Tsukuba, Japan—Recombinant protein production for pharmaceuticals and other applications often involves infecting plants with bacteria carrying specific genes to accumulate desired proteins in plants. Researchers have developed a novel system called the "Tsukuba system," which enables high-yield protein production in plants, comparable to traditional systems, such as Escherichia coli.
In this study, lettuce was used as the host plant to enhance recombinant protein expression. In plants, RNA-dependent RNA polymerase (RDR) plays a key role in RNA interference by suppressing foreign gene expression. By suppressing the expression of the RDR gene family in lettuce, a more than twofold increase in recombinant protein expression was achieved, representing the highest protein expression level reported in lettuce to date and highlighting the method's effectiveness.
Nicotiana benthamiana (tobacco) is commonly used for protein production, whereas lettuce is mainly cultivated in plant factories. Using lettuce as a host plant can help in the mass production of genetically modified proteins and provide a promising alternative for large-scale protein production.
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This study was supported by the Program on Open Innovation Platform with Enterprise, Research Institute, and Academia, Japan Science and Technology Agency (JST-OPERA, JPMJOP1851).
Original Paper
Title of original paper:
Silencing of RDR1 and RDR6 genes by a single RNAi enhances lettuce's capacity to express recombinant proteins in transient assays
Journal:
Plant Cell Reports
DOI:
10.1007/s00299-024-03324-6
Correspondence
Professor MIURA, Kenji
Institute of Life and Environmental Sciences, University of Tsukuba
Related Link
Institute of Life and Environmental Sciences
Journal
Plant Cell Reports
Article Title
Silencing of RDR1 and RDR6 genes by a single RNAi enhances lettuce’s capacity to express recombinant proteins in transient assays
Article Publication Date
24-Sep-2024