PROSITE documentation PDOC00248
Shiga/ricin ribosomal inactivating toxins active site signature

Description

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]. The toxins which are known to function in this manner are:

Shiga toxin from Shigella dysenteriae [4]. This toxin is composed of one copy of an enzymatically active A subunit and five copies of a B subunit responsible for binding the toxin complex to specific receptors on the target cell surface.
Shiga-like toxins (SLT) are a group of Escherichia coli toxins very similar in their structure and properties to Shiga toxin. The sequence of two types of these toxins, SLT-1 [5] and SLT-2 [6], is known.
Ricin, a potent toxin from castor bean seeds. Ricin consists of two glycosylated chains linked by a disulfide bond. The A chain is enzymatically active. The B chain is a lectin with a binding preference for galactosides. Both chains are encoded by a single polypeptidic precursor. Ricin is classified as a type-II ribosome-inactivating protein (RIP); other members of this family are agglutinin, also from castor bean, and abrin from the seeds of the bean Abrus precatorius [7].
Single chain ribosome-inactivating proteins (type-I RIP) from plants. Examples of such proteins are: barley protein synthesis inhibitors I and II, mongolian snake-gourd trichosanthin, sponge gourd luffin-A and -B, garden four-o'clock MAP, common pokeberry PAP-S and soapwort saporin-6 [7].

All these toxins are structurally related. A conserved glutamic residue has been implicated [8] in the catalytic mechanism; it is located near a conserved arginine which also plays a role in catalysis [9]. The signature we developed for these proteins includes these catalytic residues.

Last update:

December 2004 / Pattern and text revised.

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Technical section

PURL: https://purl.expasy.org/prosite/documentation/PDOC00248

PROSITE method (with tools and information) covered by this documentation:

SHIGA_RICIN, PS00275; Shiga/ricin ribosomal inactivating toxins active site signature (PATTERN)

Consensus pattern:
[LIVMA]-x-[LIVMSTA](2)-x-E-[SAGV]-[STAL]-R-[FY]-[RKNQST]-x-[LIVM]-[EQS]-x(2)-[LIVMF]
E and R are active site residues
Sequences in UniProtKB/Swiss-Prot known to belong to this class: 76
- detected by PS00275: 57 (true positives)
- undetected by PS00275: 19 (7 false negatives and 12 'partials')
Other sequence(s) in UniProtKB/Swiss-Prot detected by PS00275:
2 false positives.
Retrieve an alignment of UniProtKB/Swiss-Prot true positive hits:
Clustal format, color, condensed view / Clustal format, color / Clustal format, plain text / Fasta format
Retrieve the sequence logo from the alignment
Taxonomic distribution of all UniProtKB (Swiss-Prot + TrEMBL) entries matching PS00275
Retrieve a list of all UniProtKB (Swiss-Prot + TrEMBL) entries matching PS00275
Scan UniProtKB (Swiss-Prot and/or TrEMBL) entries against PS00275
Matching PDB structures: 1ABR 1AHA 1AHB 1AHC ... [ALL]

References

1	Authors	Endo Y. Tsurugi K. Yutsudo T. Takeda Y. Ogasawara T. Igarashi K.
	Title	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.
	Source	Eur. J. Biochem. 171:45-50(1988).
	PubMed ID	3276522

2	Authors	May M.J. Hartley M.R. Roberts L.M. Krieg P.A. Osborn R.W. Lord J.M.
	Title	Ribosome inactivation by ricin A chain: a sensitive method to assess the activity of wild-type and mutant polypeptides.
	Source	EMBO J. 8:301-308(1989).
	PubMed ID	2714255

3	Authors	Funatsu G. Islam M.R. Minami Y. Sung-Sil K. Kimura M.
	Title	Conserved amino acid residues in ribosome-inactivating proteins from plants.
	Source	Biochimie 73:1157-1161(1991).
	PubMed ID	1742358

4	Authors	Strockbine N.A. Jackson M.P. Sung L.M. Holmes R.K. O'Brien A.D.
	Title	Cloning and sequencing of the genes for Shiga toxin from Shigella dysenteriae type 1.
	Source	J. Bacteriol. 170:1116-1122(1988).
	PubMed ID	2830229

5	Authors	Calderwood S.B. Auclair F. Donohue-Rolfe A. Keusch G.T. Mekalanos J.J.
	Title	Nucleotide sequence of the Shiga-like toxin genes of Escherichia coli.
	Source	Proc. Natl. Acad. Sci. U.S.A. 84:4364-4368(1987).
	PubMed ID	3299365

6	Authors	Jackson M.P. Neill R.J. O'Brien A.D. Holmes R.K. Newland J.W.
6	Source	FEMS Microbiol. Lett. 44:109-114(1987).

7	Authors	Barbieri L. Battelli M.G. Stirpe F.
	Title	Ribosome-inactivating proteins from plants.
	Source	Biochim. Biophys. Acta 1154:237-282(1993).
	PubMed ID	8280743

8	Authors	Hovde C.J. Calderwood S.B. Mekalanos J.J. Collier R.J.
	Title	Evidence that glutamic acid 167 is an active-site residue of Shiga-like toxin I.
	Source	Proc. Natl. Acad. Sci. U.S.A. 85:2568-2572(1988).
	PubMed ID	3357883

9	Authors	Monzingo A.F. Collins E.J. Ernst S.R. Irvin J.D. Robertus J.D.
	Title	The 2.5 A structure of pokeweed antiviral protein.
	Source	J. Mol. Biol. 233:705-715(1993).
	PubMed ID	8411176

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PROSITE documentation PDOC00248Shiga/ricin ribosomal inactivating toxins active site signature

PROSITE documentation PDOC00248
Shiga/ricin ribosomal inactivating toxins active site signature