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Biotechnology Congress: Research & Innovations

CRISPR Cas9 Technology and Genetic Engineering

Annual Congress on

October 24-25, 2018 | Boston, USA

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

Biotechnological approaches as alternatives for exploiting the production of important secondary

metabolites-

Rubia tinctorum L.

cell, tissue and organ culture: A case study

Ana Rosu

University of Agronomic Sciences and Veterinary Medicine of Bucharest, Romania

S

ince early times mankind exploited the genetic diversity of the plant kingdom as a major source of an array of secondary products,

widely employed as pigments, food additives, pharmaceuticals, cosmetics and agrochemicals of economic importance. Madder

(Rubia tinctorum L.) root has been used for dying textiles in many parts of the world and over the centuries was an important export

product throughout Europe. The natural dye components are anthraquinones, especially alizarin, present in the madder root mainly

as its glycoside–the ruberythric acid. At the end of the 19th century, the use of madder for dyeing declined due to production at large

scale of synthetic alizarin. At present, as the production of synthetic alizarin involves increasing costs and gives polluting side effects,

the use of natural dyes became more popular and revitalizing of madder as an industrial crop is reconsidered. Besides being the

source of the valuable red dye, madder components are reported to exhibit various pharmacological activities, including anticancer,

antimalarial, antibacterial, antifungal and antioxidant activities. Biotechnological approaches, specifically plant cell, tissue and organ

culture, play a recognized vital role in the search for alternatives to production and accumulation of valuable compounds. Our

preliminary studies focused on defining the conditions for obtaining dependable in vitro cell biomass, resulting in the development

of rapidly-growing, long-term callus cultures. Though the detection of alizarin and of other anthraquinones in the madder callus cells

was not the purpose of this stage of our experiments, some preliminary testing with the coloring capacity of the madder callus cells

on wool fibers were performed, proving that madder cells in culture retain complete genetic information, being chemically totipotent

like the mother plant in nature.

eventura@ipn.mx

J Biotechnol Biomater 2018, Volume 8

DOI: 10.4172/2155-952X-C4-098