As medical genetics has progressed from a descriptive entity to one focused on the functional relationship between genes and clinical disorders, emphasis has been placed on genomics. Genomics, a subelement of genetics, is the study of the genome, the sum total of all the genes of an organism. The human genome, which is contained in the 23 pairs of nuclear chromosomes and in the mitochondrial DNA of each cell, comprises >6 billion nucleotides of genetic code. There are some 23 000 protein-coding genes, a surprisingly small fraction of the total genetic material, with the remainder composed of noncoding DNA, regulatory sequences, and introns. The Human Genome Project, launched in 1990, produced a draft of the genome in 2001 and then a finished sequence in 2003, on the 50th anniversary of the initial publication of Watson and Crick’s paper on the double-helical structure of DNA. Since then, this mass of genetic information has been translated at an ever-increasing pace into useable knowledge applicable to clinical medicine. The recent advent of massively parallel DNA sequencing (also known as shotgun, high-throughput, and next-generation sequencing) has brought whole-genome analysis into the clinic for the first time, and most of the current applications are directed at children with congenital conditions that are undiagnosable by using standard genetic tests for single-gene disorders. Thus, pediatricians must become familiar with this technology, what it can and cannot offer, and its technical and ethical challenges. Here, we address the concepts of human genomic analysis and its clinical applicability for primary care providers.
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December 2013
Supplement Article|
December 01 2013
Whole-Exome/Genome Sequencing and Genomics
Wayne W. Grody, MD;
Wayne W. Grody, MD
aDivisions of Medical Genetics and Molecular Pathology, Departments of Pathology and Laboratory Medicine, Pediatrics, and Human Genetics, UCLA School of Medicine, Los Angeles, California;
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Barry H. Thompson, MD;
Barry H. Thompson, MD
bAmerican College of Medical Genomics and Genetics, Bethesda, Maryland; and
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Louanne Hudgins, MD
cDivision of Medical Genetics, Department of Pediatrics, Stanford University School of Medicine/Lucile Packard Children’s Hospital, Stanford, California
Address correspondence to Louanne Hudgins, MD, FAAP, FACMG, Division of Medical Genetics, Department of Pediatrics, Stanford University School of Medicine/Lucile Packard Children’s Hospital, 300 Pasteur Dr, H315, Stanford, CA 94305-5208. E-mail: [email protected]
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Address correspondence to Louanne Hudgins, MD, FAAP, FACMG, Division of Medical Genetics, Department of Pediatrics, Stanford University School of Medicine/Lucile Packard Children’s Hospital, 300 Pasteur Dr, H315, Stanford, CA 94305-5208. E-mail: [email protected]
FINANCIAL DISCLOSURE: The authors have indicated they have no financial relationships relevant to this article to disclose.
Pediatrics (2013) 132 (Supplement_3): S211–S215.
Article history
Accepted:
August 28 2013
Citation
Wayne W. Grody, Barry H. Thompson, Louanne Hudgins; Whole-Exome/Genome Sequencing and Genomics. Pediatrics December 2013; 132 (Supplement_3): S211–S215. 10.1542/peds.2013-1032E
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