The team which included researchers from NCBS, inStem and CCAMP (Centre for Cellular and Molecular Platforms), all members of the Bangalore Life Sciences Cluster, used five different types of Tulsi, (Ocimum tenuflorium subtype Rama, O. tenuflorium subtype Krishna, O. Gratissimum, O. Saccharicum and O. Kilmund) to collect the genomic data.
They then compared the results with well-studied species like Arabidopsis thaliana, a Eurasian plant which was first to have its genome sequenced, and is a popular tool for understanding the molecular biology of many plant traits. This helped them identify the unique compounds found in Tulsi Krishna subtype.
The medicinal properties of Tulsi are attributed to specialised compounds produced as a part of its defence mechanism. These compounds are called 'metabolites' because they are a by-product of the plant's metabolism.
"The sequence reveals the interesting pathways used by Tulsi to make Ursolic acid, a medically important compound. If one could now use modern synthetic biology techniques to synthesise Urosolic acid --- a compound with multiple chiral centers ---- it would be of great benefit," Prof S Ramaswamy, from inStem said.
"There are more than 40 secondary metabolites in Ocimum species, which are exploited by humans to treat diseases including Apigenin, Citral, Eugenol, Taxol and Urosolic acid", said Prof Sowdhamini Ramanathan, who led the research.