引言在体内，酶 (enzyme) 常常被认为是最勤奋、最高效的工匠。它们以惊人的速度和精度催化着几乎所有的生物化学反应，从食物的消化到DNA的复制，无处不在。长期以来，理解并预测特定酶会与哪种底物 (substrate) 结合，即酶的底物特异性 ...

image: Enzyme substrate specificity involving material conversion processes is pertinent to e.g. biochemistry, metabolic engineering, and environmental remediation; however, it is one of the most ...

Researchers imagine autonomous nanosized devices sailing through the blood stream, detecting molecular signs of disease or delivering drugs. Such devices will need nanomotors that can drive and steer ...

Glycans are important complex carbohydrates found on cell surfaces that serve crucial roles in cell-to-cell communication, structure, and protection. They are attached to many proteins in the body, ...

Glycans are important complex carbohydrates found on cell surfaces that serve crucial roles in cell-to-cell communication, structure, and protection. They are attached to many proteins in the body, ...

Current demand for plastics and chemical raw materials is met through large-scale production of ethylene from fossil fuels.

Enzymes are essential for life and are one of the most important types of protein in the human body. Studying enzyme kinetics provides information about the diverse range of reactions in the human ...

Researchers from Tomsk Polytechnic University, together with their colleagues from Czech universities, have proposed a new approach to determine enzyme activity. The developed plasmon-active ...

Enzymes are biological catalysts that speed up chemical reactions in living organisms. They are essential for life, as they play a crucial role in various biological processes, such as digestion, ...

A new artificial intelligence-powered tool can help researchers determine how well an enzyme fits with a desired target, helping them find the best enzyme and substrate combination for applications ...