Диссертация (1145822), страница 20
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Whittier // Plant J. – 1995. – Vol. 8. –P. 457-463.77. Llácer, J.L. Arginine and nitrogen storage / J.L. Llácer, I. Fita, V. Rubio // CurrOpin Struc Biol. – 2008. – Vol. 18. – P. 673-681.78. Lüddecke, J. Energy sensing versus 2-oxoglutarate dependent ATPase switch inthe control of Synechococcus PII interaction with its targets NAGK and PipX / J.Lüddecke and K. Forchhammer // PLoS ONE. – 2015. – Vol.
10. – № 8. –e0137114.79. Magasanik, B. The regulation of nitrogen utilization in enteric bacteria / B.Magasanik // Cell Biochem. – 1993. – Vol. 51. – P. 34-40.80. Maheswaran, M. Complex formation and catalytic activation by the PII signalingprotein of N-acetyl-L-glutamate kinase from Synechococcus elongatus strain PCC7942 / M. Maheswaran, C. Urbanke, K.
Forchhammer // J Biol Chem. – 2004. –Vol. 279. – P. 55202-55210.81. Maheswaran, M. PII-regulated arginine synthesis controls accumulation ofcyanophycin in Synechocystis sp. strain PCC 6803 / M. Maheswaran, K. Ziegler,W. Lockau, M. Hagemann, K.
Forchhammer // Bacteriol. –2006. –Vol. 188. – P.2730-2734.82. Martin, D.E. Occurrence of three PII-like signal transmitter proteins in thediazotrophic proteobacterium Azoarcus sp. BH72 / D.E. Martin, T. Hurek and B.Reinhold-Hurek // Mol Microbiol. – 2000. – Vol. 38. – P. 276-288.11883. McAuley, P.J. Uptake of amino acids by cultured and freshly isolated symbioticChlorella / P.J. McAuley // J New Phytol.
– 1986. – Vol. 104. – P. 415-427.84. Minaeva, E. Sequencing and expression analysis of the gene encoding PII signalprotein in Chlorella variabilis NC64A / E. Minaeva and E. Ermilova // J PlantBiochem Physiol. – 2015. – Vol. 3. – P. 142.85. Mizuno, Y. Crystal structure of Arabidopsis PII reveals novel structural elementsunique to plants / Y. Mizuno, B. Berenger, G.B. Moorhead, K.K. Ng // Biochem.–2007а. – Vol. 46.
– P. 1477-1483.86. Mizuno, Y. Structural basis for the regulation of N-acetylglutamate kinase by PIIin Arabidopsis thaliana / Y. Mizuno, G.B. Moorhead, K.K. Ng // Biol Chem. –2007б. – Vol. 282. – P. 35733-35740.87. Muños-Blanco,J.ExtracellulardeaminationofLaminoacidsbyChlamydomonas reinhardtii cells / J. Muños-Blanco, J. Hidalgo Martinez, J.Cárdenas // Planta. – 1990. – Vol. 182. – P. 194-198.88.
Nichols, H.W. Trichosarcina polymorpha gen.et sp. nov / H.W. Nichols andH.C. Bold // J Phycol. – 1965. – Vol. 1. – P. 34-38.89. Ninfa, A.J. PII signal transduction proteins: sensors of alpha-ketoglutarate thatregulate nitrogen metabolism / A.J. Ninfa and P. Jiang // Curr Opin Microbiol. –2005. – Vol.
8. – P. 168-173.90. Nolden,L.GlutaminesynthetasesofCorynebacteriumglutamicum:Transcriptional control and regulation of activity / L. Nolden, M. Farwick, R.Krämer, A. Burkovski // FEMS Microbiol Lett. – Vol. 201. – P. 91-98.91. Nolden, L. Sensing nitrogen limitation in Corynebacterium glutamicum: The roleof glnK and glnD / L. Nolden, C.-E. Ngouoto-Nkili, A.K.
Bendt, R. Krämer, A.Burkovski // Mol Microbiol. – 2001. – Vol. 42. – P. 1281-1295.92. Osanai, T. Identification of PamA as a PII-binding membrane protein importantin nitrogen-related and sugar-catabolic gene expression in Synechocystis sp.
