There’s a laundry list of hyaluronic acid’s benefits: It helps plump, hydrate, and moisturize the skin (hello, improved skin texture and skin elasticity). This means it can help with the ...

Get Instant Summarized Text (Gist) The completion of the final synthetic chromosome in the yeast genome marks a significant advancement in synthetic biology. This achievement enables the creation ...

a breakthrough in synthetic biology. Published in Nature Communications, this achievement includes a novel tRNA neochromosome and provides a platform for developing resilient, sustainable ...

The transfer of this principle to artificial cells is a challenge in synthetic biology. Advances in DNA nanotechnology now offer promising solutions. They allow the creation of novel transport ...

Thus, a very valuable instrument can be added to the toolbox of synthetic biology. Prof. Laura Na Liu and her team published their findings in the journal Nature Materials ("Morphology remodelling and ...

Synthetic biology holds promise but requires careful oversight to ensure that its development causes minimal to no harm, according to experts. This discipline aims to apply engineering principles to ...

Hyaluronic acid (HA) is a substance naturally found in the skin and joints that helps retain moisture. It is commonly used in skincare products to improve skin hydration, reduce the appearance of ...

Second, the Jiangnan University team used synthetic biology to produce hyaluronic acid with ordinary molecular weight by microbial fermentation, reducing the cost to several hundred yuan per kilogram, ...

hyaluronic acid is only our basic plate." Synthetic biology becomes the next key word of Huaxi biology. Zhao Yan defines Huaxi Bio, which is currently developing, as "a biotechnology company driven by ...

Synthetic biology is an interdisciplinary field that combines principles from biology, engineering, computer science, and other disciplines to design and construct biological systems, organisms ...

Scientists at the Max Planck Institute have developed a synthetic pathway that can capture CO 2 from the air more efficiently than in nature, and shown how to implement it into living bacteria.