SMART: RL11 domain annotation

RL11 Ribosomal protein L11/L12

SMART accession number:	SM00649
Description:	-
Interpro abstract (IPR000911):	Ribosomal protein L11 is one of the proteins from the large ribosomal subunit. In Escherichia coli, L11 is known to bind directly to the 23S rRNA. It belongs to a family of ribosomal proteins which, on the basis of sequence similarities [ (PUBMED:2167467) ], groups bacteria, plant chloroplast, red algal chloroplast, cyanelle and archaeabacterial L11; and mammalian, plant and yeast L12 (YL15). L11 is a protein of 140 to 165 amino-acid residues. In E. coli, the C-terminal half of L11 has been shown [ (PUBMED:2483975) ] to be in an extended and loosely folded conformation and is likely to be buried within the ribosomal structure. Ribosomal protein L11, together with proteins L10 and L7/L12, and 23S rRNA, form the L7/L12 stalk on the surface of the large subunit of the ribosome. The homologous eukaryotic cytoplasmic protein is also called 60S ribosomal protein L12, which is distinct from the L12 involved in the formation of the L7/L12 stalk. The C-terminal domain (CTD) of L11 is essential for binding 23S rRNA, while the N-terminal domain (NTD) contains the binding site for the antibiotics thiostrepton and micrococcin. L11 and 23S rRNA form an essential part of the GTPase-associated region (GAR). Based on differences in the relative positions of the L11 NTD and CTD during the translational cycle, L11 is proposed to play a significant role in the binding of initiation factors, elongation factors, and release factors to the ribosome. Several factors, including the class I release factors RF1 and RF2, are known to interact directly with L11. In eukaryotes, L11 has been implicated in regulating the levels of ubiquinated p53 and MDM2 in the MDM2-p53 feedback loop, which is responsible for apoptosis in response to DNA damage. In bacteria, the "stringent response" to harsh conditions allows bacteria to survive, and ribosomes that lack L11 are deficient in stringent factor stimulation [ (PUBMED:12954336) (PUBMED:17095013) (PUBMED:18406324) (PUBMED:17015650) (PUBMED:16803902) (PUBMED:17169991) (PUBMED:16371360) (PUBMED:15492007) (PUBMED:15184028) (PUBMED:15152193) (PUBMED:17599351) (PUBMED:10338213) ].
GO process:	translation (GO:0006412)
GO component:	ribosome (GO:0005840)
GO function:	structural constituent of ribosome (GO:0003735)
Family alignment:	View or

There are 18448 RL11 domains in 18446 proteins in SMART's nrdb database.

Click on the following links for more information.

Evolution (species in which this domain is found)
Taxonomic distribution of proteins containing RL11 domain.
This tree includes only several representative species. The complete taxonomic breakdown of all proteins with RL11 domain is also avaliable.

Click on the protein counts, or double click on taxonomic names to display all proteins containing RL11 domain in the selected taxonomic class.
Cellular role (predicted cellular role)
Cellular role: translation
Binding / catalysis: RNA-binding
Literature (relevant references for this domain)
Primary literature is listed below; Automatically-derived, secondary literature is also avaliable.
- Markus MA, Gerstner RB, Draper DE, Torchia DA
- The solution structure of ribosomal protein S4 delta41 reveals two subdomains and a positively charged surface that may interact with RNA.
- EMBO J. 1998; 17: 4559-71
- Display abstract
- S4 is one of the first proteins to bind to 16S RNA during assembly of the prokaryotic ribosome. Residues 43-200 of S4 from Bacillus stearothermophilus (S4 Delta41) bind specifically to both 16S rRNA and to a pseudoknot within the alpha operon mRNA. As a first step toward understanding how S4 recognizes and organizes RNA, we have solved the structure of S4 Delta41 in solution by multidimensional heteronuclear nuclear magnetic resonance spectroscopy. The fold consists of two globular subdomains, one comprised of four helices and the other comprised of a five-stranded antiparallel beta-sheet and three helices. Although cross-linking studies suggest that residues between helices alpha2 and alpha3 are close to RNA, the concentration of positive charge along the crevice between the two subdomains suggests that this could be an RNA-binding site. In contrast to the L11 RNA-binding domain studied previously, S4 Delta41 shows no fast local motions, suggesting that it has less capacity for refolding to fit RNA. The independently determined crystal structure of S4 Delta41 shows similar features, although there is small rotation of the subdomains compared with the solution structure. The relative orientation of the subdomains in solution will be verified with further study.
Metabolism (metabolic pathways involving proteins which contain this domain)

