TY - JOUR
T1 - Thermodynamic investigation of kissing-loop interactions
AU - Carr, Carolyn E.
AU - Marky, Luis A.
N1 - Funding Information:
This work was supported by Grant MCB-1122029 from the National Science Foundation.
Funding Information:
This work was supported by Grant MCB-1122029 from the National Science Foundation .
Publisher Copyright:
© 2018 Elsevier B.V. and Société Française de Biochimie et Biologie Moléculaire (SFBBM)
PY - 2019/2
Y1 - 2019/2
N2 - Kissing loop interactions (KLIs) are a common motif that is critical in retroviral dimerization, viroid replication, mRNA, and riboswitches. In addition, KLIs are currently used in a variety of biotechnology applications, such as in aptamer sensors, RNA scaffolds and to stabilize vaccines for therapeutics. Here we describe the thermodynamics of a basic intramolecular DNA capable of engaging in a KLI, consisting of two hairpins connected by a flexible linker. Each hairpin loop has a five-nucleotide complementary sequence theoretically capable of engaging in a KLI. On either side of each loop is two thymines which will not engage in kissing but are present to provide more flexibility and optimal KLI positioning. Our results suggest that the KLI occurs even at physiological salt levels, and that the KLI does not alter the thermodynamics and stability of the two stem structures. The KLI does not involve all five nucleotides, or at least each base-pair stack is not making full contact. Adding a second strand complementary to the bottom of the kissing complex removes flexibility and causes destabilization of the stems. The KLI of this less flexible complex is maintained but the TM is reduced, indicating an entopic penalty to its formation.
AB - Kissing loop interactions (KLIs) are a common motif that is critical in retroviral dimerization, viroid replication, mRNA, and riboswitches. In addition, KLIs are currently used in a variety of biotechnology applications, such as in aptamer sensors, RNA scaffolds and to stabilize vaccines for therapeutics. Here we describe the thermodynamics of a basic intramolecular DNA capable of engaging in a KLI, consisting of two hairpins connected by a flexible linker. Each hairpin loop has a five-nucleotide complementary sequence theoretically capable of engaging in a KLI. On either side of each loop is two thymines which will not engage in kissing but are present to provide more flexibility and optimal KLI positioning. Our results suggest that the KLI occurs even at physiological salt levels, and that the KLI does not alter the thermodynamics and stability of the two stem structures. The KLI does not involve all five nucleotides, or at least each base-pair stack is not making full contact. Adding a second strand complementary to the bottom of the kissing complex removes flexibility and causes destabilization of the stems. The KLI of this less flexible complex is maintained but the TM is reduced, indicating an entopic penalty to its formation.
KW - Bimolecular interactions
KW - Hairpins
KW - Kissing-loop interactions
KW - Sterics
KW - Thermodynamics
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U2 - 10.1016/j.biochi.2018.11.012
DO - 10.1016/j.biochi.2018.11.012
M3 - Article
C2 - 30502370
AN - SCOPUS:85057595275
SN - 0300-9084
VL - 157
SP - 177
EP - 183
JO - Biochimie
JF - Biochimie
ER -