Journal:JBSD:35
From Proteopedia
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<b>Molecular Tour</b><br> | <b>Molecular Tour</b><br> | ||
| - | <scene name='Journal:JBSD:35/Cv/10'>Uroporphyrinogen decarboxylase (UROD)</scene>, which is an enzyme with decarboxylation reaction of uroporphyrinogen III to <scene name='Journal:JBSD:35/Cv/11'>coproporphyrinogen III</scene>, is overexpressed in tumor tissues and has potential to sensitize cancer patients to radiotherapy. Moreover, <scene name='Journal:JBSD:35/Cv/5'>epidermal growth factor receptor (EGFR)</scene> and <scene name='Journal:JBSD:35/Cv/6'>human epidermal growth factor receptor 2 (Her2)</scene>, which are tyrosine kinase receptors in the erbB family, are also overexpressed in tumor tissues and have been indicated as the important targets of therapy for cancer. In this research, we discuss the possible conformation for an inhibitor against three target proteins, UROD, EGFR, and Her2. | + | <scene name='Journal:JBSD:35/Cv/10'>Uroporphyrinogen decarboxylase (UROD)</scene> (<font color='darkmagenta'><b>colored in darkmagenta</b></font>), which is an enzyme with decarboxylation reaction of uroporphyrinogen III to <scene name='Journal:JBSD:35/Cv/11'>coproporphyrinogen III</scene> (<span style="color:salmon;background-color:black;font-weight:bold;">colored in salmon</span>), is overexpressed in tumor tissues and has potential to sensitize cancer patients to radiotherapy. Moreover, <scene name='Journal:JBSD:35/Cv/5'>epidermal growth factor receptor (EGFR)</scene> (<font color='magenta'><b>colored in magenta</b></font>) and <scene name='Journal:JBSD:35/Cv/6'>human epidermal growth factor receptor 2 (Her2)</scene> (<font color='deeppink'><b>colored in deeppink</b></font>), which are tyrosine kinase receptors in the erbB family, are also overexpressed in tumor tissues and have been indicated as the important targets of therapy for cancer. In this research, we discuss the possible conformation for an inhibitor against three target proteins, UROD, EGFR, and Her2. |
| - | Virtual screening of the UROD (PDB ID: [[1r3y]]), EGFR (PDB ID: [[3poz]]), and Her2 (PDB ID: [[3pp0]]) was conducted using the binding site defined by the volume and location of the co-crystallized compounds in each crystal structure. In silico results indicate the traditional Chinese medicine (TCM) compounds had high binding affinity with all three target protein. For <scene name='Journal:JBSD:35/Cv/7'>EGFR protein</scene>, the top three compounds, <scene name='Journal:JBSD:35/Cv/8'>eicosanedioic acid</scene> (colored in yellow), <scene name='Journal:JBSD:35/Cv/12'>docosanedioic acid</scene> (colored in | + | Virtual screening of the UROD (PDB ID: [[1r3y]]), EGFR (PDB ID: [[3poz]]), and Her2 (PDB ID: [[3pp0]]) was conducted using the binding site defined by the volume and location of the co-crystallized compounds in each crystal structure. In silico results indicate the traditional Chinese medicine (TCM) compounds had high binding affinity with all three target protein. For <scene name='Journal:JBSD:35/Cv/7'>EGFR protein</scene> (<font color='magenta'><b>colored in magenta</b></font>), the top three compounds, <scene name='Journal:JBSD:35/Cv/8'>eicosanedioic acid</scene> (<span style="color:yellow;background-color:black;font-weight:bold;">colored in yellow</span>), <scene name='Journal:JBSD:35/Cv/12'>docosanedioic acid</scene> (<span style="color:cyan;background-color:black;font-weight:bold;">colored in cyan</span>), and <scene name='Journal:JBSD:35/Cv/14'>norbixin</scene> (<span style="color:orange;background-color:black;font-weight:bold;">colored in orange</span>), formed hydrogen bonds with the residues, Arg803, Lys913 and some other residues in the binding domain. The docking poses of <scene name='Journal:JBSD:35/Cv1/1'>Her2 protein</scene> (<font color='deeppink'><b>colored in deeppink</b></font>) with <scene name='Journal:JBSD:35/Cv1/2'>eicosanedioic acid </scene> (<span style="color:yellow;background-color:black;font-weight:bold;">colored in yellow</span>), <scene name='Journal:JBSD:35/Cv1/4'>docosanedioic acid</scene> (<span style="color:cyan;background-color:black;font-weight:bold;">colored in cyan</span>), and <scene name='Journal:JBSD:35/Cv1/6'>norbixin</scene> (<span style="color:orange;background-color:black;font-weight:bold;">colored in orange</span>), exhibited hydrogen bonds between ligands and the residues in the binding site. For <scene name='Journal:JBSD:35/Cv2/1'>UROD</scene> protein (<font color='darkmagenta'><b>colored in darkmagenta</b></font>), <scene name='Journal:JBSD:35/Cv2/2'>eicosanedioic acid</scene> (<span style="color:yellow;background-color:black;font-weight:bold;">colored in yellow</span>), <scene name='Journal:JBSD:35/Cv2/3'>docosanedioic acid</scene> (<span style="color:cyan;background-color:black;font-weight:bold;">colored in cyan</span>), and <scene name='Journal:JBSD:35/Cv2/4'>norbixin</scene> (<span style="color:orange;background-color:black;font-weight:bold;">colored in orange</span>), have hydrogen bonds with the three important binding and catalytic residues Arg37, Arg41, Tyr164, and the residue His220. The three TCM compounds hint towards a probable molecule backbone which might be used to evolve drug-like compounds against EGFR, Her2, and UROD, and have potential application against head and neck cancer. |
</StructureSection> | </StructureSection> | ||
<references/> | <references/> | ||
__NOEDITSECTION__ | __NOEDITSECTION__ | ||
Revision as of 12:55, 27 September 2012
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This page complements a publication in scientific journals and is one of the Proteopedia's Interactive 3D Complement pages. For aditional details please see I3DC.