Structure (3D structures containing this domain)

3D Structures of RL11 domains in PDB

PDB code	Main view	Title
1aci		L11 RIBOSOMAL PROTEIN RNA BINDING DOMAIN, NMR, 20 STRUCTURES
1c04		IDENTIFICATION OF KNOWN PROTEIN AND RNA STRUCTURES IN A 5 A MAP OF THE LARGE RIBOSOMAL SUBUNIT FROM HALOARCULA MARISMORTUI
1eg0		FITTING OF COMPONENTS WITH KNOWN STRUCTURE INTO AN 11.5 A CRYO-EM MAP OF THE E.COLI 70S RIBOSOME
1fow		NMR STRUCTURE OF L11-C76, THE C-TERMINAL DOMAIN OF 50S RIBOSOMAL PROTEIN L11, MINIMIZED AVERAGE STRUCTURE
1fox		NMR STRUCTURE OF L11-C76, THE C-TERMINAL DOMAIN OF 50S RIBOSOMAL PROTEIN L11, 33 STRUCTURES
1foy		THE RNA BINDING DOMAIN OF RIBOSOMAL PROTEIN L11: THREE-DIMENSIONAL STRUCTURE OF THE RNA-BOUND FORM OF THE PROTEIN, NMR, MINIMIZED AVERAGE STRUCTURE
1hc8		CRYSTAL STRUCTURE OF A CONSERVED RIBOSOMAL PROTEIN-RNA COMPLEX
1jqm		Fitting of L11 protein and elongation factor G (EF-G) in the cryo-em map of e. coli 70S ribosome bound with EF-G, GDP and fusidic acid
1jqs		Fitting of L11 protein and elongation factor G (domain G' and V) in the cryo-em map of E. coli 70S ribosome bound with EF-G and GMPPCP, a nonhydrolysable GTP analog
1jqt		Fitting of L11 protein in the low resolution cryo-EM map of E.coli 70S ribosome
1mj1		FITTING THE TERNARY COMPLEX OF EF-Tu/tRNA/GTP AND RIBOSOMAL PROTEINS INTO A 13 A CRYO-EM MAP OF THE COLI 70S RIBOSOME
1ml5		Structure of the E. coli ribosomal termination complex with release factor 2
1mms		Crystal structure of the ribosomal PROTEIN L11-RNA complex
1mvr		Decoding Center & Peptidyl transferase center from the X-ray structure of the Thermus thermophilus 70S ribosome, aligned to the low resolution Cryo-EM map of E.coli 70S Ribosome
1nkw		Crystal Structure Of The Large Ribosomal Subunit From Deinococcus Radiodurans
1nwx		COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH ABT-773
1nwy		COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH AZITHROMYCIN
1oln		Model for thiostrepton antibiotic binding to L11 substrate from 50S ribosomal RNA
1pn7		Coordinates of S12, L11 proteins and P-tRNA, from the 70S X-ray structure aligned to the 70S Cryo-EM map of E.coli ribosome
1pn8		Coordinates of S12, L11 proteins and E-site tRNA from 70S crystal structure separately fitted into the Cryo-EM map of E.coli 70S.EF-G.GDPNP complex. The atomic coordinates originally from the E-site tRNA were fitted in the position of the hybrid P/E-site tRNA.
1qa6		CRYSTAL STRUCTURE OF A CONSERVED RIBOSOMAL PROTEIN-RNA COMPLEX
1r2w		Coordinates of L11 with 58nts of 23S rRNA fitted into the cryo-EM map of the 70S ribosome
1r2x		Coordinates of L11 with 58nts of 23S rRNA fitted into the cryo-EM map of EF-Tu ternary complex (GDP.Kirromycin) bound 70S ribosome
1s72		REFINED CRYSTAL STRUCTURE OF THE HALOARCULA MARISMORTUI LARGE RIBOSOMAL SUBUNIT AT 2.4 ANGSTROM RESOLUTION
1sm1		COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH QUINUPRISTIN AND DALFOPRISTIN
1vq4		The structure of the transition state analogue ""DAA"" bound to the large ribosomal subunit of Haloarcula marismortui
1vq5		The structure of the transition state analogue ""RAA"" bound to the large ribosomal subunit of haloarcula marismortui
1vq6		The structure of c-hpmn and CCA-PHE-CAP-BIO bound to the large ribosomal subunit of haloarcula marismortui
1vq7		The structure of the transition state analogue ""DCA"" bound to the large ribosomal subunit of haloarcula marismortui
