Tudóstér: Farkas Etelka publikációi

Bíró, L., Tóth, B., Lihi, N., Farkas, E., Buglyó, P.: Interaction between [(eta(6)-p-cym)M(H2O)(3)](2+) (M-II = Ru, Os) or [(eta(5)-Cp*)M(H2O)(3)](2+) (M-III = Rh, Ir) and Phosphonate Derivatives of Iminodiacetic Acid: A Solution Equilibrium and DFT Study.
Molecules. 28 (3), 1-17-, 2023.

Bijlsma, J., Buglyó, P., Farkas, E., Velikov, K., Vincken, J., De Bruijn, W.: Interaction of iron(III) with taste enhancers: Potential of Fe(III) salts with inosine monophosphate or guanosine monophosphate for food fortification.
LWT-Food Sci. Technol. 184 1-10, 2023.

Farkas, E., Marmion, C.: Targeted Metallo-Drugs: Design, Development, and Modes of Action.
CRC Press, Boca Raton, 370 p., 2023. ISBN: 9781003272250

Bíró, L., Buglyó, P., Farkas, E.: Diversity in the Interaction of Amino Acid- and Peptide-Based Hydroxamic Acids with Some Platinum Group Metals in Solution.
Molecules. 27 (3), 1-27, 2022.

Nagy, S., Ozsváth, A., Bényei, A., Farkas, E., Buglyó, P.: Donor Atom Preference of Organoruthenium and Organorhodium Cations on the Interaction with Novel Ambidentate (N,N) and (O,O) Chelating Ligands in Aqueous Solution.
Molecules. 26 (12), 1-23, 2021.

Bíró, L., Buglyó, P., Farkas, E.: Factors Determining the Metal Ion Binding Ability and Selectivity of Hydroxamate-Based Compounds.
Curr. Med. Chem. 28 (35), 7209-7237, 2021.

Kozsup, M., Zhou, X., Farkas, E., Bényei, A., Bonnet, S., Patonay, T., Kónya, K., Buglyó, P.: Synthesis, characterization and cytotoxicity studies of Co(III)-flavonolato complexes.
J. Inorg. Biochem. 217 1-12, 2021.

Nagy, I., Ferenczik, G., Bíró, L., Farkas, E., Bényei, A., Buglyó, P.: Metal complexation of deferasirox derivatives: A solid state and equilibrium study.
Polyhedron. 190 1-13, 2020.

Kozsup, M., Dömötör, O., Nagy, S., Farkas, E., Enyedy, É., Buglyó, P.: Synthesis, characterization and albumin binding capabilities of quinizarin containing ternary cobalt(III) complexes.
J. Inorg. Biochem. 204 1-9, 2020.

Nagy, I., Farkas, E., Kasparkova, J., Kostrhunova, H., Brabec, V., Buglyó, P.: Synthesis and characterization of (Ru(II), Co(III)) heterobimetallic complexes formed with a 1,10-phenanthroline based hydroxamic acid conjugate.
J. Organomet. Chem. 916 1-9, 2020.

Kozsup, M., Farkas, E., Bényei, A., Kasparkova, J., Crlikova, H., Brabec, V., Buglyó, P.: Synthesis, characterization and biological evaluation of Co(III) complexes with quinolone drugs.
J. Inorg. Biochem. 193 94-105, 2019.

Ozsváth, A., Bíró, L., Nagy, E., Buglyó, P., Sanna, D., Farkas, E.: Trends and Exceptions in the Interaction of Hydroxamic Acid Derivatives of Common Di- and Tripeptides with Some 3d and 4d Metal Ions in Aqueous Solution.
Molecules. 24 (21), 1-25, 2019.

Ozsváth, A., Farkas, E., Diószegi, R., Buglyó, P.: Versatility and trends in the interaction between Pd(II) and peptide hydroxamic acids.
New J. Chem. 43 (21), 8239-8249, 2019.

Farkas, E., Szabó, O., Gyémánt, G., Szaniszló, S., Szabó, Z., Pócsi, I.: Complexation of hydroxamate-based siderophores with cobalt(II/III): growth inhibitory effect of cobalt(III)-desferricoprogen complex on fungi.
Transit. Met. Chem. 43 (4), 355-365, 2018.

Parajdi-Losonczi, P., Buglyó, P., Skakalova, H., Kasparkova, J., Lihi, N., Farkas, E.: Half-sandwich type rhodium(III)-aminohydroxamate complexes: the role of the position of the amino group in metal ion binding.
New J. Chem. 42 (10), 7659-7670, 2018.

