DNA adopts normal B-form upon incorporation of highly fluorescent DNA base analogue tC: NMR structure and UV-Vis spectroscopy characterization
DNA adopts normal B-form upon incorporation of highly fluorescent DNA base analogue tC: NMR structure and UV-Vis spectroscopy characterization
The influence of the highly fluorescent tricyclic cytosine base analogue (tC) on duplex DNA conformation is investigated. The duplex properties are characterized by absorbance and circular dichroism (CD) for all combinations of neighbouring bases to tC, and an NMR structure is determined for one tC-containing sequence. For the oligonucleotides with one tC incorporated instead of cytosine, the melting temperature is increased on average by 2.7degreesC above that for the unmodified ones. CD spectra are practically identical for modified and unmodified sequences, indicating an unperturbed B-DNA conformation. The NMR structure determination of the self-complementary sequence 5'-CTC(tC)ACGTGGAG shows a DNA conformation consistent with B-form for the whole duplex. The root-mean-square distance for the nucleotides of the eight central base pairs between the 10 structures with lowest CYANA target functions and a mean structure is 0.45 +/- 0.17 Angstrom. The NMR data confirm correct base pairing for tC by the observation of both intrastrand and interstrand imino proton NOEs. Altogether, this suggests that tC works well as a cytosine analogue, i.e. it is situated in the base stack, forming hydrogen bonds with G in the complementary strand, without distorting the DNA backbone conformation. This first example of an artificial, highly fluorescent DNA base that does not perturb the DNA conformation could have valuable applications for the study of the structure and dynamics of nucleic acid systems.
restrained molecular-dynamics, pteridine nucleoside analogs, nuclear-magnetic-resonance, guanosine analog, 2-aminopurine, oligonucleotides, sequence, refinement, recognition, derivatives
5087-5095
Engman, K. Cecilia
c7be2059-211a-4ddd-95fe-89248b593fb6
Sandin, Peter
f7324993-b21e-4575-ae67-fd3223624030
Osborne, Sadie
73273246-3559-42cd-be0c-f660e4d26584
Brown, Tom
a64aae36-bb30-42df-88a2-11be394e8c89
Billeter, Martin
74a7db4a-df17-4d5e-ae0e-b63c79707c02
Lincoln, Per
f1edcf40-411d-4f54-bd94-d13394c011d4
Nordén, Bengt
4a4bbf2f-5acf-41ae-b3ab-7dd93e551038
Albinsson, Bo
1571067f-df46-43f7-96b9-52dc43278777
Wilhelmsson, L. Marcus
bcf4f67a-198c-4c5e-80b8-a78f743509d4
2004
Engman, K. Cecilia
c7be2059-211a-4ddd-95fe-89248b593fb6
Sandin, Peter
f7324993-b21e-4575-ae67-fd3223624030
Osborne, Sadie
73273246-3559-42cd-be0c-f660e4d26584
Brown, Tom
a64aae36-bb30-42df-88a2-11be394e8c89
Billeter, Martin
74a7db4a-df17-4d5e-ae0e-b63c79707c02
Lincoln, Per
f1edcf40-411d-4f54-bd94-d13394c011d4
Nordén, Bengt
4a4bbf2f-5acf-41ae-b3ab-7dd93e551038
Albinsson, Bo
1571067f-df46-43f7-96b9-52dc43278777
Wilhelmsson, L. Marcus
bcf4f67a-198c-4c5e-80b8-a78f743509d4
Engman, K. Cecilia, Sandin, Peter, Osborne, Sadie, Brown, Tom, Billeter, Martin, Lincoln, Per, Nordén, Bengt, Albinsson, Bo and Wilhelmsson, L. Marcus
(2004)
DNA adopts normal B-form upon incorporation of highly fluorescent DNA base analogue tC: NMR structure and UV-Vis spectroscopy characterization.
Nucleic Acids Research, 32 (17), .
(doi:10.1093/nar/gkh844).
Abstract
The influence of the highly fluorescent tricyclic cytosine base analogue (tC) on duplex DNA conformation is investigated. The duplex properties are characterized by absorbance and circular dichroism (CD) for all combinations of neighbouring bases to tC, and an NMR structure is determined for one tC-containing sequence. For the oligonucleotides with one tC incorporated instead of cytosine, the melting temperature is increased on average by 2.7degreesC above that for the unmodified ones. CD spectra are practically identical for modified and unmodified sequences, indicating an unperturbed B-DNA conformation. The NMR structure determination of the self-complementary sequence 5'-CTC(tC)ACGTGGAG shows a DNA conformation consistent with B-form for the whole duplex. The root-mean-square distance for the nucleotides of the eight central base pairs between the 10 structures with lowest CYANA target functions and a mean structure is 0.45 +/- 0.17 Angstrom. The NMR data confirm correct base pairing for tC by the observation of both intrastrand and interstrand imino proton NOEs. Altogether, this suggests that tC works well as a cytosine analogue, i.e. it is situated in the base stack, forming hydrogen bonds with G in the complementary strand, without distorting the DNA backbone conformation. This first example of an artificial, highly fluorescent DNA base that does not perturb the DNA conformation could have valuable applications for the study of the structure and dynamics of nucleic acid systems.
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Published date: 2004
Keywords:
restrained molecular-dynamics, pteridine nucleoside analogs, nuclear-magnetic-resonance, guanosine analog, 2-aminopurine, oligonucleotides, sequence, refinement, recognition, derivatives
Identifiers
Local EPrints ID: 20192
URI: http://eprints.soton.ac.uk/id/eprint/20192
ISSN: 0305-1048
PURE UUID: 4b5847ed-f6f8-467c-8729-3a2696521c8c
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Date deposited: 22 Feb 2006
Last modified: 15 Mar 2024 06:22
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Author:
K. Cecilia Engman
Author:
Peter Sandin
Author:
Sadie Osborne
Author:
Martin Billeter
Author:
Per Lincoln
Author:
Bengt Nordén
Author:
Bo Albinsson
Author:
L. Marcus Wilhelmsson
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