SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3043831045> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W3043831045 endingPage "6414" @default.
W3043831045 startingPage "6396" @default.
W3043831045 abstract "Histone deacetylases (HDACs) are a group of enzymes that have prominent and crucial effect on various biological systems, mainly by their suppressive effect on transcription. Searching for inhibitors targeting their respective isoforms without affecting other targets is greatly needed. Some histone deacetylases have no crystal structures, such as HDAC5 and HDAC9. Lacking proper and suitable crystal structure is obstructing the designing of appropriate isoform selective inhibitors. Here in this study, we constructed human HDAC5 and HDAC9 protein models using human HDAC4 (PDB:2VQM_A) as a template by the means of homology modeling approach. Based on the Z-score of the built models, model M0014 of HDAC5 and model M0020 of HDAC9 were selected. The models were verified by MODELLER and validated using the Web-based PROCHECK server. All selected known inhibitors displayed reasonable binding modes and equivalent predicted Ki values in comparison to the experimental binding affinities (Ki/IC50). The known inhibitor Rac26 showed the best binding affinity for HDAC5, while TMP269 showed the best binding affinity for HDAC9. The best two compounds, CHEMBL2114980 and CHEMBL217223, had relatively similar inhibition constants against HDAC5 and HDAC9. The built models and their complexes were subjected to molecular dynamic simulations (MD) for 100 ns. Examining the MD simulation results of all studied structures, including the RMSD, RMSF, radius of gyration and potential energy suggested the stability and reliability of the built models. Accordingly, the results obtained in this study could be used for designing de novo inhibitors against HDAC5 and HDAC9. Communicated by Ramaswamy H. Sarma." @default.
W3043831045 created "2020-07-29" @default.
W3043831045 creator A5028835825 @default.
W3043831045 creator A5037186231 @default.
W3043831045 date "2020-07-27" @default.
W3043831045 modified "2023-09-29" @default.
W3043831045 title "Homology modeling and <i>in silico</i> design of novel and potential dual-acting inhibitors of human histone deacetylases HDAC5 and HDAC9 isozymes" @default.
W3043831045 cites W1485176391 @default.
W3043831045 cites W1828687975 @default.
W3043831045 cites W1854810044 @default.
W3043831045 cites W1966906920 @default.
W3043831045 cites W1971513938 @default.
W3043831045 cites W1979281193 @default.
W3043831045 cites W1979519622 @default.
W3043831045 cites W1981737096 @default.
W3043831045 cites W1984603651 @default.
W3043831045 cites W1985321027 @default.
W3043831045 cites W1985944726 @default.
W3043831045 cites W1986191025 @default.
W3043831045 cites W1986891879 @default.
W3043831045 cites W1992192767 @default.
W3043831045 cites W1997716632 @default.
W3043831045 cites W2012631080 @default.
W3043831045 cites W2013223243 @default.
W3043831045 cites W2013547494 @default.
W3043831045 cites W2020912062 @default.
W3043831045 cites W2026366057 @default.
W3043831045 cites W2033882981 @default.
W3043831045 cites W2034856420 @default.
W3043831045 cites W2036503775 @default.
W3043831045 cites W2041909191 @default.
W3043831045 cites W2042806682 @default.
W3043831045 cites W2043509228 @default.
W3043831045 cites W2044878334 @default.
W3043831045 cites W2045559581 @default.
W3043831045 cites W2046345187 @default.
W3043831045 cites W2051933643 @default.
W3043831045 cites W2064856956 @default.
W3043831045 cites W2073100055 @default.
W3043831045 cites W2073491378 @default.
W3043831045 cites W2074006690 @default.
W3043831045 cites W2077342495 @default.
W3043831045 cites W2079720515 @default.
W3043831045 cites W2083784041 @default.
W3043831045 cites W2086565155 @default.
W3043831045 cites W2092915190 @default.
W3043831045 cites W2094899231 @default.
W3043831045 cites W2099752571 @default.
W3043831045 cites W2103665811 @default.
W3043831045 cites W2105668062 @default.
W3043831045 cites W2125639616 @default.
W3043831045 cites W2130332831 @default.
W3043831045 cites W2132762992 @default.
W3043831045 cites W2149194206 @default.
W3043831045 cites W2149379768 @default.
W3043831045 cites W2150981663 @default.
W3043831045 cites W2155329682 @default.
W3043831045 cites W2164868034 @default.
W3043831045 cites W2165673819 @default.
W3043831045 cites W2170471837 @default.
W3043831045 cites W2172108214 @default.
W3043831045 cites W2206954826 @default.
W3043831045 cites W2255564941 @default.
W3043831045 cites W2313968233 @default.
W3043831045 cites W2324889213 @default.
W3043831045 cites W2332431561 @default.
W3043831045 cites W2335454679 @default.
W3043831045 cites W2394692324 @default.
W3043831045 cites W2398540841 @default.
W3043831045 cites W2470901352 @default.
W3043831045 cites W2473623745 @default.
W3043831045 cites W2511667040 @default.
W3043831045 cites W253094825 @default.
W3043831045 cites W2552381906 @default.
W3043831045 cites W2558999090 @default.
W3043831045 cites W2567289819 @default.
W3043831045 cites W2593436234 @default.
W3043831045 cites W2593843857 @default.
W3043831045 cites W2623495050 @default.
W3043831045 cites W2740279634 @default.
W3043831045 cites W2759097420 @default.
W3043831045 cites W2788419985 @default.
W3043831045 cites W2792524998 @default.
W3043831045 cites W2794448835 @default.
W3043831045 cites W2809709673 @default.
W3043831045 cites W2888936354 @default.
W3043831045 cites W2891534559 @default.
W3043831045 cites W2892083369 @default.
W3043831045 cites W2947628179 @default.
W3043831045 cites W3024404242 @default.
W3043831045 cites W3032285440 @default.
W3043831045 cites W4210484678 @default.
W3043831045 cites W4211196614 @default.
W3043831045 cites W4233823505 @default.
W3043831045 cites W4256464010 @default.
W3043831045 cites W963031729 @default.
W3043831045 doi "https://doi.org/10.1080/07391102.2020.1798812" @default.
W3043831045 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32715940" @default.