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Synthesis and characterisation of oligodeoxynucleotides containing thio analogues of (6-4) pyrimidine-pyrimidinone photo-dimers

Overview of Warren MA et al.

AuthorsWarren MA  Murray JB  Connolly BA  
AffiliationDepartment of Biochemistry and Genetics   University of Newcastle   Newcastle upon Tyne   UK.  
JournalJ Mol Biol
Year 1998

Abstract


A method for the preparation of an oligodeoxynucleotide, 20 bases in length, containing centrally located thio analogues of (6-4) pyrimidine-pyrimidinone thymine photo-dimers is reported. The approach is based on the selective irradiation, at 350 nm, of a Tp4ST (4ST = 4-thiothymidine) step within a 20-mer having the sequence: d(ACTCGGACCT(4sT)CGCTGTGAT). Conversion of the S5-(6-4)/S5-thietane pyrimidine-pyrimidinone, initially formed, to its S5-Dewar isomer is by a subsequent irradiation at 300 nm. Both of the photo-dimer-containing oligonucleotides were purified by HPLC (ion exchange and reverse phase) and characterised by base composition analysis. The S5-(6-4)/S5-thietane pyrimidine-pyrimidinone containing 20-mer has a characteristic UV absorbance at 320 nm and exhibits strong fluorescence when excited at this wavelength. As expected, conversion to the S5-Dewar isomer abolished both the 320 nm absorbance and the fluorescence emission. The lengths of the oligonucleotides produced allowed the formation of stable double-stranded DNA, by hybridisation to a complementary sequence. Examination of these duplexes by circular dichroism spectroscopy showed that they formed B-DNA, with little changes to their gross structure as compared to the parent duplex. However, local structural perturbations in the region of the photo-dimer cannot be excluded. The S5-(6-4)/S5-thietane photoproduct lowered the tm by 10.5 deg. C and the Dewar isomer by 12 deg. C. The degree of curvature induced in the DNA sequence by the introduction of the photo-dimers was assessed by analysing the migration of modified and unmodified multimer ladders on polyacrylamide gels. Both photoproducts induced considerable bending into the DNA. A comparison with a six-base-pair T tract, a bending standard that has a known bend angle of 19 degrees, gave values of around 47 degrees for the S5-(6-4)/S5-thietane product and about 28 degrees for the S5-Dewar isomer.