One approach towards the creation of bottom-up synthetic biological systems of higher complexity relies on the subcompartmentalization of synthetic cell structures using artificially generated organelles — roughly mimicking the architecture of eukaryotic cells. Organelles create dedicated chemical environments for specific synthesis tasks — they separate incompatible processes from each other and help to create or maintain chemical gradients that drive other chemical processes. Artificial organelles have been used to compartmentalize enzyme reactions, to generate chemical fuels via photosynthesis and oxidative phosphorylation, and they have been utilized to spatially organize cell-free gene expression reactions. In this short review article, we provide an overview of recent developments in this field, which involve a wide variety of compartmentalization strategies ranging from lipid and polymer membrane systems to membraneless compartmentalization via coacervation.
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November 2019
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Cover Image
Cover Image
This issue of Emerging Topics in Life Sciences brings together a collection of perspectives and reviews discussing the exciting advances in synthetic biology. The cover image is an adaptation of a figure featured in the review ‘Physicochemical considerations for bottom-up synthetic biology’ by Śmigiel et al. It shows an artist's impression of a bottom-up constructed synthetic cell, representing the three basic processes of a living cell: cell fuelling (green), DNA processing (orange/red), and cell division (blue).
Review Article|
August 28 2019
Synthetic organelles
Emerg Top Life Sci (2019) 3 (5): 587–595.
Article history
Received:
June 28 2019
Revision Received:
August 08 2019
Accepted:
August 09 2019
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