2
könyv, 2 könyvfejezet, 64 folyóirat cikk
S Impakt faktor: 133.707
S Független hivatkozás: 849
Books:
(1) H. Gamsjäger, J. Bugajski, T. Gajda, R.J. Lemire, W. Preis, Chemical Thermodynamics Vol. 6.: Chemical Thermodynamics of Nickel, (617 pp). Elsevier, Amsterdam, 2005.
(2) Kiss T., Gajda T., Gyurcsik B., Bevezetés a Bioszervetlen kémiába, Nemzeti Tankönyvkiadó, 2007
Book chapter:
(1) R. Krämer and T. Gajda, (1999) "Functional Model Complexes for Dinuclear Phosphoesterase Enzymes", in Perspectives on Bioinorganic Chemistry, Vol. 4 (Ed.:R.W. Hay, J.R. Dilwoth, K. Nolan), JAI Press Inc., 1999, pp. 207-240.
2. T. Gajda, A. Jancsó, ’Organotins:
Formation, use, speciation and toxicology’, in Metal Ions in Life Sciences vol.
7 pp. 111-152 (Eds. A. Sigel, H. Sigel,
R.K.O. Sigel), RSC Publishing Thomas Graham Hause, 2010.
Papers:
(1) Nagy L., Horváth
(2) Nagy L., Gajda T., Pali T. and Burger K. (1986), "Saccharose complexes of manganese in different oxidations states", Inorg. Chim. Acta, 123, 35-40. Impact factor: 1,26
(3) Nagy L., Gajda T., Pali T. and Burger K. (1988), "Electrochemical and spectroscopic study of the maltitol complexes of manganese in different oxidation states",
Acta
Chim. Hung., 125, 403-414. Impact factor: 0,30
(4) Gajda T., Nagy L. and Burger K. (1990), "Proton and zinc(II)-complexes of 2-(polyhydroxy-alkyl)thiazolidine-4-carboxylic acid derivatives",
J.
Chem. Soc.,
(5) Gajda T., Nagy L., Rozlosnik N., Korecz L. and Burger K. (1992), "Equilibrium and spectroscopic studies of transition-metal complexes of sugar-containing thiazolidine derivatives", J. Chem. Soc., Dalton Trans., 475-479. Impact factor: 1,834
(6)
Gajda T., Henry B. and J.-J.
Delpuech (1992), "Transition-metal complexes of carcinine, a peptide-type
derivative of histamine", J. Chem.
Soc.,
(7) Gyurcsik B., Gajda T., Nagy L. and Burger K. (1992), "Equilibrium and structural studies on proton and copper(II) complexes of N-D-gluconyl-glycine",
J.
Chem. Soc.,
(8) Gajda T., Buzas N., Nagy L. and Burger K. (1992) "Manganese(II) and nickel(II) complexes of some 2-(polyhydroxyalkyl)thiazolidine-4-carboxylic acid derivatives",
Polyhedron, 11, 2237-2243. Impact factor: 1,287
(9) Gajda T., Henry B. and Delpuech J.-J. (1993), "Complexes of copper(II) ion with histamine containing dipeptides: Formation constants and structure",
J. Chem. Soc. Dalton Trans 1301-1306. Impact factor: 1,966
(10) B. Gyurcsik, T. Gajda, L. Nagy, K. Burger, A. Rockenbauer and L. Korecz Jr. (1993) "Proton, copper(II) and nickel(II) complexes of some Amadori Rearrangement product of D-glucose and amino acids", Inorg. Chim. Acta, 214, 57-66. Impact factor: 1,34
(11) Gajda T., Henry B. and Delpuech J.-J. (1994), "Multinuclear NMR and potentiometric
study on tautomerism during protonation and Zn(II) complex formation of some imidazole-containing peptide derivatives", J. Chem. Soc. Perkin Transaction II., 89,157-164. Impact factor: 1,536
(12)
