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Abstract
Buglossoides arvensis seed oil is the richest natural source of stearidonic acid (SDA),
an ω-3 fatty acid with nutraceutical potential superior to α-linolenic acid (ALA).
The molecular basis of polyunsaturated fatty acid synthesis in B. arvensis is unknown.
Here, we describe the identification of B. arvensis fatty acid desaturase2 (BaFAD2),
fatty acid desaturase3 (BaFAD3), and Delta-6-desaturase (BaD6D-1 and BaD6D-2) genes
by mining the transcriptome of developing seeds and their functional characterization
by heterologous expression in Saccharomyces cerevisiae. In silico analysis of their
encoded protein sequences showed conserved histidine-boxes and signature motifs essential
for desaturase activity. Expression profiling of these genes showed higher transcript
abundance in reproductive tissues than in vegetative tissues, and their expression
varied with temperature stress treatments. Yeast expressing BaFAD2 was found to desaturate
both oleic acid and palmitoleic acid into linoleic acid (LA) and hexadecadienoic acid,
respectively. Fatty acid supplementation studies in yeast expressing BaFAD3 and BaD6D-1
genes revealed that the encoded enzyme activities of BaFAD3 efficiently converted
LA to ALA, and BaD6D-1 converted LA to γ-linolenic acid and ALA to SDA, but with an
apparent preference to LA. BaD6D-2 did not show the encoded enzyme activity and is
not a functional D6D. Our results provide an insight into SDA biosynthesis in B. arvensis
and expand the repository of fatty acid desaturase targets available for biotechnological
production of SDA in traditional oilseed crops.