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MICRORNA-EXPRESSION SIGNATURES;; DNA METHYLATION;; OLDER PATIENTS;; PROGNOSTIC IMPACT;; DNMT3A MUTATIONS;; CANCER;; AML;; ISLANDS;; RISK;; HYPERMETHYLATION;; Oncology
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Full-Text Articles in Medicine and Health Sciences
Epigenetics Meets Genetics In Acute Myeloid Leukemia: Clinical Impact Of A Novel Seven-Gene Score, G. Marcucci, P. Yan, K. Maharry, D. Frankhouser, D. Nicolet, K. H. Metzeler, J. Kohlschmidt, K. Mrozek, J. E. Kolitz, C. D. Bloomfield, +21 Additional Authors
Epigenetics Meets Genetics In Acute Myeloid Leukemia: Clinical Impact Of A Novel Seven-Gene Score, G. Marcucci, P. Yan, K. Maharry, D. Frankhouser, D. Nicolet, K. H. Metzeler, J. Kohlschmidt, K. Mrozek, J. E. Kolitz, C. D. Bloomfield, +21 Additional Authors
Journal Articles
Purpose Molecular risk stratification of acute myeloid leukemia (AML) is largely based on genetic markers. However, epigenetic changes, including DNA methylation, deregulate gene expression and may also have prognostic impact. We evaluated the clinical relevance of integrating DNA methylation and genetic information in AML. Methods Next-generation sequencing analysis of methylated DNA identified differentially methylated regions (DMRs) associated with prognostic mutations in older ( 60 years) cytogenetically normal (CN) patients with AML (n = 134). Genes with promoter DMRs and expression levels significantly associated with outcome were used to compute a prognostic gene expression weighted summary score that was tested and …