Jasmine M. McCammon

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Deletion or duplication of one copy of the human 16p11.2 interval is tightly associated with impaired brain function, including autism spectrum disorders (ASDs), intellectual disability disorder (IDD) and other phenotypes, indicating the importance of gene dosage in this copy number variant region (CNV). The core of this CNV includes 25 genes; however, the(More)
Mental health disorders are notoriously difficult to diagnose and treat for a variety of reasons, including genetic heterogeneity, comorbidities, and qualitative diagnostic criteria. Discovery of the molecular pathology underlying these disorders is crucial to the development of quantitative biomarkers and novel therapeutics. In this review, we discuss(More)
The treatment of psychiatric disorders presents three major challenges to the research and clinical community: defining a genotype associated with a disorder, characterizing the molecular pathology of each disorder and developing new therapies. This Review addresses how cellular and animal systems can help to meet these challenges, with an emphasis on the(More)
The treatment of psychiatric disorders presents threemajor challenges to the research and clinical community: defining a genotype associated with a disorder, characterizing themolecular pathologyof eachdisorder anddevelopingnew therapies.ThisReviewaddresseshowcellularand animal systems can help to meet these challenges, with an emphasis on the role of the(More)
Advances in genome-editing technology have made creation of zebrafish mutant lines accessible to the community. Experimental validation of protein knockout is a critical step in verifying null mutants, but this can be a difficult task. Absence of protein can be confirmed by Western blotting; however, this approach requires target-specific antibodies that(More)
Deletion of the 16p11.2 CNV affects 25 core genes and is associated with multiple symptoms affecting brain and body, including seizures, hyperactivity, macrocephaly, and obesity. Available data suggest that most symptoms are controlled by haploinsufficiency of two or more 16p11.2 genes. To identify interacting 16p11.2 genes, we used a pairwise partial loss(More)
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