Dmitry Los Laboratory of Intracellular Regulation, Institute of Plant Physiology, Russian Academy of Sciences, Russia
2 protocols

Galina Novikova Institute of Plant Physiology, Russian Academy of Sciences, Russia
1 protocol
Dennis Nürnberg Freie Universität Berlin
48 protocols

Emilie Viennois INSERM
5 protocols

Esteban Paredes-Osses Institute of Public Health
7 protocols

Fernando Gonzales-Zubiate Yachay Tech
5 protocols

Anna A. Zorina
  • Russian Academy of Sciences
Research focus
  • Biochemistry
  • 1 Author merit


Ph.D. in Plant Biochemistry and Physiology, Laboratory of intracellular Regulation, Institute of Plant Physiology RAS, Moscow, 2010

Current position

Senior Researcher, Laboratory of intracellular Regulation, Institute of Plant Physiology RAS, Moscow


  1. Kreslavski, V. D., Zorina, A.A., Los, D. A. and Allakhverdiev S. I. (2013). Molecular adaptation mechanisms of photosynthetic apparatus to stress. In: Allakhverdiev, S. I., Rubin, A. B. and Shuvalov V. A. (eds). Contemporary problems of photosynthesis, Vol II. Moscow-Izhevsk: Izhevsk Institute of Computer Science, pp544.
  2. Kreslavski, V. D., Zorina, A. A., Los, D. A., Fomina, I. R. and Allakhverdiev, S. I. (2013). Molecular Mechanisms of Stress Resistance of Photosynthetic Machinery. In: Rout, G. R. and Das, A. B. (eds). Molecular Stress Physiology of Plants. Springer, 21-51.
  3. Zorina, A., Bedbenov, V., Novikova, G. and Panichkin, V. (2014). Involvement of serine/threonine protein kinases in the cold stress response in the cyanobacterium Synechocystis sp. PCC 6803: Functional characterization of SpkE protein kinase. Mol Biol 48(3): 390-398.
  4. Zorina, A. (2013). Eukaryotic protein kinases in cyanobacteria. Russian Journal of Plant Physiology 60(5): 589-596.
  5. Zorina, A., Stepanchenko, N., Novikova, G. V., Sinetova, M., Panichkin, V. B., Moshkov, I. E., Zinchenko, V. V., Shestakov, S. V., Suzuki, I., Murata, N. and Los, D. A. (2011). Eukaryotic-like Ser/Thr protein kinases SpkC/F/K are involved in phosphorylation of GroES in the Cyanobacterium synechocystis. DNA Res 18(3): 137-151.
  6. Zorina, A., Mironov, K., Stepanchenko, N., Sinetova, M., Koroban, N., Zinchenko, V., Kupriyanova, E., Allakhverdiev, S. and Los, D. (2011). Regulation systems for stress responses in cyanobacteria. Russ J Plant Physiol 58(5): 749-767.
  7. Los, D. A., Zorina, A., Sinetova, M., Kryazhov, S., Mironov, K. and Zinchenko, V. V. (2010). Stress sensors and signal transducers in cyanobacteria. Sensors (Basel) 10(3): 2386-2415.
  8. Prakash, J. S., Sinetova, M., Zorina, A., Kupriyanova, E., Suzuki, I., Murata, N. and Los, D. A. (2009). DNA supercoiling regulates the stress-inducible expression of genes in the cyanobacterium Synechocystis. Mol Biosyst 5(12): 1904-1912.
  9. Zorina, A. A., Sinetova, M. A. and Los, D. A. (2009). Participation of serine-threonine protein kinas SpkK in heat stress regulation in cyanobacterium Synechocystis sp. PCC 6803. Bulletin MOIP. Section biology. 114: 129-130.
  10. Sinetova, M. A., Zorina, A. A. and Los, D. A. (2009). DNA supercoiling effects on gene expression in Synechocystis sp. PCC 6803 under cold and salt stress. Bulletin MOIP. Section biology 114: 142-144.
1 Protocol published
Authors:  Anna A. Zorina, Galina V. Novikova and Dmitry A. Los, date: 03/20/2015, view: 8100, Q&A: 0
Protein kinases are enzymes that phosphorylate proteins in a cell. Determination of kinase activity in reactions of phosphorylation is a very convenient way for a biochemical characterization of this group of enzymes. Here we describe a method to ...
5 Protocols reviewed
In vitro Autophosphorylation and Phosphotransfer Assay of Cyanobacterial Histidine Kinase 2
Author:  Iskander M. Ibrahim, date: 12/05/2016, view: 9001, Q&A: 0
This is a detailed protocol of an autophosphorylation and phosphotransfer activities of Synechocystis sp. PCC 6803 full-length Histidine Kinase 2 (Hik2) protein described by Ibrahim et al., 2016. In this protocol, radioactively ...
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Campylobacter jejuni γ-glutamyltranspeptidase Activity Assay
Authors:  Anne-Xander van der Stel and Marc M. S. M. Wösten, date: 03/05/2016, view: 6305, Q&A: 0
The enzyme γ-glutamyltranspeptidase (GGT, EC is highly conserved among eukaryotic and prokaryotic organisms (Heisterkamp et al., 2008) and has a key function in glutathione metabolism. Although the enzyme is highly conserved and ...
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