PDBsum entry 3g6e

Ribosome

PDB id

3g6e

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Contents

			Protein chains

					237 a.a. *


					337 a.a. *


					246 a.a. *


					140 a.a. *


					172 a.a. *


					119 a.a. *


					29 a.a. *


					160 a.a. *


					70 a.a. *


					142 a.a. *


					132 a.a. *


					145 a.a. *


					194 a.a. *


					186 a.a. *


					115 a.a. *


					143 a.a. *


					95 a.a. *


					150 a.a. *


					81 a.a. *


					119 a.a. *


					53 a.a. *


					65 a.a. *


					154 a.a. *


					82 a.a. *


					142 a.a. *


					73 a.a. *


					56 a.a. *


					46 a.a. *


					92 a.a. *

			DNA/RNA

			Ligands

					HMT

			Metals

					_SR ×108


					_NA ×75


					_MG ×93


					_CL ×22


					_CD ×5


					__K ×2

			Waters ×7823

* Residue conservation analysis

PDB id:

3g6e

Links

Name:

Ribosome

Title:

Co-crystal structure of homoharringtonine bound to the large ribosomal subunit

Structure:

23s ribosomal RNA. Chain: 0. Fragment: residues 2634210-2637132. 50s ribosomal protein l2p. Chain: a. Fragment: residues 143-264. Synonym: hmal2, hl4. 50s ribosomal protein l3p. Chain: b.

Source:

Haloarcula marismortui. Organism_taxid: 2238. Organism_taxid: 2238

Resolution:

2.70Å

R-factor:

0.190

R-free:

0.229

Authors:

G.Gurel,G.Blaha,P.B.Moore,T.A.Steitz

Key ref:

G.Gürel et al. (2009). U2504 determines the species specificity of the A-site cleft antibiotics: the structures of tiamulin, homoharringtonine, and bruceantin bound to the ribosome. J Mol Biol, 389, 146-156. PubMed id: 19362093 DOI: 10.1016/j.jmb.2009.04.005

Date:

06-Feb-09

Release date:

28-Apr-09

PROCHECK

	Headers

	References

Protein chain

P20276 (RL2_HALMA) - Large ribosomal subunit protein uL2 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					240 a.a. 237 a.a.

Protein chain

P20279 (RL3_HALMA) - Large ribosomal subunit protein uL3 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					338 a.a. 337 a.a.

Protein chain

P12735 (RL4_HALMA) - Large ribosomal subunit protein uL4 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					246 a.a. 246 a.a.

Protein chain

P14124 (RL5_HALMA) - Large ribosomal subunit protein uL5 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					177 a.a. 140 a.a.

Protein chain

P14135 (RL6_HALMA) - Large ribosomal subunit protein uL6 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					178 a.a. 172 a.a.

Protein chain

P12743 (RL7A_HALMA) - Large ribosomal subunit protein eL8 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					120 a.a. 119 a.a.

Protein chain

P15825 (RL10_HALMA) - Large ribosomal subunit protein uL10 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					348 a.a. 29 a.a.*

Protein chain

P60617 (RL10E_HALMA) - Large ribosomal subunit protein uL16 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					177 a.a. 160 a.a.

Protein chain

P14122 (RL11_HALMA) - Large ribosomal subunit protein uL11 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					162 a.a. 70 a.a.

Protein chain

P29198 (RL13_HALMA) - Large ribosomal subunit protein uL13 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					145 a.a. 142 a.a.

Protein chain

P22450 (RL14_HALMA) - Large ribosomal subunit protein uL14 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					132 a.a. 132 a.a.

Protein chain

P12737 (RL15_HALMA) - Large ribosomal subunit protein uL15 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					165 a.a. 145 a.a.

Protein chain

P60618 (RL15E_HALMA) - Large ribosomal subunit protein eL15 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					196 a.a. 194 a.a.