Farkas, E.: Preface.
Inorg. Chim. Acta. 472 1-2, 2018.

Buglyó, P., Kacsir, I., Kozsup, M., Nagy, I., Nagy, S., Bényei, A., Kováts, É., Farkas, E.: Tuning the redox potentials of ternary cobalt(III) complexes containing various hydroxamates.
Inorg. Chim. Acta. 472 234-242, 2018.

Farkas, E., Buglyó, P.: Lead(II) Complexes of Amino Acids, Peptides, and Other Related Ligands of Biological Interest.
In: Lead: Its Effects on Environment and Health. Ed.: Astrid Sigel, Helmut Sigel, Roland K. O. Sigel, De Gruyter, Berlin, 201-240, 2017, (Metal Ions in Life Sciences, ISSN 1559-0836 ; 17.)

Buglyó, P., Farkas, E.: Potenciálisan rákellenes hatású platinafémionok kölcsönhatása hidroxámsavakkal és származékaikkal.
Magy. Kém. F. 123 (2), 101-107, 2017.

Buglyó, P., Parajdi-Losonczi, P., Bényei, A., Lihi, N., Bíró, L., Farkas, E.: Versatility of Coordination Modes in Complexes of Monohydroxamic Acids with Half-Sandwich Type Ruthenium, Rhodium, Osmium and Iridium Cations.
ChemistrySelect. 2 (26), 8127-8136, 2017.

Facchin, G., Veiga, N., Kramer, M., Batista, A., Várnagy, K., Farkas, E., Moreno, V., Torre, M.: Experimental and theoretical studies of copper complexes with isomeric dipeptides as novel candidates against breast cancer.
J. Inorg. Biochem. 162 52-61, 2016.

Buglyó, P., Nagy, E., 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.

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.

Buglyó, P., Bíró, L., Nagy, I., Szőcs, B., Farkas, E.: Hydroxypyronate, thiohydroxypyronate and hydroxypyridinonate derivatives as potential Pb2+ sequestering agents.
Polyhedron. 92 7-11, 2015.

Farkas, E., Bóka, B., Szőcs, B., Godó, A., 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.

Farkas, E., Szabó, O., Pócsi, I.: Ligand architectures as factors affecting the thermodynamic and redox stability of metal ion-siderophore complexes.
J. Biol. Inorg. Chem. 19 (Suppl), S861, 2014.

Farkas, E., Szabó, O., Parajdi-Losonczi, P., Balla, G., Pócsi, I.: Mn(II)/Mn(III) and Fe(III) binding capability of two Aspergillus fumigatus siderophores, desferricrocin and N', Nı, N"-triacetylfusarinine C.
J. Inorg. Biochem. 139 30-37, 2014.

Farkas, E., Szabó, O., Tircsó, G., Somsák, L.: Relaxometric determination of binding between Mn(II)-UDP and Mn(II)-UDP-glucose in aqueous solution.
Carbohydr. Res. 368 68-72, 2013.

Bíró, L., Farkas, E., Buglyó, P.: Hydrolytic behaviour and chloride ion binding capability of [Ru(n6-p-cym)(H2O)3]2+: a solution equilibrium study.
Dalton Trans. 41 (1), 285-291, 2012.

Griffith, D., Bíró, L., Platts, J., Müller-Bunz, H., Farkas, E., Buglyó, P.: Synthesis and solution behaviour of stable mono-, di- and trinuclear Pd(II) complexes of 2,5-pyridinedihydroxamic acid: X-ray crystal structure of a novel Pd(II) hydroxamato complex.
Inorg. Chim. Acta. 380 291-300, 2012.

Sóvágó, I., Farkas, E.: A fémion-fehérje kölcsönhatások modellezése és szerepe a neurodegeneratív betegségek okainak felderítésében és új enziminhibítorok tervezésében.
Magy. Kém. F. 117 (2-3), 89-95, 2011.

Szabó, O., Farkas, E.: Characterization of Mn(II) and Mn(III) binding capability of natural siderophores desferrioxamine B and desferricoprogen as well as model hydroxamic acids.
Inorg. Chim. Acta. 376 (1), 500-508, 2011.

Enyedy, É., Farkas, E., Dömötör, O., Santos, A.: Interaction of folic acid and some matrix metalloproteinase (MMP) inhibitor folate-[gamma]-hydroxamate derivatives with Zn(II) and human serum albumin.
J. Inorg. Biochem. 105 (3), 444-453, 2011.