PCC6803 / T. Osanai, S. Sato, S. Tabata, K. Tanaka // Biol Chem. – 2005. – Vol. 280.– P. 34684-34690.11993. Osanai, T. Keeping in touch with PII: PII interacting proteins in unicellularcyanobacteria / T. Osanai and K. Tanaka // Plant Cell Physiol. – 2007. – Vol. 48.– P. 908-914.94. Palinska, K.A. The signal transducer PII and bicarbonate aquisition inProchlorococcus marinus PCC 9511, a marine cyanobacterium naturallydeficient in nitrate and nitrite assimilation / K.A. Palinska, W. Laloui, S.
Bedu, S.Loiseaux-de Goer, A.M. Castets, R. Rippka, N. Tandeau de Marsac // Microbiol.– 2002. – Vol. 148. – P. 2405-2412.95. Pan, J.M. Characterization of blue light signal transduction chains that controldevelopment and maintenance of sexual competence in Chlamydomonasreinhardtii / J.M. Pan, M.A. Haring, C.F. Beck // Plant Physiol.
– 1997. – Vol.115. – P. 1241-1249.96. Pedro-Roig, L. Haloferax mediterranei GlnK proteins are post-translationallymodified by uridylylation / L. Pedro-Roig, M. Camacho, M.J. Bonete (2013a)Proteomics. – 2013a. –Vol. 13. – P. 1371-1374.97. Pedro-Roig, L. Nitrogen regulation of protein-protein interactions and transcriptlevels of GlnK PII regulator and AmtB ammonium transporter homologs inArchaea / L. Pedro-Roig, C. Lange, M.J. Bonete, J.
Soppa, J. Maupin-Furlow //Microbiol open. – 2013в. – Vol. 2. – № 5. – P. 826-840.98. Pedro-Roig, L. Regulation of ammonium assimilation in Haloferax mediterranei:interaction between glutamine synthetase and two GlnK proteins / L. Pedro-Roig,M. Camacho, M.J. Bonete // Biochim Biophys Acta. – 2013б.
– Vol. 1834. – P.16-23.99. Pioszak, A.A. The Escherichia coli PII signal transduction protein regulates theactivities of the two-component system transmitter protein NRPII by directinteraction with the kinase domain of the transmitter module / A.A. Pioszak, P.Jiang, A.J. Ninfa // Biochem. – 2000. – Vol. 39. – P.
13450-13461.120100. Popov, N. [Reliable micromethod for determination of the protein content intissue homogenates] / N. Popov, M. Schmitt, S. Schulzeck, H. Matthies // ActaBiol Med Ger. –1975. – Vol. 34. – P. 1441-1446.101. Reitzer, L. Nitrogen assimilation and global regulation in Escherichia coli / L.Reitzer // Annu Rev Microbiol. – 2003. – Vol. 57. – P. 155-176.102. Riens, B. Amino acid and sucrose content determined in the cytosolic,chloroplastic, and vacuolar compartments and in the phloem sap of spinach leaves/ B.
Riens, G. Lohaus, D. Heineke, H.W. Heldt // Plant Phys. – 1991. – Vol. 97. –P. 227-233.103. Rodrigues, T.E. Search for novel targets of the PII signal transduction protein inBacteria identifies the BCCP component of acetyl-CoA carboxylase as a PIIbinding partner / T.E. Rodrigues, E.C.
Gerhardt, M.A. Oliveira, L.S. Chubatsu,F.O. Pedrosa, E.M. Souza, G.A. Souza, M. Müller-Santos, L.F. Huergo // MolMicrobiol. – 2014. – Vol. 91. – P. 751-761.104. Sakaguchi, S. A new method for the colorimetric determination of arginine / S.Sakaguchi // J Biochem. – 1950. – Vol. 37. – P. 231-236.105. Sakai, H. Crystal structures of the signal transducing protein GlnK from Thermusthermophilus Hb8 // H.
