Identification of Prognosis-Related Genes and Key Target Genes for Pancreatic Cancer: A Bioinformatics Analysis

Objective: The mortality and morbidity rates associated with pancreatic cancer (PaCa) are extremely high. Various studies have demonstrated that pancreatic cancer will be the fourth cancer-related death by 2030, raising more concern for scholars to find effective methods to prevent and treat in order to improve the pancreatic cancer outcome. Using bioinformatic analysis, this study aims to pinpoint key genes that could impact PaCa patients’ prognosis and could be used as therapeutic targets. Methods: The TCGA and GEO datasets were integratively analyzed to identify prognosis-related differentially expressed genes. Next, the STRING database was used to develop PPI networks, and the MCODE and CytoNCA Cytoscape in Cytoscape were used to screen for critical genes. Through CytoNCA, three kinds of topology analysis were considered (degree, betweenness, and eigenvector). Essential genes were confirmed as potential target treatment through Go function and pathways enrichment analysis, a developed predictive risk model based on multivariate analysis, and the establishment of nomograms using the clinical information. Results: Overall, the GSE183795 and TCGA datasets associated 1311 and 2244 genes with pancreatic cancer prognosis, respectively. We identified 132 genes that were present in both datasets. The PPI network analysis using, the centrality analysis approach with the CytoNCA plug-in, showed that CDK2, PLK1, CCNB1, and TOP2A ranked in the top 5% across all three metrics. The independent analysis of a risk model revealed that the four key genes had a Hazard Ratio (HR) > 1. The monogram showed the predictive risk model and individual patient survival predictions were accurate. The results indicate that the effect of the selected vital genes was significant and that they could be used as biomarkers to predict a patient’s outcome and as possible target therapy in patients with pancreatic cancer. GO function and pathway analysis demonstrated that crucial genes might affect the P53 signaling pathway and FoxO signaling pathway, through which Meiotic nuclear division and cell cycle may have a significant function in essential genes affecting the outcome of patients who have pancreatic cancer. Conclusions: This study suggests that CDK2, CCNB1, PLK1 and TOP2A are four key genes that have a significant influence on PaCa migration and proliferation. CDK2, CCNB1, PLK1, and TOP2A can be used as potential PaCa prognostic biomarkers and therapeutic targets. However, experimental validation is necessary to confirm these predictions. Our study comes into contributions to the development of personalized target therapy for pancreatic cancer patients.

Screening key target genes for pulmonary arterial hypertension based on bioinformatics

Background:Screening key target genes for pulmonary arterial hypertension(PAH)based on bioinformatics to provide a reference for the clinical development of drugs to cure PAH.Methods:The keyword“pulmonary arterial hypertension”was used to search related genes in the National Center for Biotechnology Information database(NCBI).The obtained genes data was input to the database of Database for Annotation,Visualization and Integrated Discovery(DAVID)(Version 6.8)to collect relevant information about pathways and genes.And the data of genes were enriched in 37 pathways and genes with occurrence frequency≥10 were respectively imported into the String database to construct protein-protein interaction(PPI)network diagrams,and the two network diagrams were compared.Results:VEGFA,MAPK1,MAPK3,IL6,JUN and TNF were among the highest-ranked genes in two network diagrams.Conclusion:The pathogenesis of PAH is associated with multiple pathways such as the TGF-βsignaling pathway,PI3K-Akt signaling pathway,MAPK signaling pathway,HIF-1 signaling pathway and so on.The study of VEGFA,MAPK1,MAPK3,IL6,JUN and TNF are closely related to PAH is necessary for us to study further.Through gene interaction network and pathway analysis of disease-associated genes,which will help us to screen the critical target genes of PAH and provide a reference for clinical development of effective drugs for PAH.

