שמעון גפשטיין

שמעון גפשטיין

מעבדת גפשטיין
Research Summary:

From the bench to the field: Hormonal regulation of plant senescence and environmental stresses

Plant senescence and shelf life of vegetables and fruits

Plant senescence is a genetically programmed process that involves the activation of senescence-associated genes (SAGs), resulting in the breakdown of cells and tissues. Our research has demonstrated that the leaf senescence program is regulated by plant growth substances: cytokinins delay this process, while ABA and ethylene accelerate it. Comparing intact leaf senescence to detached leaf senescence reveals similar morphological and biochemical changes, which pose agroeconomic problems. These issues include a short shelf life for fruits and leaves and yield decline due to early senescence. We have isolated a gene associated with early leaf senescence and designated it as the senescence-associated receptor kinase (SARK) based on its structure. Both the mRNA and the protein exhibit a characteristic temporal expression, indicating that SARK functions as an early senescence gene and may play a role as a senescence-regulated gene.

Development of   delay senescence plants that also display extended shelf life of vegetable and fruits

We have designed an approach to create plants with delayed senescence by fusing the isolated promoter of the SARK gene to the key cytokinin biosynthesis gene, IPT. We hypothesized that activating the IPT gene during senescence would produce cytokinins and potentially delay the senescence syndrome. Indeed, the transgenic tobacco plants exhibited a dramatic delay in the senescence process, with yield increasing by almost twofold. Similarly, the shelf life of detached leaves was extended by 300%. These results suggest a biotechnological approach to increase crop yields and extend the shelf life of leaves and fruits.

Development of drought resistant plants

As a result of an accidental lack of watering, we surprisingly discovered that the transgenic plants developed to delay senescence demonstrated dramatic drought resistance. Further experiments revealed that these plants could grow without yield loss with as little as 40% of the optimal water supply. This scientific achievement may be employed for growing crops in semidry regions and may allow developing water saving plants for wide spectrum of varieties and species

Education/ Resume:

1966-1969       B.Sc.     Biology, Tel Aviv University

1969-1971       M.Sc.    Botany, Tel Aviv University

1972-1978       Ph.D.    Botany. Tel Aviv University

1979-1980       Postdoc, Biology-Thimann Laboratories (Prof.K.V.Thimann) UC Santa Cruz

Academic Appointments:

1972 – 1979    Teaching Assistant, Tel-Aviv University, Department of Botany.

1979 – 1980    Post doctorate Fellow, University of California, Santa-Cruz, USA.

1980 – 2012     Lecturer. Senior Lecturer, Associate Professor, Professor

1994 – 1997     Dean, Faculty of Biology, Technion Haifa, Israel.

2006 – 2012     Head, Center for Pre-University Education, Technion, Haifa, Israel.

2012 –             Technion- Professor Emeritus

2012 – 2022     Kinneret College- Professor, President.

Awards:

2011          "Yanay Award" for "Excellence in Academic Teaching- for the significant and unique contribution toward the advancement of the academic education undergraduate students at the Technion.

2005                     Salomon Simon Mani Award for Excellence in Teaching.

2003                     Consistently   Outstanding Lecturer marking 10 consecutive  years of excellence in the Technion

2002                     Muriel and David Jacknow Prize for Excellence in Teaching.

1997                     Hershel and Hilda Rich Technion Innovation Award.

1993                     Salomon Simon Mani Award for Excellence in Teaching.

1983 – 2002        Distinguished Lecturer of the Technion for Excellence in Teaching (annually).

 

Key Publications:

Zemel, E. and Gepstein, S. (1985) Immunological evidence for the presence of RUBPase in guard cell chloroplasts. Plant Physiol. 78:586-590.

Gepstein, S., Sabihi, G., Carp, M-J., Hajouj, T., Falah, M., Nesher, O., Yariv, I., Hajouj, T., Michelis R. and Gepstein, S (2000) Cloning and characterization of a receptor-like proteinkinase gene associated with senescence. Plant Physiol 124: 1305-131

Gepstein, S., Sabihi, G., Carp, M-J., Hajouj, T., Falah, M., Nesher, O., Yariv, I., Dor, C. and Bassani, M. (2003) Large scale identification of leaf senescence-associated genes. The Plant Journal 36: 629-642.

Gepstein S, Glick BR. (2013) Strategies to ameliorate abiotic stress-induced plant senescence.
Plant Mol Biol.;82(6):623-33.

Gepstein, S. (2004) Leaf senescence – not just a “wear and tear” phenomenon Genome Biology.5: 212-215.

Rivero, R., Gepstein,A., Sakakibara, H., Mittler,R., S. Gepstein and E.Blumwald (2007). Delayed leaf senescence induces extreme drought tolerance in a flowering plant. Proc Natl Acad Sci U S A; 104(49):19631-19636.

Avni A, GolanY, Shirron N, Shamai Y, Golumbic Y, Danin-Poleg Y and Gepstein S. (2020) From Survival to Productivity Mode: Cytokinins Allow Avoiding the Avoidance Strategy Under Stress Conditions.Frontiers in Plant Science. Volume 11 – 2020 | https://doi.org/10.3389/fpls.2020.00879

Recent Publications:

Gonda, I., Bar E., Portnoy, V., Lev, S., Burger, J., Schaffer, A., Tadmor, Y., Gepstein, S., Giovannoni, J. Katzir, N. and Lewinsohn, E. (2010) Branched-chain and aromatic amino acid catabolism into aroma volatiles in Cucumis melo L. fruit J. of exp Bot. 61(4):1111-23.

Golan, Y Shirron, N Avni, A and Gepstein, S. (2016) Cytokinins induce transcription reprograming and improve Arabidopsis plant performance under drought and salt stress. Frontiers in Environmental Science. 1-14

Tzuri G, Zhou X, Chayut N, Yuan H, Portnoy V, Meir A, Sa'ar U, Fabian B, Mazourek M, Lewinsohn E, Fei Z, Schaffer AA, Gepstein S, Li L, Burger J, Katzir N, Tadmor Y. Plant J. (2015) A'golden'SNP in CmOr governs the fruit flesh color of melon (Cucumis melo) Plant Journal. Sep;83(5):940.

Avni A, GolanY, Shirron N, Shamai Y, Golumbic Y, Danin-Poleg Y and Gepstein S. (2020) From Survival to Productivity Mode: Cytokinins Allow Avoiding the Avoidance Strategy Under Stress Conditions Frontiers in Plant Science. Volume 11 – 2020 | https://doi.org/10.3389/fpls.2020.00879

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