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Whole-genome sequencing data of individuals from the UK Biobank and Iceland and a somatic mutation barcoding strategy enabled detection of clonal hematopoiesis at scale. This comprehensive study provides insights into the epidemiology, somatic and germline genetics, and disease associations of clonal hematopoiesis.
Multi-ancestry genome-wide association meta-analyses identify risk loci for cannabis use disorder. Genomic structural equation modeling and genetic correlation analyses show overlap with several other traits, including impulsivity and psychopathology.
Phenotype imputation increases the effective sample size of major depressive disorder cases in UK Biobank, enhancing study power and polygenic risk score (PRS) accuracy. A new pleiotropy metric enables assessment of PRS specificity and comparison among different PRS models.
AutoComplete is a deep learning-based method that imputes missing phenotypes in population-scale biobank datasets, increasing effective sample sizes and improving power for genetic discoveries in genome-wide association studies.
Previous studies reported an effect of N6-methyladenosine (m6A) of super-enhancer RNAs (seRNAs) on chromatin accessibility and gene transcription. We investigated seRNA m6A levels in pancreatic ductal adenocarcinoma (PDAC) and found that aberrantly increased m6A methylation promoted local chromatin accessibility, resulting in increased transcription of oncogenes acting in PDAC progression.
We present an analysis that shows that although nearly half of the human genome comprises repetitive sequences, recombination between homologous repeats has a minor role in cancer chromosomal evolution.
The pancreas is an essential organ present in all vertebrates, and human pancreatic agenesis is an extremely rare disorder of largely unknown genetic determinants. A study now demonstrates that a primate-specific regulatory network controlled by the KRAB zinc-finger protein ZNF808 is essential for pancreas development.
Loss-of-function mutations in primate-specific ZNF808 cause pancreatic agenesis. Mechanistically, the loss of ZNF808 leads to the activation of the MER11 family of transposable elements in a regulatory capacity that ultimately induces a liver-specific program of gene expression during pancreatic differentiation.
The preparedness of Africa for genomic medicine remains a matter of debate because this question is always evaluated from a technological standpoint. Yet the resilience of African researchers and the cultural values of equity and fairness are important assets to be considered in planning for the future of genomic medicine in Africa.
In pancreatic duct adenocarcinoma, super-enhancer RNAs (seRNAs) have higher N6-methyladenosine (m6A) levels than in adjacent normal tissue due to upregulation of the METTL3 cofactor CFL1. Aberrant m6A seRNAs promote oncogene expression via the YTHDC2–MLL1 complex.
Circular extrachromosomal DNA in high-risk medulloblastoma contributes to tumor heterogeneity and associates with relapse and survival. Enhancer rewiring events involving known oncogenes are frequent events, affecting transcription and proliferation.
CRISPR activation/interference screens identify transcriptional regulators of human CD8+ T cells, including BATF3. BATF3 overexpression counteracts T cell exhaustion and enhances cancer immunotherapy in in vivo models.
JaBbA v1 pinpoints the ‘loose ends’ of large (>10-kb) unmapped structural variants in short-read DNA sequencing, suggesting that about 90% of cancer chromosomal alterations outside centromeres are resolvable with short reads and that long reads will primarily improve calling of smaller somatic variants.
A multi-ancestry genome-wide association study of prostate cancer performed in 156,319 cases and 788,443 controls identifies 187 novel risk variants associated with the disease. Genetic risk scores associated with overall risk, and risk of aggressive disease in men of African ancestry.
