2018
DOI: 10.1021/acs.biochem.8b00081
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Physical Principles and Extant Biology Reveal Roles for RNA-Containing Membraneless Compartments in Origins of Life Chemistry

Abstract: This Perspective focuses on RNA in biological and nonbiological compartments resulting from liquid-liquid phase separation (LLPS), with an emphasis on origins of life. In extant cells, intracellular liquid condensates, many of which are rich in RNAs and intrinsically disordered proteins, provide spatial regulation of biomolecular interactions that can result in altered gene expression. Given the diversity of biogenic and abiogenic molecules that undergo LLPS, such membraneless compartments may have also played… Show more

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Cited by 149 publications
(157 citation statements)
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References 110 publications
(223 reference statements)
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“…Intriguingly,a sf irst proposed in the seminalw ork of Oparin in 1924 [28,29] and emphasized recently, [30] biomolecularL LPS and membrane-lessc ompartmentalization might even have played an importantr ole in the development of protocells in prebiotice volution. [31,[39][40][41] As far as temperature dependence of LLPS is concerned, some proteins, such as folded egg-white lysozyme [42] and the N-terminal IDR of DEAD-Box helicase Ddx4, [21] were found to exhibit an upper criticals olution temperature (UCST), i.e.,L LPS occurs only at temperatures below ac ritical temperature T c , whereas the system is homogeneous at highert emperatures. Other proteins, such as the polyA-binding protein (Pab) [43] and the IDP a-elastin, [44] exhibit al ower criticals olution temperature (LCST) in that LLPS occurs at temperatures higher than T c and the system is homogeneous at lower temperatures ( Figure 1).…”
Section: Liquid-liquid Phase Separation In Biology and Biotechnologymentioning
confidence: 99%
“…Intriguingly,a sf irst proposed in the seminalw ork of Oparin in 1924 [28,29] and emphasized recently, [30] biomolecularL LPS and membrane-lessc ompartmentalization might even have played an importantr ole in the development of protocells in prebiotice volution. [31,[39][40][41] As far as temperature dependence of LLPS is concerned, some proteins, such as folded egg-white lysozyme [42] and the N-terminal IDR of DEAD-Box helicase Ddx4, [21] were found to exhibit an upper criticals olution temperature (UCST), i.e.,L LPS occurs only at temperatures below ac ritical temperature T c , whereas the system is homogeneous at highert emperatures. Other proteins, such as the polyA-binding protein (Pab) [43] and the IDP a-elastin, [44] exhibit al ower criticals olution temperature (LCST) in that LLPS occurs at temperatures higher than T c and the system is homogeneous at lower temperatures ( Figure 1).…”
Section: Liquid-liquid Phase Separation In Biology and Biotechnologymentioning
confidence: 99%
“…This approach can be adaptable for enzyme‐catalyzed synthesis of a wide variety of materials, by varying the type of metal ion and enzyme. Moreover, Benefiting from the preferential partitioning of the all‐aqueous emulsions, the templated architectures can be applied as bioreactors for mimicking intracellular biological reactions within living cells . For instance, these bioreactors can be utilized to perform enzymatic reactions between the glucose oxidase (GOX) and horseradish peroxidase (HRP) in the PEG/citrate ATPS as shown in Figure 23c,d .…”
Section: Applications: Toward Functional Artificial Llpsmentioning
confidence: 99%
“…Salt dependence of coacervate formation: Ion pairing-based phase separation is strongly dependent on solution ionic strength, with critical salt concentrations above which coacervates dissolve dependent upon multivalency. 19,22,27 We evaluated the salt stability of coacervates formed using primarily n=10 cationic peptides with anions that included nucleotides and both 9 carboxylate oligopeptides ( Fig. 3A-D, Supplementary Table 1).…”
Section: Coacervate Formationmentioning
confidence: 99%
“…7,8 The ion pairing interactions between coacervate-forming polymers are nonspecific and hence versatile and achievable with a wide range of biological and nonbiological chemistries. 7,[9][10][11][12] Biomolecules such as RNAs can be concentrated within coacervates to orders of magnitude higher than in the external milieu. 9,13 These higher local concentrations can provide rate enhancements for catalytic RNAs encapsulated within coacervate droplets.…”
Section: Introductionmentioning
confidence: 99%
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