Seed-specific expression of a lysine rich protein sb401 gene significantly increases both lysine and total protein content in maize seeds

Abstract

The sb401 gene from potato (Solanum berthaultii) encoding a pollen-specific protein with high lysine content was successfully integrated into the genome of maize plants and its expression was correlated with increased levels of lysine and total protein content in maize seeds. A plasmid vector containing the sb401 gene under the control of a maize seed-specific expression storage protein promoter (P19z) was constructed and introduced into maize calli using microprojectile bombardment. The integration of the sb401 gene into the maize genome was confirmed by Southern blot analysis and its expression was confirmed by Western blot analysis. Quantification of lysine and protein content in R1 maize seeds showed that, compared to the non-transgenic maize control, the lysine content increased by 16.1% to 54.8%, and total protein content increased by 11.6% to 39.0%. There was no visible morphological change in vegetative parts and seeds of the transgenic maize plants. Lysine and protein analysis of the transgenic maize grains showed that the levels of lysine and total protein remained high for six continuous generations, indicating that the elevated lysine and total protein levels were heritable. These results indicate that the sb401 gene could be successfully employed in breeding programmes aimed at improving the nutritional value of maize.