This work is licensed under a Creative Commons Attribution 3.0 Unported License.-- et al. ; Advances in sequencing technologies are giving unprecedented insights into the spectrum of somatic mutations underlying acute myeloid leukaemia with a normal karyotype (AML-NK). It is clear that the prognosis of individual patients is strongly influenced by the combination of mutations in their leukaemia and that many leukaemias are composed of multiple subclones, with differential susceptibilities to treatment. Here, we describe a method, employing targeted capture coupled with next-generation sequencing and tailored bioinformatic analysis, for the simultaneous study of 24 genes recurrently mutated in AML-NK. Mutational analysis was performed using open source software and an in-house script (Mutation Identification and Analysis Software), which identified dominant clone mutations with 100% specificity. In each of seven cases of AML-NK studied, we identified and verified mutations in 2-4 genes in the main leukaemic clone. Additionally, high sequencing depth enabled us to identify putative subclonal mutations and detect leukaemia-specific mutations in DNA from remission marrow. Finally, we used normalised read depths to detect copy number changes and identified and subsequently verified a tandem duplication of exons 2-9 of MLL and at least one deletion involving PTEN. This methodology reliably detects sequence and copy number mutations, and can thus greatly facilitate the classification, clinical research, diagnosis and management of AML-NK. ; We acknowledge the use of the National Institute of Health Research (NIHR) Biomedical Research Centre, University of Cambridge. We thank Drs J Craig and C Crawley of Cambridge University NHS Hospitals trust for allowing us to approach their patients for samples. GV is funded by a Wellcome Trust Senior Fellowship in Clinical Science. Work in GV’s laboratory is also funded by Leukaemia Lymphoma Research and the Kay Kendal Leukaemia Fund. ; Peer Reviewed