基于GEO和TCGA数据库分析促癌基因INHBA和抑癌基因CLCA4、CA4在结直肠癌中表达

目的:通过分析GEO数据库结直肠癌相关芯片集,寻找差异基因,并在TCGA数据库和GEO数据库进行验证,为结直肠癌的早期诊断寻找标志物。方法:分析GEO数据库结直肠癌相关芯片集GSE21510、GSE25071、GSE32323。分别分析差异基因,采用文恩图软件查找共同差异基因。进一步在TCGA数据库查找差异基因在结直肠癌中的表达及生存曲线。最后通过GEO数据库GSE24514验证差异基因的表达。结果:GSE21510,包含104例样本,共筛选出251个差异基因,其中上调基因146个,下调基因105个。GSE25071,包含50例样本,共筛选出669个差异基因,其中上调基因312个,下调基因357个。GSE32323,包含10例样本,共筛选出353个差异基因,其中上调基因115个,下调基因238个。在样本中上调基因为促癌基因,下调基因为抑癌基因。经文恩图分析,3个基因集交集共有15个基因,其中上调基因3个,下调基因12个。在TCGA数据库中查找差异基因的表达量和生存曲线,生存曲线选择结肠癌数据集,选取279个样本进行分析。根据差异基因的表达和生存曲线,最终确定促癌基因INHBA和抑癌基因CLCA4、CA4为结直肠癌的标志物。最后在GSE24514芯片集验证差异基因的表达。结论:通过GEO和TCGA数据库筛选及验证,发现在结直肠癌组织中INHBA基因明显上调,CLCA4、CA4基因明显下调。最终确定促癌基因INHBA和抑癌基因CLCA4、CA4可作为结直肠癌早期诊断的标志物。     

基于生物信息学筛选和鉴定结直肠癌关键的生物标志物

结直肠癌是世界范围内最为常见的恶性肿瘤之一,目前,关于结直肠癌的分子机制仍在不断的探索中。本文通过生物信息学方法筛选和鉴定结直肠癌关键的生物标志物。从基因表达数据库(GEO)选择了3个数据集[GSE21510(148个样本)、GSE32323(44个样本)、GSE15781(42个样本)],对差异基因的表达以及功能富集进行分析。通过建立蛋白互作网络,运用STRING和Cytoscape对分子进行分析。筛选出472个差异基因,其中上调基因212个,下调基因260个。差异基因的富集及其通路主要包括调节细胞增殖、识别受体信号通路、过氧化物酶体增殖物激活受体(PPAR)信号通路等。其中15个核心基因主要富集在受体蛋白信号通路、细胞表面受体信号和趋化因子信号通路上。生存分析表明,AGT、CXCL2可能参与致癌,促进癌症的转移,影响预后。通过对472个差异基因和15个核心基因的筛选识别,促癌基因AGT和CXCL2可能被视为结直肠癌的生物标志物,为结直肠癌的诊断、治疗和研究提供新的分子靶标。     

家族性高胆固醇血症HDL-miRNAs调节血单核细胞功能机制

本研究通过生物信息学方法分析家族性高胆固醇血症患者外周血单核细胞差异表达基因、HDL载体差异表达miRNA及其生物学功能,研究差异HDL-miRNA与单核细胞差异基因的相关性,探讨HDL-miRNA调控外周血单核细胞功能机制,寻找动脉粥样硬化防治新靶点。运用R语言分析GEO数据库共享平台家族性高胆固醇血症外周血单核细胞基因及HDL-miRNA探针芯片得到差异基因及差异miRNA,利用miRwalk2. 0预测miRNA靶基因,并利用STRING进行蛋白互作分析,构建差异miRNA与差异基因之间的调控网络。运用GO及KEGG分析研究基因功能。利用GEO数据(GSE6054)筛选出834个差异表达基因,利用GEO数据(GSE25108)筛选出HDL上差异miRNA28个。交叉匹配得到由19个差异miRNA和56个差异基因组配对的74对miRNA-靶基因。GO富集分析56个差异基因主要富集于肾上腺素受体信号等分子功能。KEGG分析56个差异基因主要富集于造血谱系通路上。家族性高胆固醇血症差异HDL-miRNA与外周血单核细胞差异mRNA具有相关性,HDL-miRNA有通过调控血单核细胞功能的可能性,可能参与高胆固醇血症导致动脉粥样硬化过程。     

