THERMODYNAMICS AND APPLICATION OF A PAIR OF SYNTHETIC NUCLEOBASES FROM ARTIFICIALLY EXPANDED GENETIC INFORMATION SYSTEM


Autoria(s): Wang, Xiaoyu
Contribuinte(s)

Kahn, Jason D

Digital Repository at the University of Maryland

University of Maryland (College Park, Md.)

Biochemistry

Data(s)

08/09/2016

08/09/2016

2016

Resumo

UV-melting experiments were performed on 9-mer duplexes containing a pair of synthetic nucleobases P·Z, two members of Expanded Genetic Information System (AEGIS), or P, Z containing mismatches. Enthalpy, entropy and free energy change were derived from simulation using two-state transition model. Nearest neighbor thermodynamic parameters of trimers or tetramers containing P·Z pair or P, Z containing mismatches were derived based on known nearest neighbor parameters. Proposed structures based on thermodynamic parameters are discussed. An application using P·Z pair as reverse selection tool of desired nucleic acid secondary structure is described.

Identificador

doi:10.13016/M2TB9Z

http://hdl.handle.net/1903/18690

Idioma(s)

en

Palavras-Chave #Biochemistry #Biophysics #artificially expanded genetic information system #nearest neighbor #synthetic nucleobase #thermodynamics #UV melting
Tipo

Dissertation