Identification and analysis of core target genes of miR-29b-3p in glioma

Objective:To investigate the core target genes of miR-29b-3p,and analyze the clinical significance of the core target genes in glioma.Methods:Bioinformatics analysis was used to predict and screen the target genes of miR-29b-3p.STRING and Cytoscape software were used to analyze the protein-protein interaction(PPI)of target genes.the differences expression and survival prognosis in glioma were analyzed by GEPIA and CGGA.Independent prognostic factors analyzed by univariate and multivariate Cox proportional hazards regression model.Results:22 target genes of miR-29b-3p were predicted using LinkedOmics,miRDB,miRTarBase,TargetScan,and starbase databases.Through the construction of the PPI network,genes out of the network were removed,and a total of 16 genes were screened for further study of their clinical significance.Based on analysis of GEPIA and CGGA databases,COL2A1,DNMT3A,and DNMT3B were excluded.Through further analysis of the univariate and multivariate Cox proportional hazard regression model,finally identified three core target genes:SERPINH1,LOXL2,CDK6.Conclusion:Bioinformatics analysis showed that miR-29b-3p targeted three core genes such as SERPINH1,LOXL2,and CDK6 in glioma.The expression of these genes was different between brain normal tissues and gliomas,between different grades of tumor,IDH mutation status and 1p/19q codeletion status.Its high expression had adverse effects on overall survival and recurrence-free survival.These core target genes can be used as an independent prognostic factor.

Microarray-based Screening of Target Genes Regulated by Heat Shock Factor AtHsfA1a in Arabidopsis thaliana

[ Objective] This study aimed to screen target genes regulated by heat shock factor AtHsfAla in Arabidopsis thaliana. [ Method] Using AtHsfAla-in- serted mutant athsfala （SALK-068042） and wild-type A. thaliana seedlings as experimental materials, target genes regulated by heat shock factor AtHsfAla were screened by microarray assay. Differentially expressed genes were screened by multiple method. Specific functions of differentially expressed genes were analyzed by gene ontology （GO） analysis. Signal transduction pathways, in which differentia｜ly expressed genes were involved, were analyzed by pathway analysis. Gene-gene interaction network was constructed by Signal-Net. [ Result] A total of 3 672 differentially expressed genes were screened out. Up-regulated differentially expressed genes were involved in 198 functions and 7 signal transduction pathways; down-regulated differentially expressed genes were involved in 94 functions and 10 signal transduction pathways. In the signal transduction network, it was found that cwlNV4 and HXK3 had relatively high ability of mediation; AT1 G14240 and cwlNV4 ex- hibited the most interactions with other genes, which were located in key positions throughout the gene-gene interaction network. [ Conclusion] Heat shock factor AtHsfAla regulates a large number of target genes in A. thaliana.

Screening key target genes for severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)based on bioinformatics and gene network

Background:To provide a reference for the clinical development of drugs to suppress severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).Methods:Retrieving genes related to SARS-CoV-2 with Genecards database and then importing the obtained gene data into the database of Database for Annotation,Visualization and Integrated Discovery(DAVID)(Version 6.8)to collect relevant information on pathways and genes.Genes enriched in the first 20 most significant pathways and genes with gene occurrence frequency≥6 were respectively imported into the STRING database to construct protein-protein interaction(PPI)network diagrams,and the two network diagrams were compared.Results:In the two network graphs,RELA,MAPK1,MAPK3,PIK3CA,PIK3R1,MAPK8,JAK1,STAT1,TNF,IL6,MAPK14,and IL1B ranked higher,and the occurrence frequency of the first 20 pathways was≥10.Conclusion:The pathogenesis of SARS-CoV-2 is associated with multiple pathways such as influenza A,TNF signaling pathway,chemokine signaling pathway,toll-like receptor signaling pathway,T cell receptor signaling pathway et al.RELA,MAPK1,MAPK3,PIK3CA,PIK3R1,MAPK8,JAK1,STAT1,TNF,IL6,MAPK14 and IL1B are closely related to SARS-CoV-2 and need further study.Gene interaction network and pathway analysis of diseaseassociated genes will help us to screen the key target genes of SARS-CoV-2 and provide a reference for the clinical development of effective drugs.