SARS-CoV-2病毒感染潜在关键分子生物标志物及免疫浸润特征分析

应用生物信息学方法筛选新型冠状病毒肺炎（corona virus disease 2019,COVID-19）感染的潜在关键分子生物标志物并分析其免疫浸润特征。从GEO数据库下载GSE152418数据集,其中COVID-19患者17例,健康对照17例。用加权基因共表达网络分析（weighted gene co-expression network analysis,WGCNA）方法筛选出COVID-19最相关的模块基因。与差异基因取交集得到共同基因,进行功能及信号通路富集分析,构建蛋白互作网络筛选关键基因,构建关键基因的miRNA-TF-mRNA调控网络,用CIBERSORT算法预测样本免疫细胞浸润特征。差异分析得到2 049个差异基因。WGCNA分析7个模块中“土耳其蓝色”模块与COVID-19相关性最高（r=0.91,P<0.001）。模块中基因显著性和模块隶属度呈显著正相关（r=0.96,P<0.001）。得到共同基因766个,主要参与有丝分裂、微管结合、阳离子通道活性及卵母细胞减数分裂、细胞衰老等。蛋白互作网络筛选到前10位关键基因分别为CDK1、BUB1、CCNA2、CDC20、KIF11、BUB1B、CDCA8、TOP2A、CCNB2、KIF20A,构建的miRNA-TF-mRNA网络包含51个miRNA、5个TF、10个mRNA。COVID-19患者较健康对照组幼稚B细胞、嗜酸性粒细胞浸润水平显著降低（P<0.05）,浆细胞、活化肥大细胞浸润水平显著升高（P<0.05）。通过WGCNA及蛋白互作网络分析筛选出10个关键基因,并预测到调控关键基因的5个TF及51个miRNA,且COVID-19患者与健康对照的免疫浸润特征存在统计学差异,这些与免疫细胞相关的分子标志物可能作为COVID-19免疫治疗的潜在靶标。     

浆液性卵巢癌铁死亡关键基因的筛选及[]生物信息学分析

利用生物信息学方法筛选浆液性卵巢癌相关铁死亡关键基因,并预测其生物学功能。从GEO数据库中获得有关浆液性卵巢癌的数据集GSE54388和GSE12470,采用R语言中的“Limma”包分析挑选浆液性卵巢癌上皮组织与正常卵巢上皮组织中差异表达基因,绘制火山图、热图。利用Venn软件在线工具绘制GSE54388,GSE12470,FerrDb三个数据集韦恩图。对相关基因进行功能富集分析、蛋白互作分析、生存分析,对关键基因绘制ROC曲线进行诊断分析。采用GEPIA2 数据库对筛选基因进行验证,并进行免疫浸润分析。结果发现:从GSE54388中筛选出2458个差异基因,其中上调1309个,下调1149个。从GSE12470中筛选出3534个差异基因,其中上调1 837个,下调1 697个。与铁死亡基因数据集取交集,共得到16个差异基因,蛋白互作网络筛选出7个基因构建的关键模块,绘制生存曲线发现浆液性卵巢癌患者中5个基因与患者总生存率不良相关,其中NRAS,PSAT1,CDKN2A,GDF15这4个基因高表达,CAV1低表达。ROC曲线显示这5个基因中CAV1,NRAS,PSAT1的AUC诊断曲线面积大于0.95,有较高的诊断价值。GEPIA2 数据库验证发现5个基因的表达情况与预测相符,仅NRAS基因表达在浆液性卵巢癌患者Ⅱ期、Ⅲ期、Ⅳ期有显著差异(P<0.05)。免疫浸润分析发现CDKN2A表达与aDC细胞浸润水平呈正相关(P<0.05,spearman相关系数0.353);CAV1表达与Mast细胞浸润正向关(P<0.05,spearman相关系数0.327);NRAS与T helper细胞浸呈正向关(P<0.05,spearman相关系数0.362)。通过生物信息学方法筛选出与浆液性卵巢癌铁死亡相关的5个基因CAV1,NRAS,PSAT1,CDKN2A,GDF15,可能在浆液性卵巢癌的发生发展中起重要作用,有望成为该病诊断、治疗和预后的潜在分子生物标志物。     