1vq8		The structure of CCDA-PHE-CAP-BIO and the antibiotic sparsomycin bound to the large ribosomal subunit of haloarcula marismortui
1vq9		The structure of CCA-PHE-CAP-BIO and the antibiotic sparsomycin bound to the large ribosomal subunit of haloarcula marismortui
1vqk		The structure of CCDA-PHE-CAP-BIO bound to the a site of the ribosomal subunit of haloarcula marismortui
1vql		The structure of the transition state analogue ""DCSN"" bound to the large ribosomal subunit of haloarcula marismortui
1vqm		The structure of the transition state analogue ""DAN"" bound to the large ribosomal subunit of haloarcula marismortui
1vqn		The structure of CC-HPMN AND CCA-PHE-CAP-BIO bound to the large ribosomal subunit of haloarcula marismortui
1vqo		The structure of CCPMN bound to the large ribosomal subunit haloarcula marismortui
1vqp		The structure of the transition state analogue ""RAP"" bound to the large ribosomal subunit of haloarcula marismortui
1wib		Solution structure of the N-terminal domain from mouse hypothetical protein BAB22488
1xbp		Inhibition of peptide bond formation by pleuromutilins: The structure of the 50S ribosomal subunit from Deinococcus radiodurans in complex with Tiamulin
1y39		Co-evolution of protein and RNA structures within a highly conserved ribosomal domain
1yhq		Crystal Structure Of Azithromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui
1yi2		Crystal Structure Of Erythromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui
1yij		Crystal Structure Of Telithromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui
1yit		Crystal Structure Of Virginiamycin M and S Bound To The 50S Ribosomal Subunit Of Haloarcula Marismortui
1yj9		Crystal Structure Of The Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui Containing a three residue deletion in L22
1yjn		Crystal Structure Of Clindamycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui
1yjw		Crystal Structure Of Quinupristin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui
2bcw		Coordinates of the N-terminal domain of ribosomal protein L11,C-terminal domain of ribosomal protein L7/L12 and a portion of the G' domain of elongation factor G, as fitted into cryo-em map of an Escherichia coli 70SEF-GGDP*fusidic acid complex
2e34		L11 structure with RDC and RG refinement
2e35		the minimized average structure of L11 with rg refinement
2e36		L11 with SANS refinement
2fow		THE RNA BINDING DOMAIN OF RIBOSOMAL PROTEIN L11: THREE-DIMENSIONAL STRUCTURE OF THE RNA-BOUND FORM OF THE PROTEIN, NMR, 26 STRUCTURES
2ftc		Structural Model for the Large Subunit of the Mammalian Mitochondrial Ribosome
2h8w		Solution structure of ribosomal protein L11
2j28		Model of E. coli SRP bound to 70S RNCs
2jq7		Model for thiostrepton binding to the ribosomal L11-RNA
2k3f		Ribosomal protein L11 from Thermotoga maritima
2klm		Solution Structure of L11 with SAXS and RDC
2nxn		T. thermophilus ribosomal protein L11 methyltransferase (PrmA) in complex with ribosomal protein L11
2otj		13-deoxytedanolide bound to the large subunit of Haloarcula marismortui
2otl		Girodazole bound to the large subunit of Haloarcula marismortui
2qa4		A more complete structure of the the L7/L12 stalk of the Haloarcula marismortui 50S large ribosomal subunit
2qex		Negamycin Binds to the Wall of the Nascent Chain Exit Tunnel of the 50S Ribosomal Subunit
2rdo		50S subunit with EF-G(GDPNP) and RRF bound