B. Gyurcsik, N. Buzás, T. Gajda, L.
Nagy, E. Kuzmann, A. Vértes and K. Burger (1995), "The stability and
structure of complex species formed in equilibrium reaction of diethyltin(IV)
with N-D-gluconylamino acids in aqueous solution",
Z. Naturforsch., 50B, 515-523. Impact factor: 0,96
(13) N. Buzás, T. Gajda, E. Kuzmann, L. Nagy, A. Vértes and K. Burger (1995), "Coordination properties of L-cysteine and its derivatives towards diethyltin(IV) in aqueous solution" Main Group Met. Chem. 18, 641-649. Impact factor: 0,64
(14) Gajda T., Henry B. and Delpuech J.-J. (1995), "Potentiometric and spectroscopic study of nickel(II) and cobalt(II) complexes of histamine-containing dipeptides",
Inorg. Chem., 34, 2455-2460. Impact factor: 2,534
(15) Nagy L., Gajda T., Kürti J., Schrantz K. and Burger K. (1996), "Spectroscopic study of iron(III) complexes formed with D-saccharose and D-glucose in solid state and in solution"
J. Radioanal. Nucl. Chem., 209, 225-230. Impact factor: 0,61
16) Gajda T., Henry B., Aubry A., and Delpuech J.-J. (1996),”Proton and metal-ion interactions with glycyl-glycyl-histamine mimicking Serum Albumin”,
Inorg. Chem., 35, 586-593. Impact factor: 2,99
(17) Gyurcsik B., Gajda T., Nagy L. and Parkany L. (1997) "Synthesis, 13C-NMR characterization and crystal structure of some new N-D-gluconylamino acids" , ACH Models in Chemistry, 143, 71-82. Impact factor: 0,27
(18) Kálmán L., Gajda T., Sebban P. and Maróti P., (1997) "pH-metric study of reaction centers from photosynthetic bacteria in micellar solutions : protonable groups equibrate with the aqueous bulk phase"; Biochemistry, 36, 4489-4496. Impact factor: 4,818
(19) Gajda T., Henry B. and Delpuech J.-J., (1997) "Stereoisomerism and Equilibrium Properties of Oxygen-carrying Cobalt(II) Complexes of Histamine and its Derivatives: New Approach to an Old System", Inorg. Chem., 36, 1850-1859. Impact factor: 2,796
(20) B. Gyurcsik, T. Gajda, A. Jancsó, H. Lammers and L. Nagy, (1997) "Equilibrium and solution structural study of the proton, copper(II), nickel(II) and zinc(II) complexes of N-(2-aminoethyl)-D-galactamine" J. Chem. Soc., Dalton Trans., 2125-2131. Impact factor: 2,251
(21) K. Burger, N. Buzás, K. Gajda-Schrantz, T. Gajda, I. Dékány, M. Szekeres, (1997), "Mössbauer and NMR study of the N-D-gluconyl-glycine complex of dimethyltin(IV) and the ascorbic acid - chloride mixed complex of iron(III) in solutions fixed as nanosize droplets in solid matrixes", Spectrochim. Acta Part A, 53, 2525-2536. Impact factor: 0,70
(22) D. Sanna, G. Micera, P. Buglyó, T. Kiss, T. Gajda, P. Surdy, (1998) "Oxovanadium(IV) complexes of Imidazole-4-acetic, Imidazole-4,5-dicarboxylic and Pyrraloze-3,5-dicarboxylic acids", Inorg. Chim. Acta, 268, 297-304. Impact factor: 1,45
(23) T. Gajda, B. Gyurcsik, T. Jakusch, K. Burger, B. Henry and J.-J. Delpuech (1998) "Coordination chemistry of polyhydroxy acids: role of the hydoxy groups", Inorg. Chim. Acta,
275-276,
130-140. Impact factor: 1,45
(24) I. Török, P. Surdy, A. Rockenbauer, L. Korecz, G.J.A.A. Koolhaas and T. Gajda, (1998)
“Nickel(II)-, copper(II)- and zinc(II) complexes of some substituted imidazole ligands”
J. Inorg. Biochem., 71, 7-14. Impact factor: 1,342
(25) I. Török, T. Gajda, B. Gyurcsik, G.K. Tóth, A. Péter (1998), “Metal complexes of imidazole ligands containing histamine-like donor sets: equilibrium, solution structure and hydrolytic activity”, J. Chem. Soc., Dalton Trans., 1205-1212. Impact factor: 2,507