三棱内酯B调控人冠状动脉内皮细胞基因表达谱的生物信息学分析

目的:分析三棱内酯B在人冠状动脉内皮细胞中的表达谱数据集,寻找三棱内酯B调控血管内皮功能的关键作用靶点。方法:基于GEO公共数据库,下载原始表达谱数据集(GSE44598),经过差异基因筛选,功能注释,通路富集,信号通路网络以及基因互作网络分析,找出三棱内酯B对人冠状动脉内皮细胞基因表达谱产生影响的关键基因和信号通路。结果:同对照组相比,三棱内酯B给药组共有5224个基因有显著性差异,包括2628个上调基因和2596个下调基因。基因功能注释和信号通路富集分析表明,差异基因主要参与了细胞周期过程。网络分析显示,MAPK信号通路、细胞周期通路以及PLCG2,PRKACA和ADCY4等为关键信号通路和基因。结论:三棱内酯B通过影响PLCG2,PRKACA,ADCY4等基因的表达,参与MAPK和细胞周期等信号通路,从而调节人冠状内皮细胞的功能。这些关键基因和信号通路是三棱内酯B在心血管疾病治疗应用中潜在的作用靶点。     

联合TCGA,GEO数据库分析THY1在胃癌中的表达及临床意义

为了研究THY1 (THYmocyte differentiation antigen 1)在胃癌中的表达情况,预测并探讨THY1参与肿瘤发生发展的可能机制及临床价值。本研究从GEO (Gene expression omnibus)数据库中选择GSE33335、GSE56807、GSE63089 3个芯片的数据,利用"limma"、"RobustRankAggreg".R语言包,找到3个芯片中共同的差异基因,并通过DAVID网站对差异基因进行功能通路富集分析,利用"ggplots".R语言包进行可视化分析。通过Kmplotter在线网站筛选跟胃癌生存预后相关的差异基因。利用Oncomine数据库探究THY1基因在不同癌症及胃癌中的差异表达。利用癌症基因组图谱TCGA (Cancer genome atlas)数据库获取胃癌数据集,随后以THY1的表达水平进行患者的生存分析和基因集富集分析(gene set enrichment analysis, GSEA),以期挖掘THY1的潜在临床意义及其分子机制。结果本研究发现THY1的表达水平与胃癌患者的生存预后相关,THY1高表达的患者总生存期明显短于低表达的患者(p0.001) THY1高表达样本富集了细胞黏附、细胞因子受体互作通路、ECM受体通路、粘着斑通路、骨架蛋白调控、癌症通路、TGF-β通路等基因集。研究结果表明,在胃癌中,THY1高表达是一种预后不良因素,可以作为预测患者转移发生、判断预后的有效生物标志物。     

