Clinical Research Center, Department of Laboratory Medicine, Karolinska Institutet, Huddinge SE 141 57, Sweden.
Int J Mol Sci. 2018 Oct 10;19(10):3101. doi: 10.3390/ijms19103101.
Conformational protein properties are coupled to protein functionality and could provide a useful parameter for functional annotation of differentially expressed genes in transcriptome studies. The aim was to determine whether predicted intrinsic protein disorder was differentially associated with proteins encoded by genes that are differentially regulated in lymphoma cells upon interaction with stromal cells, an interaction that occurs in microenvironments, such as lymph nodes that are protective for lymphoma cells during chemotherapy. Intrinsic disorder protein properties were extracted from the Database of Disordered Protein Prediction (D²P²), which contains data from nine intrinsic disorder predictors. Proteins encoded by differentially regulated cell-adhesion regulated genes were enriched in intrinsically disordered regions (IDRs) compared to other genes both with regard to IDR number and length. The enrichment was further ascribed to down-regulated genes. Consistently, a higher proportion of proteins encoded by down-regulated genes contained at least one IDR or were completely disordered. We conclude that down-regulated genes in stromal cell-adherent lymphoma cells encode proteins that are characterized by elevated levels of intrinsically disordered conformation, indicating the importance of down-regulating functional mechanisms associated with intrinsically disordered proteins in these cells. Further, the approach provides a generally applicable and complementary alternative to classification of differentially regulated genes using gene ontology or pathway enrichment analysis.
构象蛋白质特性与蛋白质功能相关联,可为转录组研究中差异表达基因的功能注释提供有用的参数。本研究旨在确定预测的内在蛋白质无序性是否与淋巴瘤细胞与基质细胞相互作用时差异调节的基因所编码的蛋白质有差异相关,这种相互作用发生在微环境中,如在化疗期间对淋巴瘤细胞具有保护作用的淋巴结。内在无序蛋白质特性从无序蛋白预测数据库(D²P²)中提取,该数据库包含来自九个内在无序预测器的数据。与其他基因相比,细胞黏附调节基因差异调节的基因所编码的蛋白质在无序区域(IDR)中更为丰富,无论是在 IDR 数量还是长度方面。这种富集进一步归因于下调基因。一致地,下调基因编码的蛋白质中至少含有一个 IDR 或完全无序的比例更高。我们得出结论,基质细胞黏附性淋巴瘤细胞中下调的基因编码的蛋白质具有高水平的内在无序构象,这表明在这些细胞中下调与内在无序蛋白相关的功能机制的重要性。此外,该方法为使用基因本体论或途径富集分析对差异调节基因进行分类提供了一种普遍适用且互补的替代方法。
