Automated purification of DNA origami with SPRI beads

Chalmers Chau; Gayathri Mohanan; Iain Macaulay; Paolo Actis; Christoph Wälti

doi:10.1002/smll.202308776

Automated purification of DNA origami with SPRI beads

Chalmers Chau, Gayathri Mohanan, Iain Macaulay, Paolo Actis, Christoph Wälti

School of Biological Sciences

Research output: Contribution to journal › Article › peer-review

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Abstract

DNA origami synthesis is a well-established technique with wide-ranging applications. In most cases, the synthesized origami must be purified to remove excess materials such as DNA oligos and other functional molecules. While several purification techniques are routinely used, all have limitations, and cannot be integrated with robotic systems. Here the use of solid-phase reversible immobilization (SPRI) beads as a scalable, high-throughput, and automatable method to purify DNA origami is demonstrated. Not only can this method remove unreacted oligos and biomolecules with yields comparable to existing methods while maintaining the high structural integrity of the origami, but it can also be integrated into an automated workflow to purify simultaneously large numbers and quantities of samples. It is envisioned that the SPRI beads purification method will improve the scalability of DNA nanostructures synthesis both for research and commercial applications.

Original language	English
Article number	2308776
Journal	Small
Volume	20
Issue number	20
Early online date	6 Dec 2023
DOIs	https://doi.org/10.1002/smll.202308776
Publication status	Published - 16 May 2024

Keywords

AFM
automation
DNA origami
purification
SPRI beads

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10.1002/smll.202308776Licence: CC BY

Chau_etal_2023_SmallFinal published version, 2.34 MBLicence: CC BY

Cite this

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title = "Automated purification of DNA origami with SPRI beads",

abstract = "DNA origami synthesis is a well-established technique with wide-ranging applications. In most cases, the synthesized origami must be purified to remove excess materials such as DNA oligos and other functional molecules. While several purification techniques are routinely used, all have limitations, and cannot be integrated with robotic systems. Here the use of solid-phase reversible immobilization (SPRI) beads as a scalable, high-throughput, and automatable method to purify DNA origami is demonstrated. Not only can this method remove unreacted oligos and biomolecules with yields comparable to existing methods while maintaining the high structural integrity of the origami, but it can also be integrated into an automated workflow to purify simultaneously large numbers and quantities of samples. It is envisioned that the SPRI beads purification method will improve the scalability of DNA nanostructures synthesis both for research and commercial applications.",

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author = "Chalmers Chau and Gayathri Mohanan and Iain Macaulay and Paolo Actis and Christoph W{\"a}lti",

note = "Data Availability Statement: The data that support the findings of this study are openly available in [University of Leeds] at [https://doi.org/10.5518/1369], reference number [1369]. Funding Information: G.M. acknowledges funding from the University of Leeds Scholarship. C.C., P.A., and C.W. acknowledge funding from the Engineering and Physical Sciences Research Council UK (EPSRC) Healthcare Technologies for the grant EP/W004933/1, and C.W. acknowledges funding from the Medical Research Council (MRC) UK under the grant number MR/N029976/1. C.C. and P.A. acknowledge funding from the Biotechnology and Biological Sciences Research Council (BBSRC) for the Research Grant BB/X003086/1. The authors acknowledge support from the Biotechnology and Biological Sciences Research Council (BBSRC), part of UK Research and Innovation, Core Capability Grant BB/CCG1720/1 and the BBS/E/T/000PR9816 \u201CSupporting EI's ISPs and the UK Community with Genomics and Single Cell Analysis\u201D. ",

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AU - Chau, Chalmers

AU - Mohanan, Gayathri

AU - Macaulay, Iain

AU - Actis, Paolo

AU - Wälti, Christoph

N1 - Data Availability Statement: The data that support the findings of this study are openly available in [University of Leeds] at [https://doi.org/10.5518/1369], reference number [1369]. Funding Information: G.M. acknowledges funding from the University of Leeds Scholarship. C.C., P.A., and C.W. acknowledge funding from the Engineering and Physical Sciences Research Council UK (EPSRC) Healthcare Technologies for the grant EP/W004933/1, and C.W. acknowledges funding from the Medical Research Council (MRC) UK under the grant number MR/N029976/1. C.C. and P.A. acknowledge funding from the Biotechnology and Biological Sciences Research Council (BBSRC) for the Research Grant BB/X003086/1. The authors acknowledge support from the Biotechnology and Biological Sciences Research Council (BBSRC), part of UK Research and Innovation, Core Capability Grant BB/CCG1720/1 and the BBS/E/T/000PR9816 \u201CSupporting EI's ISPs and the UK Community with Genomics and Single Cell Analysis\u201D.

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AB - DNA origami synthesis is a well-established technique with wide-ranging applications. In most cases, the synthesized origami must be purified to remove excess materials such as DNA oligos and other functional molecules. While several purification techniques are routinely used, all have limitations, and cannot be integrated with robotic systems. Here the use of solid-phase reversible immobilization (SPRI) beads as a scalable, high-throughput, and automatable method to purify DNA origami is demonstrated. Not only can this method remove unreacted oligos and biomolecules with yields comparable to existing methods while maintaining the high structural integrity of the origami, but it can also be integrated into an automated workflow to purify simultaneously large numbers and quantities of samples. It is envisioned that the SPRI beads purification method will improve the scalability of DNA nanostructures synthesis both for research and commercial applications.

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Automated purification of DNA origami with SPRI beads

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