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שלח באימייל הדפס
Name: Tamar Azoulay-Shemer, Ph.D. (Researcher)
Units: Newe Ya'arResearch teams-Newe Yaar
Research Interests / Job description  
Tel:  04-9539575
Cell: 055-9816097
Office location:Newe Ya'ar
Address:Newe Ya'ar Research Center
Agriculture Research Organization
P.O BOX 1021, Ramat Yishay, 30095
Plant Sciences Department,
Unit of Fruit Tree Sciences
Lab Website: https://www.azoulayshemerlab.com
Research Interests / Job description
Study Regulation of Stomatal Movements in the Face of Global Climate Change.
Our lab uses physiological, biochemical and molecular tools to study different aspects of climate change, in particular, elevation of CO2, drought and heat waves, on the regulation of stomatal conductance.

··      Publication list on research gate

··      https://www.researchgate.net/profile/Tamar_Azoulay


··      List of Publications


<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer T., Schwankl, N., Rog, I., Moshelion, M. Schroeder, J.I. (2018). Starch biosynthesis by AGPase, but not starch degradation by BAM1/3 and SEX1, is rate-limiting for CO2-regulated stomatal movements under short day conditions. FEBS letter (accepted).

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer T., Hsu, P.K., Schroeder, J.I. (2017). Seeing is believing. News and Views, Nature Plants. (3):765-766. DOI: https://www.nature.com/articles/s41477-017-0025-5

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer T. , Bagheri A, Wang C, Palomares A, Stephan AB, Kunz, H.H, Schroeder JI. (2016) Starch biosynthesis in guard cells but not in mesophyll cells functions in CO2 -induced stomatal closing. Plant Physiology 171(2):788-798  DOI: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4902578/

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer T., Palomares A, Bagheri A, Israelsson-Nordstrom M, Engineer CB, Bargmann BO, Stephan AB, Schroeder JI. Guard cell photosynthesis is critical for stomatal turgor production, yet does not directly mediate CO2 - and ABA-induced stomatal closing. Plant J 83: 567-581 (2015) DOI: http://onlinelibrary.wiley.com/doi/10.1111/tpj.12916/abstract

<!--[if !supportLists]-->·      <!--[endif]-->Engineer CB, Hashimoto-Sugimoto M, Negi J, Israelsson-Nordström M, Azoulay-Shemer T, Rappel W-J, Iba K, Schroeder JI. CO2 Sensing and CO2 Regulation of Stomatal Conductance: Advances and Open Questions. Trends in Plant Science (2015) Volume 21, Issue 1, January 2016, Pages 16-30, ISSN 1360-1385, DOI: http://dx.doi.org/10.1016/j.tplants.2015.08.014

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer, T., Harpaz-Saad, S., Eyal, Y. and Goldschmidt, E.E. Pathway of Chlorophyll Breakdown in Citrus Fruit Peel, as Compared with Senescing Arabidopsis Leaves and Other Plant Systems. ISHS Acta Horticulturae. 892 (2011). http://tinyurl.com/lwfjpzm

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer, T., Harpaz-Saad, S., Cohen-Peer, R., Mett, A., Gidoni, D., Lovat, N., Krokhin, O., Spicer, V., Standing, G.K., Goldschmidt, E.E. and Eyal, Y. Dual, N and C-terminal, processing of citrus chlorophyllase precursor within the plastid membranes leads to the mature enzyme. Plant Cell Physiol. 52(1):70-83 (2011). http://tinyurl.com/ljdpne5

<!--[if !supportLists]-->·      <!--[endif]-->Azoulay-Shemer, T., Harpaz-Saad, S., Belausov, E., Lovat, N., Krokhin, O., Spicer, V., Standing, K.G., Goldschmidt, E.E., Eyal, Y. Citrus chlorophyllase dynamics at ethylene-induced fruit color-break; a study of chlorophyllase expression, post-translational processing kinetics and in-situ intracellular localization. Plant Physiology 148: 108-118 (2008). http://www.plantphysiol.org/content/148/1/108

Updated on: 25/11/20 14:19
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