Sarah A. Kipp scite author profile

Sarah A. Kipp

3Publications

53Citation Statements Received

94Citation Statements Given

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Johns Hopkins University

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Triplex Formation by a Psoralen-Conjugated Oligodeoxyribonucleotide Containing the Base Analog 8-Oxo-Adenine

Miller¹,

Bi²,

Kipp³

et al. 1996

Nucleic Acids Research

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Oligodeoxyribonucleotides containing thymidine and 8-oxo-2'-deoxyadenosine can form pyr.pur.pyr type triplexes with double-stranded DNA. Unlike triplexes whose third strands contain thymidine and deoxycytidine, the stability of these triplexes is independent of pH. We have prepared d-ps-TAAATAAATTTTTAT-L [I(A)], where A is 8-oxo-2'-deoxyadenosine, ps is 4'-hydroxymethyl-4,5',8- trimethylpsoralen and L is a 6-amino-2-(hydroxymethyl)hexyl linker. The oligomer is designed to interact with a homopurine sequence in the promoter region of the human gene coding for the 92 kDa form of collagenase type IV. Oligomer I(A) and oligomer I(C), which contains 2'-deoxycytidine in place of 8-oxo-2'-deoxycytidine, both form stable triplexes at pH 6.2, but only I(A) forms a stable triplex with a model duplex DNA target at pH 7.5, as determined by UV melting experiments. Triplex formation is stabilized by the presence of the psoralen group. Upon irradiation both I(A) and I(C) form photoadducts with the DNA target at pH 6.2, but only I(A) forms a photoadduct at pH 7.5. In these photoreactions oligomer I(A) appears to selectively form a photoadduct with a C in the purine-rich strand of the duplex target. Although a T residue is present in the pyrimidine-rich strand of the target at the duplex/triplex junction, essentially no adduct formation takes place with this strand, nor is interstrand cross-linking observed. The extent of photoadduct formation decreases with increasing temperature, behavior which is consistent with the UV melting curve of the triplex. A tetramethylrhodamine derivative of I(A) was prepared and found to cross-link less extensively than I(A) itself. Oligomer I(A) is completely resistant to hydrolysis when incubated for 24h in the presence of 10% fetal bovine serum at 37 degree C, although it is hydrolyzed by S1 nuclease. The properties of oligomer I(A) suggest that 8-oxo- containing oligomers may find utility as antigene oligonucleotide reagents.

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Inhibition of Herpes Simplex Virus Replication by Antisense Oligo-2'-O-methylribonucleoside Methylphosphonates

et al. 1995

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Antisense oligonucleoside methylphosphonates complementary to the 12 nucleotides found at the intron/exon junction of the splice acceptor site of herpes simplex virus type 1 (HSV-1) immediate early mRNAs 4 and 5 were synthesized. The methylphosphonate oligomers contained either 2'-deoxyribose nucleosides, d-OMPs, or 2'O-methylribose nucleosides, mr-OMPs. At 37 degrees C, the affinity of the mr-OMP for a complementary 12-mer RNA target was approximately four times higher than that of the corresponding d-OMP as measured by a constant activity gel electrophoresis mobility shift assay. An mr-OMP whose sequence contained two mismatched bases did not bind to the RNA target under these conditions. The mr-OMP also showed improved ability to inhibit HSV-1 replication in HSV-1 infected Vero cells in culture. Thus the IC50 of the mr-OMP was five times less than that of the d-OMP. No inhibition was observed by the mismatched mr-OMP, and no inhibition of herpes simplex virus type 2 (HSV-2) replication was observed with any of the oligomers. These results demonstrate a direct correlation between oligomer binding affinity and antisense activity in cell culture and suggest that oligo-2'-O-methylribonucleoside methylphosphonates are promising candidates for development of effective antisense reagents.

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A Psoralen-Conjugated Triplex-Forming Oligodeoxyribonucleotide Containing Alternating Methylphosphonate−Phosphodiester Linkages: Synthesis and Interactions with DNA

1999

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A psoralen-conjugated oligodeoxyribopyrimidine (1443), PS-pTTTTCTTTTCTTCTT, where PS is trimethylpsoralen and C is 5-methyl-2'-deoxycytidine, that contains alternating methylphosphonate-phosphodiester internucleotide linkages was synthesized. The ability of 1443 to form triple-stranded complexes with a purine tract in a synthetic DNA duplex was studied. Irradiation of solutions containing the DNA target and 10 microM 1443 or 0.25 microM of a similar psoralen-conjugated oligodeoxyribonucleotide that contained all phosphodiester linkages, (1193), with long-wavelength UV light resulted in approximately 80% formation of interstrand cross-links at pH 7.0, 37 degrees C, in the presence of 20 mM magnesium chloride. The extent of triplex formation as monitored by photo-cross-linking decreased over the pH range 5.5-8.0, and the apparent pK of the 5-methylcytosines (C) in 1443 was approximately one-half of a pH unit less than that of the 5-methylcytosines in 1193. Oligomer 1443 formed triplexes in the absence of magnesium, and maximum triplex formation was observed in solutions containing 2.5 mM magnesium, whereas maximal triplex formation by the fully charged 1193 was not observed until the magnesium concentration was 10 mM or higher. Unlike the all-phosphodiester backbone of 1193, the alternating methylphosphonate-phosphodiester backbone of 1193 is resistant to hydrolysis by exonucleases in fetal calf serum. The nuclease resistance of 1443 and its ability to form triplexes at very low magnesium concentrations suggests that triplex-forming oligomers with alternating methylphosphonate-phosphodiester backbones may be good candidates for use as antigene reagents in cell culture.

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Sarah A. Kipp

Triplex Formation by a Psoralen-Conjugated Oligodeoxyribonucleotide Containing the Base Analog 8-Oxo-Adenine

Inhibition of Herpes Simplex Virus Replication by Antisense Oligo-2'-O-methylribonucleoside Methylphosphonates

A Psoralen-Conjugated Triplex-Forming Oligodeoxyribonucleotide Containing Alternating Methylphosphonate−Phosphodiester Linkages: Synthesis and Interactions with DNA

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