应用GSEA和WGCNA方法分析细菌性败血症宿主关键差异基因及意义

【目的】采用生物信息学方法分析公共数据库来源的细菌性败血症患者全血转录组学表达谱,探讨细菌败血症相关的宿主关键差异基因及意义。【方法】基于GEO数据库中GSE80496和GSE72829全血转录组基因数据集,采用GEO2R、基因集富集分析(GSEA)联用加权基因共表达网络分析(WGCNA)筛选细菌性败血症患者相比健康人群显著改变的差异基因,通过R软件对交集基因进行GO功能分析和KEGG富集分析。同时,通过String 11.0和Cytoscape分析枢纽基因,验证枢纽基因在数据集GSE72809(Health组52例,Definedsepsis组52例)全血标本中的表达情况,并探讨婴儿性别、月(胎)龄、出生体重、是否接触抗生素等因素与靶基因表达谱间的关系。【结果】分析GSE80496和GSE72829数据集分别筛选得到932个基因和319个基因,联合WGCNA枢纽模块交集得到与细菌性败血症发病相关的10个枢纽基因(MMP9、ITGAM、CSTD、GAPDH、PGLYRP1、FOLR3、OSCAR、TLR5、IL1RN和TIMP1);GSEA分析获得关键通路(氨基酸糖类-核糖代谢、PPAR信号通路、聚糖生物合成通路、自噬调控通路、补体、凝血因子级联反应、尼古丁和烟酰胺代谢、不饱和脂肪酸生物合成和阿尔兹海默症通路)及生物学过程(类固醇激素分泌、腺苷酸环化酶的激活、细胞外基质降解和金属离子运输)。【结论】本项研究通过GEO2R、GSEA联用WGCNA分析,筛选出与细菌性败血症发病相关的2个枢纽模块、10个枢纽基因以及一些关键信号通路和生物学过程,可为后续深入研究细菌性败血症致病机制奠定理论依据。     

金针菇成熟期和伸长期菌盖的转录组与蛋白组比较分析

菌盖是大型真菌的重要组成部分,也是其产生有性孢子的部位,但是其发育机制仍不明确。本研究以金针菇Flammulina filiformis为材料,采用转录组和蛋白组联合分析的方法,比较分析了金针菇成熟期和伸长期菌盖的差异基因与蛋白,并对其进行GO (gene ontology)功能聚类分析、KEGG (Kyoto encyclopedia of genes and genomes)富集分析和蛋白互作网络分析。本研究筛选到差异表达基因有1 391个,差异表达蛋白147个,均以上调表达为主。GO功能聚类分析结果表明,催化活性(catalytic activity)条目富集基因最多,其次是细胞组分(cell part)、细胞过程(cellular process)和细胞器(organelle)。KEGG富集分析结果表明,差异表达基因和蛋白主要富集在碳水化合物代谢通路(carbohydrate metabolism)和氨基酸代谢通路(amino acid metabolism)等。本研究选取了9个关键的差异表达基因,使用实时荧光定量PCR (real-time quantitative PCR,RT-qPCR)对其表达量进行了验证。RT-qPCR验证结果与转录组测序结果相一致。蛋白互作网络分析表明,水解酶类、结构域类和转录调节类蛋白为互作网络的主要结点。本研究联合转录组、蛋白组测序数据,通过分析差异基因与蛋白,为深入了解金针菇菌盖发育机制提供数据参考。     

生物信息学分析筛选结直肠癌靶基因及评估预后价值

为寻找与结直肠癌发展和预后相关的潜在关键基因及信号通路。从美国国立信息中心NCBI的GEO数据库获得结直肠癌基因表达数据集GSE106582,通过PCA对样本进行分组,利用GEO2R进行综合分析,筛选结直肠癌与癌旁对照组的差异表达基因;通过DAVID在线工具对差异表达基因进行GO本体分析和KEGG通路富集分析,初步分析差异表达基因的生物学作用;基于STRING数据库对差异表达基因进行蛋白质相互作用网络分析,利用Cytoscape软件进行可视化并筛选关键基因;用生存分析和ROC曲线诊断对关键基因进行鉴定并通过数据集GSE21510进行验证。共鉴定出199个差异表达基因,其中53个为上调基因,146个为下调基因;上调的差异表达基因主要富集在与胶原蛋白分解代谢过程、细胞外基质分解、细胞外基质受体相互作用和PI3K/AKT信号通路等生物学过程;下调的差异表达基因主要富集在碳酸氢盐运输、一碳代谢过程、矿物质吸收、药物代谢-细胞色素P450和氮代谢通路等生物学过程;MCODE分析、生存分析和ROC诊断共发现3个基因分别为BGN、COL1A2和TIMP1可能与结直肠癌的发生发展有关,它们在肿瘤组织中的异常高表达与患者较差的生存期呈正相关,GSE21510的验证结果与GSE106582的分析结果相同。本研究采用生物信息学方法对CRC基因芯片数据进行挖掘,从基因水平探讨CRC潜在的发病机制、肿瘤标志物的及患者预后分子的筛选,以及可能的药物治疗靶点提供了一定的参考价值和理论基础。     

