2019
DOI: 10.1016/j.copbio.2018.10.006
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Cell-free microcompartmentalised transcription–translation for the prototyping of synthetic communication networks

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Cited by 56 publications
(40 citation statements)
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“…Notably, genomic material withdrawal from chassis organism bestows circumstances in which desired synthesis reactions are achievable at high rates (Hodgman & Jewett, 2012). Thus, such features enable prevailing utilization of CFPS systems, which are also complementary to in vivo expression for various applications such as biocatalyst development (Rolf, Rosenthal, & Lütz, 2019), complex product fabrication (Chi, Wang, Li, Ren, & Huang, 2015), disease detection (Soltani, Davis, Ford, Nelson, & Bundy, 2018), glycoprotein synthesis (Jaroentomeechai et al, 2018), prototyping minimal cells (Yue, Zhu, & Kai, 2019), synthetic gene networks (Dubuc et al, 2019), as well as protein engineering (Hong, Kwon, & Jewett, 2014; Venkat, Chen, Gan, & Fan, 2019), among others (Table 1 and Figure 1).…”
Section: Cfps: From Test Tube Reactions To Cell‐free Expression In MImentioning
confidence: 99%
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“…Notably, genomic material withdrawal from chassis organism bestows circumstances in which desired synthesis reactions are achievable at high rates (Hodgman & Jewett, 2012). Thus, such features enable prevailing utilization of CFPS systems, which are also complementary to in vivo expression for various applications such as biocatalyst development (Rolf, Rosenthal, & Lütz, 2019), complex product fabrication (Chi, Wang, Li, Ren, & Huang, 2015), disease detection (Soltani, Davis, Ford, Nelson, & Bundy, 2018), glycoprotein synthesis (Jaroentomeechai et al, 2018), prototyping minimal cells (Yue, Zhu, & Kai, 2019), synthetic gene networks (Dubuc et al, 2019), as well as protein engineering (Hong, Kwon, & Jewett, 2014; Venkat, Chen, Gan, & Fan, 2019), among others (Table 1 and Figure 1).…”
Section: Cfps: From Test Tube Reactions To Cell‐free Expression In MImentioning
confidence: 99%
“…Synthetic cells can afford compartments for the realization of CFPS, in the same way, TX‐TL machinery embedded inside synthetic cells can be used to build genetic circuits to mimic novel functions resembling living cells (Garamella, Garenne, & Noireaux, 2019). That is, synthetic biology traditionally utilizes genetic circuits to display complex spatiotemporal as well as collective behavior by establishing gene networks capable of establishing oscillations, synchronization, and combinatorial control of endogenous signaling pathways (Dubuc et al, 2019). Example of such complex behaviors, which leverage DNA‐based triggers, is replicated in proteinosomes (protein‐polymer vesicles; see Figure 2).…”
Section: Cfps: From Test Tube Reactions To Cell‐free Expression In MImentioning
confidence: 99%
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“…Recent advances in CFPS technology, [37] gene synthesis and (droplet-based) microfluidics, [38] combined with rapid-prototyping techniques, [39] have rendered CFPS ap owerful platform for the programmable design of artificial cells and communication networks. [40] CFPS based artificial cells have also been suggested as ap romisingb ottom-up route towards minimal cells. [21,41] Optimization and integration of several sub-systems, [41c] possibly employing ae ukaryotic architecture, [42] will eventually lead to the realizationo fm ore complex synthetic cells.…”
Section: Reaction Environmentmentioning
confidence: 99%
“…The ongoing development of cell‐free protein synthesis (CFPS) platforms has significantly contributed to the understanding and mimicking of dynamic and functional aspects of living cells . In contrast to cell culture‐based approaches, the modularity of CFPS platforms provides remarkable opportunities regarding the synthesis of complex membrane proteins, cytotoxic proteins, or proteins containing unnatural amino acids .…”
Section: Introductionmentioning
confidence: 99%