2zjp		Thiopeptide antibiotic Nosiheptide bound to the large ribosomal subunit of Deinococcus radiodurans
2zjq		Interaction of L7 with L11 induced by Microccocin binding to the Deinococcus radiodurans 50S subunit
2zjr		Refined native structure of the large ribosomal subunit (50S) from Deinococcus radiodurans
3cc2		The Refined Crystal Structure of the Haloarcula Marismortui Large Ribosomal Subunit at 2.4 Angstrom Resolution with rrnA Sequence for the 23S rRNA and Genome-derived Sequences for r-Proteins
3cc4		Co-crystal Structure of Anisomycin Bound to the 50S Ribosomal Subunit
3cc7		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation C2487U
3cce		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation U2535A
3ccj		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation C2534U
3ccl		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation U2535C. Density for Anisomycin is visible but not included in model.
3ccm		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2611U
3ccq		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation A2488U
3ccr		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation A2488C. Density for anisomycin is visible but not included in the model.
3ccs		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2482A
3ccu		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2482C
3ccv		Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2616A
3cd6		Co-cystal of large Ribosomal Subunit mutant G2616A with CC-Puromycin
3cf5		Thiopeptide antibiotic Thiostrepton bound to the large ribosomal subunit of Deinococcus radiodurans
3cjq		Ribosomal protein L11 methyltransferase (PrmA) in complex with dimethylated ribosomal protein L11 in space group P212121
3cjr		Ribosomal protein L11 methyltransferase (PrmA) in complex with ribosomal protein L11 (K39A) and inhibitor Sinefungin.
3cjs		Minimal Recognition Complex between PrmA and Ribosomal Protein L11
3cjt		Ribosomal protein L11 methyltransferase (PrmA) in complex with dimethylated ribosomal protein L11
3cma		The structure of CCA and CCA-Phe-Cap-Bio bound to the large ribosomal subunit of Haloarcula marismortui
3cme		The Structure of CA and CCA-PHE-CAP-BIO Bound to the Large Ribosomal Subunit of Haloarcula Marismortui
3deg		Complex of elongating Escherichia coli 70S ribosome and EF4(LepA)-GMPPNP
3dll		The oxazolidinone antibiotics perturb the ribosomal peptidyl-transferase center and effect tRNA positioning
3egv		Ribosomal protein L11 methyltransferase (PrmA) in complex with trimethylated ribosomal protein L11
3ep2		Model of Phe-tRNA(Phe) in the ribosomal pre-accommodated state revealed by cryo-EM
3eq3		Model of tRNA(Trp)-EF-Tu in the ribosomal pre-accommodated state revealed by cryo-EM
3eq4		Model of tRNA(Leu)-EF-Tu in the ribosomal pre-accommodated state revealed by cryo-EM
3g4s		Co-crystal structure of Tiamulin bound to the large ribosomal subunit
3g6e		Co-crystal structure of Homoharringtonine bound to the large ribosomal subunit
3g71		Co-crystal structure of Bruceantin bound to the large ribosomal subunit
3i55		Co-crystal structure of Mycalamide A Bound to the Large Ribosomal Subunit
3i56		Co-crystal structure of Triacetyloleandomcyin Bound to the Large Ribosomal Subunit
3iy9		Leishmania Tarentolae Mitochondrial Large Ribosomal Subunit Model
3j0d		Models for the T. thermophilus ribosome recycling factor bound to the E. coli post-termination complex
