Characterization of Thiol-Ene Crosslinked PEG Hydrogels.

The properties of synthetic hydrogels can be tuned to address the needs of many tissue-culture applications. This work characterizes the swelling and mechanical properties of thiol-ene crosslinked PEG hydrogels made with varying prepolymer formulations, demonstrating that hydrogels with a compressive modulus exceeding 600 kPa can be formed. The amount of peptide incorporated into the hydrogel is shown to be proportional to the amount of peptide in the prepolymer solution.

Regulating specific growth factor signaling using immobilized branched ligands.

VEGF-binding peptide ligands are incorporated into hydrogel microspheres and reduce the amount of growth factor in solution. VEGF binding affinity is enhanced by creating ligands with a dimer structure. The spheres are able to knock down VEGF-mediated HUVEC growth and reduce calcium signaling.

Specific VEGF sequestering and release using peptide-functionalized hydrogel microspheres.

Growth factor signaling plays an essential role in regulating processes such as tissue development, maintenance, and repair. Gene expression levels, diffusion, degradation, and sequestration by extracellular matrix components all play a role in regulating the concentration of growth factors within the cellular microenvironment. Herein, we describe the synthesis and characterization of hydrogel microspheres that mimic the ability of the native extracellular matrix to reversibly bind vascular endothelial growth factor (VEGF) out of solution.

Identification of a functionally important loop in Salmonella typhimurium ArnT.

ArnT confers resistance to the antibiotic polymyxin in Salmonella typhimurium and Escherichia coli through the modification of lipid A, a major component of the outer surface of gram-negative bacteria. ArnT transfers a neutral aminoarabinose moiety onto the negative phosphate groups of lipid A, reducing the surface charge of the bacteria and preventing cationic peptides such as polymyxin from electrostatically recognizing and killing the bacteria. We previously reported the first expression, purification, and functional analysis of ArnT from S.