ќсновные публикации группы генной инженерии

  1. Nesmeyanova M., Karamyshev A., Kalinin A., Tsfasman I., Badyakina A., Khmelnitsky M., Shlyapnikov M., Ksenzenko V. Escherichia coli alkaline phosphatase biogenesis: influence of overproduction and amino acid substitution. - In: Phosphate in Microorganisms: Cellular and Molecular Biology. A. Torriani-Gorini, E. Yagil, S. Silver, Eds. ASM Press, Washington, D.C. 1994, p. 264-269.
  2. Shlyapnikov M.G., Ksenzenko V.N. Specific properties of phage T5-encoded tRNAs. - Mol. Biol., 1994, v. 28, p. 1321-1329.
  3. Ivashina T.V., Khmelnitsky M.I., Shlyapnikov M.G., Kanapin A.A., Ksenzenko V.N. The pss4 gene from Rhizobium leguminosarum bv viciae VF39: cloning, sequence and possible role in polysaccharide production and nodule formation. Ц Gene, 1994, v. 150, p. 111-116.
  4. Kaliman A.V., Kulshin V.E., Shlyapnikov M.G., Ksenzenko V.N., Kryukov. V.M. The nucleotide sequence of the bacteriophage T5 ltf gene. - FEBS Let., 1995, v. 366, p. 46-48.
  5. Nesmeyanova M.A., Karamyshev A.L., Karamysheva Z.N., Kalinin A.E., Ksenzenko V.N., Kajava A.V. Positively charged lysine at the N-terminus of the signal peptide of the Escherichia coli alkaline phosphatase provides the secretion efficiency and is involved in the interaction with anionic phospholipids. - FEBS Let., 1997, v. 403, p. 203-207.
  6. Kholod N.S., PanТkova N.V., Mayorov S.G., Krutilina A.I., Shlyapnikov M.G., Kisselev L.L., Ksenzenko V.N. Transfer RNAPhe isoacceptors posess non-identical set of identity elements at high and low Mg2+ concentration. - FEBS Let., 1997, v. 411, p. 123-127.
  7. Mavrodi D.V., Ksenzenko V.N., Bonsall R.E., Cook R.J., Boronin A.M., Thomashow L.S. A seven-gene locus for synthesis of phenazine-1-carboxylic acid by Pseudomonas fluorescens 2-79. - J. Bacteriol., 1998, v. 180, p. 2541-2548.
  8. Karamyshev A.L., Karamysheva Z.N., Kajava A.V., Ksenzenko V.N., Nesmeyanova M.A. Processing of Eschericia coli alkaline phosphatase: role of the primary structure of the signal peptide cleavage region. - J. Mol. Biol., 1998, v. 277, p. 859-870.
  9. Kholod N., PanТkova N., Ksenzenko V., Kisselev L. Aminoacylation of tRNA gene transcripts is strongly affected by 3Т-extended and dimeric substrate RNAs. - FEBS Lett., 1998, v. 426, p. 135-139.
  10. Guerreiro N, Ksenzenko V.N., Djordjevic M.A., Ivashina T.V., Rolfe B.G. Elevated levels of synthesis of over 20 proteins results after mutation of the Rhizobium leguminosarum exopolysaccharide synthesis gene pssA. Ц J. Bacteriol., 2000, v. 182, p. 4521-4532.