(BOSTON) - Super productive factories of the future could employ fleets of genetically engineered bacterial cells, such as common E. coli, to produce valuable chemical commodities in an ...
Super productive factories of the future could employ fleets of genetically engineered bacterial cells, such as common E. coli, to produce valuable chemical commodities in an environmentally friendly ...
Hosted on MSN
Study Introduces Microbial Biosensor with Raman Spectroscopy for Microplastic Detection
In a recent article published in ACS Sensors, researchers introduced an innovative approach using biological sensors, specifically microbial biosensors, to address the need for rapid, cost-effective, ...
The discharge of organic effluents—biodegradable waste materials from plants and animals—into freshwater bodies is a significant environmental concern, affecting the health and sustainability of these ...
Biomanufacturing depends on microbial platforms. For efficiency’s sake, these single-celled production engines must maximize output while minimizing inputs, including energy inputs, which ultimately ...
AZoLifeSciences on MSN
Synthetic biology and metabolic engineering drive microbial L-tryptophan biomanufacturing
This review synthesizes progress in pathway optimization, regulatory rewiring, and microbial cell factory design that has ...
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