Alagha, A., Parthasarathi, L., Gaynor, D., Müller-Bunz, H., Starikova, Z., Farkas, E., O'Brien, E., Gil, M., Nolan, K.: Metal complexes of cyclic hydroxamates. Synthesis and crystal structures of 3-hydroxy-2-methyl-3H-quinazolin-4-one (ChaH) and of its Fe(III), Co(II), Ni(II), Cu(II) and Zn(II) complexes.
Inorg. Chim. Acta. 368 (1), 58-66, 2011.

Griffith, D., Szőcs, B., Keogh, T., Suponitsky, K., Farkas, E., Buglyó, P., Marmion, C.: Suberoylanilide hydroxamic acid, a potent histone deacetylase inhibitor; its X-ray crystal structure and solid state and solution studies of its Zn(II), Ni(II), Cu(II) and Fe(III) complexes.
J. Inorg. Biochem. 105 (6), 763-769, 2011.

Bíró, L., Farkas, E., Buglyó, P.: Complex formation between Ru(eta(6)-p-cym)(H2O)(3) (2+) and (O,O) donor ligands with biological relevance in aqueous solution.
Dalton Trans. 39 (42), 10272-10278, 2010.

Csapó, E., Buglyó, P., Nagy, N., Santos, A., Corona, A., Farkas, E.: Syntheses and characterization of Cu2+, Ni2+ and Zn2+ binding capability of histidinehydroxamic acid derivatives.
Polyhedron. 29 (16), 3137-3145, 2010.

Jarenmark, M., Csapó, E., Singh, J., Wockel, S., Farkas, E., Meyer, F., Haukka, M., Nordlander, E.: Unsymmetrical dizinc complexes as models for the active sites of phosphohydrolases.
Dalton Trans. 39 8183-8194, 2010.

Gama, S., Dron, P., Chaves, S., Farkas, E., Santos, A.: A bis(3-hydroxy-4-pyridinone)-EDTA derivative as a strong chelator for M3+ hard metal ions: complexation ability and selectivity.
Dalton Trans. 6141-6150, 2009.

Gama, S., Gil, M., Gano, L., Farkas, E., Santos, A.: Combined chelation of bi-functional bis-hydroxypiridinone and mono-hydroxypiridinone: Synthesis, solution and in vivo evaluation.
J. Inorg. Biochem. 103 (2), 288-298, 2009.

Farkas, E., Lente, G., Somsák, L.: Kémia-, vegyész- és kémia-tanár-képzés a háromciklusú felsőoktatásban.
Magy. kém. lapja. 64 (10), 294-300, 2009.

Farkas, E., Csapó, E., Buglyó, P., Damante, C., Di Natale, G.: Metal-binding ability of histidine-containing peptidehydroxamic acids: Imidazole versus hydroxamate coordination.
Inorg. Chim. Acta. 362 (3), 753-762, 2009.

Buglyó, P., Farkas, E.: Novel half-sandwich Ru(II)-hydroxamate complexes: synthesis, characterization and equilibrium study in aqueous solution.
Dalton Trans. 38 8063-8070, 2009.

Farkas, E., Csapó, E., Buglyó, P.: Effects of imidazole containing Rc substituents on the metal binding capability of potentially metalloenzyme inhibitor hydroxamic acids.
Metal ions in biology and medicine. 10 393-398, 2008.

Müller, H., Bauer-Siebenlist, B., Csapó, E., Dechert, S., Farkas, E., Meyer, F.: New pyrazole-based ligands with two tripodal binding pockets: potential scaffolds for metallobiosite modeling.
Inorg. Chem. 47 (12), 5278-5292, 2008.

Farkas, E., Bátka, D., Kremper, G., Pócsi, I.: Structure-based differences between the metal ion selectivity of two siderophores desferrioxamine B (DFB) and desferricoprogen (DFC): why DFC is much better Pb(II) sequestering agent than DFB?.
J. Inorg. Biochem. 102 (8), 1654-1659, 2008.

Santos, A., Gama, S., Pessoa, J., Oliveira, M., Tóth, I., Farkas, E.: Complexation of molybdenum(VI) with bis(3-hydroxy-4-pyridinone)amino acid derivatives.
Eur. J. Inorg. Chem. 12 1728-1737, 2007.