Protein chain

P14123 (RL18_HALMA) - Large ribosomal subunit protein uL18 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					187 a.a. 186 a.a.

Protein chain

P12733 (RL18E_HALMA) - Large ribosomal subunit protein eL18 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					116 a.a. 115 a.a.

Protein chain

P14119 (RL19E_HALMA) - Large ribosomal subunit protein eL19 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					149 a.a. 143 a.a.

Protein chain

P12734 (RL21_HALMA) - Large ribosomal subunit protein eL21 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					96 a.a. 95 a.a.

Protein chain

P10970 (RL22_HALMA) - Large ribosomal subunit protein uL22 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					155 a.a. 150 a.a.

Protein chain

P12732 (RL23_HALMA) - Large ribosomal subunit protein uL23 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					85 a.a. 81 a.a.

Protein chain

P10972 (RL24_HALMA) - Large ribosomal subunit protein uL24 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					120 a.a. 119 a.a.

Protein chain

P14116 (RL24E_HALMA) - Large ribosomal subunit protein eL24 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					67 a.a. 53 a.a.

Protein chain

P10971 (RL29_HALMA) - Large ribosomal subunit protein uL29 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					71 a.a. 65 a.a.

Protein chain

P14121 (RL30_HALMA) - Large ribosomal subunit protein uL30 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					154 a.a. 154 a.a.

Protein chain

P18138 (RL31_HALMA) - Large ribosomal subunit protein eL31 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					92 a.a. 82 a.a.

Protein chain

P12736 (RL32_HALMA) - Large ribosomal subunit protein eL32 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					241 a.a. 142 a.a.

Protein chain

P60619 (RL37A_HALMA) - Large ribosomal subunit protein eL43 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					92 a.a. 73 a.a.

Protein chain

P32410 (RL37_HALMA) - Large ribosomal subunit protein eL37 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					57 a.a. 56 a.a.

Protein chain

P22452 (RL39_HALMA) - Large ribosomal subunit protein eL39 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					50 a.a. 46 a.a.

Protein chain

P32411 (RL44E_HALMA) - Large ribosomal subunit protein eL42 from Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809)

Seq: Struc:					92 a.a. 92 a.a.

Key:

PfamA domain

Secondary structure

CATH domain

* PDB and UniProt seqs differ at 11 residue positions (black crosses)

DNA/RNA chains

		U-A-U-G-C-C-A-G-C-U-G-G-U-G-G-A-U-U-G-C-U-C-G-G-C-U-C-A-G-G-C-G-C-U-G-A-U-G-A- ... 2754 bases
		U-U-A-G-G-C-G-G-C-C-A-C-A-G-C-G-G-U-G-G-G-G-U-U-G-C-C-U-C-C-C-G-U-A-C-C-C-A-U- 122 bases



		Enzyme reactions

Enzyme class:

Chains A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, 1, 2, 3: E.C.?

[IntEnz] [ExPASy] [KEGG] [BRENDA]

DOI no: 10.1016/j.jmb.2009.04.005	J Mol Biol 389:146-156 (2009)
PubMed id: 19362093

U2504 determines the species specificity of the A-site cleft antibiotics: the structures of tiamulin, homoharringtonine, and bruceantin bound to the ribosome.
G.Gürel, G.Blaha, P.B.Moore, T.A.Steitz.

ABSTRACT

Structures have been obtained for the complexes that tiamulin, homoharringtonine, and bruceantin form with the large ribosomal subunit of Haloarcula marismortui at resolutions ranging from 2.65 to 3.2 A. They show that all these inhibitors block protein synthesis by competing with the amino acid side chains of incoming aminoacyl-tRNAs for binding in the A-site cleft in the peptidyl-transferase center, which is universally conserved. In addition, these structures support the hypothesis that the species specificity exhibited by the A-site cleft inhibitors is determined by the interactions they make, or fail to make, with a single nucleotide, U2504 (Escherichia coli). In the ribosome, the position of U2504 is controlled by its interactions with neighboring nucleotides, whose identities vary among kingdoms.

