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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

UHPLC-MS/MS analysis of extracts of

Sinningia magnifica

(Gesneriaceae) from seedlings cultivable

in-

vitro

, callus and

in-nature

Alessandra F Serain, Viktor K Nunes, Maria E A Stefanello

and

Marcos J Salvador

University of Campinas, Brazil

T

he

Sinningia magnifica

belong to Gesneriaceae family which comprises of around 150 genera and 3500 species, distributed in

tropics and subtropics around the world. In Brazil, phytochemical studies with

Sinningia

reported the identification of phenolic

glycosides, anthocyanins and anthraquinones with biological properties. The

in-vitro

micropropagation is a way of maintaining

healthy and uncontaminated explants for tissue culture application. The aim is to use the explants of S. magnifica to target callus and

cell culture in suspension, which has been an excellent alternative for the exploration of secondary metabolites. In this work, initially

a comparison was made between in-natura plant,

in-vitro

cultured seedlings and callus, to detect differences and similarities by

UHPLC-MS and parity with some compounds of our research group by UHPLC-MS/MS. Thus, fruits of

S. magnifica

were collected

and opened to release the seeds in Murashige e Skoog, 1962 (MS) medium, and cultivated in a photoperiod of 16/8 light/dark,

26±1ºC, with the leaves and the formation of calogenesis was induced with the use of growth hormones. Then, tubers and leaves of

S.

magnifica

in-nature

and

in-vitro

, and callus, which was dried at 40°C was collected, and subjected to the maceration with ethanol and

determined the chemical composition by UHPLC-MS, and which was used in isolated compounds for comparison by UHPLC-MS/

MS. The comparison showed common compounds and differences between the

in-natura

plant and the plant that grew in a controlled

environment, as well as the callus, reinforced by the UHPLC-MS/MS analysis. Despite the positive results, further investigations

are necessary to confirm the potential of this technique for the production of bioactive compounds and the real potential of the

compounds for biological application.

Biography

Alessandra F Serain is currently a Pharmacist from the State University of Campinas and a PhD candidate with FAPESP scholarship, in the Biosciences and Technology

Program of Bioactive Products of the DBV / IB - UNICAMP with the research project that seeks to perform a phytochemical study of two species of

Sinningia

for application

in Photodynamic Therapy (PDT) in culture of human cells, and biotechnological study of plant cell culture. She has her experience of Scientific Initiation at BTPB-UNICAMP,

18 months with FAPESP scholarship, in the field of phytochemistry, PDT, essential oils and microbiological activity

ale.serain@gmail.com

Alessandra F Serain et al., J Biotechnol Biomater 2017, 7:4 (Suppl)

DOI: 10.4172/2155-952X-C1-080