3j16		Models of ribosome-bound Dom34p and Rli1p and their ribosomal binding partners
3j3v		Atomic model of the immature 50S subunit from Bacillus subtilis (state I-a)
3j3w		Atomic model of the immature 50S subunit from Bacillus subtilis (state II-a)
3j5l		Structure of the E. coli 50S subunit with ErmBL nascent chain
3j77		3J77
3j78		3J78
3j7p		3J7P
3j7y		3J7Y
3j7z		3J7Z
3j8g		3J8G
3j92		3J92
3j9m		3J9M
3j9w		3J9W
3j9y		3J9Y
3j9z		3J9Z
3ja1		3JA1
3jag		3JAG
3jah		3JAH
3jai		3JAI
3jaj		3JAJ
3jan		3JAN
3jbv		3JBV
3jcd		3JCD
3jce		3JCE
3jcj		3JCJ
3jcn		3JCN
3pio		Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit
3pip		Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit
487d		SEVEN RIBOSOMAL PROTEINS FITTED TO A CRYO-ELECTRON MICROSCOPIC MAP OF THE LARGE 50S SUBUNIT AT 7.5 ANGSTROMS RESOLUTION
4csu		4CSU
4io9		Crystal structure of compound 4d bound to large ribosomal subunit (50S) from Deinococcus radiodurans
4ioa		Crystal structure of compound 4e bound to large ribosomal subunit (50S) from Deinococcus radiodurans
4ioc		Crystal structure of compound 4f bound to large ribosomal subunit (50S) from Deinococcus radiodurans
4u1u		4U1U
4u1v		4U1V
4u20		4U20
4u24		4U24
4u25		4U25
4u26		4U26
4u27		4U27
4uy8		4UY8
4v19		4V19
4v3p		4V3P
4v42		4V42
4v47		4V47
4v48		4V48
4v49		4V49
4v4a		4V4A
4v4b		4V4B
4v4g		4V4G
4v4h		4V4H
4v4n		4V4N
4v4p		4V4P
4v4q		4V4Q
4v4r		4V4R
4v4s		4V4S
4v4t		4V4T
4v4v		4V4V
4v4w		4V4W
4v4x		4V4X
4v4y		4V4Y
4v4z		4V4Z
4v50		4V50
4v52		4V52
4v53		4V53
4v54		4V54
4v55		4V55
4v56		4V56
4v57		4V57
4v5b		4V5B
4v5e		4V5E
4v5f		4V5F
4v5h		4V5H
4v5j		4V5J
4v5m		4V5M
4v5n		4V5N
4v5y		4V5Y
4v5z		4V5Z
4v61		4V61
4v64		4V64
4v65		4V65
4v66		4V66
4v67		4V67
4v68		4V68
4v69		4V69
4v6c		4V6C
4v6d		4V6D
4v6e		4V6E
4v6f		4V6F
4v6i		4V6I
4v6k		4V6K
4v6l		4V6L
4v6m		4V6M
4v6n		4V6N
4v6o		4V6O
4v6p		4V6P
4v6q		4V6Q
4v6r		4V6R
4v6s		4V6S
4v6t		4V6T
4v6u		4V6U
4v6v		4V6V
4v6w		4V6W
4v6x		4V6X
4v6y		4V6Y
4v6z		4V6Z
4v70		4V70
4v71		4V71
4v72		4V72
4v73		4V73
4v74		4V74
4v75		4V75
4v76		4V76
4v77		4V77
4v78		4V78
4v79		4V79
4v7a		4V7A
4v7b		4V7B
4v7c		4V7C
4v7d		4V7D
4v7e		4V7E
4v7f		4V7F
4v7h		4V7H
4v7i		4V7I
4v7r		4V7R
4v7s		4V7S
4v7t		4V7T
4v7u		4V7U
4v7v		4V7V
4v85		4V85
4v89		4V89
4v8m		4V8M
4v9c		4V9C
4v9d		4V9D
4v9f		4V9F
4v9h		4V9H
4v9j		4V9J
4v9k		4V9K
4v9l		4V9L
4v9m		4V9M
4v9n		4V9N
4v9o		4V9O
4v9p		4V9P
4w29		4W29
4w2e		4W2E
4wf1		4WF1
4woi		4WOI
4wpo		4WPO
4wqf		4WQF
4wqu		4WQU
4wqy		4WQY
4www		4WWW
4xej		4XEJ
4ybb		4YBB
5a8l		5A8L
5a9z		5A9Z
5aa0		5AA0
5ady		5ADY
5afi		5AFI
5aj0		5AJ0
5aj4		5AJ4
5aka		5AKA
5an9		5AN9
5anb		5ANB
5anc		5ANC
5col		5COL
5d8b		5D8B
5d8h		5D8H
5dar		5DAR
5dm6		5DM6
5dm7		5DM7
5fl8		5FL8
5gad		5GAD
5gae		5GAE
5gaf		5GAF
5gag		5GAG
5gah		5GAH
5hau		5HAU
5imq		5IMQ
5imr		5IMR
5iqr		5IQR
5it8		5IT8
5j5b		5J5B
5j7l		5J7L
5j88		5J88
5j8a		5J8A
5j8b		5J8B
5j91		5J91
5jc9		5JC9
5jcs		5JCS
5jte		5JTE
5ju8		5JU8
5juo		5JUO
5jup		5JUP
5jus		5JUS
5jut		5JUT
5juu		5JUU
5jvg		5JVG
5kcr		5KCR
5kcs		5KCS
5kps		5KPS
5kpv		5KPV
5kpw		5KPW
5kpx		5KPX
5l3p		5L3P
5lza		5LZA
5lzb		5LZB
5lzc		5LZC
5lzd		5LZD
5lze		5LZE
5lzf		5LZF
5lzs		5LZS
5lzt		5LZT
5lzu		5LZU
5lzv		5LZV
5lzw		5LZW
5lzx		5LZX
5lzy		5LZY
5lzz		5LZZ

Links (links to other resources describing this domain)
PFAM Ribosomal_L11
INTERPRO IPR000911

PFAM	Ribosomal_L11
INTERPRO	IPR000911

RL11

Taxonomic distribution of proteins containing RL11 domain.

3D Structures of RL11 domains in PDB