Title | Integrative subcellular proteomic analysis allows accurate prediction of human disease-causing genes. |
Publication Type | Journal Article |
Year of Publication | 2016 |
Authors | Zhao, L, Chen, Y, Bajaj, AOnkar, Eblimit, A, Xu, M, Soens, ZT, Wang, F, Ge, Z, Jung, SYun, He, F, Li, Y, Wensel, TG, Qin, J, Chen, R |
Journal | Genome Res |
Volume | 26 |
Issue | 5 |
Pagination | 660-9 |
Date Published | 2016 May |
ISSN | 1549-5469 |
Keywords | Animals, Eye Proteins, Gene Expression Profiling, Humans, Mice, Photoreceptor Cells, Proteomics, Retinal Diseases, Transcriptome |
Abstract | Proteomic profiling on subcellular fractions provides invaluable information regarding both protein abundance and subcellular localization. When integrated with other data sets, it can greatly enhance our ability to predict gene function genome-wide. In this study, we performed a comprehensive proteomic analysis on the light-sensing compartment of photoreceptors called the outer segment (OS). By comparing with the protein profile obtained from the retina tissue depleted of OS, an enrichment score for each protein is calculated to quantify protein subcellular localization, and 84% accuracy is achieved compared with experimental data. By integrating the protein OS enrichment score, the protein abundance, and the retina transcriptome, the probability of a gene playing an essential function in photoreceptor cells is derived with high specificity and sensitivity. As a result, a list of genes that will likely result in human retinal disease when mutated was identified and validated by previous literature and/or animal model studies. Therefore, this new methodology demonstrates the synergy of combining subcellular fractionation proteomics with other omics data sets and is generally applicable to other tissues and diseases. |
DOI | 10.1101/gr.198911.115 |
Alternate Journal | Genome Res |
PubMed ID | 26912414 |
PubMed Central ID | PMC4864458 |
Grant List | R01 EY020540 / EY / NEI NIH HHS / United States R01 EY007981 / EY / NEI NIH HHS / United States R01 EY025218 / EY / NEI NIH HHS / United States T32 GM008280 / GM / NIGMS NIH HHS / United States R01 EY026545 / EY / NEI NIH HHS / United States R01 EY022356 / EY / NEI NIH HHS / United States R01 EY018571 / EY / NEI NIH HHS / United States T32 GM008307 / GM / NIGMS NIH HHS / United States |
Integrative subcellular proteomic analysis allows accurate prediction of human disease-causing genes.
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