Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level

Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level Publisher

Razzaghi Z¹ ; Arjmand B^{2, 3} ; Hamzeloomoghadam M⁴ ; Tavirani MR⁵

Source: Journal of Lasers in Medical Sciences Published:2023

Abstract

Introduction: The development of therapeutic methods implies an understanding of the molecular mechanism of the applied methods. Due to the widespread use of UV radiation and cold physical plasma in medicine, the molecular mechanism of these two methods is compared via gene ontology. Methods: Data were derived from Gene Expression Omnibus (GEO). The differentially expressed genes (DEGs) which discriminate the cells treated with UV radiation versus indirect cold physical plasma were analyzed via gen ontology enrichment. The related biochemical pathways were extracted from the “Kyoto Encyclopedia of Genes and Genomes” (KEGG). Results: Among the 152 queried DEGs, 18 critical genes including SOC1, LDLR, ALO5, PTGS2, TNF, JUNB, TNFRSF1A, CD40, SMAD7, ID1, SMAD6, SERPINE1, PMAIP1, MDM2, CREB5, GADD45A, E2F3, and ETV5 were highlighted as the genes that victimize the two methods. Conclusion: NOTCH1 and TNF as the main genes plus SEREPINE1, KLF, and BDNF were introduced as the significant genes that are involved in the processes which discriminate cold physical plasma administration and UV-radiation as the two evaluated therapeutic methods. © 2023, Journal of Lasers in Medical Sciences. All Rights Reserved.

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Babak Arjmand (19)

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Style	Citing Format
MLA	Razzaghi Z, et al.. "Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level." Journal of Lasers in Medical Sciences, vol. 14, no. , 2023, pp. -.
APA	Razzaghi Z, Arjmand B, Hamzeloomoghadam M, Tavirani MR (2023). Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level. Journal of Lasers in Medical Sciences, 14(), -.
Chicago	Razzaghi Z, Arjmand B, Hamzeloomoghadam M, Tavirani MR. "Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level." Journal of Lasers in Medical Sciences 14, no. (2023): -.
Harvard	Razzaghi Z et al. (2023) 'Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level', Journal of Lasers in Medical Sciences, 14(), pp. -.
Vancouver	Razzaghi Z, Arjmand B, Hamzeloomoghadam M, Tavirani MR. Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level. Journal of Lasers in Medical Sciences. 2023;14():-.
BibTex	@article{ author = {Razzaghi Z and Arjmand B and Hamzeloomoghadam M and Tavirani MR}, title = {Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level}, journal = {Journal of Lasers in Medical Sciences}, volume = {14}, number = {}, pages = {-}, year = {2023} }
RIS	TY - JOUR AU - Razzaghi Z AU - Arjmand B AU - Hamzeloomoghadam M AU - Tavirani MR TI - Gene Ontology Assessment of Indirect Cold Physical Plasma and Uv-Radiation Molecular Mechanism at the Cellular Level JO - Journal of Lasers in Medical Sciences VL - 14 IS - SP - EP - PY - 2023 ER -

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