椎间盘退变纤维环及髓核异常表达基因的比较及生物信息学分析

目的:通过对已公开发表的基因芯片表达谱数据进行研究,探究椎间盘退变过程中纤维环与髓核组织的基因表达差异,并采用生物信息学方法对差异进行分析。方法:经GEO数据库选取两组椎间盘退变相关的基因芯片表达谱数据GSE23130及GSE67567,GSE23130所研究标本来源于正常及退变纤维环组织,GSE67567标本来源于正常及退变髓核组织。对上述数据系列进行质量分析,GSE23130及GSE67567各有10例样本数据被纳入实验。采用Gene Spring 13.0软件对GSE23130正常及退变纤维环间差异表达基因及GSE67567正常及退变髓核间差异表达基因分别进行筛选,利用KEGG PATHWAY和DAVID功能注释簇集分析分别对GSE23130及GSE67567上调及下调基因进行生物信息学分析。结果:GSE23130及GSE67567各筛选出差异表达基因3182个和3017个,其中135个基因在上述两个基因表达谱数据中均存在差异表达。针对两组数据进行的KEGG PATHWAY分析发现TGF-beta signaling pathway和regulation of apoptosis等数个相同的生物学通路及DAVID功能注释簇集;此外,还发现了数个与GSE23130及GSE67567单独相关的DAVID功能注释簇集。结论:椎间盘退变过程中纤维环及髓核组织内基因表达情况存在差异,两种组织内发生的生物过程不尽相同。某些生物学过程在两种组织内均出现异常改变,这些生物学过程中的异常变化可能是椎间盘退变的关键环节,值得进行深入研究。     

Identification of novel therapeutic targets for neuropathic pain based on gene expression patterns

Neuropathic pain (NP) caused by nerve injury or dysfunction is one of the most challenging neurological diseases. In-depth study of disease signatures contributes to the development of novel target treatment for NP. In this study, we analyzed expression profiles of qualified NP datasets (GSE24982 and GSE63442) deposited at Gene Expression Omnibus database by systematic bioinformatics approaches. We analyzed the differentially expressed genes of high and low pain compared with normal control group, and between spinal nerve ligation (SNL) injury model and sham-operation group. A total of 1,243 upregulated and 1,533 downregulated genes were identified in GSE24982, 380 upregulated and 355 downregulated genes were identified in GSE63442. By comparing low-pain samples with the corresponding sham-operation group, we identified 457 upregulated and 409 downregulated genes. Overlapping genes were screened out and signaling pathway and expression regulation model analyses were performed. SCN10A and SST were identified as biomarkers for NP. In conclusion, our study showed the expression pattern of gene about NP. These identified biomarkers could serve as potential therapeutic targets for treating NP.     

