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High-resolution genotyping via whole genome hybridizations to microarrays containing long oligonucleotide probes.


ABSTRACT: To date, microarray-based genotyping of large, complex plant genomes has been complicated by the need to perform genome complexity reduction to obtain sufficiently strong hybridization signals. Genome complexity reduction techniques are, however, tedious and can introduce unwanted variables into genotyping assays. Here, we report a microarray-based genotyping technology for complex genomes (such as the 2.3 GB maize genome) that does not require genome complexity reduction prior to hybridization. Approximately 200,000 long oligonucleotide probes were identified as being polymorphic between the inbred parents of a mapping population and used to genotype two recombinant inbred lines. While multiple hybridization replicates provided ?97% accuracy, even a single replicate provided ?95% accuracy. Genotyping accuracy was further increased to >99% by utilizing information from adjacent probes. This microarray-based method provides a simple, high-density genotyping approach for large, complex genomes.

SUBMITTER: Fu Y 

PROVIDER: S-EPMC2996289 | biostudies-literature | 2010

REPOSITORIES: biostudies-literature

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High-resolution genotyping via whole genome hybridizations to microarrays containing long oligonucleotide probes.

Fu Yan Y   Springer Nathan M NM   Ying Kai K   Yeh Cheng-Ting CT   Iniguez A Leonardo AL   Richmond Todd T   Wu Wei W   Barbazuk Brad B   Nettleton Dan D   Jeddeloh Jeff J   Schnable Patrick S PS  

PloS one 20101202 12


To date, microarray-based genotyping of large, complex plant genomes has been complicated by the need to perform genome complexity reduction to obtain sufficiently strong hybridization signals. Genome complexity reduction techniques are, however, tedious and can introduce unwanted variables into genotyping assays. Here, we report a microarray-based genotyping technology for complex genomes (such as the 2.3 GB maize genome) that does not require genome complexity reduction prior to hybridization.  ...[more]

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