Summary: | In 2015, Cancer is the second leading cause of death worldwide. Genetic predisposition in familial cancer cases is largely unexplained. At the same time, rapid development in sequencing technology results in an unprecedented increase in the amount of whole exome- and whole genome sequencing data. The studies in this thesis take advantage of the technology and explore possibilities to identify genetic factors behind cancer development. In paper I, we identified 12 novel non-synonymous single nucleotide variants, which were shared among 5 affected members of a family with gastric- and rectal cancer. The mutations were found in 12 different genes; DZIP1L, PCOLCE2, IGSF10, SUCNR1, OR13C8, EPB41L4B, SEC16A, NOTCH1, TAS2R7, SF3A1, GAL3ST1, and TRIOBP. None of the mutations was suggested as a high penetrant mutation We propose this family, suggested to segregate dominant disease, could be an example of complex inheritance. In paper II, we identified a pathogenic variant in PTEN in a patient with a Cowden syndrome. We confirmed a pathogenic variant in PMS2 found in one of the samples suggested by another study. In addition, the study proposed 3 candidate missense variant in known cancer susceptibility genes (BMPR1A, BRIP1 and SRC), 3 truncating variants in possibly novel cancer genes (CLSPN, SEC24B and SSH2), 4 candidate missense variants (ACACA, NR2C2, INPP4A and DIDO1), and 5 possible autosomal recessive genes (ATP10B, PKHD1, UGGT2, MYH13 and TFF3). The study in paper III was to provide a comprehensive local reference database of 1,000 whole genome sequenced Swedish individuals. The samples were selected by principal component analysis from the Swedish Twin Registry (n=942) and The Northern Sweden Population Health Study (n=58). The result illustrated that the genetic diversity within Sweden is substantial compared with the diversity among continental European populations, confirming the importance this database. The aim of paper IV was to identify combinations of both known and unknown cancer processes in humans ...
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