Abstract
The use of barley grains as bioreactors for high-level production of cellulase (1,4-β-glucanase) was investigated. A hybrid cellulase gene, cel-hyb1, driven by the rice GluB-1 promoter was expressed specifically in developing endosperm. Codon usage optimisation of cel-hyb1 increased its expression in barley grains 527-fold and led to cellulase production of up to 1.5% of total grain protein. CEL-HYB1 enzyme in barley grains was highly stable during post-harvest storage. Selectable marker gene (hph) was subsequently eliminated from transgenic lines through segregation of hph from synthetic cel-hyb1 (syn.cel-hyb1) in T1 progeny, using a binary plasmid containing hph and syn.cel-hyb1 in separate T-DNAs. These data suggest that barley grains can potentially be used for the commercial production of cellulase.
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Abbreviations
- AZCL:
-
Azurine-crosslinked
- CM:
-
Carboxymethyl
- HE:
-
Hydroxyethyl
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This work was partly supported by Australian Grains Research and Development Corporation.
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Communicated by P. Lakshmanan
G. P. Xue and M. Patel made an equal contribution
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Xue, G.P., Patel, M., Johnson, J.S. et al. Selectable marker-free transgenic barley producing a high level of cellulase (1,4-β-glucanase) in developing grains. Plant Cell Rep 21, 1088–1094 (2003). https://doi.org/10.1007/s00299-003-0627-4
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DOI: https://doi.org/10.1007/s00299-003-0627-4