Farkas, E., Bátka, D., Csóka, H., Nagy, N.: Interaction of imidazole containing hydroxamic acids with Fe(III) hydroxamate versus imidazole coordination of the ligands.
Bioinorg. Chem. Appl. 20072007.

Farkas, E., Sóvágó, I.: Metal complexes of amino acids and peptides.
Amino-acids. pept. proteins. 36 287-345, 2007.

Buglyó, P., Nagy, E., Farkas, E., Sóvágó, I., Sanna, D., Micera, G.: New insights into the metal ion-peptide hydroxamate interactions: metal complexes of primary hydroxamic acid derivatives of common dipeptides in aqueous solution.
Polyhedron. 26 (8), 1625-1633, 2007.

Kowalik-Jankowska, T., Kozlowski, H., Farkas, E., Sóvágó, I., Sigel, H., Sigel, A., Sigel, R.: Nickel ion complexes of amino acids and peptides.
In: Nickel and Its Surprising Impact in Nature. Ed.: by Astrid Sigel, Helmut Sigel, Roland K. O. Sigel, John Wiley, Chichester, 63-108, 2007, (Metal ions in life Sciences)

Prokofieva, A., Prikhod'ko, A., Enyedy, É., Farkas, E., Maringgele, W., Demeshko, S., Dechert, S., Meyer, F.: Oligonuclear copper complexes of a bioinspired pyrazolate-bridging ligand: synthesis, structures, and equilibria in solution.
Inorg. Chem. 46 (10), 4298-4307, 2007.

Farkas, E., Bátka, D., Csapó, E., Buglyó, P., Haase, W., Sanna, D.: Synthesis and characterization of Cu2+, Ni2+ and Zn2+ binding capability of some amino- and imidazole hydroxamic acids: effects of substitution of side chain amino-N for imidazole-N or hydroxamic-N-H for -N-CH3 on metal complexation.
Polyhedron. 26 (3), 543-554, 2007.

Selmeczi, K., Giorgi, M., Speier, G., Farkas, E., Réglier, M.: Mono-versus binuclear copper(II) complexes in phosphodiester hydrolysis.
European Journal of Inorganic Chemistry 2006 (5), 1022-1031, 2006.

Bátka, D., Farkas, E.: Pb(II)-binding capability of aminohydroxamic acids: Primary hydroxamic acid derivatives of α-amino acids as possible sequestering agents for Pb(II).
J. Inorg. Biochem. 100 (1), 27-35, 2006.

Santos, A., Gama, S., Gano, L., Farkas, E.: Bis(3-hydroxy-4-pyridinone)-EDTA derivative as a potential therapeutic Al-chelating agent: synthesis, solution studies and biological assays.
J. Inorg. Biochem. 99 (9), 1845-1852, 2005.

Bauer-Siebenlist, B., Meyer, F., Farkas, E., Vidovic, D., Dechert, S.: Effect of Zn...Zn Separation on the Hydrolytic Activity of Model Dizinc Phosphodiesterases.
Chem.-Eur. J. 11 (15), 4349-4360, 2005.

Santos, A., Gama, S., Gano, L., Cantinho, G., Farkas, E.: A new bis(3-hydroxy-4-pyridinone)-IDA derivative as a potential therapeutic chelating agent: synthesis, metal-complexation and biological assays.
Dalton Trans. 2004 (21), 3772-3781, 2004.

Farkas, E., Katz, Y., Bhusare, S., Reich, R., Röschenthaler, G., Königsmann, M., Breuer, E.: Carbamoylphosphonate-based matrix metalloproteinase inhibitor metal complexes: solution studies and stability constants. Towards a zinc-selective binding group.
J. Biol. Inorg. Chem. 9 (3), 307-315, 2004.

Enyedy, É., Farkas, E., Pócsi, I.: Complexation of desferricoprogen with trivalent Fe, Al, Ga, In and divalent Fe, Ni, Cu, Zn metal ions: effects of the linking chain structure on the metal binding ability of hydroxamate based siderophores.
J. Inorg. Biochem. 98 (11), 1957-1966, 2004.

Bauer-Siebenlist, B., Meyer, F., Farkas, E., Vidovic, D., Cuesta-Seijo, J., Herbst-Irmer, R., Pritzkow, H.: Correlation of Structure and Function in Oligonuclear Zinc(II) Model Phosphatases.
Inorg. Chem. 43 (14), 4189-4202, 2004.