Identification of microRNA and analysis of target genes in Panax ginseng

Objective: Ginsenosides, polysaccharides and phenols, the main active ingredients in Panax ginseng, are not different significantly in content between 3 and 5 years old of ginsengs called Yuan ginseng and more than ten years old ones called Shizhu ginseng. The responsible chemical compounds cannot fully explain difference in efficacy between them. According to reports in Lonicerae Japonicae Flos(Jinyinhua in Chinese) and Glycyrrhizae Radix et Rhizoma(Gancao in Chinese), microRNA may play a role in efficacy,so we identified microRNAs in P. ginseng at the different growth years and analyzed their target genes.Methods: Using high-throughput sequencing, the RNA-Seq, small RNA-Seq and degradome databases of P. ginseng were constructed. The differentially expressed microRNAs was identified by qRT-PCR.Results: A total of 63,875 unigenes and 24,154,579 small RNA clean reads were obtained from the roots of P. ginseng. From these small RNAs, 71 miRNA families were identified by bioinformatics target prediction software, including 34 conserved miRNAs, 37 non-conserved miRNA families, as well as 179 target genes of 17 known miRNAs. Through degradome sequencing and computation, we finally verified 13 targets of eight miRNAs involved in transcription, energy metabolism, biological stress and disease resistance, suggesting the significance of miRNAs in the development of P. ginseng. Consistently, major miRNA targets exhibited tissue specificity and complexity in expression patterns.Conclusion: Differential expression microRNAs were found in different growth years of ginsengs(Shizhu ginseng and Yuan ginseng), and the regulatory roles and functional annotations of miRNA targets in P. ginseng need further investigation.

Characterization of blueberry exosome-like nanoparticles and miRNAs with potential cross-kingdom human gene targets

Edible plant derived exosome-like nanoparticles(ELNs)have been shown to have multiple nutraceutical functions.However,the diversity of plant materials makes the plant derived ELN study challenging.More efforts are still needed to explore the feasible isolation methods of edible plant derived ELNs and the possible roles of food-derived ELNs in improving human health.In this study,a size exclusion chromatography based method was compared with the traditional ultracentrifugation method to isolate blueberry derived ELNs(B-ELNs),and the miRNA profile of B-ELNs was analyzed by high-throughput sequencing.A total of 36 miRNAs were found to be enriched in B-ELNs compared with berry tissue,and their potential cross-kingdom human gene targets were further predicted.Results showed that size exclusion chromatography was effective for B-ELN isolation.The most abundant miRNAs in B-ELNs mainly belonged to the miR166 family and miR396 family.Target gene prediction indicated that B-ELNs could potentially regulate pathways related to the human digestive system,immune system and infectious diseases.

To Analyze the Sensitivity of RT-PCR Assays Employing S Gene Target Failure with Whole Genome Sequencing Data during Third Wave by SARS-CoV-2 Omicron Variant

Introduction: Omicron is a highly divergent variant of concern (VOCs) of a severe acute respiratory syndrome SARS-CoV-2. It carries a high number of mutations in its spike protein hence;it is more transmissible in the community by immune evasion mechanisms. Due to mutation within S gene, most Omicron variants have reported S gene target failure (SGTF) with some commercially available PCR kits. Such diagnostic features can be used as markers to screen Omicron. However, Whole Genome Sequencing (WGS) is the only gold standard approach to confirm novel microorganisms at genetically level as similar mutations can also be found in other variants that are circulating at low frequencies worldwide. This Retrospective study is aimed to assess RT-PCR sensitivity in the detection of S gene target failure in comparison with whole genome sequencing to detect variants of Omicron. Methods: We have analysed retrospective data of SARS-CoV-2 positive RT-PCR samples for S gene target failure (SGTF) with TaqPath COVID-19 RT-PCR Combo Kit (ThermoFisher) and combined with sequencing technologies to study the emerged pattern of SARS-CoV-2 variants during third wave at the tertiary care centre, Surat. Results: From the first day of December 2021 till the end of February 2022, a total of 321,803 diagnostic RT-PCR tests for SARS-CoV-2 were performed, of which 20,566 positive cases were reported at our tertiary care centre with an average cumulative positivity of 6.39% over a period of three months. In the month of December 21 samples characterized by the SGTF (70/129) were suggestive of being infected by the Omicron variant and identified as Omicron (B.1.1.529 lineage) when sequence. In the month of January, we analysed a subset of samples (n = 618) with SGTF (24%) and without SGTF (76%) with Ct values Conclusions: During the COVID-19 pandemic, it took almost more than 15 days to diagnose infection and identify pathogen by sequencing technology. In contrast to that molecular assay provided quick identification with the help of SGTF phenomenon within 5 hours of duration. This strategy helps scientists and health policymakers for the quick isolation and identification of clusters. That ultimately results in a decreased transmission of pathogen among the community.

