高分子
实现(概率)
化学
人类蛋白质
计算生物学
生物化学
组合化学
计算机科学
蛋白质结构
大分子物质
小学(天文学)
生物物理学
生物
生物系统
模型系统
氨基酸
作者
Seyed Saeed Mottaghi,Sebastian J. Maerkl
标识
DOI:10.1038/s41467-026-73337-0
摘要
Building a universal biochemical constructor, an autonomously self-replicating biochemical system, remains a challenge in synthetic biology. The PURE cell-free system is a suitable starting point for exploring self-regeneration, and its 36 non-ribosome proteins constitute the primary macromolecular components that must be regenerated. Here, we demonstrate that the PURE system can be reconstituted from proteins synthesized by PURE itself. We first show that each of the 36 non-ribosome proteins can be individually synthesized in PURE. We then purify the PURE synthesized proteins as pooled subsets and reconstitute a fully functional PURE system by combining the subsets. Finally, we show that all 36 non-ribosome PURE proteins can be synthesized simultaneously in a single PURE reaction and, after purification, can reconstitute a functional PURE system. Together, these results establish that the non-ribosome proteins components of the PURE system can be self-regenerated, representing an essential step toward the realization of a universal biochemical constructor.
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