AI Article Synopsis
- Uveitis, an inflammation of the uveal tract, is a significant cause of blindness in young and middle-aged individuals, accounting for 10-15% of cases in the West.
- A computational method was developed in this study to identify novel genes related to uveitis by analyzing a large protein-protein interaction network using the Random Walk with Restart algorithm.
- The method successfully identified 56 candidate genes for future assessment, with several appearing critical to understanding the disease's pathogenesis.
Article Abstract
Uveitis, defined as inflammation of the uveal tract, may cause blindness in both young and middle-aged people. Approximately 10-15% of blindness in the West is caused by uveitis. Therefore, a comprehensive investigation to determine the disease pathogenesis is urgent, as it will thus be possible to design effective treatments. Identification of the disease genes that cause uveitis is an important requirement to achieve this goal. To begin to answer this question, in this study, a computational method was proposed to identify novel uveitis-related genes. This method was executed on a large protein-protein interaction network and employed a popular ranking algorithm, the Random Walk with Restart (RWR) algorithm. To improve the utility of the method, a permutation test and a procedure for selecting core genes were added, which helped to exclude false discoveries and select the most important candidate genes. The five-fold cross-validation was adopted to evaluate the method, yielding the average F1-measure of 0.189. In addition, we compared our method with a classic GBA-based method to further indicate its utility. Based on our method, 56 putative genes were chosen for further assessment. We have determined that several of these genes (e.g., , , and ) are likely to be important for the pathogenesis of uveitis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5454957 | PMC |
| http://dx.doi.org/10.3390/ijms18051045 | DOI Listing |
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