Alain Akhebat scite author profile

Triple helixes containing one homopurine poly dG or poly rG strand and two homopyrimidine poly dC or poly rC strands have been prepared and studied by FTIR spectroscopy in H2O and D2O solutions. The spectra are discussed by comparison with those of the corresponding third strands (auto associated or not) and of double stranded poly dG.poly dC and poly rG.poly rC in the same concentration range and salt conditions. The triplex formation is characterized by the study of the base-base interactions reflected by changes in the spectral domain involving the in-plane double bond vibrations of the bases. Modifications of the initial duplex conformation (A family form for poly rG.poly rC, B family form for poly dG.poly dC) when the triplex is formed have been investigated. Two spectral domains (950-800 and 1450-1350 cm-1) containing absorption bands markers of the N and S type sugar geometries have been extensively studied. The spectra of the triplexes prepared starting with a double helix containing only riboses (poly rC+.poly rG.poly rC and poly dC+.poly rG.poly rC) as well as that of poly rC+.poly dG.poly dC present exclusively markers of the North type geometry of the sugars. On the contrary in the case of the poly dC+.poly dG.poly dC triplex both N and S type sugars are shown to coexist. The FTIR spectra allow us to propose that in this case the sugars of the purine (poly dG) strand adopt the S type geometry.

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Determination of G*G.cntdot.C triple-helix structure by molecular modeling and vibrational spectroscopy

Ouali¹,

Letellier²,

Sun³

et al. 1993

J. Am. Chem. Soc.

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Characterization by FTIR spectroscopy of the oligoribonucleotide duplexes r(A-U)6 and r(A-U)8

Liquier

Akhebat

Taillandier

et al. 1991

Spectrochimica Acta Part A: Molecular Spectroscopy

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Structure and Drug interaction of parellel-stranded DNA studies by infrared spectroscope and fluorence

Fritzsche¹,

Akhebat²,

Taillandier³

et al. 1993

Nucl Acids Res

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The infrared spectra of three different 25-mer parallel-stranded DNAs (ps-DNA) have been studied. We have used ps-DNAs containing either exclusively dA x dT base pairs or substitution with four dG x dC base pairs and have them compared with their antiparallel-stranded (aps) reference duplexes in a conventional B-DNA conformation. Significant differences have been found in the region of the thymine C = O stretching vibrations. The parallel-stranded duplexes showed characteristic marker bands for the C2 = O2 and C4 = O4 carbonyl stretching vibrations of thymine at 1685 cm-1 and 1668 cm-1, respectively, as compared to values of 1696 cm-1 and 1663 cm-1 for the antiparallel-stranded reference duplexes. The results confirm previous studies indicating that the secondary structure in parallel-stranded DNA is established by reversed Watson--Crick base pairing of dA x dT with hydrogen bonds between N6H...O2 and N1...HN3. The duplex structure of the ps-DNA is much more sensitive to dehydration than that of the aps-DNA. Interaction with three drugs known to bind in the minor groove of aps-DNA--netropsin, distamycin A and Hoechst 33258--induces shifts of the C = O stretching vibrations of ps-DNA even at low ratio of drug per DNA base pair. These results suggest a conformational change of the ps-DNA to optimize the DNA-drug interaction. As demonstrated by excimer fluorescence of strands labeled with pyrene at the 5'-end, the drugs induce dissociation of the ps-DNA duplex with subsequent formation of imperfectly matched aps-DNA to allow the more favorable drug binding to aps-DNA. Similarly, attempts to form a triple helix of the type d(T)n.d(A)n.d(T)n with ps-DNA failed and resulted in the dissociation of the ps-DNA duplex and reformation of a triple helix based upon an aps-DNA duplex core d(T)10.d(A)10.

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Alain Akhebat

Triple Helical Polynucleotidic Structures: An FTIR Study Of The C⁺· G · C Triplet

Determination of G*G.cntdot.C triple-helix structure by molecular modeling and vibrational spectroscopy

Characterization by FTIR spectroscopy of the oligoribonucleotide duplexes r(A-U)6 and r(A-U)8

Structure and Drug interaction of parellel-stranded DNA studies by infrared spectroscope and fluorence

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Alain Akhebat

Triple Helical Polynucleotidic Structures: An FTIR Study Of The C+· G · C Triplet

Determination of G*G.cntdot.C triple-helix structure by molecular modeling and vibrational spectroscopy

Characterization by FTIR spectroscopy of the oligoribonucleotide duplexes r(A-U)6 and r(A-U)8

Structure and Drug interaction of parellel-stranded DNA studies by infrared spectroscope and fluorence

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Triple Helical Polynucleotidic Structures: An FTIR Study Of The C⁺· G · C Triplet