CRISPR-based DNA and RNA detection with liquid-liquid phase separation
CRISPR-based DNA and RNA detection with liquid-liquid phase separation
The ability to detect specific nucleic acid sequences allows for a wide range of applications such as the identification of pathogens, clinical diagnostics, and genotyping. CRISPR-Cas proteins Cas12a and Cas13a are RNA-guided endonucleases that bind and cleave specific DNA and RNA sequences, respectively. After recognition of a target sequence, both enzymes activate indiscriminate nucleic acid cleavage, which has been exploited for sequence-specific molecular diagnostics of nucleic acids. Here, we present a label-free detection approach that uses a readout based on solution turbidity caused by liquid-liquid phase separation (LLPS). Our approach relies on the fact that the LLPS of oppositely charged polymers requires polymers to be longer than a critical length. This length dependence is predicted by the Voorn-Overbeek model, which we describe in detail and validate experimentally in mixtures of polynucleotides and polycations. We show that the turbidity resulting from LLPS can be used to detect the presence of specific nucleic acid sequences by employing the programmable CRISPR-nucleases Cas12a and Cas13a. Because LLPS of polynucleotides and polycations causes solutions to become turbid, the detection of specific nucleic acid sequences can be observed with the naked eye. We furthermore demonstrate that there is an optimal polynucleotide concentration for detection. Finally, we provide a theoretical prediction that hints towards possible improvements of an LLPS-based detection assay. The deployment of LLPS complements CRISPR-based molecular diagnostic applications and facilitates easy and low-cost nucleotide sequence detection.
1198-1209
Spoelstra, Willem Kasper
248adc78-5d64-492c-b360-6fa26edd3eab
Jacques, Jeroen M.
522e50f9-5fa3-4b89-8579-c2b96bd25d1a
Gonzalez-Linares, Rodrigo
e625933a-f66a-4a3a-a3ec-6130bcc815b6
Nobrega, Franklin L.
ea137265-cc31-4e1d-8eb9-f1798cfc717d
Haagsma, Anna C.
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Dogterom, Marileen
b1dc2968-ddbb-483e-b8dc-e8fd85d61027
Meijer, Dimphna H.
77bf5755-478e-41c4-83f8-e5a385477516
Idema, Timon
5fe63b43-d0a5-4fdc-b6b2-98b0c232731e
Brouns, Stan J.J.
b9c93a6a-120b-476b-8394-048e41d8ae79
Reese, Louis
fa6c544c-9fb3-4db2-96d1-74a476b422c6
6 April 2021
Spoelstra, Willem Kasper
248adc78-5d64-492c-b360-6fa26edd3eab
Jacques, Jeroen M.
522e50f9-5fa3-4b89-8579-c2b96bd25d1a
Gonzalez-Linares, Rodrigo
e625933a-f66a-4a3a-a3ec-6130bcc815b6
Nobrega, Franklin L.
ea137265-cc31-4e1d-8eb9-f1798cfc717d
Haagsma, Anna C.
80b5b04d-8056-4b00-b408-0bc3ffd78b5e
Dogterom, Marileen
b1dc2968-ddbb-483e-b8dc-e8fd85d61027
Meijer, Dimphna H.
77bf5755-478e-41c4-83f8-e5a385477516
Idema, Timon
5fe63b43-d0a5-4fdc-b6b2-98b0c232731e
Brouns, Stan J.J.
b9c93a6a-120b-476b-8394-048e41d8ae79
Reese, Louis
fa6c544c-9fb3-4db2-96d1-74a476b422c6
Spoelstra, Willem Kasper, Jacques, Jeroen M., Gonzalez-Linares, Rodrigo, Nobrega, Franklin L., Haagsma, Anna C., Dogterom, Marileen, Meijer, Dimphna H., Idema, Timon, Brouns, Stan J.J. and Reese, Louis
(2021)
CRISPR-based DNA and RNA detection with liquid-liquid phase separation.
Biophysical Journal, 120 (7), .
(doi:10.1016/j.bpj.2021.02.013).
Abstract
The ability to detect specific nucleic acid sequences allows for a wide range of applications such as the identification of pathogens, clinical diagnostics, and genotyping. CRISPR-Cas proteins Cas12a and Cas13a are RNA-guided endonucleases that bind and cleave specific DNA and RNA sequences, respectively. After recognition of a target sequence, both enzymes activate indiscriminate nucleic acid cleavage, which has been exploited for sequence-specific molecular diagnostics of nucleic acids. Here, we present a label-free detection approach that uses a readout based on solution turbidity caused by liquid-liquid phase separation (LLPS). Our approach relies on the fact that the LLPS of oppositely charged polymers requires polymers to be longer than a critical length. This length dependence is predicted by the Voorn-Overbeek model, which we describe in detail and validate experimentally in mixtures of polynucleotides and polycations. We show that the turbidity resulting from LLPS can be used to detect the presence of specific nucleic acid sequences by employing the programmable CRISPR-nucleases Cas12a and Cas13a. Because LLPS of polynucleotides and polycations causes solutions to become turbid, the detection of specific nucleic acid sequences can be observed with the naked eye. We furthermore demonstrate that there is an optimal polynucleotide concentration for detection. Finally, we provide a theoretical prediction that hints towards possible improvements of an LLPS-based detection assay. The deployment of LLPS complements CRISPR-based molecular diagnostic applications and facilitates easy and low-cost nucleotide sequence detection.
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More information
Accepted/In Press date: 11 February 2021
e-pub ahead of print date: 21 February 2021
Published date: 6 April 2021
Identifiers
Local EPrints ID: 449941
URI: http://eprints.soton.ac.uk/id/eprint/449941
ISSN: 0006-3495
PURE UUID: a0eccc37-b357-4e3c-8033-1bf2484467af
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Date deposited: 28 Jun 2021 16:32
Last modified: 16 Mar 2024 11:48
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Contributors
Author:
Willem Kasper Spoelstra
Author:
Jeroen M. Jacques
Author:
Rodrigo Gonzalez-Linares
Author:
Franklin L. Nobrega
Author:
Anna C. Haagsma
Author:
Marileen Dogterom
Author:
Dimphna H. Meijer
Author:
Timon Idema
Author:
Stan J.J. Brouns
Author:
Louis Reese
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