据麦姆斯咨询报道，日本筑波大学（University of Tsukuba）的研究人员开发了一种新材料，能更高效地利用酶，提高用于医疗保健及其它应用的电化学生物传感器中酶的反应效率和长期稳定性。此外，研究人员还大大提高了生物传感器的性能。

A research team from Osaka University investigates the impact of antioxidant enzymes on specific cell types and their role in ...

Researchers make use of small-angle X-ray scattering to reveal potential-dependent structural changes in redox enzymes used ...

Many foods are often advertised for their antioxidant properties. Antioxidants counteract what are known as reactive oxygen ...

Scientists improved enzyme-based biosensors by modifying MOFs to enhance electron transfer and enzyme stability. Enzymes are ...

This study presents a novel approach using metal-organic frameworks to enhance enzyme-electrode interactions, advancing ...

The peptide Palmitoyl-GHK (Pal-GHK) has garnered considerable attention in the scientific community due to its structural attributes and potential functional roles in biological research and cellular ...

Researchers at University of Tsukuba have developed a new material that harnesses the power of enzymes more effectively.

I look forward to seeing what the electron acceptor/s are for MftG. Overall, the data and conclusions support the role of MftG in ethanol metabolism as a mycofactocin redox enzyme. The work by Graca ...

Redox enzymes are proteins that catalyze oxidation-reduction reactions, which involve the transfer of electrons between molecules. Redox enzymes are crucial in bioelectrochemical devices, such as ...

Redox enzymes are proteins that catalyze oxidation-reduction reactions, which involve the transfer of electrons between molecules. Redox enzymes are crucial in bioelectrochemical devices ...