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InterPro: IPR001574 Ribosome-inactivating protein

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UniProtKB

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761 proteins

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Detailed:	sorted by AC,	sorted by name,	of known structure	proteins with splice variants
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Accession List
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Accession

IPR001574 Ribosome_inactivat_prot

Type

Family

Signatures Help

Database	ID	Name	Proteins
Pfam	PF00161	RIP	689
SuperFamily	SSF56371	Ribosome_inactivat_prot	747
Signatures in BioMart

InterPro Relationships Help

Children

IPR017989 Ribosome-inactivating protein subgroup

Contains

IPR016138 Ribosome-inactivating protein, subdomain 1
IPR016139 Ribosome-inactivating protein, subdomain 2
IPR017988 Ribosome-inactivating protein conserved site

GO Term annotation Help

Process

GO:0017148 negative regulation of translation

Function

GO:0030598 rRNA N-glycosylase activity

InterPro annotation

Entry Details in BioMart

Abstract

A number of bacterial and plant toxins act by inhibiting protein synthesis in eukaryotic cells. The toxins of the shiga and ricin family inactivate 60S ribosomal subunits by an N-glycosidic cleavage which releases a specific adenine base from the sugar-phosphate backbone of 28S rRNA [1, 2, 3]. Members of the family include shiga and shiga-like toxins, and type I (e.g. trichosanthin and luffin) and type II (e.g. ricin, agglutinin and abrin) ribosome inactivating proteins (RIPs). All these toxins are structurally related. RIPs have been of considerable interest because of their potential use, conjugated with monoclonal antibodies, as immunotoxins to treat cancers. Further, trichosanthin has been shown to have potent activity against HIV-1-infected T cells and macrophages [4]. Elucidation of the structure-function relationships of RIPs has therefore become a major research effort. It is now known that RIPs are structurally related. A conserved glutamic residue has been implicated in the catalytic mechanism [5]; this lies near a conserved arginine, which also plays a role in catalysis [6].

Structural links Help

PDB - click here

SCOP: b.42.2.1 , d.165.1.1 , d.165.1.2

CATH: 2.80.10.50 , 3.40.420.10 , 4.10.470.10

Database links Help

PDBe-motif: PS00275

Enzyme: EC:3.2.2.22

PROSITE doc: PDOC00248

PANDIT: PF00161

Blocks: IPB001574

Taxonomic coverage Help

Overlapping InterPro entries Help

IPR001574

Numbers of overlapping proteins

Average numbers of overlapping amino acids

Example proteins Help

P02879 Ricin

P09385 Shiga-like toxin 2 subunit A

Q9FBI2 Shiga toxin subunit A

More proteins

Example Proteins Key

InterPro entry accession number/name and structure databases		Colour code
IPR000772	Ricin B lectin
IPR001574	Ribosome-inactivating protein
IPR016331	Shiga-like toxin, subunit A
IPR017989	Ribosome-inactivating protein subgroup
IPR017988	Ribosome-inactivating protein conserved site
IPR016139	Ribosome-inactivating protein, subdomain 2
IPR016138	Ribosome-inactivating protein, subdomain 1
IPR008997	Ricin B-related lectin
	PDB Chain
	ModBase
	SCOP Domain
	CATH Domain

Publications Open in usermanual
1.	Endo Y, Tsurugi K, Yutsudo T, Takeda Y, Ogasawara T, Igarashi K. Site of action of a Vero toxin (VT2) from Escherichia coli O157:H7 and of Shiga toxin on eukaryotic ribosomes. RNA N-glycosidase activity of the toxins. Eur. J. Biochem. 171 45-50 1988 [PubMed: 3276522] http://dx.doi.org/10.1111/j.1432-1033.1988.tb13756.x
2.	May MJ, Hartley MR, Roberts LM, Krieg PA, Osborn RW, Lord JM. Ribosome inactivation by ricin A chain: a sensitive method to assess the activity of wild-type and mutant polypeptides. EMBO J. 8 301-8 1989 [PubMed: 2714255] http://www.pubmedcentral.nih.gov/picrender.fcgi?tool=EBI&pubmedid=2714255&action=stream&blobtype=pdf
3.	Funatsu G, Islam MR, Minami Y, Sung-Sil K, Kimura M. Conserved amino acid residues in ribosome-inactivating proteins from plants. Biochimie 73 1157-61 1991 [PubMed: 1742358] http://dx.doi.org/10.1016/0300-9084(91)90160-3
4.	Zhou K, Fu Z, Chen M, Lin Y, Pan K. Structure of trichosanthin at 1.88 A resolution. Proteins 19 4-13 1994 [PubMed: 8066085] http://dx.doi.org/10.1002/prot.340190103
5.	Hovde CJ, Calderwood SB, Mekalanos JJ, Collier RJ. Evidence that glutamic acid 167 is an active-site residue of Shiga-like toxin I. Proc. Natl. Acad. Sci. U.S.A. 85 2568-72 1988 [PubMed: 3357883] http://ukpmc.ac.uk/articlerender.cgi?tool=EBI&pubmedid=3357883
6.	Monzingo AF, Collins EJ, Ernst SR, Irvin JD, Robertus JD. The 2.5 A structure of pokeweed antiviral protein. J. Mol. Biol. 233 705-15 1993 [PubMed: 8411176] http://dx.doi.org/10.1006/jmbi.1993.1547

Additional Reading Open in usermanual
	Ruggiero A, Chambery A, Di Maro A, Parente A, Berisio R. Atomic resolution (1.1 A) structure of the ribosome-inactivating protein PD-L4 from Phytolacca dioica L. leaves. Proteins 71 2008 8-15 [PubMed: 17963235] http://dx.doi.org/10.1002/prot.21712
	Meyer A, Rypniewski W, Szymanski M, Voelter W, Barciszewski J, Betzel C. Structure of mistletoe lectin I from Viscum album in complex with the phytohormone zeatin. Biochim. Biophys. Acta 1784 2008 1590-5 [PubMed: 18718563]
	Too PH, Ma MK, Mak AN, Wong YT, Tung CK, Zhu G, Au SW, Wong KB, Shaw PC. The C-terminal fragment of the ribosomal P protein complexed to trichosanthin reveals the interaction between the ribosome-inactivating protein and the ribosome. Nucleic Acids Res. 37 2009 602-10 [PubMed: 19073700] http://dx.doi.org/10.1093/nar/gkn922
	Allen SC, Moore KA, Marsden CJ, Fulop V, Moffat KG, Lord JM, Ladds G, Roberts LM. The isolation and characterization of temperature-dependent ricin A chain molecules in Saccharomyces cerevisiae. FEBS J. 274 2007 5586-99 [PubMed: 17916187] http://dx.doi.org/10.1111/j.1742-4658.2007.06080.x
	Hou X, Chen M, Chen L, Meehan EJ, Xie J, Huang M. X-ray sequence and crystal structure of luffaculin 1, a novel type 1 ribosome-inactivating protein. BMC Struct. Biol. 7 2007 29 [PubMed: 17470286] http://dx.doi.org/10.1186/1472-6807-7-29

InterPro 23.1