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Experimental and Computational Genomics

$591,806P30FY2018CANIH

Johns Hopkins University, Baltimore MD

Investigators

Linked publications, trials & patents

Trial NCT02989636Trial NCT02516670Trial NCT02491411Trial NCT02489357Trial NCT02029950Trial NCT01935947Trial NCT01870596Trial NCT01783171Trial NCT01757639Trial NCT01578109Trial NCT01349972Trial NCT01349959Trial NCT01330173Trial NCT01264432Trial NCT01207726Trial NCT01207687Trial NCT01139970Trial NCT01132573Trial NCT01061749Trial NCT00971737Trial NCT00963807Trial NCT00899951Trial NCT00899548Trial NCT00898482Trial NCT00897338Trial NCT00897273Trial NCT00847171Trial NCT00795002Trial NCT00727441Trial NCT00673569Trial NCT00670917Trial NCT00660348Trial NCT00641303Trial NCT00641147Trial NCT00631137Trial NCT00616967Trial NCT00602771Trial NCT00588991Trial NCT00566098Trial NCT00524017Trial NCT00499733Trial NCT00499486Trial NCT00493025Trial NCT00492921Trial NCT00489281Trial NCT00478062Trial NCT00478010Trial NCT00471653Trial NCT00470093Trial NCT00469820Trial NCT00445484Trial NCT00433472Trial NCT00425477Trial NCT00407966Trial NCT00401024Trial NCT00389610Trial NCT00387465Trial NCT00381550Trial NCT00373191Trial NCT00369681Trial NCT00368914Trial NCT00363649Trial NCT00361296Trial NCT00356928Trial NCT00354640Trial NCT00343447Trial NCT00336063Trial NCT00334542Trial NCT00324870Trial NCT00313560Trial NCT00311623Trial NCT00305760Trial NCT00303927Trial NCT00293410Trial NCT00293397Trial NCT00293280Trial NCT00290732Trial NCT00287989Trial NCT00287872Trial NCT00281970Trial NCT00281866Trial NCT00278200Trial NCT00278161Trial NCT00278109Trial NCT00276744Trial NCT00276601Trial NCT00276588Trial NCT00274768Trial NCT00265915Trial NCT00265837Trial NCT00262834Trial NCT00258206Trial NCT00258180Trial NCT00255775Trial NCT00255710Trial NCT00245115Trial NCT00244959Trial NCT00242996Trial NCT00238368Trial NCT00238277

Abstract

ABSTRACT The Experimental and Computational Genomics Core (ECGC) is a newly created Core that integrates all of the cancer genomics services in the Sidney Kimmel Comprehensive Cancer Center (SKCCC). The primary mission of the Core is to allow SKCCC investigators to harness the ongoing revolution in cancer genomics to accelerate their basic discovery and translational research. The ECGC has streamlined services that were previously offered through three separate Cores: the Microarray Core, Next-Generation Sequencing Core and Bioinformatics Core. The new joint structure recognizes that the activities of the previous three Cores are highly interdependent and formalizes a long-standing commitment to coordinate computing resources, hiring and educational activities for the common good of the SKCCC. The newly created centralized structure has streamlined access to experimental and computational genomics technologies and expertise, and enhanced opportunities for didactic and hands-on education in both the experimental and computational aspects of cancer genomics. The immense laboratory and analytical expertise brought together in the newly integrated cross-disciplinary Core are now available, in a single and clearly defined Core, to all SKCCC investigators. The services provided by this Core are not available elsewhere. An SKCCC member looking to outside resources would need to independently talk with multiple vendors and would only be able to obtain piecemeal services. This Core is led by Leslie Cope, Ph.D.; Sarah Wheelan, M.D., Ph.D.; and Srinavasan Yegnasubramanian, M.D., Ph.D., who bring together multidisciplinary expertise in genomics technologies, computational biology and biostatistics/bioinformatics. The Core provides access to, and education in, state-of-the-art, next- generation sequencing, microarray technologies and analytical workflows for probing genomic alterations (including SNVs, indels and structural alterations), cancer epigenomics (e.g., ChIP-seq and DNA methylome), transcriptomics and metagenomics. For each project, the Core uses a multidisciplinary clinic model to establish and execute an experimental and analytical plan, first meeting with each investigator and then helping them through all aspects of their genomics experiments, including experimental design, high-throughput microarray or next-generation sequencing workflows, and computational/bioinformatics data analysis. Additionally, the Core provides extensive educational resources, including short courses, workshops and a symposium, so that investigators can gain the skills they need to fully understand and utilize the data and analyses generated. The success of this Core is evidenced by the high level of usage across nearly all Programs and the cited support in a large number of impactful publications, national/international conference abstracts and successful grant applications. SKCCC Managed Core Reporting Period: Jan. 1, 2015, to Dec. 31, 2015

View original record on NIH RePORTER →