Search Results - alexander+connor

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Downregulation of Promoter Strength for Increased Production of Recombinant Biopolymers
RPI ID: 2021-070-401 Innovation Summary: Recombinant E. coli strains and synthetic protein sequence designs are used to produce disordered polypeptides such as spidroins and elastin-like peptides (ELPs). The system leverages genome engineering to suppress basal expression and redirect cellular resources toward target biopolymer synthesis. This approach...
Published: 3/10/2026   |   Inventor(s): Mattheos Koffas, Derek Nelson, Runye Zha, Alexander Connor
Keywords(s): Biomanufacturing, Biomaterials, Recombinant Protein Engineering, Sustainable Materials
Category(s): Biotechnology and the Life Sciences
Upcycling of Plastic Waste to Recombinant Silk Proteins via Pseudomonas sp
RPI ID: 2021-045-401 Innovation Summary: This method uses engineered Pseudomonas bacteria to convert plastic waste into recombinant silk proteins. The system includes metabolic pathways that degrade polyethylene terephthalate (PET) and redirect carbon into silk protein synthesis. It supports circular bioeconomy models and reduces environmental impact....
Published: 3/10/2026   |   Inventor(s): Runye Zha, Mattheos Koffas, Alexander Connor
Keywords(s): Advanced Materials, Biomanufacturing, Metabolic Engineering, polymer upcycling, sustainability
Category(s): Biotechnology and the Life Sciences
Recombinant Production of Silk Proteins via Bacillus Megaterium Secretion (Updated)
RPI ID: 2023-070-301 Innovation Summary: This technology enables the recombinant production of silk proteins using Bacillus megaterium as a secretion host. The system leverages the bacterium’s natural secretion pathways to produce and release silk proteins extracellularly, simplifying downstream purification. The method supports scalable production...
Published: 3/10/2026   |   Inventor(s): Mattheos Koffas, Runye Zha, Alexander Connor
Keywords(s): advanced polymers, Biodegradable materials, Biomaterial, Biomedical material, Biomimetic material, green polymer synthesis, Materials, silk, sustainable
Category(s): Biotechnology and the Life Sciences