Abstract
The present review was dedicated to laccase—the enzyme, belonging to the group of multinuclear copper, containing so called “blue” oxidases. The molecular structure, metals content, substrate specificity, and other physicochemical properties were described in this article. The authors considered the mechanism of enzymatic action and electrocatalytic oxygen reduction catalyzed by laccase in details. The data of laccase application in organic synthesis, biosensors, and immunoenzyme assay were presented.
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De Vries, O. M. H., Kooistra, W. H. C. F., and Wessels, J. G. H. (1986), J. Gen. Microbiol. 132, 2817–2826.
Von Hunolstein, C., Valenti, P., Visca, P., and Orsi, N. (1986), J. Gen. Appl. Microbiol. 32,3, 185–191.
Gindilis, A. L., (1988), Physicochemical principles of catalysis by laccase from various sources. Dissertation for Candidate of Sciences (Chemistry) Moscow.
Yaropolov, A. I., (1986), Kinetic principles of biocatalyst activity in electrochemical systems. Doctor's dissertation, Moscow.
Shutteworth, K. L. and Bollag, J.-M. (1986), Enzyme Microbiol. Technol. 1,3, 171–177.
Sannia, G., Bionocore, V., Guardina, P., Lina, M., and Rossi, M. (1986), Biotechnol. Lett. 8,11,, 797–800.
Shuttleworth, K. L., Postie, L., and Bollas, J.-M. (1986), Can. J. Microbiol. 32,11, 867–870.
Geiger, J. P., Huguenin, B., Nandris, D., and Nicole, M. (1986), Appl. Biochem. Biotechnol 13,2, 97–110.
Bligny, R., Gaillard, J., and Douce, R. (1986), Biochem. J. 237,2, 583–588.
Zonazi, N., Romette, J.-L., and Thomas, D. (1987), Appl. Biochem. Biotechnol. 15,3, 213–225.
Molitoris, H. P., and Esser, K. (1970), Arch. Microbiol. 3, 267–276.
Fahraeus, G. and Reinhammer, B. (1967), Acta Chem. Scand. 21,9, 2367–2375.
Mayer A. M. and Harel, E. (1979), Phytochem. 18,9, 193–215.
Monitoris, P. and Esser, K. (1971), Arch. Microbiol. 72, 267.
Geiger J. P., Nandris, D., Nicole, M., Rio, B. (1986), Appl. Biochem. Biotechnol. 12,2, 121–133.
Milstrein, O., Nicklas, B., and Hutterman, A. (1989), Appl. Microbiol. Biotechnol. 31,1, 70–74.
Coleman, J. E. (1974), Adv. Chem. Ser. 136, 267–304.
Varfolomeyev, S. D., Naki, A., Yaropolov, A. I., and Berezin, I. V., (1985), Biokhimia 50,9, 1411–1420.
Vaitkiavichus, R. K., Velzhite, V. A. and Chenas, N. K. (1984), Biokhimia 49,6, 1000–1003.
Germann, U. A., Muller, G., Hunziker, G. G. P. E., and Lerch K. (1988), J. Biol. Chem. 263,2, 885–896.
Mayer, A. M. (1987), Phytochemistry 26,1, 11–20.
Larrabee, J. A., and Spira, T. G. (1979), Biochem. Biophys. Res. Commun. 88,3, 753–760.
Morgurgo, L., Savini, I., Mondovi, B., and Avigliano, L. (1987), J. Inorg. Biochem. 29,1, 25–31.
Hanna, P. M., McMillin, D. R. McD. R., Pasenkiewicz-Gierula, M., Antholine, W. E., and Reinhammar B. (1983), Biochem. J. 211, 515–517.
Kondelka G. B. and Ettinger M. J. (1988), J. Biol. Chem. 263,8, 3698–3705.
Morie Bebel, M. M. and McMillin, D. R. (1986), Biochem. J. 235,2, 415.
Desideri, A., Pinhal, N., Raynor, J. B., Agostinelli, E., and Morpurgo, L. (1989), J. Inorg. Biochem. 36,2, 93–97.
Winkler, N. E., Spira, D. J., LuBien, C. D., Thamann, T. J., and Solomon, E. I. (1982), Biochem. Biophys. Res. Commun. 107,2, 727–734.
Branden, R., Deinum, J., and Coleman, M. (1978), FEBS Lett. 89, 180–190.
Farver, O., Goldberg, M., and Pecht, I. (1978), FEBS Lett. 94, 383–386.