肾透明细胞癌Caki-1细胞系差异表达基因的生物信息学分析

目的比较肾透明细胞癌Caki-1细胞系与正常肾上皮细胞系ASE-5063中的差异表达基因（DEGs）,寻找潜在的肾透明细胞癌特异性分子标志物。 方法利用GEO数据库自带的GEO2R在线分析工具分析基因芯片GSE78179,将筛选出的DEGs分别导入Metascape、STRING以及Cytoscape进行综合分析并筛选出核心基因。最后使用FunRich等软件对筛选出的核心基因进行GO和KEGG富集分析。 结果共筛选出562个DEGs,其中上调基因345个,下调基因217个。进一步使用MCODE筛选出36个关键基因,GO功能分析发现这些基因与细胞粘附分子活性、趋化因子活性、细胞通讯和信号转导等密切相关;KEGG通路富集结果则表明差异基因主要集中在趋化因子信号通路、TNF信号通路以及NF-κB信号通路等多种与肿瘤相关的通路上。 结论运用生物信息学方法筛选出肾透明细胞癌Caki-1细胞系中DEGs,其中数个核心基因广泛参与多种肿瘤的病理进程,但尚未在肾透明细胞癌有相关研究报道,提示其可能是治疗肾透明细胞癌的潜在靶点。     

Identification of UGP2 as a progression marker that promotes cell growth and motility in human glioma

Glioblastoma (GBM) is one of the most common highly malignant primary brain tumor with poor prognosis. This study aimed to explore the possible mechanism by bioinformatics method and detect potential function of UGP2 of GBM. Gene expression microarray data of GSE4412 and messenger RNA-sequencing data of GBM with samples clinical information were downloaded from the Gene Expression Omnibus database and The Cancer Genome Atlas database, respectively. Differentially expressed genes (DEGs) analysis using the Kyoto Encyclopedia of Genes and Genomes and Gene Ontology based on R language. A total of 1000 common DEGs were identified in GBM samples, including 353 upregulated and 647 downregulated genes. Based on the random survival forest model, we identified UDP-glucose pyrophosphorylase 2 (UGP2) (upregulated gene) had a significant effect on GBM prognosis. Functional enrichment showed that UGP2 was enriched in the biological progresses of cell proliferation, migration, and invasion. Furthermore, UGP2 expression is aberrantly overexpressed in human glioma and positively correlated with pathologic grade. A loss-of-function study showed that knockdown of UGP2 decreases U251 cell growth, migration, and invasion in vivo and vitro. We proposed the development and progression of human glioma were associated with survival based on bioinformatics analysis. We also found that UGP2 might function as prognostic markers in the pathogenesis of GBM.     

Identification of key candidate genes and pathways in multiple myeloma by integrated bioinformatics analysis

Multiple myeloma (MM) is a common hematologic malignancy for which the underlying molecular mechanisms remain largely unclear. This study aimed to elucidate key candidate genes and pathways in MM by integrated bioinformatics analysis. Expression profiles GSE6477 and GSE47552 were obtained from the Gene Expression Omnibus database, and differentially expressed genes (DEGs) with p < .05 and [logFC] > 1 were identified. Functional enrichment, protein–protein interaction network construction and survival analyses were then performed. First, 51 upregulated and 78 downregulated DEGs shared between the two GSE datasets were identified. Second, functional enrichment analysis showed that these DEGs are mainly involved in the B cell receptor signaling pathway, hematopoietic cell lineage, and NF-kappa B pathway. Moreover, interrelation analysis of immune system processes showed enrichment of the downregulated DEGs mainly in B cell differentiation, positive regulation of monocyte chemotaxis and positive regulation of T cell proliferation. Finally, the correlation between DEG expression and survival in MM was evaluated using the PrognoScan database. In conclusion, we identified key candidate genes that affect the outcomes of patients with MM, and these genes might serve as potential therapeutic targets.     

DNA methylation-based diagnostic and prognostic biomarkers of nonsmoking lung adenocarcinoma patients

