Susanne Ebel scite author profile

Nearly complete assignments of the 'H-NMR spectrum of the DNA.RNA hybrid d(GTGAACIT) i(AAGWCAC) have been obtained by two-dimensional methods. Three-bond coupling constants measured from cross-sections of two-dimensional NOE spectra and double quantum-filtered correlation spectra showed that the sugars in the DNA strand are predominantly in the S domain of puckers, whereas the ribofuranoses are mainly C3'-endo. Analysis of time-dependent NOE intensities from one-and two-dimensional experiments showed that the glycosidic torsion angles in the DNA strand are near ~ 120", wbereas those in the RNA str++are& the range -140" to -160". These nuclwtide confomtions correspond to those typically found in'B-DNA and A-RNA, respectively.The circular dichroism of the duplex is similar to that of A-form RNA, consistent with a global A-like conformation. A large number of duplex structures was generated in which the nucleotides were fixed in the experimentally determined conformations. A subset of these structures was found that satisfied the intemucleotide NOE intensities, backbone constraints and had acceptable LennardJones energies. The base pairs in the duplex were found to have positive inclinations, a translation (Dx) of about 0.4 nm from the helix axis, and more than 10 bp/turn on average. This implies a helical structure in the A family of conformations.DNA . RNA hybrids are generated by RNA polymerase during transcription, and by retroviral reverse transcriptases making a DNA copy of the viral RNA. Transcription is initiated by RNA polymerase recognising and binding to the promoter, unwinding about 10 bp of the DNA duplex ahead of the start site and forming a DNA . RNA hybrid of some 6 -10 bp (Hansen and McClure, 1980). The formation of the DNA . RNA hybrid, and the presumed change in conformation of the nucleic acid from double-stranded DNA, is associated with a large change in the affhity of the RNA polymerase core enzyme for the promoter-recognition factor, o. The o factor remains an integral part of the transcription complex, and contacts the nascent RNA (Bernhard and Meares, 1986), until approximately one turn of a DNA . RNA hybrid has been synthesised. The o factor then dissociates from the polymerase/nucleic-acid complex, and transcription continues in the elongation phase (Hansen and McClure, 1980). The generation of the 3'-OH RNA primer in DNA replication may also require a special ribonuclease (RNAse H) that recognises and hydrolyses the RNA strand of DNA -RNA hybrids. This enzyme, however, is inactive toward doublestranded RNA (Stein and Hausen, 1969) and apparently is not sequence specific, suggesting that the conformation of

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Crystal and molecular structure of r(CGCGAAUUAGCG): an RNA duplex containing two G(anti)· A(anti) base pairs

Leonard

McAuley-Hecht

Ebel

et al. 1994

Structure

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G(anti).A(anti) mispairs are held together by two hydrogen of guanine and the N6 and N1 of adenine. If the mispairs do not exhibit high propeller twist they may be further stabilized by inter-base reverse three-centre hydrogen bonds. These interactions, and other hydrogen bonds seen in our study, may be important in modelling the structure of RNA molecules and their interactions with other molecules.

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Very stable mismatch duplexes: structural and thermodynamic studies on tandem G.cntdot.A mismatches in DNA

Ebel¹,

Lane²,

Brown³

1992

Biochemistry

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We have used ultraviolet melting techniques to compare the stability of several DNA duplexes containing tandem G.A mismatches to similar duplexes containing tandem A.G, I.A, and T.A base pairs. We have found that tandem G.A mismatches in 5'-Y-G-A-R-3' duplexes are more stable than their I.A counterparts and that they are sometimes more stable than tandem 5'-Y-T-A-R-3' sequences. This is not the case for tandem G.A mismatches in other base stacking environments, and it suggests that tandem G.A mismatches in 5'-Y-G-A-R-3' sequences have a unique configuration. In contrast to tandem 5'-G-A-3' mismatches, tandem 5'-A-G-3' mismatches were found to be unstable in all cases examined.

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Barnase has subsites that give rise to large rate enhancements

Day¹,

Parsonage²,

Ebel³

et al. 1992

Biochemistry

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Barnase is found to have a series of subsites for binding its substrates that confers large rate enhancements. Ribonucleotide substrates of the type Zp0Gp1Xp2Y have been synthesized, where p is phosphate, X, Y, and Z are nucleosides, and G is guanosine. G occupies the primary specificity site. The most important subsite is for p2, followed by that for Y. There appears to be no subsite for the Z or p0 positions. Occupation of the subsite for p2 gives rise to a 1000-fold increase in kcat/Km, composed of a 100-fold increase in kcat and a 10-fold decrease in Km. The Y subsite gives rise to further 20-fold increase in kcat/Km. Rates approaching diffusion control for kcat/Km are observed. kcat for the dinucleotide monophosphate GpU = 0.55 s-1, and Km = 240 microM; this compares with 53 s-1 and 20 microM for GpUp, and 3.3 x 10(3) s-1 and 17 microM for GpApA (the best substrate tested). Cleavage occurs at the 3'-phosphate of guanosine in all cases. There are differences in base specificity at the two subsites for X and Y downstream of the scissile bond. The binding energies of different substrates have been analyzed using thermodynamic cycles. These show that the contributions of the X and Y sites are nonadditive.

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Solution conformation of a deoxynucleotide containing tandem G.cntdot.A mismatched base pairs and 3'-overhanging ends in d(GTGAACTT)2

Lane¹,

Martin²,

Ebel³

et al. 1992

Biochemistry

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We have used 31P and 1H NMR spectroscopy and circular dichroism to define the solution conformation of d(GTGAACTT)2 which contains tandem G.A mismatched base pairs and 3'-overhanging TT ends. Measurements of coupling constants and NOE intensities show that the sugar puckers of the nucleotides are predominantly in the south domain (i.e., near C2'-endo) and that the glycosidic torsion angles are anti. The sequential NOE intensities indicate the presence of a right-handed helix. Analysis of the 31P and 1H NMR spectra of the duplex shows that the tandem mismatch forms a block in which there are unusual backbone torsion angles (i.e., in the BII state), within an otherwise B-like structure. The chemical shift of the N1H of the mismatched guanosine and NOEs between the mismatched base pairs and their nearest neighbors are inconsistent with the imino pairing present in single A.G mismatches or in the X-ray structure of a tandem mismatch [Privé, G. G., et al. (1987) Science 238, 498-503] but the data are consistent with the amino pairing found by Li et al. (1991) [Li, Y., et al. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 26-30]. The strong base-base stacking both within the tandem G.A block and between the G.A mismatches and their other nearest neighbors offsets the intrinsic destabilizing effects of the mismatch. Further, the 3'-TT overhangs stack onto the ends of the helix and stabilize the duplex against fraying, which accounts for the observed increase in the melting temperature compared with the flush-ended duplex.

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Susanne Ebel

NMR assignments and solution conformation of the DNA · RNA hybrid duplex d(GTGAACTT) · r(AAGUUCAC)

Crystal and molecular structure of r(CGCGAAUUAGCG): an RNA duplex containing two G(anti)· A(anti) base pairs

Very stable mismatch duplexes: structural and thermodynamic studies on tandem G.cntdot.A mismatches in DNA

Barnase has subsites that give rise to large rate enhancements

Solution conformation of a deoxynucleotide containing tandem G.cntdot.A mismatched base pairs and 3'-overhanging ends in d(GTGAACTT)2

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