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Quantifying Interactions of Nucleobase Atoms with Model Compounds for the Peptide Backbone and Glutamine and Asparagine Side Chains in Water.


ABSTRACT: Alkylureas display hydrocarbon and amide groups, the primary functional groups of proteins. To obtain the thermodynamic information that is needed to analyze interactions of amides and proteins with nucleobases and nucleic acids, we quantify preferential interactions of alkylureas with nucleobases differing in the amount and composition of water-accessible surface area (ASA) by solubility assays. Using an established additive ASA-based analysis, we interpret these thermodynamic results to determine interactions of each alkylurea with five types of nucleobase unified atoms (carbonyl sp2O, amino sp3N, ring sp2N, methyl sp3C, and ring sp2C). All alkylureas interact favorably with nucleobase sp2C and sp3C atoms; these interactions become more favorable with an increasing level of alkylation of urea. Interactions with nucleobase sp2O are most favorable for urea, less favorable for methylurea and ethylurea, and unfavorable for dialkylated ureas. Contributions to overall alkylurea-nucleobase interactions from interactions with each nucleobase atom type are proportional to the ASA of that atom type with proportionality constant (interaction strength) ?, as observed previously for urea. Trends in ?-values for interactions of alkylureas with nucleobase atom types parallel those for corresponding amide compound atom types, offset because nucleobase ?-values are more favorable. Comparisons between ethylated and methylated ureas show interactions of amide compound sp3C with nucleobase sp2C, sp3C, sp2N, and sp3N atoms are favorable while amide sp3C-nucleobase sp2O interactions are unfavorable. Strongly favorable interactions of urea with nucleobase sp2O but weakly favorable interactions with nucleobase sp3N indicate that amide sp2N-nucleobase sp2O and nucleobase sp3N-amide sp2O hydrogen bonding (NH···O?C) interactions are favorable while amide sp2N-nucleobase sp3N interactions are unfavorable. These favorable amide-nucleobase hydrogen bonding interactions are prevalent in specific protein-nucleotide complexes.

SUBMITTER: Cheng X 

PROVIDER: S-EPMC5903953 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Quantifying Interactions of Nucleobase Atoms with Model Compounds for the Peptide Backbone and Glutamine and Asparagine Side Chains in Water.

Cheng Xian X   Shkel Irina A IA   Molzahn Cristen C   Lambert David D   Karim Rezwana R   Record M Thomas MT  

Biochemistry 20180405 15


Alkylureas display hydrocarbon and amide groups, the primary functional groups of proteins. To obtain the thermodynamic information that is needed to analyze interactions of amides and proteins with nucleobases and nucleic acids, we quantify preferential interactions of alkylureas with nucleobases differing in the amount and composition of water-accessible surface area (ASA) by solubility assays. Using an established additive ASA-based analysis, we interpret these thermodynamic results to determ  ...[more]

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