Диссертация (1090326), страница 39
Текст из файла (страница 39)
276. P. 773–779.118.Hornung E., Rosahl S., Kuhn H., Feussner I. Creating lipoxygenases with newpositional specificities by site-directed mutagenesis // Biochem. Soc. Trans. 2000.V. 28. P. 825–826.119.Toledo L., Masgrau L., Marechal J.D., Lluch J.M., Gonzalez-Lafont A. nsights intothe mechanism of binding of arachidonic acid to mammalian 15-lipoxygenases //J. Phys. Chem. B. 2010. V.
114. P. 7037–7046.120.Toledo L., Masgrau L., Lluch J.M., Gonzalez-Lafont A. Substrate binding tomammalian 15lipoxygenase // J. Comput. Aided Mol. Des. 2011. V. 25. P. 825–835.121.Jisaka M., Kim R.B., Boeglin W.E., Brash A.R. Identification of amino aciddeterminants of the positional specificity of mouse 8S-lipoxygenase and human15S-lipoxygenase-2 // J. Biol. Chem. 2000.
V. 275. P. 1287–1293.212122.Veldink G.A., Garssen G.J., Vliegenthart J.F., Boldingh J. Positional specificity ofcorn germ lipoxygenase as a function of pH // Biochem. Biophys. Res. Commun.1972. V. 47. P. 22–26.123.Hornung E., Kunze S., Liavonchanka A., Zimmermann G., Kuhn D., Fritsche K.,Renz A., Kuhn H., Feussner I. Identification of an amino acid determinant of pHregiospecificityinaseedlipoxygenasefromMomordicacharantia//Phytochemistry. 2008. V. 69.
P. 2774–2780.124.Härtel B., Ludwig P., Schewe T., Rapoport, S.M. Self-inactivation by 13hydroperoxylinoleic acid and lipohydroperoxidase activity of the reticulocytelipoxygenase // Eur. J. Biochem. 1982. V. 126. P 353–357.126.Kishimoto K., Nakamura M., Suzuki H., Yoshimoto T., Yamamoto, S., Takao T.,Shimonishi Y., Tanabe T.
Suicide inactivation of porcine leukocyte 12lipoxygenase associated with its incorporation of 15-hydroperoxy-5,8,11,13eicosatetraenoic acid derivative// Biochim. Biophys. Acta 1996. V. 1300. P. 56–62.126.Miyamoto T., Ogino N., Yamamoto S.. Hayaishi O. Purification of prostaglandinendoperoxide synthetase from bovine vesicular gland microsomes // J. Biol.Chem. 1976. V.
251. P.2629–2636.127.Lands W.E. Biological consequences of fatty acid oxygenase reactionmechanisms // Prostaglandins Leukot. Med. 1984. V.13. P. 35–46.128.Tong H., Richards E., Wood C.E. Prostaglandin endoperoxide synthase-2abundance is increased in brain tissues of late-gestation fetal sheep in responseto cerebral hypoperfusion // J. Soc.
Gynecol. Investig. 1999, V. 6. P. 127–135.129.Smith W.L., DeWitt D.L., Garavito R.M. Cyclooxygenases: structural, cellular, andmolecular biology // Ann. Rev. Biochem. 2000. V. 69. P. 145–182.130.Wade M.L., Voelkel N.F., Fitzpatrick F.A. “Suicide” inactivation of prostaglandin I2synthase: characterization of mechanism-based inactivation with isolated enzymeand endothelial cells // Arch. Biochem.
Biophys. 1995. V. 321. P. 453–458.213131.Jones D.A., Fitzpatrick F. A. Thromboxane A2 synthase. Modification during“suicide” inactivation //. J. Biol. Chem1991. V. 266. P. 23510– 23514.132.Mueller M.J., Wetterholm A., Blomster M., Jornvall H., Samuelson B.,Haeggstrom J.Z. Leukotriene A4 hydrolase: mapping of a henicosapeptideinvolved in mechanism-based inactivation // Proc. Natl. Acad. Sci. USA 1995. V.92. P.
