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The Takahashi Laboratory conducts research on a variety of problems in brain development and neuroscience. One line of research concerns typical and atypical development of brain connectivity and gyral formation ranging from fetal to young adult ages. …
2018 Levman J, Takahashi E, Forgeron C, MacDonald P, Stewart N, Lim A, Martel A. A sorting statistic with application in neurological magnetic resonance imaging of autism. 2017. J. Healthcare Eng. In Press. Kang D-W, Kim D, Chang L-H, KimY-H, Takahashi …
Principal Investigator Denisa D. Wagner, Ph.D. Office Phone: 617.713.8300 Fax: 617.713.8333 wagner@idi.harvard.edu Instructor Naamah Zitomersky M.D. Lab Manager Stephen Cifuni B.S. 617.713.8303 Stephen.Cifuni@childrens.harvard.edu Medical Student Elise …
The Ploegh Laboratory is interested in molecular aspects of immune recognition . This pursuit is complemented by the development of new technologies. These include the application of enzymatic methods for site-specific labeling of proteins . We then …
Cheloha RW, Fisher FA, Woodham AW, Daley E, Suminski N, Gardella TJ, Ploegh HL. Improved GPCR ligands from nanobody tethering. Nat Comm. 2020 11: 2087. View abstract Rehm FBH, Harmand TJ, Yap K, Durek T, Craik DJ, Ploegh HL. Site-specific sequential …
gallery Ploegh Lab | Gallery … Gallery …
Optic nerve regeneration : Inflammation, oncomodulin, and transcriptional control The inability of neurons to regenerate axons within the CNS has devastating consequences for victims of stroke, spinal cord injury, and other CNS insults. Due to its …
Eye for Growth: New protein prompts optic nerve regrowth Video: Dr. Larry Benowitz discusses Optic Nerve Regeneration Axon Regeneration in the CNS: Insights from the Optic Nerve Vision restoration to optic nerve regeneration news-and-lectures In the News …
1. Identification of novel genes mutated in various rare diseases The goals of the project is to understand the genetic and molecular underpinnings of various orphan diseases include Ohtahara syndrome (a devastating seizure disorder), ROHHAD syndrome (a …
At Stanford University from 1971-1977, while working on his Ph.D. with Robert Schimke, Fred Alt developed a mammalian cell subtractive hybridization approach that ultimately allowed him to discover gene amplification and genomic instability in mammalian …