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We are happy to support highly qualified individuals for postdoctoral fellowships through different mechanisms (such as Marie Curie, EMBO etc). An indicative list of opportunities can be found here: https://research.fas.harvard.edu/postdoc_opportunities Interested candidates should email Dr...

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Our lab focuses on unraveling the biochemistry and neuropathology underlying this complex neurodegenerative disorder. We take a systems-level approach to investigate the molecular mechanisms driving disease progression, particularly focusing on key protein pathways, including VPS35, USP30, LRRK2...

Functional MRI Processing for Mouse Micturition Studies Functional MRI (fMRI) studies in rodents is somewhat uncommon as it requires some cognitive or physiological stimulus that causes measurable changes in brain activity. This project however, lends itself well to fMRI studies as voiding induced...

Prior work by others suggests that renal nerves arise from several neuron subpopulations in sympathetic ganglia. It is possible that these specific subpopulations of neurons, as well as the CNS circuits that innervate them selectively control tubular transport, glomerular filtration rate or renin...

Thomas E. Scammell, MD Dept. of Neurology, Beth Israel Deaconess Medical Center 330 Brookline Avenue, Boston 02215, USA email: tscammel@bidmc.harvard.edu phone: 617-735-3260 Full PubMed Bibliography: https://pubmed.ncbi.nlm.nih.gov/?term=Scammell+TE&cauthor_id=28231463