Prof. Nathan Nelson

ביוכימיה וביולוגיה מולקו אמריטוס
Prof. Nathan Nelson
Phone: 03-6406017
Fax: 03-6406018
Office: Sherman - Life Sciences, 530

Research Interests

Our lab concentrates on the study of membrane-proteins. We study the molecular mechanisms involved in transport and energy transduction. The five main subjects that we are currently engaged in are:

- Structure, function and molecular biology of photosystem I (PSI) and other membrane complexes in higher plant chloroplasts. We solve the structure of plant PSI super-complex including its four light-harvesting complexes at 2.6 Å resolution. We intend to obtain atomic resolution of plant PSI.

- Structure, function and molecular biology of cyanobacterial photosystem I. We solve the structure of a trimeric PSI from synechocystis at 2.5 Å resolution.

- Crystal structure of photosystem I from the red algae Cyanidioschyzon merolae.

- Expression and structural determination of marine viruses-encoded membrane proteins.

- Harnessing Oxygenic Photosynthesis for Sustainable Energy Production.

Recent Publications

Mazor Y, Borovikova A, Caspy I, Nelson N. (2017). Structure of the plant photosystem I supercomplex at 2.6 Å resolution. Nature Plants. 3:17014. doi: 10.1038/nplants.2017.14.

 

Bayro-Kaiser V. and Nelson N. (2017). Microalgal hydrogen production: prospects of an essential technology for a clean and sustainable energy economy. Photosynth Res. doi: 10.1007/s11120-017-0350-6.

 

Bayro-Kaiser V. and Nelson N. (2016). Temperature-sensitive PSII: A novel approach for sustained photosynthetic hydrogen production Photosynth Res. DOI 10.1007/s11120-016-0232-3

 

Mazor, Y., Borovikova, A. and Nelson N. (2015). The structure of plant photosystem I super-complex at 2.8 °A resolution.  eLife 2015;4:e07433. DOI: 10.7554/eLife.07433.

 

Nelson, N. and Junge, W. (2015). Structure and Energy Transfer in Photosystems of Oxygenic Photosynthesis. Annu. Rev. Biochem. 84, 659-683.

 

Mazor, Y., Nataf, D., Toporik H. and Nelson N. (2014). Crystal structures of virus-like photosystem I complexes from the mesophilic cyanobacterium Synechocystis PCC 6803. eLife 2014;3:e01496. DOI: 10.7554/eLife.01496.

 

Nelson, N. (2013). Evolution of photosystem I and the control of global enthalpy in an oxidizing world. Photosynth Res. 116, 145-151.

 

Saroussi, S., Schushan, M., Ben-Tal, N., Junge, W. and Nelson, N. (2012). Structure and flexibility of the c-ring in the electromotor of rotary FoF1-ATPase of pea chloroplasts. PLoS ONE 7(9): e43045. doi:10.1371

 

Toporik, H., Carmeli, I., Volotsenko, I., Molotskii, M., Rosenwaks, Y., Carmeli C. and Nelson, N. (2012). Large Photovoltage Generated by Plant Photosystem I Crystals. Advanced Materials. 24, 2988-2991.

 

Mazor, Y., Toporik, H. and Nelson, N. (2012). Temperature-sensitive PSII and promiscuous PSI as a possible solution for sustainable photosynthetic hydrogen production. Biochim. Biophys. Acta 1817, 1122-1126.

 

Nelson, N. (2011). Photosystems and global effects of oxygenic photosynthesis. Biochim. Biophys. Acta 1807, 856-863.

 

Amunts, A., Toporik, H., Borovikova, A. and Nelson, N. (2010). Structure determination and improved model of plant photosystem I. J Biol Chem. 285, 3478-3486.

 

Sharon, I., Alperovitch, A., Rohwer, F., Haynes, M. Glaser, F. Atamaa-Ismaeel, N., Pinter, R.Y., Partensky, F., Koonin, E.V., Wolf, Y.I., Nelson, N. and Oded Béjà, O. (2009). Photosystem I gene cassettes are present in marine virus genomes. Nature 461, 258-262.

 

 

Tel Aviv University, P.O. Box 39040, Tel Aviv 6997801, Israel
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