Farkas, E., Buglyó, P., Enyedy, É., Santos, A.: Factors affecting the metal ion-hydroxamate interactions II: effect of the length of the connecting chain on the Fe(III), Mo(VI) and V(V) complexation of some new desferrioxamine B (DFB) model dihydroxamic acids.
Inorg. Chim. Acta. 357 (9), 2451-2461, 2004.

Farkas, E., Bátka, D., Pataki, Z., Buglyó, P., Santos, A.: Interaction of desferrioxamine B (DFB) model dihydroxamic acids with some essential and toxic metal(II) ions: effects of the structure and length of connecting chains on the metal ion selectivity.
Dalton Trans. 2004 (8), 1248-1253, 2004.

Farkas, E., Enyedy, É., Fábián, I.: New insight into the oxidation of Fe(II) by desferrioxamine B (DFB): spectrophotometric and capillary electrophoresis (CE) study.
Inorg. Chem. Commun. 6 (2), 131-134, 2003.

Amélia, S., Grazina, R., Buglyó, P., Gama, S., Farkas, E.: A new bipodal carboxy-bis(hydroxypyridinonate) ligand: Synthesis and complexation with copper(II), nickel(II) and zinc(II) in aqueous solution.
Polyhedron. 21 (25-26), 2609-2616, 2002.

Farkas, E., Csóka, H., Gama, S., Santos, A.: Dihydroxamate based siderophore model, piperazine-1,4-bis-(N-methyl-acetohydroxamic acid (PIPDMAHA), as a chelating agent of molybdenum(VI).
Talanta. 57 (5), 935-943, 2002.

Enyedy, É., Csóka, H., Lázár, I., Micera, G., Garribba, E., Farkas, E.: Effects of side chain amino nitrogen donor atoms on metal complexation of aminohydroxamic acids: New diaminohydroxamates chelating Ni(ii) more strongly than Fe(iii).
J. Chem. Soc. Dalton Trans. 13 2632-2640, 2002.

Santos, A., Grazina, R., Pinto, M., Farkas, E.: Erratum to: "Transition metal complexes of two new imino-dihydroxamic acids".
Inorg. Chim. Acta. 329 (1), 155-155, 2002.

Farkas, E., Buglyó, P., Enyedy, É., Gerlei, V., Santos, A.: Factors affecting the metal ion-hydroxamate interactions: effect of the position of the peptide function in the connecting chain on the Fe(III), Mo(VI) and V(V) complexation of some new desferrioxamine B (DFB) model dihydroxamic acids.
Inorg. Chim. Acta. 339 215-223, 2002.

Farkas, E., Csóka, H.: Solution equilibrium studies on metal complexes of 2,3-dihydroxy-phenylalanine-hydroxamic acid (Dopaha) and models: catecholate versus hydroxamate coordination in iron(III)-, aluminium(III)- and molybdenum(VI)-Dopaha complexes.
J. Inorg. Biochem. 89 (3-4), 219-226, 2002.

Farkas, E., Enyedy, É., Zékány, L., Deák, G.: Interaction between iron(II) and hydroxamic acids: oxidation of iron(II) to iron(III) by desferrioxamine B under anaerobic conditions.
J. Inorg. Biochem. 83 (2-3), 107-114, 2001.

Emri, T., Leiter, É., Farkas, E., Pócsi, I.: Penicillin productivity and glutathione-dependent detoxification of phenylacetic and phenoxyacetic acids in Penicillium chrysogenum.
J. Basic Microbiol. 41 (2), 67-73, 2001.

Farkas, E., Enyedy, É., Micera, G., Garribba, E.: Coordination modes of hydroxamic acids in copper(II), nickel(II) and zinc(II) mixed-ligand complexes in aqueous solution.
Polyhedron. 19 (14), 1727-1736, 2000.

O'Brien, E., Farkas, E., Gil, M., Fitzgerald, D., Castineras, A., Nolan, K.: Metal complexes of salicylhydroxamic acid (H2Sha), anthranilic hydroxamic acid and benzohydroxamic acid. Crystal and molecular structure of [Cu(phen)2(Cl)]Cl.H2Sha, a model for a peroxidase-inhibitor complex.
J. Inorg. Biochem. 79 (1-4), 47-51, 2000.

Farkas, E., Enyedy, É., Csóka, H.: Some factors affecting metal ion-monohydroxamate interactions in aqueous solution.
J. Inorg. Biochem. 79 (1-4), 205-211, 2000.

Farkas, E., Enyedy, É., Csóka, H.: A comparison between the chelating properties of some dihydroxamic acids, desferrioxamine B and acetohydroxamic acid.
Polyhedron. 18 (18), 2391-2398, 1999.