Identification of Target Genes and Transcription Factors Implicated in Translation-Dependent Retrograde Sig- naling in Arabidopsis

Changes in organellar gene expression （OGE） trigger retrograde signaling. The molecular dissection of OGE-dependent retrograde signaling based on analyses of mutants with altered OGE is complicated by compensatory responses that mask the primary signaling defect and by secondary effects that influence other retrograde signaling pathways. Therefore, to identify the earliest effects of altered OGE on nuclear transcript accumulation, we have induced OGE defects in adult plants by ethanol-dependent repression of PRORS1, which encodes a prolyl-tRNA synthetase located in chloroplasts and mitochondria. After 32 h of PRORS1 repression, the translational capacity of chloroplasts was reduced, and this effect subsequently intensified, while basic photosynthetic parameters were still unchanged at 51 h. Analysis of changes in whole-genome transcriptomes during exposure to ethanol revealed that induced PRORS1 silencing affects the expression of 1020 genes in all. Some of these encode photosynthesis-related proteins, including several down-regulated light-harvesting chlorophyll a/b binding （LHC） proteins. Interestingly, genes for presumptive endoplasmic reticulum pro- teins are transiently up-regulated. Furthermore, several NAC-domain-containing proteins are among the transcription factors regulated. Candidate cis-acting elements which may coordinate the transcriptional co-regulation of genes sets include both G-box variants and sequence motifs with no similarity to known plant c/s-elements.

Genome-wide identification of target genes for transcription factor BR-C in the silkworm,Bombyx mori

Transcription factor Broad Complex(BR-C)is an ecdysone primary response gene in insects and participates in the regulation of insect growth and development.In this study,we performed a genome-wide identification of BR-C target genes in silkworm(Bombyx mori)using chromatin immunoprecipitation followed by high-throughput sequencing(ChIP-seq).As a result,a total of 1006 BR-C ChIP peaks were identified,and 15%of peaks were located in the promoter regions of 133 protein-coding genes.Functional annotation revealed that these ChIP peak-associated genes,as potential BR-C targets,were enriched in pathways related to biosynthetic process,metabolic process,and development.Transcriptome analysis and quantitative real-time polymerase chain reaction(PCR)examination revealed that developmental changes in expression patterns of a portion of potential BR-C targets,including HR96 and GC-otl,were similar to those of BR-C.ChIP-PCR examination confirmed that BR-C could directly bind to the promoters of potential targets.Further,dual luciferase assays demonstrated that HR96 promoter activity was significantly upregulated following BR-C overexpression,and this upregu-lation was abolished when the binding motif in the promoter was truncated.This study will be helpful for deciphering the regulatory roles of BR-C during insect growth and development.

Vitamin D receptor(VDR)contributes to the development of hypercalciuria by sensitizing VDR target genes to vitamin D in a genetic hypercalciuric stone-forming(GHS)rat model

Human idiopathic hypercalciuria(IH)is the most common cause of calcium oxalate nephrolithiasis with perturbed calcium metabolism with increased bone resorption and decreased renal calcium reabsorption,which can be phenotype-copied in the genetic hypercalciuric stone-forming(GHS)rat model.We previously demonstrated that high VDR expression plays important roles in the development of hypercalciuria in the GHS rats.However,the underlying mechanism through which VDR impact hypercalciuria development remains to be fully understood.Here,we sought to determine how VDR regulated its target genes that are implicated in calcium homeostasis and potentially hypercalciuria.We found that VDR expression in the GHS rats was elevated in the calcium transporting tissues,as well as in the thymus and prostate,but not in lung,brain,heart,liver and spleen,when compared with control SD rats.Snail expression in the GHS rats was significantly downregulated in kidney,intestine,thymus and testis.Intraperitoneal injection of 1,25(OH)2D3 significantly upregulated the expression of renal calcium sensing receptor(CaSR),intestinal calcium transporters transient receptor potential vanilloid type 6(TRPV6),and VDR in GHS rats,compared with that in control SD rats.ChIP assays revealed that VDR specifically bound to the proximal promoters of target genes,followed by histone H3 hyperacetylation or hypermethylation.Collectively,our results suggest that elevated VDR expressi on may con tribute to the development of hypercalciuria by sensi・tizing VDR target genes to 1,25(OH)2D3 through histone modifications at their promoter regions in a genetic hypercalciuric stone-forming(GHS)rat model.