Morpurgo, L., Grazianu, M. T., Agostinelli, E., and Desidneri, A. (1986), J. Inorg. Biochem. 28, 2–3, 189–193.
Aasa, R., Branden, R., Deinum, J., Malmstrom, B. G., Reinhammar, B., and Vanngard, T. (1976), FEBS Lett. 6161,2, 115–119.
Moshkov, K. A., Vagin, A. A., and Zaitsev, V. N. (1987), Mol. Biol. 31,4, 1124–1129.
Zaitsev, V. I., Vagin, A. A., Popov, A. N., Rubinsky, S. V., Sosfenov, N. I., Moshkov, K. A., and Nekrasov, Yu. V. (1989), IKAN 9, 62.
Germann, U. A. and Lerch, K. (1986), Proc. Natl. Acad. Sci. 83,23, 8854–8858.
Malmstrom, B. G. (1986), Chemica Scripta 268, 285–286.
Reinhammar, B. (1972), Biochim. Biophys. Acta 275,2, 245–251.
Reinhammar, B. and Vanngard, T. (1971), Eur. J. Biochem. 18,4, 463–466.
Gindilis, A. L., Zhazhina, E. O., Baranov, Yu. A., Kariakin, A. A., Gavrilova, V. P., and Yaropolov, A. I. (1988), Biokhimia 53,5, 735–739.
Reinhammar, B. R. M. (1972), Biochim. Biophys. Acta 275, 245–259.
Leonovicz, A. (1965), Doctor Dissertation, 45–47, UMCS, Lublin.
Varfolomeyev, S. D., Naki, A, Yaropolov, A. I., and Berezin, I. V. (1985), Biokhimia 50, 1411–1419.
Yaropolov, A. I., Gindilis, A. L., and Gavrilova, V. N. (1988), Biokhimia 55,2, 125–129.
Gindilis, A. L., Baranov, Yu. A., Zhazhina, E. O. Gavrilova, V. P., Verzilov, V. V., and Yaropolov, A. I. (1990), Biokhimia 55,2, 315–322.
Varfolomeyev, S. D., Naki, A., Pobochin, A. S., and Yaropolov, A. I. (1981) in “Functional Activity of Enzymes and the Ways of Its Regulation,” Severin S. E., ed., MSU Publishers, Moscow, 97–124.
Yaropolov, A. I. and Malovik, V. (1983), Zhurnal Analiticheskoi Khimii 38,3, 503–508.
Malovik, V. (1983), Dissertation for Candidate of Sciences (Chemistry), Moscow The Lomonosov Moscow University.
A. Naki and Varfolomeev, S. D. (1980), FEBS Lett. 113,, 157–160.
Kawai, S., Umezawa, T., and Higuchi, T. (1988), Arch. Biochim. Biophys. 862,1, 99–110.
Andreasson, L.-E. and Reinhammar, B. (1979), Biochim. Biophys. Acta 568, 145–156.
Petersen, L. C. and Degn, H. (1978), Biochim. Biophys. Acta 526, 85–92.
Yaropolov, A. I., Sukhomlin, T. K., and Kariakin, A. A. (1981), DAN SSSR 260,5, 1192–1195.
Holmeda, R. A. and Gray, H. B. (1974), J. Am. Chem. Soc. 96,19, 6008–6002.
Pecht, I., Farver, O., and Goldberg, M. (1977), Adv. Chem. Ser. 162, 179-206.
Farver, O., Goldberg, M. and Pecht, I. (1980), Eur. J. Biochem. 104, 71–77.
Andreasson, L.-E. and Reinhammar, B. (1976), Biochim. Biophys. Acta 73, 579–597.
Farver, O. and Pecht, I. (1979), FEBS Lett. 108, 436–438.
Farver, O., Goldberg, M., Lancet, D., and Pecht, I. (1976), Biochim. Biophys. Res. Commun. 73, 494–500.
Goldberg, M., Farver, O., and Pecht, I. (1980), J. Biol. Chem. 255, 7353–7361.
Goldberg, M. and Pecht, I. (1978), Biophys. J. 24, 371–373.
Farver, O., Goldberg, M., and Pecht, I. (1980), Eur. J. Biochem. 104, 71–77.
Holwerda, R. A. and Gray, H. B. (1974), J. Am. Chem. Soc. 96, 6008-6022.
Nakamura, T. (1976), Adv. Exp. Med. Biol. 74, 408–423.
