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 ...

Bacteria can sneakily evade our best efforts at eradication by developing resistance to various pressures in their ...

Underground environments like soil and aquifers teem with microbial life. These tiny microbes play a big role in cycling ...

Kimchi fermentation is a dynamic process in which a diverse array of microorganisms, primarily lactic acid bacteria (LAB) and yeasts, orchestrate the transformation of raw vegetables into a product ...

Methane, both a vital energy resource and a potent greenhouse gas, is produced and modified by a number of geological and biological processes. Recent advances in isotopic characterisation have ...

Infectious microbes have evolved sophisticated means to invade host cells, outwit the body’s defenses and cause disease. While researchers have tried to puzzle out the complicated interactions between ...

In today’s fast-paced biopharmaceutical industry, accelerating microbial process development is critical for moving from gene to GMP with greater speed and efficiency. This webinar will highlight ...

Scientists found that natural bacteria can eat methane, cut climate pollution, and turn waste gas into useful materials.

PHILADELPHIA, Oct. 16, 2025/PRNewswire/ -- As infectious disease leaders gather in Atlanta for IDWeek 2025 (October 19–22), Philadelphia-based biotech, LIV Process is shining a light on one of ...

An international team of scientists led by microbiologists Marc Mussmann and Alexander Loy from the University of Vienna has discovered a new microbial metabolism: so-called MISO bacteria "breathe" ...

These bacteria don’t eat food or breathe air like we do. All they need is to complete a circuit; that’s enough for them to live.