AI Article Synopsis
- Beta thalassemia has a diverse range of mutations across different populations, necessitating accurate and cost-effective molecular characterization for screening and genetic counseling.
- Researchers developed six multiplex assays using MALDI-TOF mass spectrometry to detect 27 beta-thalassemia mutations in 165 patients, comparing its effectiveness with the Amplification Refractory Mutation System (ARMS).
- Results showed a high agreement rate (88.7%) between the two methods, with the MS method successfully identifying rare mutations missed by ARMS, confirming its potential as a superior and more efficient genotyping tool.
Article Abstract
Background: Beta thalassemia represents a great heterogeneity as over 300 mutations have been identified and each population at-risk has its own spectrum of mutations. Molecular characterization with high accuracy, sensitivity and economics is required for population screening and genetic counseling.
Methods: We used the MALDI-TOF mass spectrometry (MS) platform to develop novel multiplex assays for comprehensive detection of 27 mutations in beta-thalassemia patients. Six multiplex assays were designed to detect 13 common known ß-mutations, namely CD41/42, CD71/72, IVS1-5, IVS1-1, CD26, IVS2-654, CAP+1, CD19, -28, -29, IVS1-2, InCD (T-G) and CD17; and 14 rare ß-mutations, i.e. InCD (A-C), CD8/9, CD43, -86, CD15, Poly A, Poly T/C, IVS2-1, CD1, CD35/36, CD27/28, CD16, CD37, and 619bpDEL in 165 samples. We compared the efficiencies of genotyping by MS and Amplification Refractory Mutation System (ARMS). Discrepant results were confirmed by sequencing analysis.
Results: A total of 88.7% (260/293 allele) of MS and ARMS results was in agreement. More than fifty percent of the discrepant result was due to the false interpretation of ARMS results. Failed CD19 assay by MS method might be due to the assay design. The MS method detected 5 rare ß-mutations (CD15, CD35/36, CD8/9, Poly A and Poly T/C) presented in 13 alleles, which were not included in the ARMS screening panel.
Conclusion: We revealed that the MS method is a sensitive, high-throughput, highly automated, flexible, and cost-effective alternative to conventional ß-thalassemia genotyping methods.
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| http://dx.doi.org/10.1016/j.cca.2011.02.006 | DOI Listing |
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