Synthesis, characterization and solution structure of tethered oligonucleotides containing an internal 3'-phosphoglycolate, 5'-phosphate gapped lesion

doi:10.1093/nar/gkf681

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Nucleic Acids Research, 2002, Vol. 30, No. 24 5497-5508
© 2002 Oxford University Press

Synthesis, characterization and solution structure of tethered oligonucleotides containing an internal 3'-phosphoglycolate, 5'-phosphate gapped lesion

Hans-Dieter Junker¹, Silvia T. Hoehn¹, Richard C. Bunt¹, Vasilios Marathius¹, Jingyang Chen¹, Christopher J. Turner³ and JoAnne Stubbe^*^,1^,2

¹ Department of Chemistry, ² Department of Biology and ³ Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, USA

*To whom correspondence should be addressed. Tel: +1 617 253 1814; Fax: +1 617 258 7247; Email: stubbe{at}mit.edu

Bleomycins (BLMs) are antitumor antibiotics that in the presenceof iron and oxygen mediate DNA damage by 4'-hydrogen atom abstractionof pyrimidines 3' to guanines. The resulting 4'-deoxyriboseradicals can be trapped by O₂ and ultimately result in the formationof base-propenal and gapped DNA with 3'-phosphoglycolate (3'-PG)and 5'-phosphate (5'-P) ends. The role of this lesion in triggeringdouble-strand cleavage of duplex DNA by a single BLM moleculeand the mechanism by which this lesion is repaired in vivo remainunsolved problems. The structure of these lesions is an essentialstep in addressing both of these problems. Duplex DNAs (13merscontaining tethered hexaethylene glycol linkers) with GTAC andGGCC cleavage sites have been synthesized in which gaps containing3'-PG and 5'-P ends at the sites of BLM cleavage have been inserted.The former sequence represents a hot spot for double-strandcleavage, while the latter is a hot spot for single-strand cleavage.Analytical methods to characterize the lesioned products havebeen developed. These oligonucleotides have been examined using2D NMR methods and molecular modeling. The studies reveal thatthe lesioned DNAs are B-form and the 3'-PG and 5'-P are extrahelical.The base opposite the gap and the base pairs adjacent to thegap remain well stacked in the DNA duplex. Titrations of thelesioned GGCC oligomer with HOO-CoBLM leads to a mixture ofcomplexes, in contrast to results of a similar titration withthe lesioned GTAC oligomer.

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