Riboflavin derived coenzymes (FMN and FAD) are the cofactors of numerous oxydo-reduction enzymes and are also used in the energy transduction process. It is also used in antioxidative reactions and is required for the metabolism of several other vitamins.
Riboflavin is mostly found in dairy products, offal and almonds.

Riboflavin deficiency is a rampant problem in India:
only 13% of the households meet the riboflavin dietary requirements and more than 70% of women and children of low-income groups (2009 Indian Council of Medical Research report) and 66% of children from middle-income groups have biochemical evidence of riboflavin deficiency (S. Swaminathan & al., European J. Clin. Nut., 2013).
Riboflavin deficiency is the cause of several diseases.

The most recognizable manifestation of advanced riboflavin deficiency are orolingual, dermal, corneal and hematological.
In earlier stages, riboflavin deficiency decreases psychomotor abilities, induces fatigue as well as itching and burning in the eyes.During pregnancy, a riboflavin deficiency can lead to limb-reduction in infants (M. S. Bamji et al., Bulletin of Nutrition Foundation of India, 1993).
Riboflavin is synthesized by Plants, Bacteria and Fungi. Two fungi, Ashbya gossypii and Candida famata and a Gram positive bacteria, Bacillus subtilis are industrially used as riboflavin overproducers (K.-P Stahmann & al, Appl Micr. Biotech., 2000).
As our team decided to focus on the Idli batter, we reviewed the different publication about the Idli batter microbiome. A broad range of micro-organisms have been characterized in Idli batter, mainly, Gram positive bacteria such as Leuconostoc, Weissella, Pediococcus, Lactobacillus (C. Saravanan & al, J Food Sci Technol, 2015) and also Lactococcus ('Applied Microbiology', Sanjai Saxena).
Even if some of these bacteria are natural producer of riboflavin, their production was not big enough to meet the nutritional requirements.
Lactic Acid Bacteria (LAB), like Lactococcus and Lactobacillus, are used worldwide to ferment food. As both are present in Idli batter, we choose to work on Lactobacillus plantarum, which is commonly found in Idli and other fermented food, has been sequenced and for which several engineering protocols have been elaborated.
Our goal was to make it produce as much riboflavin as possible. Thus, we decided to transfer Bacillus subtilis pathway, which is more closely related to Lactobacillus than the two other overproducers, into Lactobacillus plantarum.
Also, to prevent most of the horizontal gene transfer events and to make the insertion more stable and resilient, we decided to integrate the genes coding for the enzymes of the pathway into the chromosome.
First, we identified the different enzymes required to produce riboflavin in B. subtilis (K. -P. Stahmann, Appl. Mic.Biotech, 2000)(JB Perkins, J. of Ind. Mic. & Biotech., 1999)(A. G. Vitreschak, Nuc. Acid Res., 2002).
The riboflavin biosynthesis pathway is detailed bellow.