The 2022 Nobel Prize in chemistry was awarded to Carolyn Bertozzi of Stanford University, to Morten Meldal of the University of Copenhagen, and – for the second time – to Barry Sharpless of The Scripps Research Institute “for the development of click chemistry and bioorthogonal chemistry.”

Click chemistry, the Nobel Committee’s Olof Ramström told reporters while announcing the prize, “is almost like it sounds – it’s all about linking different molecules.”

He likened click chemistry to a seatbelt buckle, whose interlocking parts can be attached to many different materials, linking them by snapping the two parts of the buckle together.

“The problem was to find good chemical buckles,” Ramström said – chemicals that “will easily snap together, and importantly, they won’t snap with anything else.”

3T Biosciences Inc. raised $40 million in a series A funding round to take forward a platform for identifying novel T-cell receptors (TCR) and their targets, which is based on the work of scientific co-founder K. Christopher Garcia of Stanford University.

PARIS – Researchers from the department of radiation oncology at the European Hospital Georges Pompidou (HEGP) and Stanford University School of Medicine have together developed a new artificial intelligence (AI) prediction tool for patients diagnosed with prostate cancer. These researchers have just published a validation of this interpretable AI model in Cancers. “It’s a question of distinguishing patients at risk of mortality from aggressive cancer that is spreading rapidly, from patients who might have far less aggressive cancer and who are not likely to die from it in under 10, 15 or even 20 years,” Jean-Emmanuel Bibault, radiotherapy oncologist at HEGP, told BioWorld.

The checkpoint molecule CD47 has high hopes riding on it in oncology as being the innate immune equivalent of PD-1. Multiple companies are developing blockers against CD47 and/or its ligand, SIRPa, for the treatment of various tumors.

The checkpoint molecule CD47 has high hopes riding on it in oncology as being the innate immune equivalent of PD-1. Multiple companies are developing blockers against CD47 and/or its ligand, SIRPa, for the treatment of various tumors.

To better tap into the potential of transcranial magnetic stimulation (TMS), Stanford University researchers developed a high-dose, precision-targeted protocol known as Stanford Accelerated Intelligent Neuromodulation Therapy (SAINT).

The novel coronavirus pandemic has been managed with widely varying degrees of success around the world. Artificial intelligence (AI), which can help to power all sorts of efforts, has been enlisted thus far in limited ways. But researchers at a virtual conference held on April 1 by the Stanford Institute for Human-Centered Artificial Intelligence explored some of the ongoing and potential applications of AI to systematize efforts to fight COVID-19.