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W3198710103 abstract "SARS-CoV-2 is the causative agent for coronavirus disease-19 (COVID-19) and belongs to the family Coronaviridae that causes sickness varying from the common cold to more severe illnesses such as severe acute respiratory syndrome, sudden stroke, neurological complications (Neuro-COVID), multiple organ failure, and mortality in some patients. The gene expression profiles of COVID-19 infection models can be used to decipher potential therapeutics for COVID-19 and related pathologies, such as Neuro-COVID. Here, we used the raw RNA-seq reads (Single-End) in quadruplicates derived using Illumina Next Seq 500 from SARS-CoV-infected primary human bronchial epithelium (NHBE) and mock-treated NHBE cells obtained from the Gene Expression Omnibus (GEO) (GSE147507), and the quality control (QC) was evaluated using the CLC Genomics Workbench 20.0 (Qiagen, United States) before the RNA-seq analysis using BioJupies web tool and iPathwayGuide for gene ontologies (GO), pathways, upstream regulator genes, small molecules, and natural products. Additionally, single-cell transcriptomics data (GSE163005) of meta clusters of immune cells from the cerebrospinal fluid (CSF), such as T-cells/natural killer cells (NK) (TcMeta), dendritic cells (DCMeta), and monocytes/granulocyte (monoMeta) cell types for comparison, namely, Neuro-COVID versus idiopathic intracranial hypertension (IIH), were analyzed using iPathwayGuide. L1000 fireworks display (L1000FWD) and L1000 characteristic direction signature search engine (L1000 CDS 2 ) web tools were used to uncover the small molecules that could potentially reverse the COVID-19 and Neuro-COVID-associated gene signatures. We uncovered small molecules such as camptothecin, importazole, and withaferin A, which can potentially reverse COVID-19 associated gene signatures. In addition, withaferin A, trichostatin A, narciclasine, camptothecin, and JQ1 have the potential to reverse Neuro-COVID gene signatures. Furthermore, the gene set enrichment analysis (GSEA) preranked method and Metascape web tool were used to decipher and annotate the gene signatures that were potentially reversed by these small molecules. In conclusion, our study unravels a rapid approach for applying next-generation knowledge discovery (NGKD) platforms to discover small molecules with therapeutic potential against COVID-19 and its related disease pathologies." @default.
W3198710103 created "2021-09-13" @default.
W3198710103 creator A5004270352 @default.
W3198710103 creator A5017464878 @default.
W3198710103 creator A5035955838 @default.
W3198710103 date "2021-08-31" @default.
W3198710103 modified "2023-10-02" @default.
W3198710103 title "Identification of Novel Gene Signatures using Next-Generation Sequencing Data from COVID-19 Infection Models: Focus on Neuro-COVID and Potential Therapeutics" @default.
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W3198710103 cites W1581558601 @default.
W3198710103 cites W1596515083 @default.
W3198710103 cites W1760163131 @default.
W3198710103 cites W1998767819 @default.
W3198710103 cites W2103017472 @default.
W3198710103 cites W2110065044 @default.
W3198710103 cites W2110687686 @default.
W3198710103 cites W2118258530 @default.
W3198710103 cites W2119923823 @default.
W3198710103 cites W2130410032 @default.
W3198710103 cites W2131848047 @default.
W3198710103 cites W2139084975 @default.
W3198710103 cites W2140000393 @default.
W3198710103 cites W2146512944 @default.
W3198710103 cites W2154972152 @default.
W3198710103 cites W2171437346 @default.
W3198710103 cites W2489003193 @default.
W3198710103 cites W2537623931 @default.
W3198710103 cites W2762082538 @default.
W3198710103 cites W2791340464 @default.
W3198710103 cites W2800483427 @default.
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W3198710103 cites W2990207659 @default.
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W3198710103 cites W3014361071 @default.
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W3198710103 cites W3022435472 @default.
W3198710103 cites W3024643080 @default.
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W3198710103 cites W3031380939 @default.
W3198710103 cites W3033571685 @default.
W3198710103 cites W3037452865 @default.
W3198710103 cites W3082455468 @default.
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W3198710103 cites W3093045279 @default.
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W3198710103 cites W3099163672 @default.
W3198710103 cites W3107241734 @default.
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W3198710103 cites W3109388425 @default.
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W3198710103 cites W3114162064 @default.
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W3198710103 cites W3133896203 @default.
W3198710103 cites W3135638357 @default.
W3198710103 cites W3150291517 @default.
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W3198710103 doi "https://doi.org/10.3389/fphar.2021.688227" @default.
W3198710103 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8438179" @default.
W3198710103 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34531741" @default.
W3198710103 hasPublicationYear "2021" @default.
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