8383–8387133.Takahashi Y., Ueda N., Yamamoto S. Two immunologically and catalyticallydistinct arachidonate 12-lipoxygenases of bovine platelets and leukocytes // Arch.Biochem. Biophys. 1988. V. 266. P. 613–621134.Rouzer C.A., Kargman S. Translocation of 5-lipoxygenase to the membrane inhuman leukocytes challenged with ionophore A23187. // J. Biol. Chem. 1988. V.263.
P. 10980–10988.135.de Carolis E., Denis D., Riendeau D. Oxidative inactivation of human 5lipoxygenase in phosphatidylcholine vesicles // Eur. J. Biochem. 1996. V. 235. P.416–423136.Kim M.R., Kim S.H., Sok D.E. Inactivation of potato lipoxygenase by hydroperoxyacids as suicide substrates // Biochem. Biophys. Res. Commun. 1989. V. 164. P.1384–1390137.Furukawa M., Yoshimoto T., Ochi K., Yamamoto S.
Studies on arachidonate 5lipoxygenase of rat basophilic leukemia cells // Biochim. Biophys. Acta 1984.V.795. P. 458–465.138.Yoshimoto T., Miyamoto Y., Ochi K., Yamamoto S. Arachidonate 12-lipoxygenaseof porcine leukocyte with activity for 5-hydroxyeicosatetraenoic acid // Biochim.Biophys. Acta 1982.V. 713. P. 638– 646.139.Yamamoto S., Suzuki H., Ueda N. Arachidonate 12-lipoxygenases // Prog. LipidRes. 1997. V. 36. P. 23–41.140.Rapoport S., Hartel B., Hausdorf G.
Methionine sulfoxide formation: the cause ofself-inactivation of reticulocyte // Eur. J. Biochem. 1984. V. 139. P. 573–576.214141.Gan Q.F., Witkop G.L., Sloane D.L., Straub K.M., Sigal E. Identification of aspecific methionine in mammalian 15-lipoxygenase lipoxygenase which isoxygenated by the enzyme product 13-HPODE: dissociation of sulfoxideformation from self-inactivation //. Biochemistry 1995.
V. 34. P. 7069–7079.142.Kulkarni A.P. Lipoxygenase: a versatile biocatalyst for biotransformation ofendobiotics and xenobiotics // Cell. Mol. Life Sci. 2001. V. 58. P. 1805–1825.143.Nunez-Delicado E., Sanchez-Ferrer A., Garcia-Carmona F.A. A kinetic study ofthe one-electron oxidation of Trolox C by the hydroperoxidase activity oflipoxygenase // Biochim. Biophys.
Acta 1997. V. 1335. P. 127–134.144.Rapoport S.M., Härtel B., Schewe T., Kühn H. Hydroperoxy fatty acids inactivatethe reticulocyte lipoxygenase independently of a hydroperoxidase activity // FEBSLett. 1986. V. 202. P. 201–206.145.de Groot J.J., Veldink G.A., Vliegenthart J.F., Boldingh J., Wever R., van GelderB.F. Demonstration by EPR spectroscopy of the functional role of iron in soybeanlipoxygenase-1 // Biochim. Biophys. Acta 1975. V.
377. P. 71–79146.Kim M.R., Sok D.E. Irreversible inhibition of soybean lipoxygenase-1 byhydroperoxy acids as substrates // Arch. Biochem. Biophys. 1991. V. 288. P.270–275.147.Wiesner R, Suzuki H, Walther M, Yamamoto S, Kuhn H. Suicidal inactivation ofthe rabbit 15-lipoxygenase by 15S-HpETE is paralleled by covalent modificationof active site peptides // Free Radic Biol Med 2003.
V.34. P. 304–315.148.Falgueyret J.P., Denis D., Macdonald D., Hutchinson J.H., Riendeau D.Characterization of the arachidonate and ATP binding sites of human 5lipoxygenaseusingphotoaffinity labelingandenzymeimmobilization//Biochemistry. 1995. V. 34. P. 13603–13611.149.Smyrniotis C.J., Barbour S.R., Xia Z., Hixon M.S., Holman T.R. ATP allostericallyactivates the human 5-lipoxygenase molecular mechanism of arachidonic acidand 5(S)-hydroperoxy-6(E),8(Z),11(Z),14(Z)-eicosatetraenoic acid // Biochemistry.2014. V. 53. P.
