Wang_2020_Biomacromolecules_21_1078

Reference

Title : Synthesis, Molecular Docking Simulation, and Enzymatic Degradation of AB-Type Indole-Based Polyesters with Improved Thermal Properties - Wang_2020_Biomacromolecules_21_1078
Author(s) : Wang P , Linares-Pasten JA , Zhang B
Ref : Biomacromolecules , 21 :1078 , 2020
Abstract :

We report the facile synthesis of a series of indole-based hydroxyl-carboxylate (AB-type) monomers by a one-step procedure. These monomers were successfully polymerized by melt polycondensation to yield AB-type polyesters with a varied number of flexible methylene units in the backbones. These indole-based AB-polyesters showed decent thermal stability according to the TGA results (onset thermal degradation temperature of >330 degC), and their glass transition temperatures are dependent on the length of the methylene bridge (T(g) = 62-102 degC) according to the DSC results. Furthermore, DSC and WAXD measurements revealed that these polymers did not crystallize from melt, but the ones with flexible structures could crystallize from solution. Molecular docking simulations showed favorable interactions between indole-based polyesters and polyethylene terephthalate hydrolase (PETase) from Ideonella sakaiensis. This was corroborated by the experimental results, which indicated that the PETase enzyme has degrading activity on the indole-based AB polyesters except for the one with the highest degree of crystallinity.

PubMedSearch : Wang_2020_Biomacromolecules_21_1078
PubMedID: 31951388

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Citations formats

Wang P, Linares-Pasten JA, Zhang B (2020)
Synthesis, Molecular Docking Simulation, and Enzymatic Degradation of AB-Type Indole-Based Polyesters with Improved Thermal Properties
Biomacromolecules 21 :1078

Wang P, Linares-Pasten JA, Zhang B (2020)
Biomacromolecules 21 :1078