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The advent of next-generation sequencing has facilitated large-scale discovery, validation and assessment of genetic markers for high density genotyping. The present study was undertaken to identify markers in genes supposedly related to wood property traits in three  Eucalyptus  species. Ninety four genes involved in xylogenesis were selected for hybridization probe based nuclear genomic DNA target enrichment and exome sequencing. Genomic DNA was isolated from the leaf tissues and used for on-array probe hybridization followed by Illumina sequencing. The raw sequence reads were trimmed and high-quality reads were mapped to the  E. grandis  reference sequence and the presence of single nucleotide variants (SNVs) and insertions/ deletions (InDels) were identified across the three species. The average read coverage was 216X and a total of 2294 SNVs and 479 InDels were discovered in  E. camaldulensis , 2383 SNVs and 518 InDels in  E. tereticornis , and 1228 SNVs and 409 InDels in  E. grandis . Additionally, SNV calling and InDel detection were conducted in pair-wise comparisons of  E. tereticornis  vs.  E. grandis ,  E. camaldulensis  vs.  E. tereticornis  and  E. camaldulensis  vs.  E. grandis . This study presents an efficient and high throughput method on development of genetic markers for family– based QTL and association analysis in  Eucalyptus .

Development of Genetic Markers in Eucalyptus Species by Target Enrichment and Exome Sequencing