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Start Over Degree Department Chemistry Year 2017 Month December

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Results: 1 - 4 of 4
Best Match Title Creator Date Created (Newest) Date Created (Oldest) Date Added (Newest) Date Added (Oldest)
Application of a General Computer Algorithm Based on the Group-Additivity Method for the Calculation of Two Molecular Descriptors at Both Ends of Dilution: Liquid Viscosity and Activity Coefficient in Water at Infinite Dilution (open access)

Application of a General Computer Algorithm Based on the Group-Additivity Method for the Calculation of Two Molecular Descriptors at Both Ends of Dilution: Liquid Viscosity and Activity Coefficient in Water at Infinite Dilution

This paper presents the application of a commonly used computer algorithm based on the group-additivity method for the calculation of the liquid viscosity coefficient at 293.15 K and the activity coefficient at infinite dilution in water at 298.15 K or organic molecules.
Date: December 10, 2017
Creator: Naef, Rudolf & Acree, William E. (William Eugene)
System: The UNT Digital Library
Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine† (open access)

Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine†

This article is taken from the Proceedings of the 5th International Symposium on Sensor Science (I3S 2017). Molecularly imprinted polymers (MIPs) can be used in applications in selective chemosensing.
Date: December 4, 2017
Creator: Lach, Patrycja; Cieplak, Maciej; Sharma, Piyush S.; Sosnowska, Marta; D'Souza, Francis & Kutner, Wlodzimierz
System: The UNT Digital Library
Semi-Covalent Imprinting for Selective Protein Sensing at a Femtomolar Concentration Level (open access)

Semi-Covalent Imprinting for Selective Protein Sensing at a Femtomolar Concentration Level

This abstract introduces the development of an inventive new technique for protein imprinting.
Date: December 4, 2017
Creator: Dabrowski, Marcin; Cieplak, Maciej; Sharma, Piyush S.; Borowicz, Pawel; Noworyta, K.; Kuhn, Alexander et al.
System: The UNT Digital Library
Bulky Lesion Bypass Requires Dpo4 Binding in Distinct Conformations (open access)

Bulky Lesion Bypass Requires Dpo4 Binding in Distinct Conformations

Article describes study where researchers used single-molecule florescence resonance energy transfer (smFRET) experiments, classical molecular dynamics simulations, and nucleotide incorporation assays to investigate the mechanism by which the model Y-family polymerase, Dpo4, bypasses a (+)-cis-Benzo[a]pyrene (B[a]P)-N 2-dG adduct in DNA.
Date: December 12, 2017
Creator: Liyanage, Pramodha S.; Walker, Alice R.; Brenlla, Alfonso; Cisneros, Gerardo Andrés; Romano, Louis J. & Rueda, David S.
System: The UNT Digital Library