Extended Blood Group Molecular Typing and Next-Generation Sequencing
Autor: | Meihong Liu, Teresita Mercado, Zhugong Liu, Richard Davey, Orieji Illoh |
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Rok vydání: | 2014 |
Předmět: |
Databases
Factual Genotype Clinical Biochemistry Biology Polymorphism Single Nucleotide DNA sequencing symbols.namesake HLA Antigens Isoantibodies Humans Multiplex Allele Indel Genotyping Techniques Genotyping Genetics Sanger sequencing Polymorphism Genetic Biochemistry (medical) High-Throughput Nucleotide Sequencing Hematology Blood Grouping and Crossmatching Blood Group Antigens symbols Gene Deletion |
Zdroj: | Transfusion Medicine Reviews. 28:177-186 |
ISSN: | 0887-7963 |
DOI: | 10.1016/j.tmrv.2014.08.003 |
Popis: | Several high-throughput multiplex blood group molecular typing platforms have been developed to predict blood group antigen phenotypes. These molecular systems support extended donor/patient matching by detecting commonly encountered blood group polymorphisms as well as rare alleles that determine the expression of blood group antigens. Extended molecular typing of a large number of blood donors by high-throughput platforms can increase the likelihood of identifying donor red blood cells that match those of recipients. This is especially important in the management of multiply-transfused patients who may have developed several alloantibodies. Nevertheless, current molecular techniques have limitations. For example, they detect only predefined genetic variants. In contrast, target enrichment next-generation sequencing (NGS) is an emerging technology that provides comprehensive sequence information, focusing on specified genomic regions. Target enrichment NGS is able to assess genetic variations that cannot be achieved by traditional Sanger sequencing or other genotyping platforms. Target enrichment NGS has been used to detect both known and de novo genetic polymorphisms, including single-nucleotide polymorphisms, indels (insertions/deletions), and structural variations. This review discusses the methodology, advantages, and limitations of the current blood group genotyping techniques and describes various target enrichment NGS approaches that can be used to develop an extended blood group genotyping assay system. |
Databáze: | OpenAIRE |
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