ISDA

Entry Detail

PDB ID:

1ZN1

Keywords:

BIOSYNTHETIC/structural protein/RNA

Title:

Coordinates of RRF fitted into Cryo-EM map of the 70S post-termination complex

Biological Source:

Source Organism:

Escherichia coli

PDB Version:

Deposition Date:

2005-05-11

Release Date:

2005-06-14

Method Details:

Experimental Method:

ELECTRON MICROSCOPY

Resolution:

14.10 Å

Aggregation State:

PARTICLE

Reconstruction Method:

SINGLE PARTICLE

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Macromolecular Entities

Protein Blast

Polymer Type:polypeptide(L)
Description:Ribosome recycling factor
Chain IDs:C (auth: A)
Chain Length:185
Number of Molecules:1
Biological Source:Escherichia coli

UniProt ID:P0A805 Pfam ID:PF01765

Polymer Type:polyribonucleotide
Description:ribosomal 23S RNA
Chain IDs:A (auth: B)
Chain Length:59
Number of Molecules:1
Biological Source:Escherichia coli

Polymer Type:polyribonucleotide
Description:ribosomal 16S RNA
Chain IDs:B (auth: C)
Chain Length:40
Number of Molecules:1
Biological Source:Escherichia coli

Protein Blast

Polymer Type:polypeptide(L)
Description:30S ribosomal protein S12
Chain IDs:D (auth: L)
Chain Length:97
Number of Molecules:1
Biological Source:Escherichia coli

UniProt ID:P0A7S3 Pfam ID:PF00164

Ligand Molecules

Primary Citation

Mechanism for the disassembly of the posttermination complex inferred from cryo-EM studies.

Gao, N, Zavialov, A.V, Li, W, Sengupta, J, Valle, M, Gursky, R.P, Ehrenberg, M, Frank, J, Valle, M, Zavialov, A, Sengupta, J, Rawat, U, Ehrenberg, M, Frank, J, Gao, H, Sengupta, J, Valle, M, Korostelev, A, Eswar, N, Stagg, S.M, Van Roey, P, Agrawal, R.K, Harvey, S.C, Sali, A, Chapman, M.S, Frank, J, Kim, K.K, Min, K, Suh, S.W.Show

Mol.Cell 18 663 674 (2005)

PMID: 15949441 DOI: 10.1016/j.molcel.2005.05.005

Abstact

Ribosome recycling, the disassembly of the posttermination complex after each round of protein synthesis, is an essential step in mRNA translation, but its mechanism has remained obscure. In eubacteria, recycling is catalyzed by RRF (ribosome recycling factor) and EF-G (elongation factor G). By using cryo-electron microscopy, we have obtained two density maps, one of the RRF bound posttermination complex and one of the 50S subunit bound with both EF-G and RRF. Comparing the two maps, we found domain I of RRF to be in the same orientation, while domain II in the EF-G-containing 50S subunit is extensively rotated (approximately 60 degrees) compared to its orientation in the 70S complex. Mapping the 50S conformation of RRF onto the 70S posttermination complex suggests that it can disrupt the intersubunit bridges B2a and B3, and thus effect a separation of the two subunits. These observations provide the structural basis for the mechanism by which the posttermination complex is split into subunits by the joint action of RRF and EF-G.

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