O'Brien, E., Farkas, E., Rockenbauer, A., Nolan, K., Farkas, E.: Metal complexes of taurine: the first reported solution equilibrium studies for complex formation by taurine at physiological pH; the copper(II)-glycylglycinate-taurine and the copper(II)-glycylspartate-taurine systems.
J. Inorg. Biochem. 77 (3-4), 135-139, 1999.

Cosar, S., Janik, M., Flock, M., Freisinger, E., Farkas, E., Lippert, B.: Mono- and di-nuclear complexes of (tryp)M(II) (M=Pd, Pt) with the model nucleobase 1-methylcytosine: Crystal structure and NMR solution studies.
J. Chem. Soc. Dalton Trans. 14 2329-2336, 1999.

Farkas, E., Csóka, H., Bell, G., Brown, D., Cuffe, L., Fitzpatrick, N., Glass, W., Errington, W., Kemp, T.: Oxygen versus nitrogen coordination in complexes of Mo(VI) and hydroxamate derivatives of alpha-amino acids: equilibrium, structural and theoretical studies.
J. Chem. Soc. Dalton Trans. 16 2789-2794, 1999.

Gaspar, M., Grazina, R., Bodor, A., Farkas, E., Santos, A.: Siderophore analoques: a new macrocyclic tetraamine tris(hydroxamate) ligand; synthesis and solution chemistry of the iron(III), aluminium(III) and copper(II) complexes.
J. Chem. Soc. Dalton Trans. 5 799-806, 1999.

Farkas, E., Kiss, T., Tóth, I., Fábián, I., Posta, J., Várnagy, K.: Általános és analitikai kémiai példatár.
Kossuth Egyetemi Kiadó, Debrecen, 273 p., 1998.

Farkas, E., Kozma, E., Pethő, M., Herlihy, K., Micera, G.: Equilibrium studies on copper(II)- and iron(III)-monohydroxamates.
Polyhedron. 17 (19), 3331-3342, 1998.

Farkas, E.: Hidroxámsavak és származékaik komplexképző sajátságai.
Kossuth Lajos Tudományegyetem Szervetlen és Analitikai Kémiai Tanszéke, Debrecen, 250 p., 1998.

Farkas, E., Megyeri, K., Somsák, L., Kovács, L.: Interaction between Mo(VI) and siderophore models in aqueous solution.
J. inorg. biochem. 70 (1), 41-47, 1998.

Kiss, T., Farkas, E.: Metal-binding ability of desferrioxamine B.
J. Incl. Phenom. Mol. Recogn. Chem. 32 (2-3), 385-403, 1998.

Farkas, E., Sóvágó, I.: Metal complexes of amino acids and peptides.
In: Amino acids, peptides and proteins : specialist periodical reports ISBN: 9781847552747

Kandra, L., Gyémánt, G., Farkas, E., Lipták, A.: Action pattern of porcine pancreatic alpha-amylase on 3 different series of beta-maltooligosaccharide glycosides.
Carbohydr. res. 298 (3), 237-242, 1997.

Farkas, E., Csóka, H., Micera, G., Dessi, A.: Copper(II), nickel(II), zinc(II), and molybdenum(VI) complexes of desferrioxamine B in aqueous solution.
J. inorg. biochem. 65 (4), 281-286, 1997.

Gonzalez, E., Farkas, E., Soudi, A., Tan, T., Yanovski, A., Nolan, K.: Metal complexes of the angiotensin-converting enzyme inhibitor, lisinopril. Solution studies and the crystal and molecular structure of a dimeric copper(II)-lisinopril complex.
J. Chem. Soc. Dalton Trans. 13 2377-2379, 1997.

Santos, A., Esteves, A., Vaz, C., Silva, F., Noszál, B., Farkas, E.: Microscopic acid-base equilibriaof a synthetic hydroxamate siderophore analog, piperazine-1,4-bis(N-methylacetohydroxamic acid).
J. Chem. Soc., Perkin trans. 2. 10 1977-1983, 1997.

Sóvágó, I., Kiss, A., Farkas, E., Lippert, B.: Potentiometric and spectroscopic studies on the ternary complexes of copper(II) and palladium(II) with peptides and nucleobases.
Cytotoxic, mutagenic and carcinogenic potential of heavy metals related to human environment 521-535, 1997.

