A More Unified Picture for the Thermodynamics of Nucleic Acid Duplex Melting: A Characterization by Calorimetric and Volumetric Techniques

A More Unified Picture for the Thermodynamics of Nucleic Acid Duplex Melting: A Characterization by Calorimetric and Volumetric Techniques

We use a combination of calorimetric and volumetric techniques to detect and to characterize the thermodynamic changes that accompany helix-to-coil transitions for five polymeric nucleic acid duplexes. Our calorimetric measurements reveal that melting of the duplexes is accompanied by positive chang...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 96; no. 14; pp. 7853 - 7858
Main Authors: Chalikian, Tigran V., Völker, Jens, Plum, G. Eric, Breslauer, Kenneth J.
Format: Journal Article
Language:English
Published: United States National Academy of Sciences of the United States of America 06-07-1999
National Acad Sciences
National Academy of Sciences
The National Academy of Sciences
Subjects:
Acids
Biochemistry
Biological Sciences
Calorimetry, Differential Scanning - methods
Chemical bases
Enthalpy
Hot Temperature
Melting
Nucleic Acid Conformation
Nucleic Acid Denaturation
Nucleic Acid Heteroduplexes - chemistry
Nucleic acids
Polydeoxyribonucleotides - chemistry
Polynucleotides
Polyribonucleotides - chemistry
Specific heat
Temperature
Temperature dependence
Thermodynamics
Transition temperature
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Summary:We use a combination of calorimetric and volumetric techniques to detect and to characterize the thermodynamic changes that accompany helix-to-coil transitions for five polymeric nucleic acid duplexes. Our calorimetric measurements reveal that melting of the duplexes is accompanied by positive changes in heat capacity (Δ CP) of similar magnitude, with an average Δ CP value of 64.6± 21.4 cal° -1 mol-1. When this heat capacity value is used to compare significantly different transition enthalpies (Δ Ho) at a common reference temperature, Tref, we find Δ HTref for duplex melting to be far less dependent on duplex type, base composition, or base sequence than previously believed on the basis of the conventional assumption of a near-zero value for Δ CP. Similarly, our densimetric and acoustic measurements reveal that, at a given temperature, all the AT-and AU-containing duplexes studied here melt with nearly the same volume and compressibility changes. In the aggregate, our results, in conjunction with literature data, suggest a more unified picture for the thermodynamics of nucleic acid duplex melting. Specifically, when compared at a common temperature, the apparent large differences present in the literature for the transition enthalpies of different duplexes become much more compressed, and the melting of all-AT- and all-AU-containing duplexes exhibits similar volume and compressibility changes despite differences in sequence and conformation. Thus, insofar as thermodynamic properties are concerned, when comparing duplexes, the temperature under consideration is as important as, if not more important than, the duplex type, the base composition, or the base sequence. This general behavior has significant implications for our basic understanding of the forces that stabilize nucleic acid duplexes. This behavior also is of practical significance in connection with the use of thermodynamic databases for designing probes and for assessing the affinity and specificity associated with hybridization-based protocols used in a wide range of sequencing, diagnostic, and therapeutic applications.
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Communicated by I. M. Gelfand, Rutgers, The State University of New Jersey, New Brunswick, NJ
To whom reprint requests should be addressed. e-mail: breslauer@rutchem.rutgers.edu.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.96.14.7853