This application is a request for funds to support a program in Cell and Developmental Biology (CDB) at Harvard Medical School, which has offered graduate training in this discipline continuously since 1969. We request funds to support second-year students with interests in these tightly intertwined disciplines, reflecting both the interests of the incoming students and the number and diversity of the faculty. The CDB training program has 75 participating faculty and accepts students with a specific focus in Cell and Developmental Biology who have matriculated into the interdepartmental Biological and Biomedical Sciences (BBS) admissions portal. 40-50% of the incoming BBS students (22 in 2010) declare an interest in this discipline, making CDB a high priority within our educational mission. The CDB program plays the leading role in organizing the educational activities of these students and brings together faculty and students working in the areas of cell and developmental biology for teaching, intellectual exchange, mentoring and ultimately career building. Moreover, we provide students with a strong foundation in cell and developmental biology that will allow them to develop sound scientific hypotheses, to think broadly and criticall about their research and that of others, and to have an extensive understanding of relevant experimental methodologies. We recognize and address the challenges associated with training students in disciplines that are rapidly evolving, breaking traditional field barriers and incorporating new approaches and methodologies from fields as far apart as physics, engineering and mathematics. CDB is an interdepartmental program that draws faculty mainly from the departments of Cell Biology and Stem Cell and Regenerative Biology as well as from the other basic science departments at the Harvard Medical School. The research activities of our faculty are diverse representing major strengths in both classical areas in the field as well a emerging themes including stem cell biology, live imaging and quantitative biology. In addition to """"""""traditional"""""""" teaching approaches that cover broader topics in the form of courses, seminars, and discussions, we have developed novel teaching tools to ensure a dynamic and integrative educational experience for our students and increase their quantitative and computational skills and offer students many opportunities for interacting with the faculty. The development and coordination of these innovative teaching platforms and mentoring initiatives have been spearheaded by Ph.D.-level Curriculum Fellows who are supported by the Medical School and are dedicated to the graduate educational activities of the program. We view Cell and Developmental Biology for their intrinsic value to address fundamental biological problems but also as a conduit to understanding the molecular underpinnings of human biology and pathology. Given conservation of function, studies of model systems, such as yeast, worms, frogs, flies and mice, as well as in vitro models of human cells, have become significant tools for medicine.
Cell and Developmental Biology defines an educational cornerstone of modern biology and medicine. Breakthrough discoveries in this area require scientists who are not only well trained in the fundamentals of these disciplines but also capable of adapting to a rapidly advancing field, which constantly breaks traditional field barriers. This training grant seeks to train students seeking the PhD degree in these disciplines giving them the research and educational armamentarium that will allow them to thrive as researchers and scholars.
|Bezzerides, Vassilios J; Zhang, Aifeng; Xiao, Ling et al. (2017) Inhibition of serum and glucocorticoid regulated kinase-1 as novel therapy for cardiac arrhythmia disorders. Sci Rep 7:346|
|D'Gama, Alissa M; Woodworth, Mollie B; Hossain, Amer A et al. (2017) Somatic Mutations Activating the mTOR Pathway in Dorsal Telencephalic Progenitors Cause a Continuum of Cortical Dysplasias. Cell Rep 21:3754-3766|
|Jih, Gloria; Iglesias, Nahid; Currie, Mark A et al. (2017) Unique roles for histone H3K9me states in RNAi and heritable silencing of transcription. Nature 547:463-467|
|Jamuar, Saumya S; Schmitz-Abe, Klaus; D'Gama, Alissa M et al. (2017) Biallelic mutations in human DCC cause developmental split-brain syndrome. Nat Genet 49:606-612|
|Ubellacker, Jessalyn M; Haider, Marie-Therese; DeCristo, Molly J et al. (2017) Zoledronic acid alters hematopoiesis and generates breast tumor-suppressive bone marrow cells. Breast Cancer Res 19:23|
|Lim, Elaine T; Uddin, Mohammed; De Rubeis, Silvia et al. (2017) Rates, distribution and implications of postzygotic mosaic mutations in autism spectrum disorder. Nat Neurosci 20:1217-1224|
|Bezzerides, Vassilios J; Platt, Colin; Lerchenmüller, Carolin et al. (2016) CITED4 induces physiologic hypertrophy and promotes functional recovery after ischemic injury. JCI Insight 1:|
|Schmidt, Hayden R; Zheng, Sanduo; Gurpinar, Esin et al. (2016) Crystal structure of the human ?1 receptor. Nature 532:527-30|
|Platt, Colin; Houstis, Nicholas; Rosenzweig, Anthony (2015) Using exercise to measure and modify cardiac function. Cell Metab 21:227-236|
|Fink, Emma C; Ebert, Benjamin L (2015) The novel mechanism of lenalidomide activity. Blood 126:2366-9|
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