(26) J. Costa-Pessoa, T. Gajda, R.D. Gillard, T. Kiss, S.M. Luz, J.J.G. Moura, I. Tomaz, J.P. Telo and I. Török, (1998), “Oxovanadium(IV) complexes of the dipeptides glycyl-L-aspartic acid, L-aspartylglycine and related ligands; a spectroscopic and potentiometric study”, J. Chem. Soc., Dalton Trans., 3587-3600. Impact factor: 2,507
(27) N. Buzás, T. Gajda, L. Nagy, E. Kuzmann, A. Vértes, K. Burger, (1998), “Unusual coordination behavior of D-fructose towards dimethyltin(IV): metal-promoted deprotonation of alcoholic OH groups in aqueous solutions of low pH”, Inorg. Chim. Acta, 274,167-176. Impact factor: 1,45
(28)
P. Surdy, P. Rubini,
(29) T. Gajda, R. Krämer, A. Jancsó, (2000) "Structure, equilibrium and ribonuclease activity of copper(II)- and zinc(II) complexes formed with a dinucleating bis-imidazole ligand" Eur. J. Inorg. Chem., 1635-1644. Impact factor: 2,222
(30)
A. Jancsó, B. Henry, P. Rubini, Gy.
Vankó, T. Gajda, (2000) "Dimethyltin(IV)
cation induced amide deprotonation of aspartic acid containing dipeptides" J. Chem. Soc.,
(31) A. Jancsó, T. Gajda, E. Mulliez, L. Korecz, (2000) "Equilibrium and solution structural study of the interaction of tri- and tetradentate polyimidazole ligands with transition metal ions", J. Chem. Soc., Dalton Trans., 2679-2684. Impact factor: 2,507
(32) Nagy, L.; Yamaguchi, T.; Yamashita, S.;
Nomura, M.; Gajda, T. (2000); Buzás,
N.; Wakita, H. "EXAFS and XANES studies
of Ni(II), Zn(II), Mn(II) and Ag(I) complexes of some
2-(polyhydroxyalkyl)thiazolidine-4-carboxylic acids.", ACH - Models in
Chemistry, 137(1), 1-23. Impact factor: 0,27
(33) T. Gajda (2001) "Trends in functional mimicking of metallophosphoesterases" (in hungarian), Acta Pharm. Hung., LXX., 109-118.
(34)
A.Jancsó, T. Gajda, A. Szorcsik, T. Kiss, B. Henry, Gy. Vankó and P. Rubini
(2001) "Potentiometric and spectroscopic studies on the dimethyltin(IV)
complexes of 2-hydroxyhippuric acid", J.
Inorg. Biochem., 83, 187-192. Impact factor: 1,729
(35) T. Gajda, Y. Düpre, I. Török, J. Harmer, A. Schweiger, J. Sander, D. Kuppert, K. Hegetschweiler (2001) "Highly efficient phosphodiester hydrolysis promoted by a dinuclear copper(II) complex", Inorg. Chem., 40, 4918-4928. Impact factor: 2,946
(36) K. Gajda-Schrantz, L. Nagy, T. Fiore, L. Pellerito, T. Gajda (2002), "Equilibrium and spectroscopic studies of diethyltin(IV) complexes formed with hydroxymono- and dicarboxylic acids and their thioanalogues", J. Chem. Soc., Dalton Trans., 152-158. Impact factor: 3,023
(37) T. Gajda, A. Jancsó, S. Mikkola, H. Lönnberg, H. Sirges (2002) "Crystal structure, solution properties and hydrolytic activity of an alkoxo-bridged dinuclear copper(II) complex, as a ribonuclease model", J. Chem. Soc., Dalton Trans., 1757-1763. Impact factor: 3,023
(38) Y. Fujii, T. Kiss, T. Gajda, X.S. Tan, T. Sato, Y. Nakano, Y. Hayashi, M. Yashiro (2002) "Copper(II)-cis,cis-1,3,5-triaminocyclohexane complex promoted hydrolysis of dipeptides: kinetics, speciation and structural studies", J. Biol. Inorg. Chem., 2002, 7, 843-851. Impact factor: 3,911
(39) S. Albedyhl, D. Schnieders, A. Jancsó, T. Gajda, B. Krebs (2002) "Heterodinuclear Zinc(II)-Iron(III) Complexes and Dinuclear Zinc Complexes as Models for Zinc Containing Phosphatases", Eur. J. Inorg. Chem., 2002, 1400-1409. Impact factor: 2,526
(40) A. Jancsó, I. Török, L. Korecz, A.
