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In order to develop intrinsic resistance, genes from various sources have been cloned and expressed in plants but in most cases, the transgene failed to produce desired quantity of foreign protein in the heterologous system. Codon optimization is a general approach for improving expression of gene in any heterologous system. Full length chiA (1692 bp) from S. marcescens 141 (sm141chiA) was considered for removal of regulatory signals (partial optimized- sm141chiApm) and replacement of rare codons with preferred codons by tobacco (fully optimized- sm141chiAfm). Of 1692 bp, 22 and 432…mehr

Produktbeschreibung
In order to develop intrinsic resistance, genes from various sources have been cloned and expressed in plants but in most cases, the transgene failed to produce desired quantity of foreign protein in the heterologous system. Codon optimization is a general approach for improving expression of gene in any heterologous system. Full length chiA (1692 bp) from S. marcescens 141 (sm141chiA) was considered for removal of regulatory signals (partial optimized- sm141chiApm) and replacement of rare codons with preferred codons by tobacco (fully optimized- sm141chiAfm). Of 1692 bp, 22 and 432 nucleotides were altered to get partial and fully optimized genes, respectively. The synthesized gene was sub-cloned in plant expression vectors and transferred to tobacco. The plants containing sm141chiApm produced 1.82 fold more reducing equivalents whereas plants containing sm141chiAfm produced 4.39 fold more reducing equivalents compared to the plants containing sm141chiA. Optimization of bacterial codons to suit the plant codon dictionary improved the expression level of chitinase in tobacco by 2.57 fold.
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Autorenporträt
The author is graduated in Agriculture from University of Agricultural Sciences Dharwad in 2004 and completed post graduate in Plant Biotechnology in 2008 and PhD in Molecular Biology and Biotechnology in 2015 from same university. The author have both theoretical and practical experience in molecular biology, biotechnology and bioinformatics.