Featured News Image news | May 9 2024 Wu Tsai Neurosciences Institute Psychedelics Inside Out: How do LSD and psilocybin alter our perceptions? (Part ... This week on From Our Neurons to Yours, we talk with anesthesiologist Boris Heifets about how psychedelics work in the brain. How do tiny quantities of these chemicals alter our perception of reality? And what does that say about... reality? Image news | May 7 2024 Wu Tsai Neuro Exploring MRI's role in neuroscience research on model organisms Recognizing the potential for wider application in small-animal neuroscience research, the Neurosciences Preclinical Imaging Lab (NPIL) at Wu Tsai Neuro hosted its 3rd annual symposium and named the recipients of its Pilot Grants. Image news | May 2 2024 Wu Tsai Neurosciences Institute Psychedelics, placebo, and anesthetic dreams This week on From Our Neurons to Yours, we talk with anesthesiologist Boris Heifets about studies that could change our understanding of the renaissance in psychedelic medicine Image news | Apr 15 2024 Wu Tsai Neurosciences Institute Neuroscience sheds light on childhood gut disorders The recent discovery that intestinal neurons normally self-organize into a striped pattern around the time of birth could help explain wide-ranging GI disorders in children, say Wu Tsai Neuro Faculty Scholar Julia Kaltschmidt and her team News Filter & Sort Sort by ThemeNeuroDiscovery News Type (-) Research news Featured News Sort by Newest to oldest Oldest to newest Image news | Jun 28 2023 Stanford News New method offers unprecedented detail in tracking protein activity in living ce... Alice Ting and team develop TransitID, a powerful method for tracking protein activity in living cells through an unbiased approach. This study came out of the Neuro-Omics Initiative, a project funded by Wu Tsai Neuro's Big Ideas in Neuroscience program. Image news | Oct 18 2022 Wu Tsai Neuro Mapping the Membrane: New proteomic technique reveals secrets of dendrite develo... NeuroOmics technology lets researchers label and capture cell-surface proteins in intact, live tissue — opening opportunities to understand complex cellular interactions and future drug targets. Image news | May 24 2022 Wu Tsai Neurosciences Institute Neuro-omics initiative sheds light on how neuronal connections are formed New work from Wu Tsai Neuro affiliate Liqun Luo and his lab uses a novel proteomics technique developed through the Neuro-omics initiative to understand how a limited number of genes can specify trillions of unique connections. Image news | Jun 11 2021 Stanford School of Humanities and Sciences Attractive and repulsive forces between two multitasking molecules help assemble... Two multifunctional cell surface molecules help direct neural network assembly in the developing mouse brain Image news | May 25 2021 Stanford News Stanford bioengineers develop algorithm to compare cells across species Researchers created an algorithm to identify similar cell types from species – including fish, mice, flatworms and sponges – that have diverged for hundreds of millions of years, which could help fill in gaps in our understanding of evolution.
Image news | May 9 2024 Wu Tsai Neurosciences Institute Psychedelics Inside Out: How do LSD and psilocybin alter our perceptions? (Part ... This week on From Our Neurons to Yours, we talk with anesthesiologist Boris Heifets about how psychedelics work in the brain. How do tiny quantities of these chemicals alter our perception of reality? And what does that say about... reality?
Image news | May 7 2024 Wu Tsai Neuro Exploring MRI's role in neuroscience research on model organisms Recognizing the potential for wider application in small-animal neuroscience research, the Neurosciences Preclinical Imaging Lab (NPIL) at Wu Tsai Neuro hosted its 3rd annual symposium and named the recipients of its Pilot Grants.
Image news | May 2 2024 Wu Tsai Neurosciences Institute Psychedelics, placebo, and anesthetic dreams This week on From Our Neurons to Yours, we talk with anesthesiologist Boris Heifets about studies that could change our understanding of the renaissance in psychedelic medicine
Image news | Apr 15 2024 Wu Tsai Neurosciences Institute Neuroscience sheds light on childhood gut disorders The recent discovery that intestinal neurons normally self-organize into a striped pattern around the time of birth could help explain wide-ranging GI disorders in children, say Wu Tsai Neuro Faculty Scholar Julia Kaltschmidt and her team
Image news | Jun 28 2023 Stanford News New method offers unprecedented detail in tracking protein activity in living ce... Alice Ting and team develop TransitID, a powerful method for tracking protein activity in living cells through an unbiased approach. This study came out of the Neuro-Omics Initiative, a project funded by Wu Tsai Neuro's Big Ideas in Neuroscience program.
Image news | Oct 18 2022 Wu Tsai Neuro Mapping the Membrane: New proteomic technique reveals secrets of dendrite develo... NeuroOmics technology lets researchers label and capture cell-surface proteins in intact, live tissue — opening opportunities to understand complex cellular interactions and future drug targets.
Image news | May 24 2022 Wu Tsai Neurosciences Institute Neuro-omics initiative sheds light on how neuronal connections are formed New work from Wu Tsai Neuro affiliate Liqun Luo and his lab uses a novel proteomics technique developed through the Neuro-omics initiative to understand how a limited number of genes can specify trillions of unique connections.
Image news | Jun 11 2021 Stanford School of Humanities and Sciences Attractive and repulsive forces between two multitasking molecules help assemble... Two multifunctional cell surface molecules help direct neural network assembly in the developing mouse brain
Image news | May 25 2021 Stanford News Stanford bioengineers develop algorithm to compare cells across species Researchers created an algorithm to identify similar cell types from species – including fish, mice, flatworms and sponges – that have diverged for hundreds of millions of years, which could help fill in gaps in our understanding of evolution.