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Thank you for your interest in our research! Below you will find our information pertaining to study enrollment with the Beggs Laboratory. Research goals The fundamental goals of the Beggs Laboratory are to understand the molecular genetics of the …
The fundamental goals of the Beggs Laboratory are to understand the molecular biology of skeletal muscle and to use this information to study inherited disorders of muscle function. To achieve this, our laboratory is taking four complementary approaches. …
Below is a list of Beggs Laboratory publications (with links) broken down by category. For a current, complete, unannotated listing of Beggs Lab papers, please search Pub Med for Beggs, AH . Disease Gene Discovery & Diagnosis of Muscle Disease Dyment DA, …
2021 Virtual SciFam Members of the Beggs Lab are excited to announce that they recently attended and presented at t he 2021 Virtual SciFam Conference (May 21-22, 2021). Click on the link to learn to more about this conference! Recent scientific …
Myotubular and centronuclear myopathies represent a heterogenous group of muscular conditions that is associated with muscle weakness, skeletal problems, abnormal gait and fatigability among other medical conditions. The clinical findings associated …
Nemaline Myopathy is a condition characterized by proximal muscle weakness, delayed motor milestones and occasionally respiratory insufficiency and feeding problems ( Sewry, Laitila, and Wallgren-Pettersson 2019 ). The condition is identified by muscle …
The intersection of normal and diseased blood formation The Rowe laboratory is interested in the intersection of normal and diseased blood formation. We incorporate the concept of heterochrony (timing of developmental events) into understanding the …
Samir Softic* , Jeremie Boucher*, Marie H. Solheim, Shiho Fujisaka, Max-Felix Haering, Erica P. Homan, Jonathon Winnay, Antonio R. Perez-Atayde, and C. Ronald Kahn. Lipodystrophy Due to Adipose Tissue Specific Insulin Receptor Knockout Results in …
If you're interested in joining the Softic Lab, or learning more about our projects please contact: samir.softic@childrens.harvard.edu contact-us Softic Lab | Contact Us Learn about open positions and submit to work with the Softic Lab at Boston …
Human neuron differentiation and phenotyping service The Human Neuron Core provides human neurons derived from induced pluripotent stem cell (iPSC) lines, including excitatory cortical neurons, GABA neurons, motor neuron and sensory neurons. Our …