Current Research in Green and Sustainable Chemistry (Jan 2021)

Molecular docking based screening dynamics for plant based identified potential compounds of PDE12 inhibitors

  • Selvaraj Nirmalraj,
  • Ekambaram Gayathiri,
  • Malathi Sivamurugan,
  • Rengarajan Manivasagaperumal,
  • Jayaprakash Jayanthi,
  • Palanisamy Prakash,
  • Kuppusamy Selvam

Journal volume & issue
Vol. 4
p. 100122

Abstract

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We studied the pharmacological potential effects of viral components, performed target prediction and network analysis, and investigated interactive pathways utilizing a pharmacology approach to molecular docking and dynamics and network pharmacology. The radical scavenging activity was undertaken to evaluate the effect of substituent on the antioxidant activities of the all-synthesized compounds and shows promising activity. A benefit of utilizing phytochemicals contain arrangements becomes the excellent patient safety with little negative effects. The compounds (Trans-13-Octadecenoic-acid −188.24 kal/mol (ARG 431, GLN 470, ARG 431, SER 433, TYR 458 and ARG 431). PASS prediction screening results for bioactive compounds of trust standard for human intestinal absorption and penetration of the blood-brain barrier. Likewise, another predicate also has a 0.816% level of confidence toward intestinal absorption 95% level of confidence for BBB penetration using viral trials of 5-Hydroxymethyl furfural is a feasible key to the design of antiviral therapies for viral protease inhibition. In designing novel antiviral medicines, the recognized pharmacophore structures of bioactive compounds may be valuable. A benefit of utilizing phytochemicals containing preparations becomes the excellent patient safety with little negative effects. In designing novel antiviral medicines, the recognized pharmacophore structures of bioactive compounds may be useful.

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