Rockenbauer, T. Gajda (2002)
"Metal ion co-ordination of a tripodal imidazole-derivative and its
tridentate constituent: equilibrium and structural studies", J. Chem. Soc.,
(41) A. Jancsó, S. Mikkola, H. Lönnberg, K.
Hegetschweiler, T. Gajda, (2003)
"Phosphodiester Cleavage of Ribonucleoside Monophosphates and
Polyribonucleotides by Homo- and heterodinuclear Metal Complexes of a
Cyclohexane-Based Polyamino-Polyol Ligand", Chem. Eur. J., 2003, 9,
5404-5415. Impact factor: 4,353
(42) K. Gajda-Schrantz, A. Jancsó, C. Pettinari, T. Gajda (2003), "Thiolate anchore in organotin(IV) induced amide deprotonation: equilibrium and NMR spectroscopic studies on dimethyltin(IV) complexes formed with N-(2-mercapto-propionyl)glycine and L-alanyl-glycine", J. Chem. Soc. Dalton, 2003, 2912-2916. Impact factor: 2.908
(43) K.J. Powell, P.L. Brown, L.H. Byrne, T. Gajda, G. Hefter, S. Sjöberg, H. Wanner, “Chemical Specition of Hg(II) with environmental inorganic ligands”, Aust. J. Chem. 2004, 57, 993-1000. Impact factor: 1,434
(44) Zs.
Árkosi, Z. Paksi, L. Korecz, T. Gajda*, B. Henry* and A. Rockenbauer*,
“Reinvestigation of the copper(II) - carcinine equilibrium system: “two-dimensional” epr simulation and NMR
relaxation studIES for determining the formation constants and coordination
modes”, J. Inorg. Biochem. 2004, 98, 1995-2005. Impact factor: 2,225
(45) K.J. Powell, P.L. Brown, L.H.
Byrne, T. Gajda, G. Hefter, S. Sjöberg, H. Wanner, " Chemical Specition of Hg(II) with
environmental inorganic ligands. Part 1: The Hg2+–
(46)
A. Jancsó, S. Mikkola, H. Lönnberg, K. Hegetschweiler, T. Gajda „Hydrolysis of
a mRNA 5′-cap model substrate, 5′,5′-ApppA by di- and
trinuclear zinc(II) complexes of a polyamino-polyol ligand”, J. Inorg. Biochem., 2005, 99, 1283-11293. Impact factor: 2,423
(47) A. Jancsó, Z. Paksi,
(48) A. Jancsó, Z. Paksi, N. Jakab, B. Gyurcsik, A. Rockenbauer, T. Gajda, „Solution chemical properties and
catecholase-like activity of the copper(II)-Ac-His-His-Gly-His-OH system, a
relevant functional model for copper containing oxidases”, Dalton Trans., 2005, 3187-3194. Impakt Faktor: 3.003
(49) Chemical speciation of environmentally
significant metals with inorganic ligands - Part 2: The Cu2+-OH-, Cl-, CO32-,
SO42-, and PO43- systems - (IUPAC technical report),
Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Sjoberg S, Wanner H,
Pure
Appl. Chem. 79, 895-950, 2007, Impakt
Faktor:2.232
(50) Gajda T., Gyurcsik B, Mesterséges enzimek, Természet Világa, 138, 41-44, 2007.
(51) Q. Wang, E. Leino, A. Jancsó, I.
