Characterization and engineering of peroxisome targeting sequences for compartmentalization engineering in Pichia pastoris

毕赤酵母 分区(防火) 过氧化物酶体靶向信号 过氧化物酶体 代谢工程 细胞生物学 雅罗维亚 合成生物学 毕赤酵母 计算生物学 酵母 生物 生物化学 重组DNA 基因
作者
Cuifang Ye,Haosen Hong,Jucan Gao,Mengxin Li,Yuanwei Gou,Di Gao,Chang Dong,Lei Huang,Zhinan Xu,Jiazhang Lian
出处
期刊:Biotechnology and Bioengineering [Wiley]
卷期号:121 (7): 2091-2105 被引量:7
标识
DOI:10.1002/bit.28706
摘要

Abstract Peroxisomal compartmentalization has emerged as a highly promising strategy for reconstituting intricate metabolic pathways. In recent years, significant progress has been made in the peroxisomes through harnessing precursor pools, circumventing metabolic crosstalk, and minimizing the cytotoxicity of exogenous pathways. However, it is important to note that in methylotrophic yeasts (e.g. Pichia pastoris ), the abundance and protein composition of peroxisomes are highly variable, particularly when peroxisome proliferation is induced by specific carbon sources. The intricate subcellular localization of native proteins, the variability of peroxisomal metabolic pathways, and the lack of systematic characterization of peroxisome targeting signals have limited the applications of peroxisomal compartmentalization in P. pastoris . Accordingly, this study established a high‐throughput screening method based on β‐carotene biosynthetic pathway to evaluate the targeting efficiency of PTS1s (Peroxisome Targeting Signal Type 1) in P. pastoris . First, 25 putative endogenous PTS1s were characterized and 3 PTS1s with high targeting efficiency were identified. Then, directed evolution of PTS1s was performed by constructing two PTS1 mutant libraries, and a total of 51 PTS1s (29 classical and 22 noncanonical PTS1s) with presumably higher peroxisomal targeting efficiency were identified, part of which were further characterized via confocal microscope. Finally, the newly identified PTS1s were employed for peroxisomal compartmentalization of the geraniol biosynthetic pathway, resulting in more than 30% increase in the titer of monoterpene compared with when the pathway was localized to the cytosol. The present study expands the synthetic biology toolkit and lays a solid foundation for peroxisomal compartmentalization in P. pastoris .
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