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. 2021 Jul;40(7):1215-1228.
doi: 10.1007/s00299-021-02714-4. Epub 2021 May 24.

Identification and molecular characterization of rice bran-specific lipases

Sakshi Bansal  1   2 Shaswati Sardar  3 Kshitija Sinha  1   2 Rupam Kumar Bhunia  1 Megha Katoch  1 Humira Sonah  1 Rupesh Deshmukh  1 Hasthi Ram  4
Affiliations

Identification and molecular characterization of rice bran-specific lipases

Sakshi Bansal et al. Plant Cell Rep. 2021 Jul.

Abstract

Among the 113 lipases present in rice genome, bran and endosperm-specific lipases were identified and lipase activity for one of the selected lipase gene is demonstrated in yeast. Rice bran is nutritionally superior than endosperm as it has major reservoirs of various minerals, vitamins, essential mineral oils and other bioactive compounds, however it is often under-utilized as a food product due to bran instability after milling. Various hydrolytic enzymes, such as lipases, present in bran causes degradation of the lipids present and are responsible for the bran instability. Here, in this study, we have systematically analyzed the 113 lipase genes present in rice genome, and identified 21 seed-specific lipases. By analyzing the expression of these genes in different seed tissues during seed development, we have identified three bran-specific and three endosperm-specific lipases, and one lipase which expresses in both bran and endosperm tissues. Further analysis of these genes during seed maturation and seed germination revealed that their expression increases during seed maturation and decreases during seed germination. Finally, we have shown the lipase activity for one of the selected genes, LOC_Os05g30900, in heterologous system yeast. The bran-specific lipases identified in this study would be very valuable for engineering designer rice varieties having increased bran stability in post-milling.

Keywords: Bran; Gene expression; Lipases; Rice; Seed; q-PCR.

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