Traditional biomanufacturing is based on microbial or mammalian cell culture, plants can be grown in bioreactors and hold ...

Plants are quietly borrowing tricks from bacteria, repurposing foreign genes to build complex molecules that look a lot like ...

Maintaining a consistent, high-density E. coli culture under consistent growth conditions allows the system to perform ...

This has led to a boom in research over the past 15 years, delivering significant insights into the mix of microorganisms inhabiting the human gastrointestinal (GI) tract, their effect on health and ...

Microbial systems offer distinct advantages in protein expression, saving costs and time, and offering well-characterized host genetics and ease of scale-up. 2 However, challenges remain in process ...

Denitrification bioreactors are engineered systems designed to remove nitrate from contaminated waters, particularly those influenced by agricultural practices. By utilising a solid carbon ...

Although much of bioprocessing still relies on large stainless-steel bioreactors, many biotherapy manufacturers are also turning to much smaller, single-use platforms, and that could be just the ...

Schematic of a typical bioreactor. Key components include the reactor tank, agitation system, feeding pump, thermal jacket, submerged aerator, and sensor probes for monitoring and maintaining optimal ...

Antibiotics that escape into the environment are widely recognized as a growing threat to ecosystems, wastewater treatment ...

Syngas biomethanation—converting CO/CO₂/H₂ into renewable methane—relies on coordinated microbial interactions.