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Flavanoid is one of the chemical compounds found in plants. Isoflavones (1.2- <br /> <br /> diarylpropane) are the largest group in the flavanoid that can be used to study the <br /> <br /> anticancer activity, where protein (2IOK) may be a target to inhibitors obtained &...
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id-itb.:210532017-10-04T10:42:28Z#TITLE_ALTERNATIVE# TRIHADI KUSUMA (NIM : 20714036), ANDI Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/21053 Flavanoid is one of the chemical compounds found in plants. Isoflavones (1.2- <br /> <br /> diarylpropane) are the largest group in the flavanoid that can be used to study the <br /> <br /> anticancer activity, where protein (2IOK) may be a target to inhibitors obtained <br /> <br /> from natural product compounds. The purpose of the research is to design new <br /> <br /> compounds have anti-cancer activity, especially for breast cancer based on the <br /> <br /> evaluation of the affinity of the compound against Estrogen Receptor Alpha <br /> <br /> (ESR1) using computational method. The parent compound is the test structure of <br /> <br /> isoflavones which has been reported to have anticancer activity, particularly for <br /> <br /> breast cancer. Based on the results of the validation method of docking with <br /> <br /> several combinations, the best method found was Triangle matcher-Affinity dG <br /> <br /> with a RMSD of 1.0452. Furthermore, this model provide ROC graph value of <br /> <br /> 0.863. Therefore, the method was used to screen compounds in the UI database. <br /> <br /> Three compounds was obtained from the process, which are potentially active <br /> <br /> against Estrogen Receptor Alpha (ESR1), namely C00010051, C00026048, <br /> <br /> C00025295. The MD simulations of protein ligand complexes indicated <br /> <br /> exchanges process, namely the absence of interaction between the ligand with the <br /> <br /> Phe404, instead the ligand formed hydrogen bonding with Glu353. Meanwhile, <br /> <br /> the C00025295 compound formed hydrogen bonding with the residueLeu346 <br /> <br /> residue. text |
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Flavanoid is one of the chemical compounds found in plants. Isoflavones (1.2- <br />
<br />
diarylpropane) are the largest group in the flavanoid that can be used to study the <br />
<br />
anticancer activity, where protein (2IOK) may be a target to inhibitors obtained <br />
<br />
from natural product compounds. The purpose of the research is to design new <br />
<br />
compounds have anti-cancer activity, especially for breast cancer based on the <br />
<br />
evaluation of the affinity of the compound against Estrogen Receptor Alpha <br />
<br />
(ESR1) using computational method. The parent compound is the test structure of <br />
<br />
isoflavones which has been reported to have anticancer activity, particularly for <br />
<br />
breast cancer. Based on the results of the validation method of docking with <br />
<br />
several combinations, the best method found was Triangle matcher-Affinity dG <br />
<br />
with a RMSD of 1.0452. Furthermore, this model provide ROC graph value of <br />
<br />
0.863. Therefore, the method was used to screen compounds in the UI database. <br />
<br />
Three compounds was obtained from the process, which are potentially active <br />
<br />
against Estrogen Receptor Alpha (ESR1), namely C00010051, C00026048, <br />
<br />
C00025295. The MD simulations of protein ligand complexes indicated <br />
<br />
exchanges process, namely the absence of interaction between the ligand with the <br />
<br />
Phe404, instead the ligand formed hydrogen bonding with Glu353. Meanwhile, <br />
<br />
the C00025295 compound formed hydrogen bonding with the residueLeu346 <br />
<br />
residue. |
| format |
Theses |
| author |
TRIHADI KUSUMA (NIM : 20714036), ANDI |
| spellingShingle |
TRIHADI KUSUMA (NIM : 20714036), ANDI #TITLE_ALTERNATIVE# |
| author_facet |
TRIHADI KUSUMA (NIM : 20714036), ANDI |
| author_sort |
TRIHADI KUSUMA (NIM : 20714036), ANDI |
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| url |
https://digilib.itb.ac.id/gdl/view/21053 |
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1821120345956941824 |