High-Throughput Genotyping, Protein Purification Featured In Cold Spring Harbor Protocols
Main Category: GeneticsArticle Date: 04 Nov 2009 - 0:00 PDT
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The introduction of high-throughput laboratory methods has greatly increased the pace of research into the genetics of complex diseases. Instead of focusing only on one or a few coding variants in a small sample of individuals, the ability to accurately and efficiently genotype many individuals and to cover more of the variation within individual genes has resulted in genetic studies with greater statistical power. "Laboratory Methods for High-Throughput Genotyping," from Howard Edenberg and Yunlong Liu at the University of Indiana, presents an overview of the commonly used methods for high-throughput single-nucleotide polymorphism (SNP) genotyping for different stages of genetic studies and briefly reviews some of the high-throughput sequencing methods just coming into use. The authors also discuss recent developments in "next-generation" sequencing that will enable other kinds of studies. The article is excerpted from the recently published Genetics of Complex Human Diseases laboratory manual. It is featured in the November issue of Cold Spring Harbor Protocols and is freely available on the journal's website (http://cshprotocols.cshlp.org/cgi/content/full/2009/11/pdb.top62).
The tandem affinity purification (TAP) procedure was pioneered in yeast for the purpose of purifying and characterizing protein complexes and has since been adapted for use in many organisms, including mammalian systems. The TAP procedure involves two sequential affinity purification steps to avoid non-specific protein interactions, a common problem in identifying proteins in complexes. "Bimolecular Affinity Purification (BAP): Tandem Affinity Purification Using Two Protein Baits," from Ezra Burstein and colleagues, presents a variation on the TAP procedure in which the affinity moieties are placed on two different proteins of a molecular complex to isolate or detect components present in the complex. This variation, called bimolecular affinity purification (BAP), is suited for the identification of specific molecular complexes marked by the presence of two known components. The article is freely accessible on the website for Cold Spring Harbor Protocols (http://cshprotocols.cshlp.org/cgi/content/full/2009/11/pdb.prot5318).
Source: David Crotty
Cold Spring Harbor Laboratory
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