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.com

Volume 7, Issue 4 (Suppl)

J Biotechnol Biomater, an open access journal

ISSN: 2155-952X

Bio America 2017

October 19-20, 2017

October 19-20, 2017 | New York, USA

18

th

Biotechnology Congress

Impacts of the extremes conditions of environments on the RNA’ flexibility and self-catalytic activity of the

Avocado sunblotch

viroid: Application of NIR Raman spectroscopy and a bio-reactor with sampling in and

out, at constant pressure and perturbation agents for the study

Gaston Hui Bon Hoa

INSERM, France

T

he typical environment for biomolecules

in-vivo

is highly crowded. In such conditions, conformational changes, structural

flexibility as well as chemical activity of biomolecules may be affected by molecular crowding effects. To mimic

in-vitro

, the

crowding effects, high pressure, D2O solvent and crowding agents are excellent tools for the study. In such a propose, we have

recently developed two innovating techniques to follow the alteration of bio-molecular structure and function submitted to extremes

conditions of environments

in-vitro

. This approach is applied to the study of the structure and function of the Avsunviroidae

Avocado

sunblotch

viroid’s. They are non-encapsulated RNA plant pathogens. They are able to infect dramatically a broad range of plants.

The

Avocado sunblotch

viroid minus strand (ASBVd (-)) is a compact rod-like circular RNA which possess a catalytic hammerhead

ribozyme (HHR) motif responsible for crucial cleavage step during viroid replication. To date little is known regarding the structure

and conformation of ASBVd (-) viroid, the catalytic role of Mg2+ and the ways by which such viroid induce diseases. This prompts

us to develop a NIR Raman spectroscopy which is a sensitive technique for monitoring RNA’s molecular structure and a bio-reactor

designed to allow rapid injections of effectors and sampling out products under constant pressure and perturbation agents, for activity

measurements. ASBVd (-) viroid exhibits a typical A-type RNA conformation with ordered double helical content and a C3’-endo/

anti sugar pucker configuration. Deuteration and temperature perturbed differently the RNA’s phosphodiester conformation. Mg2+

activated self-cleavage does not significantly alter the secondary RNA’s structure but noticeable Raman frequency downshifts were

observed, suggesting that several phosphodioxy structure, internal loops and hairpins of the cleaved viroids have changed. RNA self-

cleavage activity decreased upon deuteration indicating some accessibility of H-bonding network and a rigidity of RNA’s structure. A

pressure-induced RNA’s self- cleavage obtained pH-profile is interpreted as a consequence of some compaction of the structure and

a release of catalytic water molecules during catalysis. All these data will constitute the basis for further studies of the interactions of

such viroid with therapeutic agents and cell membranes

Biography

Gaston Hui Bon Hoa has completed his PhD in 1974 from the University of Paris XI and obtained his positions in INSERM since 1975. He is an Emeritus Director of Re-

search, since 2000, in the Hospital Kremlin Bicêtre Center, France. His expertise and focus is on the studies of cryo- enzymology and enzyme intermediates (1978-1980),

cytochrome P450’s structure and function (1981-1992), pressure-induced protein’s stability, compressibility and dynamics as well as osmotic stress study (1992-2015).

In 2012, he started his study on plant viroid’s structure, conformation and function. He has published more than 90 papers in reputed international journals and has been

serving as an Editorial Board Member

gasthui3@yahoo.fr

Gaston Hui Bon Hoa et al., J Biotechnol Biomater 2017, 7:4 (Suppl)

DOI: 10.4172/2155-952X-C1-079