Computational Physics: the study and implementation of numerical analysis to solve problems in physics for which a quantitative theory already exists. Historically, computational physics was the first application of modern computers in science, and is now a subset of computational science. Computational physics is the subject that deals with numerical approximations: the approximation of the solution is written as a finite (and typically large) number of simple mathematical operations (algorithm), and a computer is used to perform these operations and compute an approximated solution and respective error.
The US Brain Research through Advancing Innovative Neurotechnologies is a research program focused on building fundamental knowledge of how brain circuits process information to enable human...
Autosomal dominant missense mutations that hyperactivate the LRRK2 protein kinase are a common cause of inherited Parkinson’s disease and therapeutic efficacy of LRRK2 inhibitors is be...
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
Miltenyi Biotec offers a variety of neuroscience and immunology workflows that cover all steps from sample preparation and cell isolation to cell culture and flow cytometry. Discover the bre...
We present here a framework to generate a realistic multiscale circuit model of the larval zebrafish brain – the multiscale virtual fish (MVF). The model will be based on algorithms in...
The locomotion of humans and other animals requires a seamless flow of information from sensory modalities all the way to the motor periphery. As such, locomotion is an excellent system for...
Centhaquine (previously used names, centhaquin and PMZ-2010; International Non-proprietary Name (INN) recently approved by WHO is centhaquine) is being developed by us as a first-in-class re...
Misfolded and accumulated neurodegenerative disease associated proteins (NDAPs, such as tau and alpha-synuclein) represent the major pathological hallmark in Alzheimer’s and Parkinson&...
Open Science has changed research by making data accessible and shareable, contributing to replicability to accelerate and disseminate knowledge. However, for rodent cognitive studies the av...
Chaperone networks are dysregulated with aging, but whether compromised Hsp70/Hsp90 chaperone function disturbs neuronal resilience is unknown. Stress‐inducible phosphoprotein 1 (STI1; STIP1...
Recent technological advancements in neuroprosthetics allow for wireless recording and stimulation of brain activity in freely moving human participants. At the same time, advancements in vi...
Early phase clinical trials investigating novel applications of neural devices, such as deep brain stimulation (DBS) devices, pose ethical challenge during the recruitment of human subjects...
Normal behavior in any moving animal, including humans, relies on communication between motor systems that control movements, and the sensory systems we use to guide these actions. A critica...
Brain machine interfaces or neural prosthetics have the potential to restore movement to people with paralysis or amputation, bridging gaps in the nervous system with an artificial device. M...
I describe a framework for improving the targeting and precision of transcranial magnetic stimulation (TMS), a noninvasive brain stimulation technique used for research and clinical applicat...
The dopamine D4 receptor (D4R) is enriched in the prefrontal cortex where it plays important roles in cognition, attention, decision making and executive function. Novel D4R-selective ligand...
The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies su...
Striatal neuromodulation through G-protein-coupled receptors (GPCRs) regulates complex voluntary motor actions, involving decision-making, learning, and action selection. The dorsal striatum...
In Andalman et al, 2018, we explored the activity of over 10,000 neurons across more than 15 regions imaged simultaneously in larval zebrafish in a novel behavioral challenge paradigm. Compl...
DATE: October 30, 2019TIME: 7:00am PDTJoin us for a webinar to learn how to apply single cell methods to study cancer. Dr. William Greenleaf, Associate Professor from Stanford Universit...
Supercritical fluid chromatography (SFC) has historically been very effective for exacting difficult chiral separations, with an unmatched power in terms of enabling highly efficient enantios...
Chromatography is the first choice in separation technique for a wide selection of applications, across many fields, ranging from simple to highly complex extracts. The main rationale for it...
Copy-number alterations and chromosomal translocations are widespread in cancer and frequently causing oncogenic mutations that drive tumorigenesis and therapy resistance. Despite their preva...
DATE: October 1, 2019TIME: 8:00am PTIn the webinar, Introduction to Characterization of Biomolecules Using Analytical Ultracentrifugation, we discussed the fundamentals of analytical...
The US Brain Research through Advancing Innovative Neurotechnologies is a research program focused on building fundamental knowledge of how brain circuits process information to enable human...
Autosomal dominant missense mutations that hyperactivate the LRRK2 protein kinase are a common cause of inherited Parkinson’s disease and therapeutic efficacy of LRRK2 inhibitors is be...
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
Miltenyi Biotec offers a variety of neuroscience and immunology workflows that cover all steps from sample preparation and cell isolation to cell culture and flow cytometry. Discover the bre...
We present here a framework to generate a realistic multiscale circuit model of the larval zebrafish brain – the multiscale virtual fish (MVF). The model will be based on algorithms in...
The locomotion of humans and other animals requires a seamless flow of information from sensory modalities all the way to the motor periphery. As such, locomotion is an excellent system for...
Centhaquine (previously used names, centhaquin and PMZ-2010; International Non-proprietary Name (INN) recently approved by WHO is centhaquine) is being developed by us as a first-in-class re...
Misfolded and accumulated neurodegenerative disease associated proteins (NDAPs, such as tau and alpha-synuclein) represent the major pathological hallmark in Alzheimer’s and Parkinson&...
Open Science has changed research by making data accessible and shareable, contributing to replicability to accelerate and disseminate knowledge. However, for rodent cognitive studies the av...
Chaperone networks are dysregulated with aging, but whether compromised Hsp70/Hsp90 chaperone function disturbs neuronal resilience is unknown. Stress‐inducible phosphoprotein 1 (STI1; STIP1...
Recent technological advancements in neuroprosthetics allow for wireless recording and stimulation of brain activity in freely moving human participants. At the same time, advancements in vi...
Early phase clinical trials investigating novel applications of neural devices, such as deep brain stimulation (DBS) devices, pose ethical challenge during the recruitment of human subjects...
Normal behavior in any moving animal, including humans, relies on communication between motor systems that control movements, and the sensory systems we use to guide these actions. A critica...
Brain machine interfaces or neural prosthetics have the potential to restore movement to people with paralysis or amputation, bridging gaps in the nervous system with an artificial device. M...
I describe a framework for improving the targeting and precision of transcranial magnetic stimulation (TMS), a noninvasive brain stimulation technique used for research and clinical applicat...
The dopamine D4 receptor (D4R) is enriched in the prefrontal cortex where it plays important roles in cognition, attention, decision making and executive function. Novel D4R-selective ligand...
The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies su...
Striatal neuromodulation through G-protein-coupled receptors (GPCRs) regulates complex voluntary motor actions, involving decision-making, learning, and action selection. The dorsal striatum...
In Andalman et al, 2018, we explored the activity of over 10,000 neurons across more than 15 regions imaged simultaneously in larval zebrafish in a novel behavioral challenge paradigm. Compl...
DATE: October 30, 2019TIME: 7:00am PDTJoin us for a webinar to learn how to apply single cell methods to study cancer. Dr. William Greenleaf, Associate Professor from Stanford Universit...
Supercritical fluid chromatography (SFC) has historically been very effective for exacting difficult chiral separations, with an unmatched power in terms of enabling highly efficient enantios...
Chromatography is the first choice in separation technique for a wide selection of applications, across many fields, ranging from simple to highly complex extracts. The main rationale for it...
Copy-number alterations and chromosomal translocations are widespread in cancer and frequently causing oncogenic mutations that drive tumorigenesis and therapy resistance. Despite their preva...
DATE: October 1, 2019TIME: 8:00am PTIn the webinar, Introduction to Characterization of Biomolecules Using Analytical Ultracentrifugation, we discussed the fundamentals of analytical...
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