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涉及囊泡、微管和星体的原始细胞模型。

A primitive cell model involving Vesicles, microtubules and asters.

机构信息

Key Laboratory of Colloid and Interface Chemistry (Ministry of Education), School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, PR China.

Key Laboratory of Colloid and Interface Chemistry (Ministry of Education), School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, PR China; National Engineering Technology Research Center for Colloidal Materials, Shandong University, Jinan 250100, PR China.

出版信息

J Colloid Interface Sci. 2024 Dec;675:700-711. doi: 10.1016/j.jcis.2024.07.045. Epub 2024 Jul 6.

DOI:10.1016/j.jcis.2024.07.045
PMID:38996700
Abstract

HYPOTHESIS

Simple single-chain amphiphiles (sodium monododecyl phosphate, SDP) and organic small molecules (isopentenol, IPN), both of primitive relevance, are proved to have been the building blocks of protocells on the early Earth. How do SDP-based membrane and coexisting IPN come together in specific ways to produce more complex chemical entities? What kind of cell-like behavior can be endowed with this protocell model? These are important questions in the pre-life chemical origin scenario that have not been answered to date.

EXPERIMENTS

The phase behavior and formation mechanism of the aggregates for SDP/IPN/HO ternary system were characterized and studied by different electron microscopy, fluorescent probe technology, DLS, IR, ESI-MS, SAXS, etc. The stability (freeze-thaw and wet-dry treatments) and cell-like behavior (chemical signaling communication) were tested via simulating particular scenarios.

FINDINGS

Vesicles, microtubules and asters phases resembling the morphology and structure of modern cells/organelles were obtained. The intermolecular hydrogen bonding is the main driving force for the emergence of the aggregates. The protocell models not only display remarkable stabilities by simulating the primordial Earth's diurnal temperature differences and ocean tides but also are able to exhibit cell-like behavior of chemical signaling transition.

摘要

假设

简单的单链两亲物(十二烷基磷酸单钠盐,SDP)和有机小分子(异戊烯醇,IPN)都具有原始相关性,已被证明是早期地球上原始细胞的组成部分。基于 SDP 的膜和共存的 IPN 如何以特定方式结合在一起,从而产生更复杂的化学实体?这种原始细胞模型可以赋予什么样的类细胞行为?这些都是尚未得到解答的生命前化学起源场景中的重要问题。

实验

通过不同的电子显微镜、荧光探针技术、DLS、IR、ESI-MS、SAXS 等方法对 SDP/IPN/HO 三元体系的聚集物的相行为和形成机制进行了表征和研究。通过模拟特定场景来测试稳定性(冻融和干湿处理)和类细胞行为(化学信号通讯)。

发现

获得了类似于现代细胞/细胞器形态和结构的囊泡、微管和星状相。分子间氢键是聚集物出现的主要驱动力。原始细胞模型不仅通过模拟原始地球的昼夜温差和海洋潮汐显示出显著的稳定性,而且还能够表现出化学信号转导的类细胞行为。

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