Project description:Next Generation RNA Sequencing was carried out on human paired left and right atrial appendages from patients with and without Atrial Fibrillation. EdgeR software was used to show a total of 247 genes were found to have significant differential expression between left and right atria.
Project description:The right and left atria have different susceptibilities towards developing arrhythmias, with left atrial arrhythmias more commonly observed. To study potential underlying causes of this difference between the two upper chambers of the heart, four human left-right atrial pairs were subjected to whole-genome expression analyses via next generation sequencing of small RNAs, including microRNAs (miRNAs), and polyA enriched mRNAs. Using a paired sample design, significant differences in gene expression were found between the left and right atria in both the poly-A and small RNA fractions. Hsa-miR-143 was the most highly expressed miRNA in the atria as quantified by RNA-seq. Gene expression differences established during development are retained into adulthood including that of PITX2 and BMP10. In addition ten novel non-coding RNAs were found to be differentially expressed between the left and right atrias .
Project description:We report the mRNA sequencing of right and left atria from an adult inducible, cardiomyocyte-specific Notch gain-of-function mouse model (iNICD). Using the tetracycline-on system, we activated Notch by feeding doxycycline chow for 3 weeks to mice that were at least 8 weeks old. We asked what transcriptional changes occur in right versus left atrial cardiomyocytes in response to the same stimulus (Notch signaling). mRNA sequencing on separated right and left atria revealed that there are more differentially dysregulated transcripts (1,011) than similarly regulated transcripts (447) in the right and left atria, which is a simiar paradigm as what occurs in human atrial cardiomyocytes of patients with atrial fibrillation.
Project description:We report the application of a pericentriolar material 1 (PCM-1) based cardiomyocyte-specific nuclear isolation protocol on human cardiac tissue to specifically ask what transcriptional changes occur in cardiomyocytes of humans with atrial fibrillation. We performed RNA-sequencing on the cardiomyocyte-specific nuclear RNA and found that there are more differentially dysregulated (1343) than similarly regulated transcripts (99) in the right versus left atria. This study is the first of its kind aimed at understanding the transcriptional changes that occur specifically in the left and right atrial cardiomyocytes of humans with atrial fibrillation.
