Wednesday, November 20, 2019

Posted at: Oct 20, 2019, 10:42 AM; last updated: Oct 20, 2019, 10:42 AM (IST)

Researchers develop method for enhanced Vitamin E production

Researchers develop method for enhanced Vitamin E production
IIT-Madras researchers engineered sunflower plant cells to enhance their production of Vitamin E by ten times. Tribune file

NEW DELHI: Researchers at the Indian Institute of Technology (IIT), Madras, have engineered sunflower plant cells to enhance their production of Vitamin E by ten times, an advance that may pave the way for effective and efficient commercial production of the vitamin with fewer unwanted side products.

The study, published in the Biochemical Engineering Journal, noted that in its most active form known as alpha-tocopherol, vitamin E helped prevent tissue damage from certain toxic chemicals produced in the body known as reactive oxygen species.

However, according to the researchers, the form of alpha-tocopherol synthesised chemically in labs was less active than its natural form found in plants.

The researchers said that an alternative to chemically synthesising the vitamin was to culture the plants under controlled conditions in the lab to create a uniform mass of cells that could sustainably produce alpha-tocopherol.

In the study, the researchers inserted genes involved in vitamin E production from sunflower into a plant called Arabidopsis that is commonly used as a model organism in genetics research.

Using insights from computational simulations on the metabolic processes within the Arabidopsis cells, the researchers tinkered with the genetically engineered cells to make it produce high quantities of alpha-tocopherol.

The combined approach using computer modelling and cellular engineering—also called rational approach—helped the researchers estimate which key enzymes in the engineered Arabidopsis cells when produced in higher quantities, led to the production of more alpha-tocopherol.

When the researchers experimentally increased the expression of one such enzyme in the tinkered cells, it led to a ten-fold higher alpha-tocopherol yield in one of the lab grown cell lines, compared to the normal non-engineered cells.

They noted that the amount of vitamin E produced was also almost 1.3 times greater than that from the seeds of the parent plant procured from Tamil Nadu Agriculture University (TNAU).

While there are existing methods for the production of vitamin E from engineered cells, the researchers mentioned that these were tedious trial and error approaches where different sets of cells were made, and the ones producing large quantities of alpha-tocopherol were selected.

However, in the new rational method, they said that the computational approach helped identify the enzymes that could be targeted to increase the yield of vitamin E in the engineered cells.

“The simulation-driven approach to engineering plant metabolism is advantageous over the conventional ‘hit and trial’ methods as it can save valuable resources, time and money during process optimisation,” Karthik Raman, the principal investigator of the study from IIT, Madras, told PTI.

“This model-based technique can act as a platform technology in which we can produce desired products such as biofuel from any plant once we know the metabolic network within the cells,” Smita Srivastava, co-author of the study from IIT, Madras, told PTI.

The researchers added that the rational method involving both computational and engineering approaches can be applied to produce valuable plant-based compounds of medicinal value such as anti-cancer drugs.

“Such drugs are produced from many endangered plants, which are endangered now because of extensive uprooting. So, if we want to come up with an alternative, sustainable process independent of nature, without a hit and trial approach, the rational method can be applied,” Srivastava said. PTI


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