Biochem. 139, 49-56, 2014.
doi DEA
Journal metrics:
Q2 Biochemistry
Q1 Inorganic Chemistry
25.
Farkas, E., Bóka, B., Szőcs, B., Godó, A. J., Sóvágó, I.: Effect of the types and arrangements of donor atoms on Pb(II) versus Zn(II) binding preference of selected amino acids, peptides and derivatives.
Inorg. Chim. Acta. 423 (Part), 242-249, 2014.
doi DEA WoS Scopus
Journal metrics:
Q2 Inorganic Chemistry
Q2 Materials Chemistry
Q2 Physical and Theoretical Chemistry
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