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Head of Institute: Prof. Ido Braslavsky

Administrative manager: Rakefet Kalev

Office Address:
Institute of Biochemistry, Food Science and Nutrition,
Robert H. Smith Faculty of Agriculture, Food and Environment,
The Hebrew University of Jerusalem, 
Herzl 229, Rehovot 7610001, ISRAEL

Tel: +972 - (0)8-9489385
Fax: +972 - (0)8-9363208
Email Address: rakefetk@savion.huji.ac.il

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Comprehensive structure-activity-relationship studies of sensory active compounds in licorice (Glycyrrhiza glabra)
Schmid, C. ; Brockhoff, A. ; Ben Shoshan-Galeczki, Y. ; Kranz, M. ; Stark, T. D. ; Erkaya, R. ; Meyerhof, W. ; Niv, M. Y. ; Dawid, C. ; Hofmann, T. . Comprehensive Structure-Activity-Relationship Studies Of Sensory Active Compounds In Licorice (Glycyrrhiza Glabra). FOOD CHEMISTRY 2021, 364.
Masha_Niv
Abstract

Licorice saponins, the main constituents of Glycyrrhiza glabra L. roots, are highly appreciated by the consumer for their pleasant sweet and long lasting licorice taste. The objective of the present study was to understand the molecular features that contribute to bitter, sweet and licorice sensation of licorice roots, and whether individual compounds elicit more than one of these sensations. Therefore, a sensomics approach was conducted, followed by purification of the compounds with highest sensory impact, and by synthesis as well as full characterization via HRESIMS, ESIMS/MS and 1D/2D-NMR experiments. This led to the discovery and structure determination of 28 sweet, bitter and licorice tasting key phytochemicals, including two unknown compounds. A combination of sensorial, cell-based and computational analysis revealed distinct structural features, such as spatial arrangement of functional groups in the triterpenoid E-ring, driving to different taste sensations and sweet receptor hTAS1R2/ R3 stimulation.

 

Dr. Aharon Helman

Welcome

My lab studies how changes in the nutritional environment dictate cellular and organ adaptation, with a focus on beta cells. Specifically, we dissect the metabolic and functional heterogeneity of beta cells in sensing and responding to nutrients and how metabolic stress during aging and diabetes affects beta cell function. In addition, using human stem cell-derived beta cells we conduct high-throughput chemical and metabolic approaches to determine key regulators of human beta cell function

List of publications

Peer reviewed articles

  • Sharabi, K., Hurwitz, A., Simon, A.J., Beitel, G.J., Morimoto, R.I., Rechavi, G., Sznajder, J.I., and Gruenbaum, Y. (2009a). Elevated CO2 levels affect development, motility, and fertility and extend life span in Caenorhabditis elegans. Proc Natl Acad Sci U S A 106, 4024-4029.

Curriculum Vitae

Education

2001-2004 – B.Sc. in life sciences, The Hebrew University of Jerusalem. Amirim student, Graduated Cum Laude.

2005-2007 – M.Sc. in genetics. The Department of Genetics, The Hebrew University of Jerusalem. Advisor: Prof. Yosef Gruenbaum.

2007-2012 – Ph.D in genetics. The Department of Genetics, The Hebrew University of Jerusalem. Advisor: Prof. Yosef Gruenbaum.

Dr. Kfir Sharabi

Metabolic syndrome diseases, including diabetes, have become a world-wide epidemic affecting millions throughout the world. Dysregulated whole-body energy homeostasis is a hallmark of the metabolic syndrome, and better understanding of the molecular pathways that become dysregulated during its progression can ultimately lead to the development of new and improved therapies. Our goal is to understand how changes in nutritional and hormonal cues control basic metabolic pathways to modulate whole-body energy homeostasis.