We are analyzing https://link.springer.com/article/10.1007/s40203-025-00372-y.

Title:
Molecular docking and molecular dynamics simulation studies of thiazole-coumarin and thiazole-triazole conjugates against Mpro and ACE2 receptor for SARS COV-2 | In Silico Pharmacology
Description:
The recent COVID-19 pandemic, which caused severe respiratory infections and multiple organ failure leading to death, has drawn the attention of researchers around the world. Several vaccines are available for protection against SARS-CoV-2. However, the frequent changes in its viral genome have raised concerns about the efficacy of current vaccines. Most of the research has focused on developing novel therapeutic agents, and till now no approved anti-viral drugs are available. The development of an effective and approved drug is a time-consuming process, so research is increasingly focusing on the screening of highly active molecules based on computer-aided drug designs. Heterocyclic moieties like coumarin, thiazole, and triazole exhibit diverse biological applications. To identify potent inhibitors of SARS-CoV-2 targets, we performed molecular docking and dynamics simulations on thiazole-coumarin and thiazole-triazole conjugates. These compounds effectively target the viral Mpro and ACE2 receptors. Based on the results obtained, RD9, RD12, RD17, and RD18 were found to be most active. These molecules make an excellent interaction with the active site of both enzyme Mpro and ACE2 with a free binding energy of − 8.33, − 7.89, − 8.61, − 8.02, − 9.87, − 9.75, − 9.49, − 9.61 kcal mol−1 respectively which can potentially be used as a dual inhibitor. Molecular dynamics simulation studies further confirm the stability of these complexes. These findings suggest that thiazole-coumarin and thiazole-triazole conjugates can serve as potential candidates for dual inhibition of Mpro and ACE2 enzyme, and can be effectively used to control COVID-19 infection.
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Keywords {🔍}

pubmed, article, google, scholar, cas, central, sarscov, molecular, yang, dynamics, ace, chem, mpro, singh, kumar, covid, drug, liu, mol, coronavirus, sci, inhibitors, zhang, wang, potential, structure, main, research, docking, mishra, med, rep, data, studies, munjal, sharma, drugs, molecules, nature, silico, simulation, conjugates, receptor, based, enzyme, derivatives, protease, synthesis, privacy, cookies,

Topics {✒️}

high-throughput mm-pbsa calculations angiotensin-converting enzyme-related carboxypeptidase month download article/chapter extra alpha-helical domain sars-cov-2 variant biology computer-aided drug designs cathepsin l-selective inhibitors sars-cov-2 main-protease 2-deoxy-d-glucose targeting de almeida mv n-phenylpyrimidine-4-amine derivatives anti-sars-cov-2 inhibitors network-based drug repurposing sars-cov-2 antiviral activity small-molecule inhibitor design int/dashboards/covid19/cases synthesized n-heterocyclic compounds coronavirus 2019-ncov/sars-cov-2 van gunsteren wf coumarin-phenyl thiazole conjugates full article pdf campagnole-santos mj approved anti-viral drugs privacy choices/manage cookies anti-sars-cov-2 van aalten dmf high-throughput crystallography accepted manuscript version article mishra molecular dynamics simulations visual molecular dynamics sars-cov-2 targets angiotensin-converting enzyme 2 antiviral drug design sars-cov-2 mpro sars-cov-2 genome molecular modeling studies silico pharmacology aims 2-deoxy-d-glucose ribeiro-dos-santos thiazole-triazole conjugates protein–ligand docking coronavirus main proteases sars-cov receptor experimental animal models anti-inflammatory properties writing-review & editing holds exclusive rights n-heterocyclic derivatives protein–ligand complexes

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         description:The recent COVID-19 pandemic, which caused severe respiratory infections and multiple organ failure leading to death, has drawn the attention of researchers around the world. Several vaccines are available for protection against SARS-CoV-2. However, the frequent changes in its viral genome have raised concerns about the efficacy of current vaccines. Most of the research has focused on developing novel therapeutic agents, and till now no approved anti-viral drugs are available. The development of an effective and approved drug is a time-consuming process, so research is increasingly focusing on the screening of highly active molecules based on computer-aided drug designs. Heterocyclic moieties like coumarin, thiazole, and triazole exhibit diverse biological applications. To identify potent inhibitors of SARS-CoV-2 targets, we performed molecular docking and dynamics simulations on thiazole-coumarin and thiazole-triazole conjugates. These compounds effectively target the viral Mpro and ACE2 receptors. Based on the results obtained, RD9, RD12, RD17, and RD18 were found to be most active. These molecules make an excellent interaction with the active site of both enzyme Mpro and ACE2 with a free binding energy of − 8.33, − 7.89, − 8.61, − 8.02, − 9.87, − 9.75, − 9.49, − 9.61 kcal mol−1 respectively which can potentially be used as a dual inhibitor. Molecular dynamics simulation studies further confirm the stability of these complexes. These findings suggest that thiazole-coumarin and thiazole-triazole conjugates can serve as potential candidates for dual inhibition of Mpro and ACE2 enzyme, and can be effectively used to control COVID-19 infection.
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      description:The recent COVID-19 pandemic, which caused severe respiratory infections and multiple organ failure leading to death, has drawn the attention of researchers around the world. Several vaccines are available for protection against SARS-CoV-2. However, the frequent changes in its viral genome have raised concerns about the efficacy of current vaccines. Most of the research has focused on developing novel therapeutic agents, and till now no approved anti-viral drugs are available. The development of an effective and approved drug is a time-consuming process, so research is increasingly focusing on the screening of highly active molecules based on computer-aided drug designs. Heterocyclic moieties like coumarin, thiazole, and triazole exhibit diverse biological applications. To identify potent inhibitors of SARS-CoV-2 targets, we performed molecular docking and dynamics simulations on thiazole-coumarin and thiazole-triazole conjugates. These compounds effectively target the viral Mpro and ACE2 receptors. Based on the results obtained, RD9, RD12, RD17, and RD18 were found to be most active. These molecules make an excellent interaction with the active site of both enzyme Mpro and ACE2 with a free binding energy of − 8.33, − 7.89, − 8.61, − 8.02, − 9.87, − 9.75, − 9.49, − 9.61 kcal mol−1 respectively which can potentially be used as a dual inhibitor. Molecular dynamics simulation studies further confirm the stability of these complexes. These findings suggest that thiazole-coumarin and thiazole-triazole conjugates can serve as potential candidates for dual inhibition of Mpro and ACE2 enzyme, and can be effectively used to control COVID-19 infection.
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