Targeted mutagenesis of amino acid transporter genes for rice quality improvement using the CRISPR/Cas9 system

High grain protein content(GPC) reduces rice eating and cooking quality(ECQ). We generated OsAAP6 and OsAAP10 knockout mutants in three high-yielding japonica varieties and one japonica line using the CRISPR/Cas9 system. Mutation efficiency varied with genetic background in the T_0 generation, and GPC in the T_1 generation decreased significantly,owing mainly to a reduction in glutelin content. Amylose content was down-regulated significantly in some Osaap6 and all Osaap10 mutants. The increased taste value of these mutants was supported by Rapid Visco Analysis(RVA) profiles, which showed higher peak viscosity and breakdown viscosity and lower setback viscosity than the wild type. There were no significant deficiencies in agronomic traits of the mutants. Targeted mutagenesis of OsAAP6 and OsAAP10, especially OsAAP10, using the CRISPR/Cas9 system can rapidly reduce GPC and improve ECQ of rice, providing a new strategy for the breeding cultivars with desired ECQ.

Profiling of gene fusion involving targetable genes in Chinese gastric cancer

BACKGROUND Approximately half of all new cases of gastric cancer(GC)and related deaths occur in China.More than 80%of patients with GC are diagnosed at an advanced stage,which results in poor prognosis.Although HER2-directed therapy and immune checkpoint inhibitors have been somewhat successful,new drugs are still needed for the treatment of GC.Notably,several gene fusion-targeted drugs have been approved by the United States Food and Drug Administration for solid tumors,including GC,such as larotrectinib for NTRK fusion-positive cancers and zenocutuzumab for NRG1 fusion-positive cancers.However,gene fusions involving targetable genes have not been well characterized in Chinese patients with GC.AIM To identify the profile of fusions involving targetable genes in Chinese patients with GC using clinical specimens and determine the distribution of patients with gene fusion variants among the molecular subtypes of GC.METHODS We retrospectively analyzed gene fusion events in tumor tissue samples from 954 Chinese patients with GC.Clinicopathological characteristics were obtained from their medical records.Genetic alterations,such as single nucleotide variants,indels,amplifications,and gene fusions,were identified using a targeted sequencing panel containing 825 genes.Fusions were validated by fluorescence in situ hybridization(FISH)using break-apart probes.The microsatellite instability(MSI)status was evaluated using MSIsensor from the targeted sequencing panel data.Tumor mutational burden(TMB)was calculated using the total number of nonsynonymous mutations divided by the total genomic targeted region.Chi-square analysis was used to determine the enrichment of gene fusions associated with the molecular subtypes of GC.RESULTS We found that 1.68%(16/954)of patients harbored 20 fusion events involving targetable genes.RARA fusions(n=5)were the most common,followed by FGFR2,BRAF,MET,FGFR3,RET,ALK,EGFR,NTRK2,and NRG1 fusions.Two of the RARA fusions,EML4-ALK(E6:E20)and EGFRSEPTIN14(E7:E10),have been identified in other tumors but not in GC.Surprisingly,18 gene fusion events were previously not reported in any cancer types.Twelve of the eighteen novel gene fusions included complete exons encoding functional domains of targetable genes,such as the tyrosine kinase domain of receptor tyrosine kinases and the DNA-and ligand-binding domains of RARA.Consistent with the results of detection using the targeted sequencing fusion panel,the results of FISH(fluorescence in situ hybridization)confirmed the rearrangement of FGFR2 and BRAF in tumors from patients 04 and 09,respectively.Genetic analysis indicated that the fusion genes were significantly enriched in patients with ERBB2 amplification(P=0.02);however,there were no significant differences between fusion-positive and fusion-negative patients in age,sex,MSI status,and TMB.CONCLUSION We characterized the landscape of fusions involving targetable genes in a Chinese GC cohort and found that 1.68%of patients with GC harbor potential targetable gene fusions,which were enriched in patients with ERBB2 amplification.Gene fusion detection may provide a potential treatment strategy for patients with GC with disease progression following standard therapy.

