Recognition of thymine adenine base pairs by guanine in a pyrimidine triple helix motif

LC Griffin, PB Dervan - Science, 1989 - science.org
LC Griffin, PB Dervan
Science, 1989science.org
Oligonucleotide recognition offers a powerful chemical approach for the sequence-specific
binding of double-helical DNA. In the pyrimidine-Hoogsteen model, a binding size of> 15
homopurine base pairs affords> 30 discrete sequence-specific hydrogen bonds to duplex
DNA. Because pyrimidine oligonucleotides limit triple helix formation to homopurine tracts, it
is desirable to determine whether oligonucleotides can be used to bind all four base pairs of
DNA. A general solution would allow targeting of oligonucleotides (or their analogs) to any …
Oligonucleotide recognition offers a powerful chemical approach for the sequence-specific binding of double-helical DNA. In the pyrimidine-Hoogsteen model, a binding size of >15 homopurine base pairs affords >30 discrete sequence-specific hydrogen bonds to duplex DNA. Because pyrimidine oligonucleotides limit triple helix formation to homopurine tracts, it is desirable to determine whether oligonucleotides can be used to bind all four base pairs of DNA. A general solution would allow targeting of oligonucleotides (or their analogs) to any given sequence in the human genome. A study of 20 base triplets reveals that the triple helix can be extended from homopurine to mixed sequences. Guanine contained within a pyrimidine oligonucleotide specifically recognizes thymine⋅adenine base pairs in duplex DNA. Such specificity allows binding at mixed sites in DNA from simian virus 40 and human immunodeficiency virus.
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