Abstract
Camelina sativa (camelina) is emerging as an alternative oilseed crop due to its short growing cycle, low input requirements, adaptability to less favorable growing environments and a seed oil profile suitable for biofuel and industrial applications. Camelina meal and oil are also registered for use in animal and fish feeds; however, like meals derived from most cereals and oilseeds, it is deficient in certain essential amino acids, such as lysine. In higher plants, the reaction catalyzed by dihydrodipicolinate synthase (DHDPS) is the first committed step in the biosynthesis of lysine and is subject to regulation by lysine through feedback inhibition. Here, we report enhancement of lysine content in C. sativa seed via expression of a feedback inhibition-insensitive form of DHDPS from Corynebacterium glutamicums (CgDHDPS). Two genes encoding C. sativa DHDPS were identified and the endogenous enzyme is partially insensitive to lysine inhibition. Site-directed mutagenesis was used to examine the impact of alterations, alone and in combination, present in lysine-desensitized DHDPS isoforms from Arabidopsis thaliana DHDPS (W53R), Nicotiana tabacum (N80I) and Zea mays (E84K) on C. sativa DHDPS lysine sensitivity. When introduced alone, each of the alterations decreased sensitivity to lysine; however, enzyme specific activity was also affected. There was evidence of molecular or structural interplay between residues within the C. sativa DHDPS allosteric site as coupling of the W53R mutation with the N80V mutation decreased lysine sensitivity of the latter, but not to the level with the W53R mutation alone. Furthermore, the activity and lysine sensitivity of the triple mutant (W53R/N80V/E84T) was similar to the W53R mutation alone or the C. glutamicum DHDPS. The most active and most lysine-insensitive C. sativa DHDPS variant (W53R) was not inhibited by free lysine up to 1 mM, comparable to the C. glutamicums enzyme. Seed lysine content increased 13.6 -22.6% in CgDHDPS transgenic lines and 7.6–13.2% in the mCsDHDPS lines. The high lysine-accumulating lines from this work may be used to produce superior quality animal feed with improved essential amino acid profile.
Highlights
Camelina sativa, an oilseed crop belonging to the Brassicaceae family, has emerged as a platform for aviation biofuel and various other industrial applications (Bansal and Durrett 2016)
A putative chloroplast targeting peptide was predicted to be located at the aminoterminus of all plant dihydrodipicolinate synthase (DHDPS) enzymes (38 aa in C. sativa, 29 aa in A. thaliana, 32 aa in N. tabacum, 65 aa in Z. mays) (Fig. 1)
Even in its current form, camelina meal can be included in poultry (Kakani et al 2012), swine (Kahindi et al 2014), beef (Cappellozza et al 2012; Colombini et al 2014) and aquaculture (Hixon and Parish 2014; Hixon et al 2014, Hixon et al 2016a, 2016b) diets
Summary
Camelina sativa (camelina), an oilseed crop belonging to the Brassicaceae family, has emerged as a platform for aviation biofuel and various other industrial applications (Bansal and Durrett 2016). The seed oil contains 50–60% polyunsaturated fatty acids, of which 20–25% is omega 6 (linoleic acid, 18:2n-6) and 35–40% is omega 3 (linolenic acid, 18:3n-3) (Lu and Kang 2008). Alinolenic acid is the precursor for the essential long chain polyunsaturated fatty acids eicosapentanoic acid (20:5 x3) and docosahexanoic acid (22:6 x3) that have human health benefits. Camelina seed meal generated by cold-pressing is rich in protein (450 g Kg-1) and residual oil (100 g Kg-1) and can be used as a source of protein in farmed fish (Hixson and Parish 2014; Hixson et al 2014; 2016a,b), poultry (Kakani et al 2012), and livestock (Cappellozza et al 2012; Colombini et al 2014; Kahindi et al 2014). In particular, are often added as supplements to fish (Wilson and Halver 1986), poultry (Kidd et al 1998) and swine feed (Brinegar et al 1950) diets
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