2018
DOI: 10.1038/s41467-018-04783-8
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Lipid vesicles chaperone an encapsulated RNA aptamer

Abstract: The organization of molecules into cells is believed to have been critical for the emergence of living systems. Early protocells likely consisted of RNA functioning inside vesicles made of simple lipids. However, little is known about how encapsulation would affect the activity and folding of RNA. Here we find that confinement of the malachite green RNA aptamer inside fatty acid vesicles increases binding affinity and locally stabilizes the bound conformation of the RNA. The vesicle effectively ‘chaperones’ th… Show more

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Cited by 56 publications
(66 citation statements)
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“…Interestingly, the final fluorescence after long UV exposure times was notably high (25±3 %) for the Spinach2 aptamer compared to the MG aptamer. To determine whether the rate of activity loss depended on the folding of the RNA, we irradiated the MG aptamer at 80 °C, which is well above the melting point (see also Figure B, below) . No significant change in rate or final fluorescence was observed (1.0±0.2 h −1 and 4±1 %, respectively; Figure B), thus indicating that the folded and unfolded states of this aptamer are similarly susceptible to activity loss through UV damage.…”
Section: Resultsmentioning
confidence: 99%
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“…Interestingly, the final fluorescence after long UV exposure times was notably high (25±3 %) for the Spinach2 aptamer compared to the MG aptamer. To determine whether the rate of activity loss depended on the folding of the RNA, we irradiated the MG aptamer at 80 °C, which is well above the melting point (see also Figure B, below) . No significant change in rate or final fluorescence was observed (1.0±0.2 h −1 and 4±1 %, respectively; Figure B), thus indicating that the folded and unfolded states of this aptamer are similarly susceptible to activity loss through UV damage.…”
Section: Resultsmentioning
confidence: 99%
“…No significant change in rate or final fluorescence was observed (1.0±0.2 h −1 and 4±1 %, respectively; Figure B), thus indicating that the folded and unfolded states of this aptamer are similarly susceptible to activity loss through UV damage. We also tested whether encapsulation of the MG aptamer inside phospholipid vesicles (composed of 1‐palmitoyl‐2‐oleoyl‐glycero‐3‐phosphocholine (POPC)), which promotes aptamer folding, affected the rate of activity loss. Encapsulation did not significantly affect the rate of loss of fluorescence (Figure S1 C); however, exposure at lower UV fluence resulted in less loss of fluorescence, as expected (Figure S1 D).…”
Section: Resultsmentioning
confidence: 99%
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