Real‐Time Oligonucleotide Hybridization Kinetics Monitored by Resonant Mirror Technique

The kinetics of hybridization of 11‐meric and 14‐meric oligonucleotides, dTGGGAAGAGGG (ODN‐11) and dTGGGAAGAGGGTCA (ODN‐14), with 14‐meric oligonucleotide dpTGACCCTCTTCCCA (p14) attached to the surface of a cuvette was studied by the resonant mirror method. The treatment of the experimental curves with exponential equations leads to the following values for association (kas) and dissociation (kdis) rate constants at 25 °C: kas = 219 +/‐ 39 and 183 +/‐ 162 M‐1s‐1, kdis = (2.0 +/‐ 0.4) 10‐3 and (4 +/‐ 1) 10‐4s‐1 for the duplexes (p14) (ODN‐11) and p14 (ODN14), respectively. The oligonucleotide dTGCCTTGAATGGGAAGAGGGTCA (ODN‐23), which forms a hairpin structure, does not associate with p14. The data were compared with the results of melting curve detection and temperature‐jump experiments. The association rate constants for ODN‐11 and ODN‐14 are much slower than those values in homogeneous aqueous solution. The dissociation rate constants have the same magnitude values as estimated by using association constants measured from melting curves but differ from the values estimated in temperature‐jump experiments.