PerkinElmer Inc. / Genetic Veterinary Sciences Inc. / Creative Commons / Signature Genomic Laboratories / /
Country
United States / /
Currency
pence / / /
Facility
Duke University / University of Texas Health Science Center / Emory University / /
IndustryTerm
mammalian systems / chromosomal product / Experimental inverted duplication systems / alpha satellite / insertion site / model systems / reciprocal terminal deletion products / inverted duplication product / /
OperatingSystem
Fork / /
Organization
Duke University / Emory University / National Institute of Health / Department of Biostatistics and Bioinformatics / Emory University School of Public Health / Emory University School of Medicine / Clinical Research Center / Registry and Research Society / Department of Pediatrics / Department of Human Genetics / University of Texas Health Science Center at San Antonio / / /
Position
Author / original author / Editor / /
ProvinceOrState
Texas / Pennsylvania / Georgia / Washington / /
PublishedMedium
PLOS Genetics / /
Technology
alpha / Bioinformatics / DNA synthesis / DNA Chip / hybridization / Genotype / Recombination / chromosome banding / Human Genome / /
Large Inverted Duplications in the Human Genome Form via a Fold-Back Mechanism Karen E. Hermetz1, Scott Newman1, Karen N. Conneely1,2, Christa L. Martin1¤a, Blake C. Ballif3¤b, Lisa G. Shaffer3¤b, Jannine D. Cody4,5,