Sóvágó, I., Kiss, A., Farkas, E., Sanna, D., Marras, P., Micera, G.: Potentiometric and spectroscopic studies on the ternary complexes of copper(II) with dipeptides and nucleobases.
J. inorg. biochem. 65 (2), 103-108, 1997.

Gonzalez, G., Farkas, E., Tan, T., Soudi, A., Yanovski, A., Nolan, K.: Solution and solid state studies of metal complexes of the angiotensin converting enzyme (ACE) inhibitor, lisinopril. The crystal and molecular structure of a dimeric copper(II)-lisinopril complex.
Progress in coordination and organometallic chemistry - Vol 3 221, 1997.

Kiss, A., Farkas, E., Sóvágó, I., Thorman, B., Lippert, B.: Solution equilibria of the ternary complexes of [Pd(dien)Cl] p+ s and [Pd(terpy)Cl] p+ s with nucleobases and N-acetyl amino acids.
J. inorg. biochem. 68 (2), 85-92, 1997.

Farkas, E., Jánossy, L., Harangi, J., Kandra, L., Lipták, A.: Synthesis of chromogenic substrates of ga s-amylases on a cyclodextrin basis.
Carbohydr. res. 303 (4), 407-415, 1997.

Farkas, E.: Általános és analitikai kémiai példatár.
KLTE, Debrecen, 272, [2] p., 1996.

Farkas, E., Kiss, T., Tóth, I., Fábián, I., Posta, J., Várnagy, K.: Általános és analitikai kémiai példatár.
KLTE, Debrecen, 272, [2] p., 1996.

O'Suvillan, P., Glennon, D., Farkas, E., Kiss, T.: Aminohidroxamic acids as metal sequestering agents: Copper(II) and nickel(II) complexes of 2,6-diamino-N-hydroxyhexanamide, 2-aino-5-[ (aminoiminoethyl)amino]- N-hydroxypentanaide, 2-amino-4-methylthio-N-hydroxybutanamide in aqueous solution.
J. Coord. Chem. 38 (4), 271-280, 1996.

Turel, I., Bukovec, N., Farkas, E.: Complex formation between some metals and a quinolone family member (ciprofloxacin).
Polyhedron. 15 (2), 269-275, 1996.

Kiss, T., Farkas, E.: The bioinorganic chemistry of aluminium.
In: The bioinorganic chemistry. vol. 3, JAI Press Inc., New York, 199-250, 1996.

Farkas, E., Kozma, E., Kiss, T., Tóth, I., Kurzak, B.: Role of the NH+moiety in iron(III)-, aluminium(III)- and gallium(III)-aminohydroxamate interactions.
J. Chem. Soc. Dalton Trans. 3 477-481, 1995.

Esteves, A., Vaz, T., Goncalves, S., Farkas, E., Santos, A.: Siderophore analogues: Synthesis and chelating properties of a new macrocyclic trishydroxamate ligand.
J. Chem. Soc. Dalton Trans. 15 2565-2573, 1995.

Gonzalez, E., Daeid, N., Nolan, K., Farkas, E.: Complex formation between transition metal ions and salicylglycine, a metabolite of aspirin.
Polyhedron. 13 (10), 1495-1499, 1994.

Kurzak, B., Nakonieczna, L., Rusek, G., Kozlowski, H., Farkas, E.: Copper(II), nickel(II) and zinc(II) coordination by dihydroxamic acids.
J. Coord. Chem 1993.

Sóvágó, I., Farkas, E., Bertalan, C., Lebkiri, A., Kowalik-Jankowska, T., Kozlowski, H.: Copper(II) complexes of dipeptides containing aspartyl, glutamyl, and histidyl residues in the side chain.
J. Inorg. Biochem. 51 (4), 715-726, 1993.

Farkas, E., Brown, D., Cittaro, R., Glass, W.: Metal complexes of glutamic acid-š-hydroxamic acid (glu-š-ha) (N-hydroxyglutamine) in aqueous solution.
J. Chem. Soc. Dalton Trans 1993.

Kurzak, B., Farkas, E.: Nickel(II) and zinc(II) complexes of β-alaninehydroxamic acid.
J. Coord. Chem. 28 (3-4), 203-207, 1993.

Farkas, E., Kozma, E., Gunda, T.: Cystine dihydroxamic acid as a chelating agent.
Polyhedron. 11 (23), 3069-3074, 1992.

