User:Giang Thi Tuyet Nguyen/Sirt3BrResveratrol

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Sirtuin 3 in complex with Bromo-Resveratrol in substrate-dependent mode

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You may include any references to papers as in: the use of JSmol in Proteopedia ^[1] or to the article describing Jmol ^[2] to the rescue.

1 Function
2 Disease
3 Relevance
4 Structural highlights

Function

Disease

Relevance

Structural highlights

Crystal Structure of hSirt3 in Complex with 4´-Bromo-Resveratrol and FdL-1 Peptide In the resulting hSirt3/FdL-1/40-bromo-resveratrol complex structure, the compound was found in the active site. Interestingly, the inhibitor is arranged differently from the weaker inhibitor piceatannol in the previously solved hSirt3/FdL-1/piceatannol complex. A closer look at the compound binding site shows that the A-ring hydroxyl groups of 4´-bromo-resveratrol form hydrogen bonds with Asn229 and Asp231 of hSirt3. Furthermore, residues Ile230, Leu199, and Ile154 form a hydrophobic patch for A-ring binding, and Phe157, Leu195, and Phe180 a hydrophobic cleft for accommodating the B-ring. This cleft extends in a hydrophobic pocket (formed by Ile179, Leu173, and Tyr171) for binding the bromine atom, and Arg158 and Pro176 form a lid shielding this pocket from solvent. Superposition of the hSirt3/FdL-1/4´-bromo-resveratrol complex with a structure of hSirt3 in complex with ACS2 peptide and the NAD+ analog carba-NAD+ (Szczepankiewicz et al., 2012) reveals that 4´-bromo-resveratrol occupies part of the NAD+ binding pocket, in particular the C-pocket. This arrangement prevents the insertion of the NAD+ nicotinamide moiety in the C-pocket necessary for catalysis, which indicates competitive inhibition with respect to this cosubstrate.

Crystal Structure of hSirt3 in Complex with ACS2

Substrate Peptide and 4´-Bromo-Resveratrol Crystallizing hSirt3 in complex with ACS2 peptide, instead of FdL-1 peptide, in presence of 4´-bromo-resveratrol resulted in a different hSirt3/peptide/inhibitor arrangement. The compound molecule was found at the bottom of the Rossmann-fold domain, interacting with Arg139, Met331, and Arg335, rather than in the catalytic pocket. In this exposed position, the compound interacts only through its A-ring with this shallow hSirt3 pocket, and the bromo-containing aromatic ring points toward the symmetry-related monomer in the crystal lattice. Superposition of the hSirt3/4´-bromo-resveratrol complexes with FdL-1 and ACS2 peptide, respectively, reveals that the inhibitor cannot bind at the catalytic pocket when the ACS2 peptide is bound, since it would clash with the C-terminal part of this substrate peptide. The obtained hSirt3/ACS2/ 4´-bromo-resveratrol complex can either show a different compound site and mechanism for 4´-bromo-resveratrol inhibition than the FdL-1 complex, or this second site is a crystallization artifact and the inhibitory site simply not occupied due to competition with the highly concentrated ACS2 peptide. In fact, 4´-bromo-resveratrol in the complex structure with hSirt3/ ACS2-peptide does not show many interactions with hSirt3, rendering it a less likely inhibition site. The hydrogen bonds of 4´-bromo-resveratrol with Arg139, Met331 (backbone), Arg335, and Arg384 of the symmetry-related monomer, and the very limited interaction interface with the hSirt3 monomer (see also Figure 3A).

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References

↑ Hanson, R. M., Prilusky, J., Renjian, Z., Nakane, T. and Sussman, J. L. (2013), JSmol and the Next-Generation Web-Based Representation of 3D Molecular Structure as Applied to Proteopedia. Isr. J. Chem., 53:207-216. doi:http://dx.doi.org/10.1002/ijch.201300024
↑ Herraez A. Biomolecules in the computer: Jmol to the rescue. Biochem Mol Biol Educ. 2006 Jul;34(4):255-61. doi: 10.1002/bmb.2006.494034042644. PMID:21638687 doi:10.1002/bmb.2006.494034042644

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Sirtuin 3 in complex with Bromo-Resveratrol in substrate-dependent mode

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 == Structural highlights ==
+'''Crystal Structure of hSirt3 in Complex with 4´-Bromo-Resveratrol and FdL-1 Peptide'''
+In the resulting hSirt3/FdL-1/40-bromo-resveratrol complex structure, the compound was found in the active site. Interestingly, the inhibitor is arranged differently from the weaker inhibitor piceatannol in the previously solved hSirt3/FdL-1/piceatannol complex. A closer look at the compound binding site shows that the A-ring hydroxyl groups of 4´-bromo-resveratrol form hydrogen bonds with Asn229 and Asp231 of hSirt3. Furthermore, residues Ile230, Leu199, and Ile154 form a hydrophobic patch for A-ring binding, and Phe157, Leu195, and Phe180 a hydrophobic cleft for accommodating the B-ring. This cleft extends in a hydrophobic pocket (formed by Ile179, Leu173, and Tyr171) for binding the bromine atom, and Arg158 and Pro176 form a lid shielding this pocket from solvent.
+Superposition of the hSirt3/FdL-1/4´-bromo-resveratrol complex with a structure of hSirt3 in complex
+with ACS2 peptide and the NAD+ analog carba-NAD+ (Szczepankiewicz et al., 2012) reveals that 4´-bromo-resveratrol occupies part of the NAD+ binding pocket, in particular the C-pocket. This arrangement prevents the insertion of the NAD+ nicotinamide moiety in the C-pocket necessary for catalysis, which indicates competitive inhibition with respect to this cosubstrate.
+Crystal Structure of hSirt3 in Complex with ACS2
+Substrate Peptide and 4´-Bromo-Resveratrol
+Crystallizing hSirt3 in complex with ACS2 peptide, instead of
+FdL-1 peptide, in presence of 4´-bromo-resveratrol resulted in
+a different hSirt3/peptide/inhibitor arrangement. The compound
+molecule was found at the bottom of the Rossmann-fold domain,
+interacting with Arg139, Met331, and Arg335, rather than in the
+catalytic pocket. In this
+exposed position, the compound interacts only through its
+A-ring with this shallow hSirt3 pocket, and the bromo-containing
+aromatic ring points toward the symmetry-related monomer in
+the crystal lattice.
+Superposition of the hSirt3/4´-bromo-resveratrol complexes
+with FdL-1 and ACS2 peptide, respectively, reveals that the inhibitor
+cannot bind at the catalytic pocket when the ACS2 peptide
+is bound, since it would clash with the C-terminal part of
+this substrate peptide. The obtained hSirt3/ACS2/
+´-bromo-resveratrol complex can either show a different compound
+site and mechanism for 4´-bromo-resveratrol inhibition
+than the FdL-1 complex, or this second site is a crystallization
+artifact and the inhibitory site simply not occupied due to competition
+with the highly concentrated ACS2 peptide. In fact,
+´-bromo-resveratrol in the complex structure with hSirt3/
+ACS2-peptide does not show many interactions with hSirt3,
+rendering it a less likely inhibition site. The
+hydrogen bonds of 4´-bromo-resveratrol with Arg139, Met331
+(backbone), Arg335, and Arg384 of the symmetry-related monomer,
+and the very limited interaction interface with the hSirt3
+monomer (see also Figure 3A).
 This is a sample scene created with SAT to <scene name="/12/3456/Sample/1">color</scene> by Group, and another to make <scene name="/12/3456/Sample/2">a transparent representation</scene> of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.