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Literature DB >> 2345150

Mutational analysis of the Shiga toxin and Shiga-like toxin II enzymatic subunits.

M P Jackson¹, R L Deresiewicz, S B Calderwood.

Abstract

The A-subunit polypeptides of Shiga toxin, the Shiga-like toxins (SLTs), and the plant lectin ricin inactivate eucaryotic ribosomes by enzymatically depurinating 28S rRNA. Comparison of the amino acid sequences of the members of the Shiga toxin family and ricin revealed two regions of significant homology that lie within a proposed active-site cleft of the ricin A chain. In previous studies, these conserved sequences of the SLT-I and ricin A subunits have been implicated as active sites. To establish the importance of these regions of homology, we used site-directed mutagenesis to alter the A-subunit sequences of two members of the Shiga toxin family. Substitution of an aspartic acid for glutamic acid 166 of the Slt-IIA subunit decreased the capacity of the polypeptides to inhibit protein synthesis at least 100-fold in a cell-free translation system. However, this mutation did not prevent the expression of immunoreactive, full-length Slt-IIA. In addition, SLT-II holotoxin containing the mutated A subunit was 1,000-fold less toxic to Vero cells. Finally, site-directed mutagenesis was used to delete sequences encoding amino acids 202 through 213 of the Shiga toxin A subunit. Although this deletion did not prevent holotoxin assembly, it abolished cytotoxic activity.

Entities: Chemical Mutation

Mesh：

Substances：

Year: 1990 PMID： 2345150 PMCID： PMC209145 DOI： 10.1128/jb.172.6.3346-3350.1990

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

27 in total

1. Nucleotide sequence and promoter mapping of the Escherichia coli Shiga-like toxin operon of bacteriophage H-19B.

Authors: S De Grandis; J Ginsberg; M Toone; S Climie; J Friesen; J Brunton
Journal: J Bacteriol Date: 1987-09 Impact factor: 3.490

2. Nucleotide sequence analysis of the structural genes for Shiga-like toxin I encoded by bacteriophage 933J from Escherichia coli.

Authors: M P Jackson; J W Newland; R K Holmes; A D O'Brien
Journal: Microb Pathog Date: 1987-02 Impact factor: 3.738

3. Selection and characterization of ricin toxin A-chain mutations in Saccharomyces cerevisiae.

Authors: A Frankel; D Schlossman; P Welsh; A Hertler; D Withers; S Johnston
Journal: Mol Cell Biol Date: 1989-02 Impact factor: 4.272

Review 4. Shiga and Shiga-like toxins.

Authors: A D O'Brien; R K Holmes
Journal: Microbiol Rev Date: 1987-06

Review 5. Tinkering with enzymes: what are we learning?

Authors: J R Knowles
Journal: Science Date: 1987-06-05 Impact factor: 47.728

6. Production of Shiga-like toxin by Escherichia coli.

Authors: L R Marques; M A Moore; J G Wells; I K Wachsmuth; A D O'Brien
Journal: J Infect Dis Date: 1986-08 Impact factor: 5.226

7. The three-dimensional structure of ricin at 2.8 A.

Authors: W Montfort; J E Villafranca; A F Monzingo; S R Ernst; B Katzin; E Rutenber; N H Xuong; R Hamlin; J D Robertus
Journal: J Biol Chem Date: 1987-04-15 Impact factor: 5.157

8. Characterization of monoclonal antibodies against Shiga-like toxin from Escherichia coli.

Authors: N A Strockbine; L R Marques; R K Holmes; A D O'Brien
Journal: Infect Immun Date: 1985-12 Impact factor: 3.441

9. The mechanism of action of ricin and related toxic lectins on eukaryotic ribosomes. The site and the characteristics of the modification in 28 S ribosomal RNA caused by the toxins.

Authors: Y Endo; K Mitsui; M Motizuki; K Tsurugi
Journal: J Biol Chem Date: 1987-04-25 Impact factor: 5.157

10. Ribosome inactivation by ricin A chain: a sensitive method to assess the activity of wild-type and mutant polypeptides.

Authors: M J May; M R Hartley; L M Roberts; P A Krieg; R W Osborn; J M Lord
Journal: EMBO J Date: 1989-01 Impact factor: 11.598

15 in total

1. Identification of a B subunit gene promoter in the Shiga toxin operon of Shigella dysenteriae 1.

Authors: N F Habib; M P Jackson
Journal: J Bacteriol Date: 1992-10 Impact factor: 3.490

2. Shiga toxin of enterohemorrhagic Escherichia coli type O157:H7 promotes intestinal colonization.

Authors: Cory M Robinson; James F Sinclair; Michael J Smith; Alison D O'Brien
Journal: Proc Natl Acad Sci U S A Date: 2006-06-09 Impact factor: 11.205

3. Diverse phage-encoded toxins in a protective insect endosymbiont.

Authors: Patrick H Degnan; Nancy A Moran
Journal: Appl Environ Microbiol Date: 2008-09-12 Impact factor: 4.792

4. Investigation of ribosome binding by the Shiga toxin A1 subunit, using competition and site-directed mutagenesis.

Authors: L M Skinner; M P Jackson
Journal: J Bacteriol Date: 1997-02 Impact factor: 3.490

5. Construction and characterization of an isogenic slt-ii deletion mutant of enterohemorrhagic Escherichia coli.

Authors: F Gunzer; U Bohn; S Fuchs; I Mühldorfer; J Hacker; S Tzipori; A Donohue-Rolfe
Journal: Infect Immun Date: 1998-05 Impact factor: 3.441

6. The CXCR4/CXCR7/SDF-1 pathway contributes to the pathogenesis of Shiga toxin-associated hemolytic uremic syndrome in humans and mice.

Authors: Tania N Petruzziello-Pellegrini; Darren A Yuen; Andrea V Page; Sajedabanu Patel; Anna M Soltyk; Charles C Matouk; Dennis K Wong; Paul J Turgeon; Jason E Fish; J J David Ho; Brent M Steer; Vahid Khajoee; Jayesh Tigdi; Warren L Lee; David G Motto; Andrew Advani; Richard E Gilbert; S Ananth Karumanchi; Lisa A Robinson; Phillip I Tarr; W Conrad Liles; James L Brunton; Philip A Marsden
Journal: J Clin Invest Date: 2012-01-09 Impact factor: 14.808