Currently, there are few studies on patients with nonsmoking lung adenocarcinoma, and the pathogenesis is still unclear. The role of DNA methylation in the pathogenesis of cancer is gradually being recognized. The purpose of this study was to determine the abnormal methylation genes and pathways involved in nonsmoking lung adenocarcinoma patients. Gene expression microarray data (GSE10072, GSE43458) and gene methylation microarray data (GSE62948) were downloaded from the Gene Expression Omnibus (GEO) database and differentially expressed genes were obtained through GEO2R. Next, we analyzed the function and enrichment of the selected genes using Database for Annotation, Visualization, and Integrated Discovery. The protein-protein interaction (PPI) networks were constructed using the Search Tool for the Retrieval of Interacting Genes database and visualized in Cytoscape. Finally, we performed module analysis of the PPI network using Molecular Complex Detection. And we obtained 10 hub genes by Cytoscape Centiscape. We analyzed the independent prognostic value of each hub gene in nonsmoking nonsmall cell lung cancer patients through Kaplan-Meier plotter. Seven hub genes (CXCL12, CDH1, CASP3, CREB1, COL1A1, ERBB2, and ENO2) were closely related to the overall survival time. This study provides an effective bioinformatics basis for further understanding the pathogenesis and prognosis of nonsmoking lung adenocarcinoma patients. Hub genes with prognostic value could be selected as effective biomarkers for timely diagnosis and prognostic of nonsmoking lung adenocarcinoma patients.     

Identification of a six-gene prognostic signature for oral squamous cell carcinoma

Oral squamous cell carcinoma (OSCC) is one of the most common types of malignancies worldwide, and its morbidity and mortality have increased in the near term. Consequently, the purpose of the present study was to identify the notable differentially expressed genes (DEGs) involved in their pathogenesis to obtain new biomarkers or potential therapeutic targets for OSCC. The gene expression profiles of the microarray datasets GSE85195, GSE23558, and GSE10121 were obtained from the Gene Expression Omnibus (GEO) database. After screening the DEGs in each GEO dataset, 249 DEGs in OSCC tissues were obtained. Kyoto Encyclopedia of Genes and Genomes and Gene Ontology pathway enrichment analysis was employed to explore the biological functions and pathways of the above DEGs. A protein–protein interaction network was constructed to obtain a central gene. The corresponding total survival information was analyzed in patients with oral cancer from The Cancer Genome Atlas (TCGA). A total of six candidate genes (CXCL10, OAS2, IFIT1, CCL5, LRRK2, and PLAUR) closely related to the survival rate of patients with oral cancer were identified, and expression verification and overall survival analysis of six genes were performed based on TCGA database. Time-dependent receiver operating characteristic curve analysis yields predictive accuracy of the patient's overall survival. At the same time, the six genes were further verified by quantitative real-time polymerase chain reaction using samples obtained from the patients recruited to the present study. In conclusion, the present study identified the prognostic signature of six genes in OSCC for the first time via comprehensive bioinformatics analysis, which could become potential prognostic markers for OCSS and may provide potential therapeutic targets for tumors.     

Identification of differentially expressed genes and biological characteristics of colorectal cancer by integrated bioinformatics analysis

Colorectal cancer (CRC) ranks as one of the most common malignant tumors worldwide. Its mortality rate has remained high in recent years. Therefore, the aim of this study was to identify significant differentially expressed genes (DEGs) involved in its pathogenesis, which may be used as novel biomarkers or potential therapeutic targets for CRC. The gene expression profiles of GSE21510, GSE32323, GSE89076, and GSE113513 were downloaded from the Gene Expression Omnibus (GEO) database. After screening DEGs in each GEO data set, we further used the robust rank aggregation method to identify 494 significant DEGs including 212 upregulated and 282 downregulated genes. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were performed by DAVID and the KOBAS online database, respectively. These DEGs were shown to be significantly enriched in different cancer-related functions and pathways. Then, the STRING database was used to construct the protein–protein interaction network. The module analysis was performed by the MCODE plug-in of Cytoscape based on the whole network. We finally filtered out seven hub genes by the cytoHubba plug-in, including PPBP, CCL28, CXCL12, INSL5, CXCL3, CXCL10, and CXCL11. The expression validation and survival analysis of these hub genes were analyzed based on The Cancer Genome Atlas database. In conclusion, the robust DEGs associated with the carcinogenesis of CRC were screened through the GEO database, and integrated bioinformatics analysis was conducted. Our study provides reliable molecular biomarkers for screening and diagnosis, prognosis as well as novel therapeutic targets for CRC.