Gene targeted and immune therapies for nodal and gastrointestinal follicular lymphomas

Follicular lymphoma(FL)is the most common indolent B-cell lymphoma(BCL)globally.Recently,its incidence has increased in Europe,the United States,and Asia,with the number of gastrointestinal FL cases expected to increase.Genetic abnormalities related to t(14;18)translocation,BCL2 overexpression,NF-κB pathway-related factors,histone acetylases,and histone methyltransferases cause FL and enhance its proliferation.Meanwhile,microRNAs are commonly used in diagnosing FL and predicting patient prognosis.Many clinical trials on novel therapeutics targeting these genetic abnormalities and immunomodulatory mechanisms have been conducted,resulting in a marked improvement in therapeutic outcomes for FL.Although developing these innovative therapeutic agents targeting specific genetic mutations and immune pathways has provided hope for curative options,FL treatment has become more complex,requiring combinatorial therapeutic regimens.However,optimal treatment combinations have not yet been achieved,highlighting the importance of a complete understanding regarding the pathogenesis of gastrointestinal FL.Accordingly,this article reviews key research on the molecular pathogenesis of nodal FL and novel therapies targeting the causative genetic mutations.Moreover,the results of clinical trials are summarized,with a particular focus on treating nodal and gastrointestinal FLs.

Loss of canonical Wnt signaling is involved in the pathogenesis of Alzheimer's disease

Alzheimer＇s disease（AD） is the most common form of dementia in the older population, however, the precise cause of the disease is unknown. The neuropathology is characterized by the presence of aggregates formed by amyloid-β（Aβ） peptide and phosphorylated tau; which is accompanied by progressive impairment of memory. Diverse signaling pathways are linked to AD, and among these the Wnt signaling pathway is becoming increasingly relevant, since it plays essential roles in the adult brain. Initially, Wnt signaling activation was proposed as a neuroprotective mechanism against Aβ toxicity. Later, it was reported that it participates in tau phosphorylation and processes of learning and memory. Interestingly, in the last years we demonstrated that Wnt signaling is fundamental in amyloid precursor protein（APP） processing and that Wnt dysfunction results in Aβ production and aggregation in vitro. Recent in vivo studies reported that loss of canonical Wnt signaling exacerbates amyloid deposition in a transgenic（Tg） mouse model of AD. Finally, we showed that inhibition of Wnt signaling in a Tg mouse previously at the appearance of AD signs, resulted in memory loss, tau phosphorylation and Aβ formation and aggregation; indicating that Wnt dysfunction accelerated the onset of AD. More importantly, Wnt signaling loss promoted cognitive impairment, tau phosphorylation and Aβ1–42 production in the hippocampus of wild-type（WT） mice, contributing to the development of an Alzheimer＇s-like neurophatology. Therefore, in this review we highlight the importance of Wnt/β-catenin signaling dysfunction in the onset of AD and propose that the loss of canonical Wnt signaling is a triggering factor of AD.

阿帕替尼治疗腺样囊性癌肺转移1例

腺样囊性癌(adenoid cystic carcinoma,ACC)是一种较少见的来源于腺体的恶性肿瘤,约占头颈部恶性肿瘤的1%[1]。其病程进展缓慢但极易侵袭,有较高的复发率和远处转移率,最常见的转移部位是肺[2]。对于ACC肺转移患者,目前并无特效药物。MYB基因表达失调是ACC患者最常见的突变。

Phylogenetic analysis and target gene prediction of miR477 gene family in grape

To understand the molecular characteristics of the miR477 gene family of grape(Vvi-miR477)and to predict its target genes,the Vvi-miR477 genes were identified from previous small RNA sequencing data,then phylogenetic analysis and prediction of target gene were conducted.The Vvi-miR477 family consists of two precursor sequences and three mature sequences.The miR477 family members were mostly 19-22nt in length.The sequence is relatively conservative.Vvi-MIR477a and Vvi-MIR477b are located on chromosomes 1 and 2,respectively.These precursor sequences can form the typical stable stem-loop structure.Their minimum folding free energy is−39.10 kcal/mol and−50.90 kcal/mol,respectively.The MIR477 family can be divided into three groups.The prediction of target genes showed that Vvi-miR477 targets 26S proteasome,DEAD-box,GRAS family protein,Protein Phosphatase 2C,etc.The GO function of target genes was mainly enriched to six categories.The catabolic process,carboxylic ester hydrolase activity is shown to be high.This study provided a theoretical basis for further exploration of the molecular mechanism of miR477 in grape berry ripening.

