Искусственные генетические системы. Том 1 - Патрушев Л.И.
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Литература
1. Radzicka A., Wolfenden R. A proficient enzyme // Science. 1995. Vol. 267. P. 90-93.
2. Schmid A., Dor dick J.S., Hauer B. et al. Industrial biocatalysis today and tomorrow // Nature. 2001. Vol. 409. P. 258-268.
3. Solon D.N., Voigt C.A., Mayot S.L. De novo design of biocatalysts // Curr. Opin. Chem. Biol. 2002. Vol. 6. P. 125-129.
4. Cedrone F., Menez A., Quemeneur E. Tailoring new enzyme functions by rational redesign I I Curr. Opin. Struct. Biol. 2000. Vol. 10.' P. 405-410.
5. Directed evolution of proteins, or how to improve enzymes for biocatalysis / Ed. S. Brakmann, K. Johnsson. N.Y.: Wiley, 2002.
6. Petsko GA. Enzyme evolution: Design by necessity // Nature. 2000. Vol. 403. P. 606-607.
7. Griffiths A.D., Tawfikt D.S. Man-made enzymes - from design to in vitro compartmentalization I I Curr. Opin. Biotechnol. 2000. Vol. 11. P. 338-353.
8. Mirny L., Shakhnovich E. Protein folding theory: From lattice to all-atom models //Annu. Rev. Biophys. Biomol. Struct. 2001. Vol. 30. P. 361-396.
9. De Grado W.F., Summa CM. De novo design and structural characterization of proteins and metalloproteins // Annu. Rev. Biochem. 1999. Vol. 68. P. 779-819.
10. Bolon D.N., Mayo S.L. Enzyme-like proteins by computational protein design // Proc. Nat. Acad. Sci. USA. 2001. Vol. 98. P. 14274-14279.
11. Hellinga H.W., Richards F.M. Construction of new ligand binding sites in proteins of known structure. 1. Computer-aided modeling of sites with predefined geometry // J. Mol Biol. 1991. Vol. 222. P. 763-785.
12. Benson D.E., Wisz M.S., Hellinga H.W. Rational design of nascent metal-loenzymes // Proc. Nat. Acad. Sci. USA. 2000. Vol. 97. P. 6292-6297.
13. Sole R.S., Manrubia S.C., Benton M. et al. Criticality and scaling in evolutionary ecology //Trends Ecol. Evol. 1999. Vol. 14. P. 156-160.
14. Kaujfman S., Ellington A.D. Thinking combinatorially // Curr. Opin. Chem. Biol. 1999. Vol. 3. P. 256-259.
15. Molecular cloning: A laboratory manual on the Web. Chap. 13. Cold Spring Harbor; Laboratory press, 2001. http://www.molecularcloning.com/ index.html
16. Kunkel T.A. Rapid and efficient site-specific mutagenesis without phenotypic selection // Proc. Nat. Acad. Sci. USA. 1985. Vol. 82. P. 488-492.
17. Handa P., Thanedar S., Varshney U. Rapid and reliable site-directed mutagenesis using Kunkel’s approach I I In vitro mutagenesis protocols. 2nd ed. Totowa (N.J.). Humana press, 2002. P. 1-6. (Meth. in Mol. Biol.; Vol. 182).
18. Andrews С A., Lesley S.A. Selection strategy for site-directed mutagenesis based on altered (3-lactamase specificity // Biotechniques. 1998. Vol. 24. P. 972-977.
• 19. Andrews C.A., Lesley SA. Site-directed mutagenesis using altered (3-lactamase specificity // In vitro mutagenesis protocols. 2nd ed. Totowa (N.J.). Humana press, 2002. P. 7-17. (Meth. in Mol. Biol.; Vol. 182).
20. Deng W.P., Nickoloff J A. Site-directed mutagenesis of virtually any plasmid by eliminating a unique site // Anal. Biochem. 1992. Vol. 200. P. 81-88.
21 .Li S., Wilkinson M.F. Site-directed mutagenesis: A two-step method using PCR and Dpnl // Biotechniques. 1997. Vol. 23. P. 588-590.
22. Li F., Mullins J.I. Site-directed mutagenesis facilitated by Dpnl selection on hemimethylated DNA // In vitro mutagenesis protocols. 2nd ed. Totowa (N.J.). Humana press, 2002. P. 19-28. (Meth. in Mol. Biol.; Vol. 182).
23. Gamper M„ Hilvert D., Kast P. Probing the role of the C-terminus of Bacillus subtilis chorismate mutase by a novel random protein termination strategy // Biochemistry. 2000. Vol. 39. P. 1407-1408.
24. Ho S.N., Hunt H.D., Horton R.M. et al. Site-directed mutagenesis by overlap extension using the polymerase chain reaction // Gene. 1998. Vol. 77. P. 51-59.
25. Br0ns-Poulsen J., Petersen N.E., Horder M„ Kristiansen K. An improved PCR-based method for site directed mutagenesis using megaprimers // Mol. Cell. Probes. 1998. Vol. 12. P. 345-348.
26. Br0ns-Poulsen J., N0hrJ., Larsen L.K. Megaprimer method for polymerase chain reaction-mediated generation of specific mutations in DNA II In vitro
mutagenesis protocols. 2nd ed. Totowa (N.J.). Humana press, 2002. P. 71-76. (Meth. in Mol. Biol.; Vol. 182).
27. Kirsch R.D., Joly E. An improved PCR-mutagenesis strategy for two-site mutagenesis or sequence swapping between related genes // Nucl. Acids Res. 1998. Vol. 26. P. 1848-1850.
28. Meetei A.R., Rao M.R.S. Generation of multiple site-specific mutations in a single polymerase chain reaction product // Anal. Biochem. 1998. Vol. 264. P. 288-291.
29. Meetei A.R., Rao M.R. Generation of multiple site-specific mutations by polymerase chain reaction I I Meth. Mol. Biol. 2002. Vol. 182. P. 95-102.
30. Wang L., Brock A., Herberich B., Schultz P.G. Expanding the genetic code of Escherichia coli // Science. 2001. Vol. 292, N 5516. P. 498-500.
31. Rothschild K.J., Gite S. tRNA-mediated protein engineering // Curr. Opin. Biotechnol. 1999. Vol. 10. P. 64-70.
