View clinical trials related to Gene Product Sequence Variation.
Filter by:Investigators aim to use comparative exome and/or genome sequencing to discover causative molecular lesions for phenotypes hypothesized to be caused by somatic mutations. For this study, investigators have targeted hypertrophic cardiomyopathy.
Source: Sample bank of Xijing Hospital and Children's Hospital Affiliated to Soochow University; Sample form: Whole blood; Estimated number of samples: 100 patients with ADHD and age, sex matched healthy controls; Case exclusion criteria: all kinds of neuropsychiatric disorders, IQ value of less than 70; Study protocol: 1. Using Qiagen kit to extract the genomic DNA of 200 microliters of blood. 2. UV spectrophotometer test DNA purity of 260/280 close to 1.8 (1.8 ± 0.05), the concentration of 100ng/μL or more before the next sequencing. 3. The extracted genomic DNA will be sent to Sangon Biology Engineering Limited Company (Shanghai) and sequenced to find candidate mutations related to ADHD risk sequence. According to NIH gene database, the longest transcript of NDRG2 (ID: 57447 gene, https://www.ncbi.nlm.nih.gov/nuccore/NC_000014.9? Report=genbank&from=21016763&to=21070872&strand=true) (a total of 17 exons and 16 introns and the gene 5 'UTR and 3' UTR region) will be alignmented sequences to find potential mutations. 4. Using the chi square analysis and other statistical methods to determine the relationship between the mutations and susceptibility to ADHD.