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Paper Details

Framework for microRNA variant annotation and prioritization using human population and disease datasets.
Hum Mutat
14
2019
ADmiRE, MicroRNA, cancer, cancers, esophageal cancers, gnomAD, hematologic cancers, human, intragenic, let-7, mature, miR, miR-, miR-142, miR-21, miRNA, miRNA Elements, miRNA families, miRNA variants, miRNAs, microRNA, protein-coding exonic regions, seed region, somatic
Author NameAffiliation
Ninad OakBaylor College of Medicine
Ninad OakTexas Children's Cancer Center, Texas Children's Hospital
Kuan-Lin HuangWashington University in St. Louis
Kuan-Lin HuangMcDonnel Genome Institute, Washington University in St. Louis
Kuan-Lin HuangWashington University in St. Louis
Kuan-Lin HuangMcDonnel Genome Institute, Washington University in St. Louis
David A WheelerBaylor College of Medicine
David A WheelerBaylor College of Medicine
David A WheelerBaylor College of Medicine
David A WheelerBaylor College of Medicine
Li DingWashington University in St. Louis
Li DingSiteman Cancer Center, Washington University in St. Louis
Li DingWashington University in St. Louis
Li DingMcDonnel Genome Institute, Washington University in St. Louis
Li DingWashington University in St. Louis
Li DingMcDonnel Genome Institute, Washington University in St. Louis
Li DingWashington University in St. Louis
Li DingSiteman Cancer Center, Washington University in St. Louis
Sharon E PlonBaylor College of Medicine
Sharon E PlonTexas Children's Cancer Center, Texas Children's Hospital
Sharon E PlonBaylor College of Medicine
Sharon E PlonBaylor College of Medicine
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