Selected figure(s)



	Figure 2. Fig. 2. The chemical structures of tiamulin, homoharringtonine, and bruceantin and the corresponding difference electron density. Panels (a)–(c) show the chemical structures of these inhibitors. Panels (d)–(f) show the feature in the appropriate (F[o] − F[o]) difference electron density map that was assigned to the three drugs, with the structures of the drugs superimposed on them. Difference electron density maps were contoured at 3σ. Residues forming the A-site cleft are shown in cyan, and 23S rRNA bases are numbered to correspond with the 23S rRNA of E. coli.		Figure 6. Fig. 6. Choosing the correct homoharringtonine enantiomer. A stereo pair that compares the fit of the refined homoharringtonine structure (gold) to the electron density for that drug with the fit obtained for the homoharringtonine structure obtained from the CSD (green), which is its enantiomer, is provided. The electron density shown is F[o] − F[o] difference electron density contoured at 3σ.

Figures were selected by an automated process.

Literature references that cite this PDB file's key reference

PubMed id

Reference

21292164

H.Ramu, N.Vázquez-Laslop, D.Klepacki, Q.Dai, J.Piccirilli, R.Micura, and A.S.Mankin (2011).
Nascent peptide in the ribosome exit tunnel affects functional properties of the A-site of the peptidyl transferase center.

Mol Cell, 41, 321-330.

20971952

R.Chen, L.Guo, Y.Chen, Y.Jiang, W.G.Wierda, and W.Plunkett (2011).
Homoharringtonine reduced Mcl-1 expression and induced apoptosis in chronic lymphocytic leukemia.

Blood, 117, 156-164.

20494981

H.David-Eden, A.S.Mankin, and Y.Mandel-Gutfreund (2010).
Structural signatures of antibiotic binding sites on the ribosome.

Nucleic Acids Res, 38, 5982-5994.

20876128

J.A.Dunkle, L.Xiong, A.S.Mankin, and J.H.Cate (2010).
Structures of the Escherichia coli ribosome with antibiotics bound near the peptidyl transferase center explain spectra of drug action.

Proc Natl Acad Sci U S A, 107, 17152-17157.

PDB codes:

3oaq 3oar 3oas 3oat 3ofa 3ofb 3ofc 3ofd 3ofo 3ofp 3ofq 3ofr 3ofx 3ofy 3ofz 3og0

20676057

N.Vázquez-Laslop, H.Ramu, D.Klepacki, K.Kannan, and A.S.Mankin (2010).
The key function of a conserved and modified rRNA residue in the ribosomal response to the nascent peptide.

EMBO J, 29, 3108-3117.

20080686

T.Auerbach, I.Mermershtain, C.Davidovich, A.Bashan, M.Belousoff, I.Wekselman, E.Zimmerman, L.Xiong, D.Klepacki, K.Arakawa, H.Kinashi, A.S.Mankin, and A.Yonath (2010).
The structure of ribosome-lankacidin complex reveals ribosomal sites for synergistic antibiotics.

Proc Natl Acad Sci U S A, 107, 1983-1988.

PDB code:

3jq4

20154667

T.Schneider-Poetsch, T.Usui, D.Kaida, and M.Yoshida (2010).
Garbled messages and corrupted translations.

Nat Chem Biol, 6, 189-198.

19929179

D.N.Wilson (2009).
The A-Z of bacterial translation inhibitors.

Crit Rev Biochem Mol Biol, 44, 393-433.

19738021

G.Gürel, G.Blaha, T.A.Steitz, and P.B.Moore (2009).
Structures of triacetyloleandomycin and mycalamide A bind to the large ribosomal subunit of Haloarcula marismortui.

Antimicrob Agents Chemother, 53, 5010-5014.

PDB codes:

3i55 3i56

The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB codes are shown on the right.