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The recent advancement eliminated the need for elevated temperatures and severe chemicals in chlorination. The procedure developed by the chemists at Rice University offers a more eco-friendly approach to incorporating chlorine into various other chemicals.
Study in US: The chemists at Rice University have crafted a greener method for integrating chlorine into plastics, pharmaceuticals, pesticides, and other vital products. This recent discovery will also lower the expenses associated with the process.
Julian West, an assistant professor of chemistry and a Scholar with the Cancer Prevention and Research Institute of Texas (CPRIT) has spearheaded this discovery. The innovative method does not necessitate harsh chemicals or high temperatures, rather it requires iron and sulfur catalysts along with gentle blue light.
“Our technique employs sustainable, cost-effective catalysts and functions at room temperature with mild blue light. It delivers a pinpoint, effective method to chlorinate molecules without the ecological and purification issues posed by traditional methods,” West stated.
“It’s thrilling that this approach might pave the way for innovative modifications of pharmaceuticals and natural substances in ways that were not achievable with prior methods,” West added.
Rice University’s Significant Advancement For ‘Smart Cell’ Fabrication
The bioengineers at Rice University have developed a new modular kit that is regarded as a significant advancement in synthetic biology. This kit facilitates the creation of custom sense-and-respond circuits within human cells. This discovery has the potential to transform treatments for cancer and autoimmune disorders.
“Envision microscopic processors within cells composed of proteins that can ‘decide’ how to react to specific signals such as inflammation, tumor growth indicators or glucose levels,” stated Xiaoyu Yang, a graduate student in the Systems, Synthetic, and Physical Biology Ph.D. program at Rice.
“This research brings us significantly closer to the capability of constructing ‘smart cells’ that can identify signs of illness and promptly release tailored treatments accordingly,” Yang added.
“The novel strategy for artificial cellular circuit design is based on phosphorylation — a natural mechanism cells utilize to respond to their environment that entails the addition of a phosphate group to a protein. Phosphorylation plays a role in a diverse array of cellular functions, encompassing the translation of external signals into internal reactions — for instance, movement, secretion of substances, reaction to pathogens, or gene expression,” the official statement from Rice University articulates.
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