Stabilizating effect of 5-nitroindole (universal base) on DNA duplexes immobilized on gel matrix

Stability and selectivity of unnatural DNA with five-membered-ring nucleobase analogues

In an effort to develop an orthogonal third base pair for the storage of genetic information, thiophene and furan heterocycles have been examined as nucleobase analogues. The stability of the unnatural bases was evaluated in duplex DNA paired opposite other unnatural bases as well as opposite the natural bases. Several unnatural base pairs are identified that are both reasonably stable and strongly selective against mispairing with native bases. These results expand the potential nucleobase analogues with which the genetic alphabet may be expanded to include five-membered-ring heterocycles.

Survey and summary: The applications of universal DNA base analogues

A universal base analogue forms 'base pairs' with each of the natural DNA/RNA bases with little discrimination between them. A number of such analogues have been prepared and their applications as biochemical tools investigated. Most of these analogues are non-hydrogen bonding, hydrophobic, aromatic 'bases' which stabilise duplex DNA by stacking interactions. This review of the literature of universal bases (to 2000) details the analogues investigated, and their uses and limitations are discussed.

Peptide nucleic acid-DNA duplexes containing the universal base 3-nitropyrrole

A peptide nucleic acid (PNA) monomer containing the universal base 3-nitropyrrole was synthesized by coupling 1-carboxymethyl-3-nitropyrrole to ethyl N-[2-(tert-butoxycarbonylamino)ethyl]glycinate. The PNA sequence H-TGTACGTXACAACTA-NH2 (X = 3-nitropyrrole and C) and DNA sequence 5'-TGTACGTXACAACTA-3' were synthesized and thermal melting studies with the complementary DNA sequence 5'-TAGTTGTYACGTACA-3' (Y = A,C, G, T) compared. The T(m) data show that 3-nitropyrrole pairs indiscriminately with all four natural nucleobases as a constituent of either DNA or PNA. However, 3-nitropyrrole-containing PNA-DNA (average T(m) value = 51.1 degrees C) is significantly more thermally stable than 3-nitropyrrole-containing DNA-DNA (average T(m) value = 39.6 degrees C). From circular dichroism measurements, it is apparent that 3-nitropyrrole in the PNA strand causes a significant change in duplex structure.