Farkas, E., Gunst, P.: Dihydroxamic acids as chelating agents.
In: EUROBIC I, Metal Ions in Biological Systems, Newcastle upon Tyne, July 8-12, 1992

Kurzak, B., Kozlowski, H., Farkas, E.: Hydroxamic and aminohydroxamic acids and their complexes with metal ions.
Coord. Chem. Rev. 114 (2), 169-200, 1992.

Farkas, E., Kurzak, B.: Aminohydroxamic acids as chelating agents.
J. Inorg. Biochem 1991.

Farkas, E., Kovács, A.: Hydroxamic acid derivatives of phenylalanine, tyrosine and 3,4-dihydroxyphenilalanine (DOPA) as ligands.
J. Coord. Chem 1991.

Kurzak, B., Farkas, E., Glowiak, T., Kozlowski, H.: X-ray and potentiometric studies on a pentanuclear copper(II) complex complex with ò-alaninehydroxamic acid.
J. Chem. Soc. Dalton Tarns 1991.

Farkas, E., Buglyó, P.: A L-Ó-alaninhidroxámsav-fémion kölcsönhatások módosulása egyéb ligandumok jelenlétében.
Magyar Kémiai Folyóirat 1990.

Farkas, E., Kiss, I.: Complexes of peptide hydroxamates: complex formation between transition metals and L-prolyl-L-leucylglycinehydroxamic acid [N-hydroxy-7-methyl-4-oxo-5-(pyrrolidine-2'-carboxamido)-3-azaoctanamide] and L-prolyl-L-leucinehydroxamic acid [N-hydroxy-4-methyl-2-(pyrrolidine-2'-carboxamido)pentanamide].
J. Chem. Soc. Dalton Trans. 1990 (3), 749-753, 1990.

Farkas, E., Buglyó, P.: Complex formation between transition metals and DL-aspartic acid-beta-hydroxamic acid (N-hydroxyasparagine).
J. Chem. Soc. Dalton Trans. 1990 (5), 1549-1551, 1990.

Kiss, T., Farkas, E., Jezowska-Bojczuk, M., Kozlowski, H., Kowalik, E.: Copper(II) complexes of ligands containing both aminocarboxylate and aminophosphinate moieties.
J. Chem. Soc. Dalton Trans. 1990 (1), 377-379, 1990.

Farkas, E., Kiss, T., Kurzak, B.: Microscopic dissociation processes of alaninehydroxamic acids.
J. Chem. Soc. Perkin Trans. 2. 1990 (7), 1255-1257, 1990.

Farkas, E., Kurzak, B.: Potentiometric and spectroscopic studies of binary and ternary copper(II) complexes with histidinehydroxamic acid.
J. Coord. Chem. 22 (2), 145-151, 1990.

Kiss, T., Szőke, J., Farkas, E.: Az L-Ó-alanin-hidroxámsav komplexképző sajátságai..
Magyar Kémiai Folyóirat 1989.

Kiss, T., Farkas, E., Kozlowski, H., Siatecki, Z., Kafarski, P., Lejczak, B.: Complexes of Aminophosphonates, Part 3.: copper(II) complexes of several monophosphono and diphosphono dipeptides.
J. Chem. Soc. Dalton Trans. 1989 (6), 1053-1057, 1989.

Kiss, T., Farkas, E., Kozlowski, H.: Complexes of aminophosphonates. II.: transition metal complexes of aminophosphonic acid analogues of aspartic acid and glutamic acid.
Inorg. Chim. Acta 155 (2), 281-287, 1989.

Farkas, E., Szőke, J., Kiss, T., Kozlowski, H., Bal, W.: Complex-forming properties of L-alpha-alaninehydroxamic acid (2-amino-N-hydroxypropanamide).
J. Chem. Soc. Dalton Trans. 1989 (11), 2247-2251, 1989.

Farkas, E., Kiss, T.: Effects of side-chain donor groups on deprotonation of peptide amide in copper(II) complexes at high pH.
Polyhedron. 8 (20), 2463-2467, 1989.

Farkas, E., Kiss, T., Tóth, I., Fábián, I., Posta, J., Várnagy, K.: Általános és analitikai kémiai példatár.
[s.n.], Debrecen, 264 p., 1988.

Farkas, E.: Általános és analitikai kémiai példatár.
[s.n.], Debrecen, 264 p., 1988.

Farkas, E., Tőzsér, J., Gergely, A.: Vizsgálatok az átmenetifém-peptid komplexek körében, XI.: Az L-szeril-glicin komplexképző sajátságai.
Magy. Kém. F. 92 (2), 49-54, 1986.