The start of the innovation project “UNISONO: Sensor system for AI-driven clinical phenotyping with voice biomarkers for heart failure” was announced today by Zana Technologies GmbH, a German-based provider of Conversation and Voice AI technology for healthcare, together with Cosinuss° GmbH, a certified medical technology company specialized in mobile real-time measurement of vital parameters, and the Comprehensive Heart Failure Center (CHFC) at the University Hospital Würzburg.
Have you ever asked yourself this question? A team led by Würzburg biologists Dr. Patrick Schultheiss and Dr. Sabine Nooten now has the answer. In addition to the number, the distribution was also determined.
Does eye-contact always attract attention? Not in every case, as a research team at the University of Würzburg’s Institute of Psychology has recently shown. Why not? Because context matters.
Biologist Dr. Erik Frank is researching how an African ant species treats its wounded. To continue his work, the German Research Foundation (DFG) has now granted him an Emmy Noether group.
In the cultivation of organic cacao, many factors determine the yield. An international research team with scientists from the universities of Würzburgh and Göttingen has now identified important players and their combined effects.
Researchers at the Rudolf Virchow Center of the University of Würzburg have unveiled the crystal structures of UBA6 in complex with either ATP or the ubiquitin-like protein FAT10. These results provide the foundation to study the individual roles of UBA6 towards the attachment of either ubiquitin or FAT10 to target proteins and the downstream cellular pathways with possible implications for the etiology of certain tumors. This study was published in the journal Nature Communications.
Lymph nodes trigger very different immune responses – depending on which body tissue they are connected to. Special T cells are responsible for this newly discovered relation.
Completely unexpectedly, the enzyme ceramidase emerges as a new target structure for the therapy of SARS-CoV-2 infections. This is reported by Würzburg researchers in "Cells".
The Free State of Bavaria is funding a new research project on quantum sensors with three million euros. Among other things, it aims to further improve molecular and medical imaging.
Researchers at the University of Würzburg develop the "photoswitching fingerprint analysis". A unique technology that for the first time allows the analysis of molecular processes and the regulation of individual proteins in living cells with sub-10 nm spatial resolution. The application ranges from biological to medical research and has been published in the renowned journal Nature Methods.
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