The Friedrich Miescher Institute for Biomedical Research (FMI) is part of the Novartis Research Foundation and is a world-class center for basic research in life sciences based in Basel, Switzerland. The FMI is devoted to the pursuit of fundamental biomedical research. Areas of expertise are: In these fields the FMI has gained international recognition as a center of excellence in innovative biomedical research. Research is carried out in 22 independent but highly interactive research teams. In addition, seven technology platforms, ranging from functional genomics to microscopy and imaging, support the research activities with cutting-edge technology. As of 2011, the institute counts 320 collaborators of which 90 are postgraduate students participating in the FMI International PhD Program, 100 are postdoctoral collaborators and 22 are research group leaders. Since 2004, the institute is led by Susan M. Gasser. in chronological order The FMI is an affiliated institute of the University of Basel. It provides biomedical research and career training for over 90 PhD students. FMI selects its highly international student body during a twice-yearly interview-based selection program.
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Over the past few years, artificial intelligence—or AI—has started to revolutionize the world as we know it: some people now ask AI-based chatbots to write essays and summarize documents, others use AI-powered virtual ...
Oct 17, 2023
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Antipsychotic drugs are used to treat and manage symptoms of many psychiatric disorders, but their mechanisms of action remain a mystery. FMI researchers have found that antipsychotics reduce long-range communication within ...
Jul 18, 2023
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Craniofacial birth defects, including cleft lip and palate, are among the most common human congenital malformations. Now, FMI researchers have identified a DNA region containing multiple regulatory elements that interact ...
Jun 6, 2023
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The emergence of autism traits can result from different factors, such as a person's environment and genetic background. FMI researchers and their Novartis collaborators showed that exposing mice with an autism mutation to ...
Feb 28, 2022
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For amplifying sensory stimuli quickly and accurately, neuronal circuits require specific wiring. Some 70 years ago, the compelling idea that "neurons that fire together wire together" emerged. Yet, in computational models, ...
Dec 23, 2021
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Despite its crucial role in healthy pregnancies, the placenta is one of the least understood organs in the human body. In a new study, Margherita Yayoi Turco and her colleagues compared the two main experimental models of ...
Nov 8, 2021
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When neurons communicate with each another, they transmit—or "fire"—small electrical impulses called action potentials or spikes. These action potentials are the fundamental units of information processing in the brain. ...
Aug 3, 2021
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For decades, a key brain area called the mesencephalic locomotor region has been thought to merely regulate locomotion. Now, researchers in Silvia Arber's group have shown that the region is involved in much more than walking, ...
Jul 26, 2021
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Long considered 'junk," non-coding RNAs have emerged as important regulators of diverse cellular processes, including the silencing of genes. Working in yeast, researchers from the Bühler group have identified more than ...
Jul 12, 2021
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Using miniature guts grown in a dish and 3D biophysical modeling, FMI researchers and their collaborators have uncovered the forces that give the intestinal wall its classic brushlike appearance. The findings can help to ...
Jun 22, 2021
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