Kolotyrkin, Ya. M. Advances in Physical Chemistry, Current Developments in Electrochemistry and Corrosion. Mir Publishers, Moscow. Varfolomeev, S. D. and Berezin, I. V., Bioelectrocatalysis, the Acceleration of Electrode Reactions with Enzymes, p. 60.
Berezin, I. V., Bogdanovskaya, V. A., and Varfolomeyev, S. D., (1978), DAN SSSR 240,3, 615–618.
Bogdanovskaya, V. A., Burshtein, R. H., and Tarasevich, M. R. (1972), Electrokhimia 8,8, 1206–1209.
Kuznetsov, A. M., Bogdanovskaya, V. A., Gavrilova, E. F., and Tararasevich, M. R. (1987), FEBS Left. 215,2, 219–222.
Yaropolov, A. I. and Gindilis, A. L. (1990), Biofizika 35,4, 689–698.
Gindilis, A. L., Bogdanovskaya, V. A., Gavrilova, E. F., Shimshilevich, Ya. B., and Yaropolov, A. I. (1985), Electrokhimia 21b 6b, 1147–1149.
Gindilis, A. L., Yaropolov, A. I., and Berezin, I. V. (1987), DAN SSSR 293,2, 383–386.
Gindilis, A. L. Baranov, Ya. A., Zhazhina, E. O., Gavrilova, V. P., Verzilov, V. V., and Yaropolov, A. I. (1990), Biokhimia 55,2, 315–322.
Gindilis, A. L. and Yaropolov, A. I. (1985), Elektrokhimia 21,7, 982–983.
Ngo, T. T. and Lenhoff, G., (eds.) (1988), Enzyme Immunoassay, Mir, Moscow.
Blake, C., and Jould, B. Y. (1984), Use of enzymes in immunoassay techniques 109, pp. 533–547.
Nakane, P. K., and Kawaio, A. (1974), J. Histochem. Cytochem. 22,12, 1084–1091.
Ishikava, E., Hashida, S., Kohno, T., and Tanaka, K. (1988), in Monosotopic Immunoassay. Academic, New York, pp. 27–55.
Postmann, D. and Postmann, T. (1988), in Monosotopic Immunoassay. Academic, New York, pp. 57–88.
Skorobogatko, O. V., Gindilis, A. L., Gavrilova, V. P., Troitskaya, E. N., Shuster, A. M., and Yaropolov, A. I. (1993), Priklad. Biokhim. i Mikrobiol (in press).
Skorobogatko, O. V., Gindilis, A. L., and Yaropolov, A. I. Patent No 5020557 of May 27, 1992.
Gindilis, A. L., Zhazhina, E. O., and Baranov, Yu. A. (1988), Biokhimia 53,5, 735–739.
Skorobogatko, O. V., Jafarova, A. N., and Yaropolov, A. I. (1993), Priklad. Biokhim. i Mikrobiol. (in press).
Scheller, F., Schubert, F., and Renneberg, R. (1985), Biosensors 1,2, 135–160.
Ghindilis, A. L., Gavrilova, V. P., and Yaropolov, A. I. (1992), Biosensors and Bioelectronics 7, 127–131.
Ghindilis, A. L., Skorobogat'ko, O. V., and Yaropolov, A. I. (1991), Biomed. Sci. 2, 520–522.
Ghindilis, A. L., Skorobogat'ko, O. V., Gavrilova, V. P., and Yaropolov, A. I. (1992), Biosensors and Bioelectronics 7, 301–304.
Briggs, J. (1987), Biosensors emerge from the laboratory. - Nature, v. 329, pp. 565–566.
Hafman D. et al. (1986), Device having photoresponsive electrode for determination analytes including ligands and antibodies, USA, Patent N4591550.
Lugaro, G., Carrea, G., Crernonesi, P., CaseUato, M. M., and Antonini, E. (1973), Arch. Biochez. Biophys. 1957,1, 1–6.
Ghindilis, A. L. Yaropolov, A. I., Borman, E. A., and Koscheenko, K. A. (1986), Biochimiya 51,9, 1442–1445.
Semionov, A. N., Lomonosova, I. V., Berezin, V. I., and Titov, M. I. (1981), 17,8, 1074–1076. Applied
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Yaropolov, A.I., Skorobogat’ko, O.V., Vartanov, S.S. et al. Laccase. Appl Biochem Biotechnol 49, 257–280 (1994). https://doi.org/10.1007/BF02783061
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DOI: https://doi.org/10.1007/BF02783061