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: Peptide nucleic acids (PNAs) are emerging tools in the construction of nanostructures possessing self-assembly properties similar to those of DNA but featuring enhanced stability and chemical flexibility. Templated-ligation approaches can be exploited to stabilize the formed nanoproducts, with bio-orthogonal methods preferred for compatibility with natural components. This chapter outlines design requirements and protocols for conducting triggerless bio-orthogonal PNA ligation in solution and on glass surfaces, along with an electrophoretic monitoring protocol for assessing the outcome of solution ligation.

Triggerless Bio-Orthogonal Proximity-Induced PNA Ligation Using 2,5-Dioxopentanyl (DOP) Functionality / Manicardi, A.; Madder, A.. - 2901:(2025), pp. 227-239. [10.1007/978-1-0716-4394-5_17]

Triggerless Bio-Orthogonal Proximity-Induced PNA Ligation Using 2,5-Dioxopentanyl (DOP) Functionality

Manicardi A.
;
2025-01-01

Abstract

: Peptide nucleic acids (PNAs) are emerging tools in the construction of nanostructures possessing self-assembly properties similar to those of DNA but featuring enhanced stability and chemical flexibility. Templated-ligation approaches can be exploited to stabilize the formed nanoproducts, with bio-orthogonal methods preferred for compatibility with natural components. This chapter outlines design requirements and protocols for conducting triggerless bio-orthogonal PNA ligation in solution and on glass surfaces, along with an electrophoretic monitoring protocol for assessing the outcome of solution ligation.
2025
9781071643938
9781071643945
Triggerless Bio-Orthogonal Proximity-Induced PNA Ligation Using 2,5-Dioxopentanyl (DOP) Functionality / Manicardi, A.; Madder, A.. - 2901:(2025), pp. 227-239. [10.1007/978-1-0716-4394-5_17]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/3033837
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