Understanding the cellular and molecular mechanisms underlying human neurological disorders is hindered by both the complexity of the disorders and the lack of suitable experimental models recapitulating key pathologi...Understanding the cellular and molecular mechanisms underlying human neurological disorders is hindered by both the complexity of the disorders and the lack of suitable experimental models recapitulating key pathological features of the disease.This is a crucial issue since a limited understanding of pathogenic mechanisms precludes the development of drugs counteracting the progression of the disease.Among neurological disorders,展开更多
To understand how differentially methylated genes(DMGs)might affect the pathogenesis of Kashin-Beck disease(KBD).Genome-wide methylation profiling of whole blood from 12matched KBD and controls pairs was performed...To understand how differentially methylated genes(DMGs)might affect the pathogenesis of Kashin-Beck disease(KBD).Genome-wide methylation profiling of whole blood from 12matched KBD and controls pairs was performed using a high-resolution Infinium 450 K methylation array.In total,97 CpG sites were differentially展开更多
文摘Understanding the cellular and molecular mechanisms underlying human neurological disorders is hindered by both the complexity of the disorders and the lack of suitable experimental models recapitulating key pathological features of the disease.This is a crucial issue since a limited understanding of pathogenic mechanisms precludes the development of drugs counteracting the progression of the disease.Among neurological disorders,
基金supported by grants from the National Natural Science Foundation of China(No.81273007)
文摘To understand how differentially methylated genes(DMGs)might affect the pathogenesis of Kashin-Beck disease(KBD).Genome-wide methylation profiling of whole blood from 12matched KBD and controls pairs was performed using a high-resolution Infinium 450 K methylation array.In total,97 CpG sites were differentially
