Synthesis and properties of ApU analogues containing 2'-halo-2'-deoxyadenosines. Effects of 2' substituents on oligonucleotide conformation.
Biochemistry 1982;
21:5870-7. [PMID:
6129888 DOI:
10.1021/bi00266a022]
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Abstract
Five A-U analogues containing deoxyadenosine or 2'-halo-2'-deoxyadenosines, which are known to have widely different C3'-endo conformer populations according to their electronegativities of the halogen substituents, dAfl-U, dAcl-U, dAbr-U, dAio-U, and dA-U, were synthesized chemically. Characterization of these dimers has been performed by UV absorption, circular dichroism, and proton nuclear magnetic resonance spectroscopy. The results show that the dimers containing 2'-halo-2'-deoxyadenosines have stacked conformations with a geometry similar to that of A-U and the degree of stacking decreases in the order dAfl-U greater than dAcl-U greater than dAbr-U greater than dAio-U. dAcl-U is assumed to have the same degree of stacking as A-U. dA-U takes a more stacked conformation than does dAio-U, but the mode of stacking is different from those of the other dimers. The effects of the 2' substituents on dimer conformation are discussed in terms of electronegativity, molecular size, and hydrophobicity.
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