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Bioproduced Proteins On Demand (Bio-POD) in hydrogels using Pichia pastoris

Shuo‐Fu Yuan, Sierra M. Brooks, Annalee W. Nguyen, Wen-Ling Lin, Trevor G. Johnston, Jennifer A. Maynard, Alshakim Nelson, Hal S. Alper

2021Bioactive Materials23 citationsDOIOpen Access PDF

Abstract

Traditional production of industrial and therapeutic proteins by eukaryotic cells typically requires large-scale fermentation capacity. As a result, these systems are not easily portable or reusable for on-demand protein production applications. In this study, we employ Bioproduced Proteins On Demand (Bio-POD), a F127-bisurethane methacrylate hydrogel-based technique that immobilizes engineered Pichia pastoris for preservable, on-demand production and secretion of medium- and high-molecular weight proteins (in this case, SEAP, α-amylase, and anti-HER2). The gel samples containing encapsulated-yeast demonstrated sustained protein production and exhibited productivity immediately after lyophilization and rehydration. The hydrogel platform described here is the first hydrogel immobilization using a P. pastoris system to produce recombinant proteins of this breadth. These results highlight the potential of this formulation to establish a cost-effective bioprocessing strategy for on-demand protein production.

Topics & Concepts

Pichia pastorisBioprocessRecombinant DNAYeastChemistrySelf-healing hydrogelsPichiaFermentationOn demandBiochemistryChemical engineeringComputer scienceOrganic chemistryGeneMultimediaEngineeringTransgenic Plants and ApplicationsProtein purification and stabilityViral Infectious Diseases and Gene Expression in Insects