5E7C: Macromolecular diffractive imaging using imperfect crystals - Bragg data

PDB ID: 5E7CDownload
MMDB ID: 136406
PDB Deposition Date: 2015/10/12
Updated in MMDB: 2016/03
Experimental Method:
x-ray diffraction
Resolution: 4.5  Å
Source Organism:
Similar Structures:
Biological Unit for 5E7C: 38-meric; determined by author and by software (PISA)
Molecular Components in 5E7C
Label Count Molecule
Proteins (38 molecules)
2
Photosystem II Protein D1 1(Gene symbol: psbA1)
Molecule annotation
2
Photosystem II Cp47 Reaction Center Protein(Gene symbol: psbB)
Molecule annotation
2
Photosystem II Cp43 Reaction Center Protein(Gene symbol: psbC)
Molecule annotation
2
Photosystem II D2 Protein(Gene symbol: psbD1)
Molecule annotation
2
Cytochrome B559 Subunit Alpha(Gene symbol: psbE)
Molecule annotation
2
Cytochrome B559 Subunit Beta(Gene symbol: psbF)
Molecule annotation
2
Photosystem II Reaction Center Protein H(Gene symbol: psbH)
Molecule annotation
2
Photosystem II Reaction Center Protein I(Gene symbol: psbI)
Molecule annotation
2
Photosystem II Reaction Center Protein J(Gene symbol: psbJ)
Molecule annotation
2
Photosystem II Reaction Center Protein K(Gene symbol: psbK)
Molecule annotation
2
Photosystem II Reaction Center Protein L(Gene symbol: psbL)
Molecule annotation
2
Photosystem II Reaction Center Protein M(Gene symbol: psbM)
Molecule annotation
2
Photosystem II Manganese-stabilizing Polypeptide(Gene symbol: psbO)
Molecule annotation
2
Photosystem II Reaction Center Protein T(Gene symbol: psbT)
Molecule annotation
2
Photosystem II 12 KDA Extrinsic Protein(Gene symbol: psbU)
Molecule annotation
2
Cytochrome C-550(Gene symbol: psbV)
Molecule annotation
2
Photosystem II Reaction Center Protein Ycf12(Gene symbol: ycf12)
Molecule annotation
2
Photosystem II Reaction Center X Protein(Gene symbol: psbX)
Molecule annotation
2
Photosystem II Reaction Center Protein Z(Gene symbol: psbZ)
Molecule annotation
Chemicals (164 molecules)
1
2
2
6
3
2
4
70
5
4
6
22
7
4
8
8
9
12
10
2
11
6
12
10
13
10
14
4
15
2
* Click molecule labels to explore molecular sequence information.

Citing MMDB
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