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Suspension bead array branch migration displacement assay for rapid STR analysis
Author(s) -
Villablanca Andrea,
Karhanek Miloslav,
Caramuta Stefano,
Yu Heng,
Jejelowo Olufisayo,
Webb Chris D.,
Pourmand Nader
Publication year - 2008
Publication title -
electrophoresis
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.666
H-Index - 158
eISSN - 1522-2683
pISSN - 0173-0835
DOI - 10.1002/elps.200700866
Subject(s) - multiplex , str analysis , bead , throughput , microsatellite , computational biology , biology , computer science , materials science , genetics , gene , telecommunications , allele , composite material , wireless
STR analysis is commonly used in forensic and genetic studies. STRs are currently discriminated based on size, primarily by gel‐ and column‐based approaches. Hybridization‐based approaches have the potential to allow high‐throughput analysis of STRs; however, development of such approaches has been limited by the difficulty in discriminating between STRs of similar length. We have recently described several innovations to enable STR analysis using an array‐based hybridization approach for high‐ throughput STR analysis. Here we extend that approach by incorporating the array into microspheres and adding a discriminatory branch migration displacement step. This microsphere‐based platform uses Luminex xMAP technology and improves the sensitivity, selectivity, and speed of the assay. We demonstrate the feasibility, speed, and reliability of the assay for STR detection by correctly analyzing two STR loci in 20 forensic DNA samples of known STR type. The multiplex, bead‐based approach provides a high‐throughput and more portable STR analysis.