Stimuli-responsive, protein hydrogels for potential applications in enzymology and drug delivery$$^{\S }$$

Abstract: Enhancing the stability of enzymes for sensing or biocatalysis applications is still an unmet challenge. Ordinary paper is a very attractive support for anchoring enzymes but enzyme attachment to cellulose without surface activation is still another challenge. To make progress toward these goals, we developed a simple method to prepare highly active and stable enzyme-hydrogels within the mesh of the cellulose fibers of paper. A mixture of the desired enzyme, bovine serum albumin (BSA) and arginine were reacted… Show more

“…The ORR occurs at the CC cathode and the Zn metal is oxidized at the anode . A BSA hydrogel was made by adopting a previously reported method . Before complete gelation, the hydrogel was loaded into the dialysis membrane pocket to act as a flexible binder and spacer for all the components.…”

“…28 A BSA hydrogel was made by adopting a previously reported method. 38 Before complete gelation, the hydrogel was loaded into the dialysis membrane pocket to act as a flexible binder and spacer for all the components. This method is very simple and resulted in high reproducibility for the device construction.…”

“…BSA−arginine gel (1 mL) was used to hold all components together and the gel was prepared as reported earlier. 38 Gelation was complete in <1 min, holding all components of the battery together in a robust manner. Electrical contacts were made directly with the electrodes with copper clips.…”

“…Electrodes were separated with a filter paper soaked in 4 M KOH. BSA–arginine gel (1 mL) was used to hold all components together and the gel was prepared as reported earlier . Gelation was complete in <1 min, holding all components of the battery together in a robust manner.…”

“Simple-Stir” Heterolayered MoS₂/Graphene Nanosheets for Zn–Air Batteries

“…The ORR occurs at the CC cathode and the Zn metal is oxidized at the anode . A BSA hydrogel was made by adopting a previously reported method . Before complete gelation, the hydrogel was loaded into the dialysis membrane pocket to act as a flexible binder and spacer for all the components.…”

“…28 A BSA hydrogel was made by adopting a previously reported method. 38 Before complete gelation, the hydrogel was loaded into the dialysis membrane pocket to act as a flexible binder and spacer for all the components. This method is very simple and resulted in high reproducibility for the device construction.…”

“…BSA−arginine gel (1 mL) was used to hold all components together and the gel was prepared as reported earlier. 38 Gelation was complete in <1 min, holding all components of the battery together in a robust manner. Electrical contacts were made directly with the electrodes with copper clips.…”

“…Electrodes were separated with a filter paper soaked in 4 M KOH. BSA–arginine gel (1 mL) was used to hold all components together and the gel was prepared as reported earlier . Gelation was complete in <1 min, holding all components of the battery together in a robust manner.…”

“Simple-Stir” Heterolayered MoS₂/Graphene Nanosheets for Zn–Air Batteries

“…In addition to the polymeric networks we see in biology, which are artificially reproduced as semi-flexible polymer networks and gels [2], we also have peptide assemblies and gels [17,18], colloidal gels [19,20] and folded protein-based hydrogels [21][22][23]. Each have unique viscoelastic behaviours, finding applications in food science [24], as drug delivery systems [25,26] and as candidates for artificial extra-cellular matrices and scaffolds [27][28][29][30][31]. However, it is not yet clear how subunit properties translate across the scales to generate the macroscopic responses we measure in practise.…”

Intermediate structural hierarchy in biological networks modulates the fractal dimension and force distribution of percolating clusters

New polymer systems based on polyethylene glycol: synthesis, characterization, and study of the solubility behavior