3 research outputs found
Additional file 1: of A combined linkage, microarray and exome analysis suggests MAP3K11 as a candidate gene for left ventricular hypertrophy
Table S1. Coding variants under the linkage peaks for LVH proxy measurements. Table S2. Selected damaging variants in the coding regions contained in the linkage regions. Table S3. SKAT and burden tests for genes of interest. Table S4. Results of linkage analyses before (LOD1) and after (LOD2) regression on GWAS SNPs under the linkage peaks. Table S5. Descriptive statistics of the Rotterdam study population. Table S6. Replications results in the Rotterdam Study. Figure S1. Venn diagram showing the overlap between the different ERF genotyping experiments. Figure S2. Pedigrees segregating rs138968470. (DOCX 119Â kb
Additional file 3: of Exome-chip meta-analysis identifies novel loci associated with cardiac conduction, including ADAMTS6
Video S1. (Quicktime) Video to illustrate the DORV phenotype finding in an Adamts6 mutant heart. (MOV 1983 kb
Additional file 2: of Exome-chip meta-analysis identifies novel loci associated with cardiac conduction, including ADAMTS6
Figure S1. Manhattan plot for European and African-American ancestry single variant analysis. Figure S2. Quantile-quantile plot for European and African-American ancestry single variant analysis. Figure S3. Manhattan plot for EA single variant analysis. Figure S4. QQ plot for EA single variant analysis. Figure S5. Manhattan plot for AA single variant analysis. Figure S6. Quantile-quantile plot for AA single variant analysis. Figure S7. Miami plot European and African-American ancestry sex-stratified single variant analysis. Figure S8. Quantile-quantile plots for European and African-American ancestry sex-stratified single variant analyses. Figure S9. Normal morphology of adult Adamts6 heterozygous hearts. (DOCX 4290 kb