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Center for Genomically Engineered Organs

$1,935,229RM1FY2017HGNIH

Harvard Medical School, Boston MA

Investigators

Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): The Center for Genomically Engineered Organs (CGEO) will combine cutting edge genomics, genome editing technology, and tissue engineering methods to develop improved models of complex tissues. These tissues will be producible in laboratories from reprogrammed or genetically modified stem or other cells, will contain multiple cell types and vasculatures, and will be designed and rigorously compared against natural (healthy or diseased) tissues so that they match closely at both a molecular level and in overall tissue architecture. These model tissues have potential to greatly expedite biomedical progress by providing researchers a way to conduct preliminary tests of theories about normal and disease biology quickly and inexpensively in their laboratories before they have to move on to costly and potentially invasive experiments on animals or humans. CGEOs research is divided into three Aims. In Aim 1, CGEO will develop methods to comprehensively analyze tissues in situ at a molecular level, by acquiring high-throughput RNA expression, protein expression, and epigenomic data together in each of the tissue's individual cells, along with the locations of these molecules in these cells. In Aim 2, CGEO will develop and apply innovative computational algorithms that compare the cells in the model tissues against their corresponding natural counterparts and assess systematically not only how closely their corresponding cell type molecular profiles match, but also compare their overall cell architectures and relationships. These algorithms will also specify how genome editing and engineering can be used to improve the matching between the engineered cells in the model tissue and the natural cells of the native tissue. CGEO will apply these technologies to build model tissues important to neurobiology and hematopoiesis, and, finally, in Aim 3, also apply them to in vitro cultured embryos and germ line tissues in mice, which has potential to reveal pathways that will enable models of all tissues to be generated in a laboratory. CGEO is a collaboration of six laboratories in the Boston area with combined expertise in advanced genomic and proteomic technology, genome engineering, developmental systems, stem cell technology, epigenetics, super-resolution microscopy, and tissue engineering. The CGEO team comprises Professors George Church (Principal Investigator), David Sinclair, and Chao-Ting Wu (all from Harvard Medical School), Ed Boyden (MIT), George Daley (Children's Hospital), and Jennifer Lewis (Wyss Institute at Harvard).

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