Bioinformatics Analysis of the Biological Properties of Ewing Sarcoma

Purpose: Bioinformatics-based approach to screen and analyze differentially expressed genes associated with the biological characteristics of Ewing sarcoma. Means: The GSE17674 dataset was selected for analysis, obtained by data retrieval based on the GEO public database. The R language limma toolkit was used to screen DEmRNAs. After the data were normalized, the Metascape online analysis software and the R language clusterProfiler package were used to analyze the GO function and KEGG pathway enrichment of DEmRNAs lines, respectively. The string database was selected for PPI analysis, and the results were imported into Cytoscape software to derive the core modules and predicted core genes. The genes selected above were analyzed for tissue localization specificity. Results: Through the analysis of GSE17674, differentially expressed genes were screened out, and GO and KEGG analyses were performed on the differentially expressed genes. The GO functional enrichment analysis was mainly enriched in the process of muscle system, muscle contraction, myocyte development, contractile fibers, myogenic fibers, myofibers, myofibrillar segments, actin binding, structural composition of muscle, and actin filament binding. KEGG pathway analysis showed that the core pathways associated with the development of ES were the core genes for myocardial contraction, congestive cardiomyopathy, and hypertrophic cardiomyopathy. Five Hub genes were obtained based on Cytoscape prediction. Tissue localization specificity analysis of Hub genes was performed, and a total of 2 Hub genes with tissue specificity were screened;MYH6 was specifically expressed in cardiac cells and MYL1 was specifically expressed in skeletal muscle cells. Conclusions: The differential genes screened will help to understand the molecular mechanisms underlying the highly invasive and metastasis-prone biological characteristics of ES, as well as provide new ideas for clinical drug-targeted treatment of ES.

Screening ulcerative colitis key target gene and pathway based on KEGG pathway

Objective:To obtain the relevant information of pathway and gene by using the database of DAVID,analyze the function and distribution of important genes,screen out the target genes related to Ulcerative Colitis and promote the study of the pathogenesis of UC and the development of new drugs.Methods:The Ulcerative Colitis was used to search UC related genes in TTD,Drugbank,DisGeNET database.The obtained gene data was input to the database of Daved,and the data of gene enriched pathway was obtained 87 genes were Significant enriched in the first 20 KEGG pathways.The 87 genes were input to the string database to make the interaction network diagram,and the key genes enriched in the pathway were also made the network diagram,and the two network diagrams were compared.Results:RELA,TNF,IL1B,NFKB1,IL6 and IL10 were among the highest ranked genes in two network diagrams.Conclusion:The study of RELA,TNF,IL1B,NFKB1,IL6 and IL10 is necessary for us to study further.The pathogenesis of UC was associated with multiple pathways such as NF-kappa B signaling pathway,Jak-STAT signaling pathway,TNF signaling pathway and so on.It is helpful to understand the pathogenesis of disease and provide a reliable target for the development of new drugs by analyzing the pathway and the network diagram of the interaction between genes and disease related genes.

Identification of microRNA-21 as a valuable diagnostic marker of oral squamous cell carcinoma and potential target

Objective The aim of the study was to summarize the diagnostic value of miR-21 as a biomarker in oral squamous cell carcinoma(OSCC)using a review of the literature and data from the cancer genome atlas(TCGA)database.Methods Data from TCGA database was sorted and analyzed by bioinformatics to determine the expression level of miR-21 in OSCC.Further,we searched for relevant articles in Embase,PubMed/Medline,Scopus,and Web of Science published before March 2021,extracted the data,and conducted quality assessment.The bivariate meta-analysis model with Stata 16.0 was used to analyze the diagnostic value of miR-21 for OSCC.Results A total of 304 related articles were identified,and seven were selected for meta-analysis.The diagnostic results after analysis were as follows:sensitivity 0.76[95%confidence interval(CI),0.57-0.88];specificity 0.77(95%CI,0.58-0.89);positive likelihood ratio 3.34(95%CI,1.58-7.08);negative likelihood ratio 0.31(95%CI,0.15-0.63);diagnostic odds ratio 10.75(95%CI,2.85-40.51);and area under the curve 0.83(95%CI,0.80-0.86).The Deeks’funnel chart showed that there was no potential bias(P=0.54).Prediction analysis of the potential target genes of miR-21 was performed via the biological website,and DAVID was used to cross target genes for gene ontology(GO)annotation function analysis.Conclusion The results showed that miR-21-3p and miR-21-5p were significantly more highly expressed in OSCC tissues than in normal tissues(P<0.05),and the results of the meta-analysis indicated that they could be used as potential biomarkers in the diagnosis of OSCC.In addition,58 potential target genes of miR-21 were significantly enriched in 28 GO annotation functional pathways,which provided a biological basis for further clinical diagnostic value research.