Literature DB >> 12409465

1H NMR determination of base-pair lifetimes in oligonucleotides containing single base mismatches.

Pratip K Bhattacharya1, Julie Cha, Jacqueline K Barton.   

Abstract

Proton nuclear magnetic resonance (NMR) spectroscopy is employed to characterize the kinetics of base-pair opening in a series of 9mer duplexes containing different single base mismatches. The imino protons from the different mismatched, as well as fully matched, duplexes are assigned from the imino-imino region in the WATERGATE NOESY spectra. The exchange kinetics of the imino protons are measured from selective longitudinal relaxation times. In the limit of infinite exchange catalyst concentration, the exchange times of the mismatch imino protons extrapolate to much shorter lifetimes than are commonly observed for an isolated GC base pair. Different mismatches exhibit different orders of base-pair lifetimes, e.g. a TT mismatch has a shorter base-pair lifetime than a GG mismatch. The effect of the mismatch was observed up to a distance of two neighboring base pairs. This indicates that disruption in the duplex caused by the mismatch is quite localized. The overall order of base-pair lifetimes in the selected sequence context of the base pair is GC > GG > AA > CC > AT > TT. Interestingly, the fully matched AT base pair has a shorter base-pair lifetime relative to many of the mismatches. Thus, in any given base pair, the exchange lifetime can exhibit a strong dependence on sequence context. These findings may be relevant to the way mismatch recognition is accomplished by proteins and small molecules.

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Year:  2002        PMID: 12409465      PMCID: PMC135820          DOI: 10.1093/nar/gkf601

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  54 in total

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4.  Long-range oxidation of guanine by Ru(III) in duplex DNA.

Authors:  M R Arkin; E D Stemp; S C Pulver; J K Barton
Journal:  Chem Biol       Date:  1997-05

5.  The structure of guanosine-thymidine mismatches in B-DNA at 2.5-A resolution.

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6.  Molecular mechanical studies of base-pair opening in d(CGCGC):d(GCGCG), dG5 . dC5, d(TATAT):d(ATATA), and dA5 . dT5 in the B and Z forms of DNA.

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Journal:  Biopolymers       Date:  1984-11       Impact factor: 2.505

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Authors:  T Brown; O Kennard; G Kneale; D Rabinovich
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8.  High base pair opening rates in tracts of GC base pairs.

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9.  Base pairing and mutagenesis: observation of a protonated base pair between 2-aminopurine and cytosine in an oligonucleotide by proton NMR.

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Authors:  G V Fazakerley; E Quignard; A Woisard; W Guschlbauer; G A van der Marel; J H van Boom; M Jones; M Radman
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  29 in total

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7.  Single-Molecule Titration in a Protein Nanoreactor Reveals the Protonation/Deprotonation Mechanism of a C:C Mismatch in DNA.

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8.  Enhanced spontaneous DNA twisting/bending fluctuations unveiled by fluorescence lifetime distributions promote mismatch recognition by the Rad4 nucleotide excision repair complex.

Authors:  Sagnik Chakraborty; Peter J Steinbach; Debamita Paul; Hong Mu; Suse Broyde; Jung-Hyun Min; Anjum Ansari
Journal:  Nucleic Acids Res       Date:  2018-02-16       Impact factor: 16.971

9.  A base-excision DNA-repair protein finds intrahelical lesion bases by fast sliding in contact with DNA.

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10.  Thymine-rich single-stranded DNA activates Mcm4/6/7 helicase on Y-fork and bubble-like substrates.

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