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Atomistry » Zinc » PDB 8prc-8q47 » 8q1y | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Atomistry » Zinc » PDB 8prc-8q47 » 8q1y » |
Zinc in PDB 8q1y: Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.Enzymatic activity of Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.
All present enzymatic activity of Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.:
1.6.5.3; 1.6.99.3; 7.1.1.2; Other elements in 8q1y:
The structure of Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng. also contains other interesting chemical elements:
Zinc Binding Sites:
The binding sites of Zinc atom in the Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.
(pdb code 8q1y). This binding sites where shown within
5.0 Angstroms radius around Zinc atom.
In total 2 binding sites of Zinc where determined in the Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng., PDB code: 8q1y: Jump to Zinc binding site number: 1; 2; Zinc binding site 1 out of 2 in 8q1yGo back to Zinc Binding Sites List in 8q1y
Zinc binding site 1 out
of 2 in the Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.
Mono view Stereo pair view
Zinc binding site 2 out of 2 in 8q1yGo back to Zinc Binding Sites List in 8q1y
Zinc binding site 2 out
of 2 in the Outward-Facing, OPEN2 Proteoliposome Complex I at 2.6 A, After Deactivation Treatment. Initially Purified in Lmng.
Mono view Stereo pair view
Reference:
D.N.Grba,
J.J.Wright,
W.Fisher,
Z.Yin,
J.Hirst.
Molecular Mechanism of the Ischemia-Induced Regulatory Switch in Mammalian Complex I Science 2024.
Page generated: Thu Oct 31 09:53:08 2024
ISSN: ESSN 1095-9203 DOI: 10.1126/SCIENCE.ADO2075 |
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