CRISPR-induced DNA reorganization for multiplexed nucleic acid detection

Margot Karlikow; Evan Amalfitano; Xiaolong Yang; Jennifer Doucet; Abigail Chapman; Peivand Sadat-Moussavi; Paige Homme; Polina Sutyrina; Winston Chang; Sofia Lemak; Alexander Yakunin; Adam G. Dolezal; Shana Kelley; Leonard Foster; Brock Harpur; Keith Pardee

doi:10.1038/s41467-023-36874-6

CRISPR-induced DNA reorganization for multiplexed nucleic acid detection

Margot Karlikow
, Evan Amalfitano
, Xiaolong Yang
, Jennifer Doucet
, Abigail Chapman
, Peivand Sadat-Moussavi
, Paige Homme
, Polina Sutyrina
, Winston Chang
, Sofia Lemak
, Alexander Yakunin
, Adam G. Dolezal
, Shana Kelley
, Leonard Foster
, Brock Harpur
, Keith Pardee

Ysgol Gwyddorau Amgylcheddol a Naturiol

Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid

173 Wedi eu Llwytho i Lawr (Pure)

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Nucleic acid sensing powered by the sequence recognition of CRIPSR technologies has enabled major advancement toward rapid, accurate and deployable diagnostics. While exciting, there are still many challenges facing their practical implementation, such as the widespread need for a PAM sequence in the targeted nucleic acid, labile RNA inputs, and limited multiplexing. Here we report FACT (Functionalized Amplification CRISPR Tracing), a CRISPR-based nucleic acid barcoding technology compatible with Cas12a and Cas13a, enabling diagnostic outputs based on cis- and trans-cleavage from any sequence. Furthermore, we link the activation of CRISPR-Cas12a to the expression of proteins through a Reprogrammable PAIRing system (RePAIR). We then combine FACT and RePAIR to create FACTOR (FACT on RePAIR), a CRISPR-based diagnostic, that we use to detect infectious disease in an agricultural use case: honey bee viral infection. With high specificity and accuracy, we demonstrate the potential of FACTOR to be applied to the sensing of any nucleic acid of interest.

Iaith wreiddiol	Saesneg
Rhif yr erthygl	1505
Cyfnodolyn	Nature Communications
Cyfrol	14
Rhif cyhoeddi	1
Dyddiad ar-lein cynnar	17 Maw 2023
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1038/s41467-023-36874-6
Statws	Cyhoeddwyd - 17 Maw 2023

NDC y CU

Mae’r allbwn hwn yn cyfrannu at y Nod(au) Datblygu Cynaliadwy canlynol

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10.1038/s41467-023-36874-6Trwydded: CC BY

Karlikow et al. ManuscriptLlawysgrif awdur wedi’i dderbyn, 756 KB
s41467-023-36874-6Fersiwn derfynol wedi’i chyhoeddi, 1.18 MBTrwydded: CC BY

Dyfynnu hyn

Karlikow, M., Amalfitano, E., Yang, X., Doucet, J., Chapman, A., Sadat-Moussavi, P., Homme, P., Sutyrina, P., Chang, W., Lemak, S., Yakunin, A., Dolezal, A. G., Kelley, S., Foster, L., Harpur, B., & Pardee, K. (2023). CRISPR-induced DNA reorganization for multiplexed nucleic acid detection. Nature Communications, 14(1), erthygl 1505. https://doi.org/10.1038/s41467-023-36874-6

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title = "CRISPR-induced DNA reorganization for multiplexed nucleic acid detection",

abstract = "Nucleic acid sensing powered by the sequence recognition of CRIPSR technologies has enabled major advancement toward rapid, accurate and deployable diagnostics. While exciting, there are still many challenges facing their practical implementation, such as the widespread need for a PAM sequence in the targeted nucleic acid, labile RNA inputs, and limited multiplexing. Here we report FACT (Functionalized Amplification CRISPR Tracing), a CRISPR-based nucleic acid barcoding technology compatible with Cas12a and Cas13a, enabling diagnostic outputs based on cis- and trans-cleavage from any sequence. Furthermore, we link the activation of CRISPR-Cas12a to the expression of proteins through a Reprogrammable PAIRing system (RePAIR). We then combine FACT and RePAIR to create FACTOR (FACT on RePAIR), a CRISPR-based diagnostic, that we use to detect infectious disease in an agricultural use case: honey bee viral infection. With high specificity and accuracy, we demonstrate the potential of FACTOR to be applied to the sensing of any nucleic acid of interest.",

author = "Margot Karlikow and Evan Amalfitano and Xiaolong Yang and Jennifer Doucet and Abigail Chapman and Peivand Sadat-Moussavi and Paige Homme and Polina Sutyrina and Winston Chang and Sofia Lemak and Alexander Yakunin and Dolezal, \{Adam G.\} and Shana Kelley and Leonard Foster and Brock Harpur and Keith Pardee",

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AU - Karlikow, Margot

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AU - Yang, Xiaolong

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AU - Chapman, Abigail

AU - Sadat-Moussavi, Peivand

AU - Homme, Paige

AU - Sutyrina, Polina

AU - Chang, Winston

AU - Lemak, Sofia

AU - Yakunin, Alexander

AU - Dolezal, Adam G.

AU - Kelley, Shana

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AB - Nucleic acid sensing powered by the sequence recognition of CRIPSR technologies has enabled major advancement toward rapid, accurate and deployable diagnostics. While exciting, there are still many challenges facing their practical implementation, such as the widespread need for a PAM sequence in the targeted nucleic acid, labile RNA inputs, and limited multiplexing. Here we report FACT (Functionalized Amplification CRISPR Tracing), a CRISPR-based nucleic acid barcoding technology compatible with Cas12a and Cas13a, enabling diagnostic outputs based on cis- and trans-cleavage from any sequence. Furthermore, we link the activation of CRISPR-Cas12a to the expression of proteins through a Reprogrammable PAIRing system (RePAIR). We then combine FACT and RePAIR to create FACTOR (FACT on RePAIR), a CRISPR-based diagnostic, that we use to detect infectious disease in an agricultural use case: honey bee viral infection. With high specificity and accuracy, we demonstrate the potential of FACTOR to be applied to the sensing of any nucleic acid of interest.

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DO - 10.1038/s41467-023-36874-6

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SN - 2041-1723

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CRISPR-induced DNA reorganization for multiplexed nucleic acid detection

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