Array-MLPA: comprehensive detection of deletions and duplications and its application to DMD patients

Multiplex ligation-dependent probe amplification (MLPA) is widely used to screen genes of interest for deletions and duplications. Since MLPA is usually based on size-separation of the amplification products, the maximum number of target sequences that can be screened in parallel is usually limited...

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Veröffentlicht in:Human mutation 2008, Vol.29 (1), p.190-197
Hauptverfasser: Zeng, Fanyi, Ren, Zhao-Rui, Huang, Shang-Zhi, Kalf, Margot, Mommersteeg, Monique, Smit, Maarten, White, Stefan, Jin, Chun-Lian, Xu, Miao, Zhou, Da-Wen, Yan, Jing-Bin, Chen, Mei-Jue, van Beuningen, Rinie, Huang, Shu-Zhen, den Dunnen, Johan, Zeng, Yi-Tao, Wu, Ying
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Sprache:eng
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Zusammenfassung:Multiplex ligation-dependent probe amplification (MLPA) is widely used to screen genes of interest for deletions and duplications. Since MLPA is usually based on size-separation of the amplification products, the maximum number of target sequences that can be screened in parallel is usually limited to ~40. We report the design of a robust array-based MLPA format that uses amplification products of essentially uniform size (100-120 bp) and distinguishes between them by virtue of incorporated tag sequences. We were thus able to increase probe complexity to 124, with very uniform product yields and signals that have a low coefficient of variance. The assay designed was used to screen the largest set studied so far (249 patients) of unrelated Duchenne muscular dystrophy (DMD) cases from the Chinese population. In a blind study we correctly assigned 98% of the genotypes and detected rearrangements in 181 cases (73%); i.e., 163 deletions (65%), 13 duplications (5%), and five complex rearrangements (2%). Although this value is significantly higher for Chinese patients than previously reported, it is similar to that found for other populations. The location of the rearrangements (76% in the major deletion hotspot) is also in agreement with other findings. The 96-well flow-through microarray system used in this research provides high-throughput and speed; hybridization can be completed in 5 to 30 minutes. Since array processing and data analysis are fully automated, array-MLPA should be easy to implement in a standard diagnostic laboratory. The universal array can be used to analyze any tag-modified MLPA probe set. Hum Mutat 29(1), 190-197, 2008. © 2007 Wiley-Liss, Inc.
ISSN:1059-7794
1098-1004
DOI:10.1002/humu.20613