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Journal of Biotechnology & Biomaterials | ISSN: 2155-952X | Volume: 8

3

rd

World Biotechnology Congress

December 03-04, 2018 Sao Paulo, Brazil

Nanoparticles mediate dsRNAdelivery to control the crop insect pest cotton boll weevil,

Anthonomus

grandis

Rayssa A Garcia

EMBRAPA, Brazil

Statement of the Problem:

In past decades chemical pesticides are gradually losing effectiveness against crop insect pests, as

well as Bt crops. RNA interference (RNAi) came as an alternative to overcome this problem. This control method works well in

some insects through dsRNA oral administration but is not very effective against others. Despite great efforts, however, some

insects, such as cotton boll weevil (CBW),

Anthonomus grandis

, have gut nucleases that degrade dsRNAs, hampering dsRNA

cell internalization and RNAi response. This study offers a strategy to increase dsRNA stability and enhance dsRNA cellular

uptake using chitosan nanoparticles coated with a surfactant.

Methodology & Theoretical Orientation:

The optimal proportion of dsRNA:chitosan:surfactant to form a self-assembling

nanoparticle was established by dynamic light scattering (DLS), which also provides the nanoparticle size and cargo. It was

verified the nanoparticle resistance to CBW´s gut nucleases and then it was administered through oral delivery to CBW. The

gene silencing was assessed by RT-qPCR. Nanoparticles were also dispersed on cotton leaves in order to analyze its wettability.

Findings:

The dsRNA:chitosan:surfactant nanoparticle size is approximately 300nm with a positive charge of 25mV. The

dsRNA coated with chitosan and surfactant is resistant to CBW´s gut nuclease degradation, which improves gene silencing

through dsRNA oral delivery. Also, the nanoparticle coated with surfactant spreads in a uniform way in cotton leaves, when

compared to non-surfactant-coated nanoparticles.

Conclusion & Significance:

There is a necessity for an environmentally friendly strategy to control crop insect pests and the

use of dsRNA coupled with chitosan in order to form self-assembling nanoparticles came as a green approach. This method of

control is very effective against CBW and can be exploited to greenhouses and possibly cotton fields, making the control of this

insect sustainable and less expensive. This strategy can also be applied to other crop insect pests.

Biography

Rayssa Garcia is a PhD student at the University of Brasilia, Brazil, in the program of Molecular Biology. She is under the orientation of Dr Maria Fátima Grossi-de-

Sá at the Plant-Plague Molecular Interaction at Embrapa Genetic Resources and Biotechnology. Her master was focused on characterization and gene silencing

of nucleases present in the gut of cotton boll weevil,

Anthonomus grandis

, an important crop insect pest. She also works with viroid-like dsRNAs that are known to

improve gene silencing in different organisms. Now her studies focus on improving dsRNA stability and cellular uptake through the development of self-assembling

nanoparticles, which are an environmentally friendly strategy to control crop insect pests and overcome dsRNA degradation by gut nucleases.

rayssaag@gmail.com

Rayssa A Garcia, J Biotechnol Biomater 2018, Volume: 8

DOI: 10.4172/2155-952X-C7-106