Sequential gentle hydration increases encapsulation in model protocells

IF 1.9 4区 物理与天体物理 Q2 BIOLOGY Origins of Life and Evolution of Biospheres Pub Date : 2024-05-13 DOI:10.1007/s11084-024-09645-6
Emma M. Gehlbach, Abbey O. Robinson, Aaron E. Engelhart, Katarzyna P. Adamala
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Abstract

Small, spherical vesicles are a widely used chassis for the formation of model protocells and investigating the beginning of compartmentalized evolution. Various methods exist for their preparation, with one of the most common approaches being gentle hydration, where thin layers of lipids are hydrated with aqueous solutions and gently agitated to form vesicles. An important benefit to gentle hydration is that the method produces vesicles without introducing any organic contaminants, such as mineral oil, into the lipid bilayer. However, compared to other methods of liposome formation, gentle hydration is much less efficient at encapsulating aqueous cargo. Improving the encapsulation efficiency of gentle hydration would be of broad use for medicine, biotechnology, and protocell research. Here, we describe a method of sequentially hydrating lipid thin films to increase encapsulation efficiency. We demonstrate that sequential gentle hydration significantly improves encapsulation of water-soluble cargo compared to the traditional method, and that this improved efficiency is dependent on buffer composition. Similarly, we also demonstrate how this method can be used to increase concentrations of oleic acid, a fatty acid commonly used in origins of life research, to improve the formation of vesicles in aqueous buffer.

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依次轻柔水合可提高模型原细胞的封装能力
小球形囊泡是一种广泛使用的底盘,可用于形成模型原细胞和研究分隔进化的起始阶段。制备方法多种多样,其中最常见的方法是温和水合,即用水溶液水合薄层脂质,然后轻轻搅拌形成囊泡。温和水合法的一个重要好处是,这种方法在制备囊泡时不会将任何有机污染物(如矿物油)引入脂质双分子层。不过,与其他脂质体形成方法相比,温和水合法封装水性货物的效率要低得多。提高温和水合的封装效率将在医学、生物技术和原生细胞研究中得到广泛应用。在此,我们介绍了一种顺序水合脂质薄膜以提高封装效率的方法。我们证明,与传统方法相比,顺序温和水合可显著提高水溶性货物的封装效率,而且这种效率的提高取决于缓冲液的成分。同样,我们还展示了如何利用这种方法来提高油酸(生命起源研究中常用的一种脂肪酸)的浓度,从而改善水性缓冲液中囊泡的形成。
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来源期刊
CiteScore
3.20
自引率
15.00%
发文量
12
审稿时长
>12 weeks
期刊介绍: The subject of the origin and early evolution of life is an inseparable part of the general discipline of Astrobiology. The journal Origins of Life and Evolution of Biospheres places special importance on the interconnection as well as the interdisciplinary nature of these fields, as is reflected in its subject coverage. While any scientific study which contributes to our understanding of the origins, evolution and distribution of life in the Universe is suitable for inclusion in the journal, some examples of important areas of interest are: prebiotic chemistry and the nature of Earth''s early environment, self-replicating and self-organizing systems, the theory of the RNA world and of other possible precursor systems, and the problem of the origin of the genetic code. Early evolution of life - as revealed by such techniques as the elucidation of biochemical pathways, molecular phylogeny, the study of Precambrian sediments and fossils and of major innovations in microbial evolution - forms a second focus. As a larger and more general context for these areas, Astrobiology refers to the origin and evolution of life in a cosmic setting, and includes interstellar chemistry, planetary atmospheres and habitable zones, the organic chemistry of comets, meteorites, asteroids and other small bodies, biological adaptation to extreme environments, life detection and related areas. Experimental papers, theoretical articles and authorative literature reviews are all appropriate forms for submission to the journal. In the coming years, Astrobiology will play an even greater role in defining the journal''s coverage and keeping Origins of Life and Evolution of Biospheres well-placed in this growing interdisciplinary field.
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