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Hu, Yingwei; Pan, Jianbo; Shah, Punit; Ao, Minghui; Thomas, Stefani N.; Liu, Yang; Chen, Lijun; Schnaubelt, Michael; Clark, David J.; Rodriguez, Henry; Boja, Emily S.; Hiltke, Tara; Kinsinger, Christopher R.; Rodland, Karin D.; Li, Qing Kay; Qian, Jiang; Zhang, Zhen; Chan, Daniel W.; Zhang, Hui; Pandey, Akhilesh; Paulovich, Amanda; Hoofnagle, Andrew; Zhang, Bing; Mani, D.R.; Liebler, Daniel C.; Ransohoff, David F.; Fenyo, David; Tabb, David L.; Levine, Douglas A.; Kuhn, Eric; White, Forest M.; Whiteley, Gordon A.; Zhu, Heng; Shih, Ie-Ming; Bavarva, Jasmin; McDermott, Jason E.; Whiteaker, Jeffrey; Ketchum, Karen A.; Clauser, Karl R.; Ruggles, Kelly; Elburn, Kimberly; Ding, Li; Hannick, Linda; Zimmerman, Lisa J.; Watson, Mark; Thiagarajan, Mathangi; Ellis, Matthew J.C.; Oberti, Mauricio; Mesri, Mehdi; Sanders, Melinda E.; Borucki, Melissa; Gillette, Michael A.; Snyder, Michael; Edwards, Nathan J.; Vatanian, Negin; Rudnick, Paul A.; McGarvey, Peter B.; Mertins, Philip; Townsend, R. Reid; Thangudu, Ratna R.; Smith, Richard D.; Rivers, Robert C.; Slebos, Robert J.C.; Payne, Samuel H.; Davies, Sherri R.; Cai, Shuang; Stein, Stephen E.; Carr, Steven A.; Skates, Steven J.; Madhavan, Subha; Liu, Tao; Chen, Xian; Zhao, Yingming; Wang, Yue; Shi, Zhiao
Cell reports (Cambridge), 10/2020, Letnik: 33, Številka: 3Journal Article
Many gene products exhibit great structural heterogeneity because of an array of modifications. These modifications are not directly encoded in the genomic template but often affect the functionality of proteins. Protein glycosylation plays a vital role in proper protein functions. However, the analysis of glycoproteins has been challenging compared with other protein modifications, such as phosphorylation. Here, we perform an integrated proteomic and glycoproteomic analysis of 83 prospectively collected high-grade serous ovarian carcinoma (HGSC) and 23 non-tumor tissues. Integration of the expression data from global proteomics and glycoproteomics reveals tumor-specific glycosylation, uncovers different glycosylation associated with three tumor clusters, and identifies glycosylation enzymes that were correlated with the altered glycosylation. In addition to providing a valuable resource, these results provide insights into the potential roles of glycosylation in the pathogenesis of HGSC, with the possibility of distinguishing pathological outcomes of ovarian tumors from non-tumors, as well as classifying tumor clusters. Display omitted •Proteomics and glycoproteomics of 83 ovarian cancer and 23 relevant non-tumor tissues•Glycosylation is associated with three tumor clusters•Tumor-specific changes of glycoproteins and glycosites are apparent•Enzymes responsible for the glycosylation alterations are identified Hu et al. provide an integrated proteomic and glycoproteomic characterization of high-grade serous ovarian carcinomas and relevant non-tumor tissues, which reveals tumor-specific glycosylation, uncovers different glycosylation associated with three tumor clusters, and identifies glycosylation enzymes correlated with glycosylation alterations.
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