Covalent Schiff Base Catalysis and Turnover by a DNAzyme: A M 2+-Independent AP-Endonuclease Mimic
Covalent Schiff Base Catalysis and Turnover by a DNAzyme: A M 2+-Independent AP-Endonuclease Mimic
A DNAzyme, synthetically modified with both primary amines and imidazoles, is found to act as a M2+-independent AP lyase-endonuclease. In the course of the cleavage reaction, this DNAzyme forms a covalent Schiff base intermediate with an abasic site on a complementary oligodeoxyribonucleotide. This intermediate, which is inferred from NaCNBH3 trapping as well as cyanide inhibition, does not evidently accumulate because the second step, dehydrophosphorylative elimination, is fast compared to Schiff base formation. The 5′-product that remains linked to the catalyst hydrolyzes slowly to regenerate free catalyst. The use of duly modified DNAzymes to perform Schiff base catalysis demonstrates the value of modified nucleotides for enhancing the catalytic repertoire of nucleic acids. This work suggests that DNAzymes will be capable of catalyzing aldol condensation reactions.
4145-4156
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ting, Richard
b81c09b2-2576-42d3-b08a-cd7ff69f420a
Lermer, Leonard
959b93f5-a6d7-4064-91a5-052dc307ed27
Thomas, Jason M.
a70c9458-58cc-46f7-891e-a6f34ffcad05
Roupioz, Yoann
d3f9ea12-fcfe-4357-a400-75a02b431368
Perrin, David M.
12feb705-d3df-4f49-acf5-4283867ca47c
7 April 2004
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ting, Richard
b81c09b2-2576-42d3-b08a-cd7ff69f420a
Lermer, Leonard
959b93f5-a6d7-4064-91a5-052dc307ed27
Thomas, Jason M.
a70c9458-58cc-46f7-891e-a6f34ffcad05
Roupioz, Yoann
d3f9ea12-fcfe-4357-a400-75a02b431368
Perrin, David M.
12feb705-d3df-4f49-acf5-4283867ca47c
May, Jonathan P., Ting, Richard, Lermer, Leonard, Thomas, Jason M., Roupioz, Yoann and Perrin, David M.
(2004)
Covalent Schiff Base Catalysis and Turnover by a DNAzyme: A M 2+-Independent AP-Endonuclease Mimic.
Journal of the American Chemical Society, 126 (13), .
(doi:10.1021/ja037625s).
Abstract
A DNAzyme, synthetically modified with both primary amines and imidazoles, is found to act as a M2+-independent AP lyase-endonuclease. In the course of the cleavage reaction, this DNAzyme forms a covalent Schiff base intermediate with an abasic site on a complementary oligodeoxyribonucleotide. This intermediate, which is inferred from NaCNBH3 trapping as well as cyanide inhibition, does not evidently accumulate because the second step, dehydrophosphorylative elimination, is fast compared to Schiff base formation. The 5′-product that remains linked to the catalyst hydrolyzes slowly to regenerate free catalyst. The use of duly modified DNAzymes to perform Schiff base catalysis demonstrates the value of modified nucleotides for enhancing the catalytic repertoire of nucleic acids. This work suggests that DNAzymes will be capable of catalyzing aldol condensation reactions.
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Published date: 7 April 2004
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Local EPrints ID: 455584
URI: http://eprints.soton.ac.uk/id/eprint/455584
ISSN: 0002-7863
PURE UUID: 908aea1c-49bb-41bc-bc87-15419f587632
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Date deposited: 28 Mar 2022 16:38
Last modified: 06 Jun 2024 02:04
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Author:
Richard Ting
Author:
Leonard Lermer
Author:
Jason M. Thomas
Author:
Yoann Roupioz
Author:
David M. Perrin
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