Volume 7, Issue 1 (Suppl)

J Biotechnol Biomater

ISSN: 2155-952X JBTBM, an open access journal

Enzymology & Mol. Biology 2017

Biotechnology Congress 2017

March 20-21, 2017

Page 56

Notes:

conference

series

.com

March 20-21, 2017 Rome, Italy

&

15

th

World Congress on

2

nd

International Conference on

Biotechnology And Biotech Industries Meet

Enzymology and Molecular Biology

New drugs and catalysts inspired by glutathione peroxidase

G

lutathione peroxidase (GPx) among the currently known selenoenzymes is the best characterized in terms of chemical

structure and reaction mechanism. The catalytic center of this enzyme is a selenocysteine and more specifically, a selenium

atom that is stabilized by a catalytic triad in the form of nucleophilic selenate. In this form, the selenium is reactive toward

peroxides determining their reduction into the non-harmful alcohol or water. The selenol by reaction with the peroxide is

transformed into the corresponding selenenic acid which is rapidly reduced by two molecules of glutathione affording a

molecule of oxidized glutathione and the native selenate which is ready to start a second cycle. Glutathione peroxidase have a

crucial role in the control and prevents the damage produced by the reactive oxygen species (ROS) in living system and from

one side it is important to maintain a healthy status from the other it is necessary to reinforce it during a number of pathologic

situation. During the last decades, several small molecules containing selenium as well as some artificial selenoenzymes were

developed and tested as antioxidants but also as pro-oxidants as enzyme inhibitors, hormetic agents, antiviral, anticancer,

antimicrobial agents. In this talk, the author will report the state of art of the research on this field focusing some new

prospective that is currently ongoing in our laboratory: Discovery of new biologically active organoselenium compounds and

determination of their reaction mechanism in living systems. Besides that the bio inspiration is an excellent strategy for the

development of new efficient and eco sustainable catalyst for application in Green Chemistry, some recent examples of these

results will be presented and discussed.

Biography

Claudio Santi received his PhD in Chemical Sciences from the University of Perugia under the supervision of Professor Marcello Tiecco. Currently, he is a Professor

of Organic Chemistry and leads the Group of Catalysis and Organic Green Chemistry in the Department of Pharmaceutical Sciences. His research interests

range from the application of selenium reagents in green chemistry to the development of new organoselenium containing drugs. He is author of more than 130

publications including review articles and book chapters.

claudio.santi@unipg.it

Claudio Santi

University of Perugia, Italy

Claudio Santi, J Biotechnol Biomater 2017, 7:1(Suppl)

http://dx.doi.org/10.4172/2155-952X.C1.069