This application proposes a comprehensive pre-doctoral training program in Genetics and Cell Biology (GCB) at The Rockefeller University, an institution with a rich history in these areas. The GCB training program would be a specialized unit of the Ph.D. program at Rockefeller, and is specifically designed for genetics and cell biology training. This program will include required course work, to provide a strong intellectual foundation; a special seminar series, where trainees can present their results and gain experience in oral presentation; and extensive research opportunities. We will provide careful oversight of the trainees' activities and progress annually by meetings with the Program Director; a Program Advisory Committee of selected faculty for general curriculum and research advice; and a Faculty Advisory Committee, specifically designed for each trainee to provide detailed experimental guidance. The training faculty would be 51 strong investigators, ranging from full Professors, with extensive experience in training students, to newly hired Assistant Professors. The faculty has expertise in a very broad range of genetics and cell biology, ranging from the most basic to epidemiological studies on humans, and the program would encourage trainees to perform collaborative work in various areas with different faculty. The applicant pool is outstanding, containing a large number of undergraduate students who have superb academic and research accomplishments, and who are primarily interested in genetics and cell biology. Finally, the University provides extensive support for the graduate program in general, which would benefit the proposed training program. The confluence of these attributes defines a specific training program in genetics and cell biology that would equip trainees with the educational background, analytical abilities, and experimental expertise to forge future advances in biology.
Baker, Sarah K; Chen, Zu-Lin; Norris, Erin H et al. (2018) Blood-derived plasminogen drives brain inflammation and plaque deposition in a mouse model of Alzheimer's disease. Proc Natl Acad Sci U S A 115:E9687-E9696 |
McKenzie, Sean K; Kronauer, Daniel J C (2018) The genomic architecture and molecular evolution of ant odorant receptors. Genome Res 28:1757-1765 |
Hernandez, Nicholas; Melki, Isabelle; Jing, Huie et al. (2018) Life-threatening influenza pneumonitis in a child with inherited IRF9 deficiency. J Exp Med 215:2567-2585 |
Kottemann, Molly C; Conti, Brooke A; Lach, Francis P et al. (2018) Removal of RTF2 from Stalled Replisomes Promotes Maintenance of Genome Integrity. Mol Cell 69:24-35.e5 |
Kutscher, Lena M; Keil, Wolfgang; Shaham, Shai (2018) RAB-35 and ARF-6 GTPases Mediate Engulfment and Clearance Following Linker Cell-Type Death. Dev Cell 47:222-238.e6 |
Mirman, Zachary; Lottersberger, Francisca; Takai, Hiroyuki et al. (2018) 53BP1-RIF1-shieldin counteracts DSB resection through CST- and Pol?-dependent fill-in. Nature 560:112-116 |
Pulupa, Joan; Rachh, Manas; Tomasini, Michael D et al. (2017) A coarse-grained computational model of the nuclear pore complex predicts Phe-Gly nucleoporin dynamics. J Gen Physiol 149:951-966 |
Trible, Waring; Olivos-Cisneros, Leonora; McKenzie, Sean K et al. (2017) orco Mutagenesis Causes Loss of Antennal Lobe Glomeruli and Impaired Social Behavior in Ants. Cell 170:727-735.e10 |
Keil, Wolfgang; Kutscher, Lena M; Shaham, Shai et al. (2017) Long-Term High-Resolution Imaging of Developing C. elegans Larvae with Microfluidics. Dev Cell 40:202-214 |
Kutscher, Lena M; Shaham, Shai (2017) Non-apoptotic cell death in animal development. Cell Death Differ 24:1326-1336 |
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