Anjum Sofia, Prasad Aparna, Mastud Pragati, Mishra Geetanjali, Patankar Swati
Department of Biosciences & Bioengineering, Indian Institute of Technology Bombay, Powai, Mumbai, India.
Biol Cell. 2024 Dec;116(12):e2400027. doi: 10.1111/boc.202400027. Epub 2024 Oct 10.
Toxoplasma gondii has a relict plastid, the apicoplast, to which nuclear-encoded proteins are targeted after synthesis in the cytosol. Proteins exclusively found in the apicoplast use a Golgi-independent route for trafficking, while dually targeted proteins found in both the apicoplast and the mitochondrion use a Golgi-dependent route. For apicoplast targeting, N-terminal signal sequences have been shown to direct the localization of different reporters. In this study, we use chimeric proteins to dissect out the roles of N-terminal sequences and coding sequences in apicoplast localization and the choice of the trafficking route.
We show that when the N-termini of a dually targeted protein, TgTPx1/2, or of an apicoplast protein, TgACP, are fused with the reporter protein, enhanced green fluorescent protein (eGFP) or endogenous proteins, TgSOD2, TgSOD3, TgACP, or TgTPx1/2, the chimeric proteins exhibit flexibility in apicoplast targeting depending on the coding sequences. Further, the chimeras that are localized to the apicoplast use different trafficking pathways depending on the combination of the N-terminal signals and the coding sequences.
This report shows, for the first time, that in addition to the N-terminal signal sequences, targeting and trafficking signals also reside within the coding sequences of apicoplast proteins.
刚地弓形虫有一个残留质体,即顶质体,在胞质溶胶中合成后,核编码蛋白会靶向运输到该质体。仅在顶质体中发现的蛋白质通过不依赖高尔基体的途径进行运输,而在顶质体和线粒体中都存在的双靶向蛋白质则通过依赖高尔基体的途径运输。对于顶质体靶向运输,已表明N端信号序列可指导不同报告蛋白的定位。在本研究中,我们使用嵌合蛋白来剖析N端序列和编码序列在顶质体定位及运输途径选择中的作用。
我们发现,当双靶向蛋白TgTPx1/2或顶质体蛋白TgACP的N端与报告蛋白增强型绿色荧光蛋白(eGFP)或内源性蛋白TgSOD2、TgSOD3、TgACP或TgTPx1/2融合时,嵌合蛋白在顶质体靶向运输方面表现出灵活性,这取决于编码序列。此外,定位于顶质体的嵌合体根据N端信号和编码序列的组合使用不同的运输途径。
本报告首次表明,除了N端信号序列外,靶向和运输信号也存在于顶质体蛋白的编码序列中。
