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. 2025 Jul;11(7):1316-1324.
doi: 10.1038/s41477-025-02020-x. Epub 2025 Jun 13.

High-efficiency leucoplast transit peptides for manipulating plastid protein production

Chiung-Chih Chu  1 Chia-Ying Han  1 Hsou-Min Li  2
Affiliations

High-efficiency leucoplast transit peptides for manipulating plastid protein production

Chiung-Chih Chu et al. Nat Plants. 2025 Jul.

Abstract

Plastids develop into nutrient-storing leucoplasts in seeds and roots. Efficient protein delivery is essential to modify biosynthetic processes in leucoplasts for human needs, but no effective transit peptide for leucoplasts is currently available. Here, using an in vitro leucoplast import system, we have identified six high-efficiency transit peptides. Compared with a widely used chloroplast transit peptide, these peptides delivered similar amounts of GFP into chloroplasts, but two to seven times more GFP into root and petal leucoplasts, attesting to the advantage of screening using leucoplasts. When used to deliver bacterial phytoene synthase (crtB) into rice calli and glyphosate-resistant EPSP synthase into Arabidopsis, these peptides enhanced carotenoid production and herbicide resistance, respectively. The correlation among levels of GFP delivery, carotenoid production and herbicide resistance indicates that the efficiency of these transit peptides is consistent across plant species and passenger proteins. Transit peptide selection therefore offers an effective way to modulate production levels of engineered proteins.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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