Sakai, H. Wang, C. Takemoto-Hori, T. Kaminishi, H.Yamaguchi, Y. Kamewari, T. Terada, S. Kuramitsu, M. Shirouzu, S. Yokoyama// Struct Biol. – 2005. – Vol. 149. – P. 99-110.106. Sanders, C.E. In vivo phosphorylation of proteins in the cyanobacteriumSynechococcus 6301 after chromatic acclimation to Photosystem I orPhotosystem II light / C.E. Sanders, A. Melis, J.F. Allen // Biochim BiophysActa. – 1989. – Vol. 976.
– P. 168-172.107. Sant'Anna, F.H. The PII superfamily revised: a novel group and evolutionaryinsights / F.H. Sant'Anna, D.B. Trentini, S. de Souto Weber, R. Cecagno, S.C. daSilva, I.S. Schrank // Mol Evol. – 2009. – Vol. 68. – P. 322-336.108. Shapiro, B.M.
Glutamine synthetase (Escherichia coli) / B.M. Shapiro and E.R.Stadtman // Methods Enzymol. – 1970. – Vol. 17A. – P. 910-922.121109. Shapiro, B.M. The glutamine synthetase deadenylylating enzyme system fromEscherichia coli: resolution into two components, specific nucleotide stimulation,and cofactor requirements / B.M.
Shapiro // Biochem. – 1969. – Vol. 8. – P. 659670.110. Shetty, N.D. Crystal structures of the apo and ATP bound Mycobacteriumtuberculosis nitrogen regulatory PII protein / N.D. Shetty, M.C. Reddy, S.K.Palaninathan, J.L. Owen, J.C. Sacchettini // Protein Sci. – 2010. – Vol. 19.
– P.1513e24111. Smith, C.S. Lack of evidence for phosphorylation of Arabidopsis thaliana PII:implications for plastid carbon and nitrogen signaling / C.S. Smith, N.A. Morrice,G.B. Moorhead // Biochim Biophys Acta. – 2004. – Vol. 1699. – P. 145-154.112. Smith,C.S.Molecularpropertiesoftheputativenitrogensensor PII from Arabidopsis thaliana / C.S. Smith, A.M. Weljie, G.B. Moorhead//Plant J. – 2003. – Vol. 33. – № 2. – P. 353-360.113. Strösser, J. Regulation of GlnK activity: Modification, membrane sequestration,and proteolysis as regulatory principles in the network of nitrogen control inCorynebacterium glutamicum / J.
Strösser, A. Lüdke, S. Schaffer, R. Krämer, A.Burkovski // Mol Microbiol. – 2004. – Vol. 54. – P. 132-147.114. Sugiyama, K. Interaction of N-acetyl glutamate kinase with a PII-like protein inrice / K. Sugiyama, T. Hayakawa, T. Kudo, T. Ito, T. Yamaya // Plant and CellPhysiol. – 2004.
– Vol. 45. – P. 1768-1778.115. Takatani, N. Regulation of nitrate reductase by nonmodifiable derivatives of PIIin the cells of Synechococcus elongatus strain PCC 7942 / N. Takatani, M.Kobayashi, S. Maeda, T. Omata // Plant Cell Physiol. – 2006. – Vol. 47. – P.1182-1186.116. Uhrig, G. PII in higher plants: a modern role for an ancient protein / G.
Uhrig,K.K. Ng, G.B. Moorhead // Trends Plant Sci. – 2009. – Vol. 14. – P. 505-511.122117. Van Etten, J.L. Virus infection of culturable chlorella-like algae and developmentof a plaque assay / J.L. van Etten, D.E. Burbank, D. Kuczmarski, R.H. Meints //Science. –1983. – Vol. 219.
– P. 994-996.118. Van Heeswijk, W.C. The Escherichia coli signal transducers PII (GlnB) andGlnK form heterotrimers in vivo: Fine tuning of the nitrogen signal cascade /W.C. van Heeswijk, D. Wen, P. Clancy, R. Jaggi, D.L. Ollis, H.V. Westerhoff,S.G.
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