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Full-Text Articles in Medical Genetics
Multiple Forms Of Atypical Rearrangements Generating Supernumerary Derivative Chromosome 15., Nicholas J Wang, Alexander S Parokonny, Karen N Thatcher, Jennette Driscoll, Barbara M Malone, Naghmeh Dorrani, Marian Sigman, Janine M Lasalle, N Carolyn Schanen
Multiple Forms Of Atypical Rearrangements Generating Supernumerary Derivative Chromosome 15., Nicholas J Wang, Alexander S Parokonny, Karen N Thatcher, Jennette Driscoll, Barbara M Malone, Naghmeh Dorrani, Marian Sigman, Janine M Lasalle, N Carolyn Schanen
Department of Pathology, Anatomy, and Cell Biology Faculty Papers
BACKGROUND: Maternally-derived duplications that include the imprinted region on the proximal long arm of chromosome 15 underlie a complex neurobehavioral disorder characterized by cognitive impairment, seizures and a substantial risk for autism spectrum disorders1. The duplications most often take the form of a supernumerary pseudodicentric derivative chromosome 15 [der(15)] that has been called inverted duplication 15 or isodicentric 15 [idic(15)], although interstitial rearrangements also occur. Similar to the deletions found in most cases of Angelman and Prader Willi syndrome, the duplications appear to be mediated by unequal homologous recombination involving low copy repeats (LCR) that are found clustered in the …
Characterization Of The Chicken Inward Rectifier K+ Channel Irk1/Kir2.1 Gene., Hideki Mutai, Lawrence C Kenyon, Emily Locke, Nami Kikuchi, John Carl Oberholtzer
Characterization Of The Chicken Inward Rectifier K+ Channel Irk1/Kir2.1 Gene., Hideki Mutai, Lawrence C Kenyon, Emily Locke, Nami Kikuchi, John Carl Oberholtzer
Department of Pathology, Anatomy, and Cell Biology Faculty Papers
BACKGROUND: Inward rectifier potassium channels (IRK) contribute to the normal function of skeletal and cardiac muscle cells. The chick inward rectifier K+ channel cIRK1/Kir2.1 is expressed in skeletal muscle, heart, brain, but not in liver; a distribution similar but not identical to that of mouse Kir2.1. We set out to explore regulatory domains of the cIRK1 promoter that enhance or inhibit expression of the gene in different cell types. RESULTS: We cloned and characterized the 5'-flanking region of cIRK1. cIRK1 contains two exons with splice sites in the 5'-untranslated region, a structure similar to mouse and human orthologs. cIRK1 has …