4407-4419.215150.Mogul R., Johansen E., Holman T.R. Oleyl sulfate reveals allosteric inhibition ofsoybean lipoxygenase-1 and human 15-lipoxygenase // Biochemistry. 2000. V.39. P. 4801–4807151.Wecksler A.T., Garcia N.K., Holman T.R. Substrate specificity effects oflipoxygenase products and inhibitors on soybean lipoxygenase-1 // Bioorg. Med.Chem. 2009. V. 17. P. 6534–6539.152.Joshi N., Hoobler E.K., Perry S., Diaz G., Fox B., Holman T.R. Kinetic andstructural investigations into the allosteric and pH effect on the substratespecificity of human epithelial 15-lipoxygenase-2 // Biochemistry 2013.
V. 52. P.8026–8035.153.Aleem A.M., Jankun J., Dignam J.D., Walther M., Kuhn H., Svergun D.I.,Skrzypczak-Jankun E. Human platelet 12-lipoxygenase, new findings about itsactivity, membrane binding and low-resolution structure // J. Mol. Biol. 2008. V.376. P. 193–209.154.Häfner A.K., Cernescu M., Hofmann B., Ermisch M., Hörnig M., Metzner J.,Schneider G., Brutschy B., Steinhilber D. Dimerization of human 5-lypoxygenase// Biol. Chem. 2011. V.
392. P. 1097–1111.155.Andreou A., Feussner I. Lipoxygenases – Structure and reaction mechanism //Phytochemistry. 2009. V. 70. P. 1504–1510.156.Oliw E.H. Plant and fungal lipoxygenases // Prostaglandins Other Lipid Mediators.2002. V. 68– 69. P. 313–323.157.De Petrocellis L., Di Marzo V. Aquatic invertebrates open up new perspectives ineicosanoid research: Biosynthesis and bioactivity // Prostaglandins LeukotrienesEssent. Fatty Acids 1994. V. 51. P. 215–229.158.Hawkins D.J., Brash A.R.
Eggs of the sea urchin, Strongylocentrotus purpuratus,contain a prominent (11R) and (12R) lipoxygenase activity // J. Biol. Chem. 1987.V. 262. P. 7629–7634.216159.Porta H., Rocha-Sosa M. Lipoxygenases in bacteria: Horizontal transfer event? //Microbiology. 2001. V. 147. P. 3199–3200.160.Vance R.E., Hong S., Gronert K., Serhan C.N., Mekalanos J.J. The opportunisticpathogen Pseudomonas aeruginosa carries a secretable arachidonate 15lipoxygenase // Proc. Natl. Acad. Sci. USA.
2004. V. 101. P. 2135–2139.161.Koeduka T., Kajiwara T., Matsui K. Cloning of lipoxygenase genes from acyanobacteria, Nostoc punctiforme, and its expression in Eschelichia coli // Curr.Microbiol. 2007. V. 54. P. 315–319.162.Srivastava M., Begovic E., Chapman J., Putnam N.H., Hellsten U., KawashimaT., Kuo A., Mitros T., Salamov A., Carpenter M.L., Signorovitch A.Y., MorenoM.A., Kamm K., Grimwood J., Schmutz J., Shapiro H., Grigoriev I.V., Buss L.W.,Schierwater B., Dellaporta S.L., Rokhsar D.S. The Trichoplax genome and thenature of placozoans // Nature.
2008. V. 454. P. 955–960.163.Bannenberg G., Martinez M., Hamberg M., Castresana C. Diversity of theenzymatic activity in the lipoxygenase gene family of Arabidopsis thaliana //Lipids. 2009. V. 44. P. 85–95.164.Toh H., Yokoyama C., Tanabe T., Yoshimoto T., Yamamoto S. Molecularevolution of cyclooxygenase and lipoxygenase // Prostaglandins. 1992. V. 44. P.291–315.165.Shin J.H., Van K., Kim D.H., Kim K.D., Jang Y.E., Choi B.S., Kim M.Y., Lee S.H.The lipoxygenase gene family: A genomic fossil of shared polyploidy betweenGlycine max and Medicago truncatula // BMC Plant Biol. 2008.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
