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W4306959145 endingPage "109131" @default.
W4306959145 startingPage "109131" @default.
W4306959145 abstract "Spinal cord injury can lead to incomplete or complete loss of voluntary movement and sensory function, leading to serious complications. Numerous studies have shown that progesterone exhibits strong therapeutic potential for spinal cord injury. However, the mechanism by which progesterone treats spinal cord injury remains unclear. Therefore, this article explores the mechanism of progesterone in the treatment of spinal cord injury by means of molecular docking and molecular dynamics simulation.We used bioinformatics to screen active pharmaceutical ingredients and potential targets, and molecular docking and molecular dynamics were used to validate and analysis by the supercomputer platform.Progesterone had 3606 gene targets, spinal cord injury had 6560 gene targets, the intersection gene targets were 2355. GO and KEGG analysis showed that the abundant pathways involved multiple pathways related to cell metabolism and inflammation. Molecular docking showed that progesterone played a role in treating spinal cord injury by acting on BDNF, AR, NGF and TNF. Molecular dynamics was used to prove and analyzed the binding stability of active ingredients and protein targets, and AR/Progesterone combination has the strongest binding energy.Progesterone promotes recovery from spinal cord injury by promoting axonal regeneration, remyelination, neuronal survival and reducing inflammation." @default.
W4306959145 created "2022-10-21" @default.
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W4306959145 date "2022-12-01" @default.
W4306959145 modified "2023-09-26" @default.
W4306959145 title "Molecular docking and molecular dynamics simulation study the mechanism of progesterone in the treatment of spinal cord injury" @default.
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W4306959145 doi "https://doi.org/10.1016/j.steroids.2022.109131" @default.
W4306959145 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36273543" @default.
W4306959145 hasPublicationYear "2022" @default.
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