Szilágyi, T. Gajda, E. Hietamaki, H. Lönnberg
Zn2+ complexes of di-
and tri-nucleating azacrown ligands as base moiety selective cleaving agents of
RNA 3`,5`-phosphodiester bonds: binding to guanine base
ChemBioChem 9, 1739 (2008), Impakt Faktor:
3,322
(52) N.I. Jakab, A. Jancsó, T. Gajda, B. Gyurcsik, A. Rockenbauer,
Copper(II), nickel(II) and zinc(II) complexes of N-acetyl-His-Pro-His-His-NH2: equilibria, solution structure and enzyme mimicking
J.
Inorg. Biochem. 102, 1438-1448, 2008, Impakt Faktor:
3,133
(53) Paksi Z, Jancso A, Pacello F, Nagy N, Battistoni A, Gajda T,
Copper and zinc binding properties of the N-terminal histidine-rich sequence of Haemophilus ducreyi Cu,Zn superoxide dismutase
J. Inorg. Biochem. 102, 1700-1710, 2008, Impakt Faktor: 3,133
(54) I.N. Jakab, O. Lőrincz, A. Jancsó, T. Gajda, B. Gyurcsik,
Approaching the minimal metal ion binding
peptide for structural and functional metalloenzyme mimicking, Dalton Trans. 6987-6995, 2008, Impakt Faktor:
3,580
(55) A. Jancsó, I. Török, K. Hegetschweiler, T. Gajda
Efficient and selective hydrolysis of 4-nitrophenyl phosphate by a dinuclear copper(II) complex, ARKIVOC Part 3, 217-224, 2009, Impakt Faktor: 1,377
(56) A. Kolozsi, A. Jancsó, N.V. Nagy, T. Gajda,
N-terminal fragment of the
anti-angiogenic human endostatin binds copper(II) with very high affinity, J.
Inorg. Biochem. 103, 940-947, 2009, Impakt
Faktor: 3,252
(57) Attila Jancsó , András Kolozsi, Béla Gyurcsik, Nóra V. Nagy, Tamás Gajda, Probing the Cu2+ and Zn2+ binding affinity of histidine-rich glycoprotein
J.
Inorg. Biochem. 103 (2009) 1634–1643, Impakt Faktor: 3,252
(58) T. Gajda, P. Sipos, H. Gamsjager,
The
standard electrode potential of the Sn4+/Sn2+ couple
revisited
Monat. Chem.,
140, 1293-1303,
2009. Impakt Faktor: 1.312
(59) Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Sjoberg S, Wanner H,
Chemical speciation of environmentally significant
metals with inorganic ligands - Part 3: The Pb2+-OH–, Cl–,
CO32–, SO42–, and PO43–
systems - (IUPAC technical report),
Pure Appl. Chem. 81, 2425-2476,
2009, Impakt Faktor:2.289
(60) A. Jancso A, K. Selmeczi K, P. Gizzi P, N.V. Nagy NV,
T. Gajda, B.Henry,
J. Inorg. Biochem. 105 (2011) 92–101, Impakt Faktor: 3,317
(61) Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Leuz A.-K., Sjoberg S, Wanner H,
Chemical speciation of environmentally significant
metals with inorganic ligands - Part 4: The Cd2+-OH–, Cl–,
CO32–, SO42–, and PO43–
systems - (IUPAC technical report),
Pure Appl. Chem. 83, 1163-1214,
2011, Impakt Faktor:2.289
62. J.S. Pap, B. Kripli, V. Bányai, M. Giorgi, L. Korecz, T. Gajda, D. Árus, J. Kaizer, G. Speier
Tetra-, penta- and hexacoordinate
copper(II) complexes with N(3) donor isoindoline-based ligands:
Characterization and SOD-like activity
Inorg. Chim. Acta 376, 158-169, 2011, Impakt Faktor: 1.918
On the possible roles of N-terminal His-rich domains of Cu,Zn SODs of some Gram-negative bacteria, J. Inorg. Biochem. 106 (2012) 10–18, Impakt Faktor: 3,317
64. T.A. Lönnberg, M. Helkearo, A. Jancsó, T. Gajda
Mimics of small ribozymes
utilizing a supramolecular scaffold, Dalton Trans., 2012, 41 (11), 3328 –
3338. Impakt Faktor: 3.647