Amino Sugars in the Glycoprotein Toxin from \u3ci\u3eBacillus thuringiensis\u3c/i\u3e subsp. \u3ci\u3eisraelensis\u3c/i\u3e (original) (raw)
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Amino sugars in the glycoprotein toxin from Bacillus thuringiensis subsp. israelensis
Journal of bacteriology, 1987
The carbohydrate content of purified Bacillus thuriniensis subsp. israelensis crystal toxin was determined by six biochemical tests, column chromatography on an amino acid analyzer, and the binding of 11 fluorescent lectins. The crystals contained approximately 1.0% neutral sugars and 1.7% amino sugars. The amino sugars consisted of 70% glucosamine and 30% galactosamine. No N-acetylneuraminic acid (sialic acid) was detected. The presence of amino sugars was confirmed by the strong binding of fluorescent wheat germ agglutinin and the weak binding of fluorescent soybean agglutinin. These lectins recognize N-acetyl-D-glucosamine and N-acetyl-D-galactosamine, respectively. The lectin-binding sites appeared evenly distributed among the protein subunits of the crystal. The sugars were covalently attached to the crystal toxin because wheat germ agglutinin still bound alkali-solubilized toxin which had been boiled in sodium dodecyl sulfate, separate by polyacrylamide gel electrophoresis, an...
Applied and environmental microbiology, 1987
The mosquito-active protein crystals produced by Bacillus thuringiensis subsp. israelensis contain covalently attached aminosugars which are critical for their larvicidal activity. The 50% lethal concentrations toward Aedes aegypti larvae were increased up to 10-fold by mild periodate treatment, up to 40-fold by forming the protein crystals in the presence of tunicamycin, and up to 7-fold by the presence during the mosquito bioassays of N-acetylglucosamine or its trimer, triacetylchitotriose. Periodate-treated crystals and crystals formed in the presence of tunicamycin had greatly reduced binding capacities for wheat germ agglutinin, an N-acetylglucosamine-specific lectin. These results suggest that the B. thuringiensis subsp. israelensis glycoprotein toxin binds to a lectinlike receptor in the larval mosquito gut. Furthermore, the distinct lectin-binding patterns exhibited by diptera-active versus lepidoptera-active B. thuringiensis crystals suggest that host specificity for the mi...
Nonenzymatic glycosylation of lepidopteran-active Bacillus thuringiensis protein crystals
1993
We used high-pH anion-exchange chromatography with pulsed amperometric detection to quantify the monosaccharides covalently attached to BaciUus thuringiensis HD-1 (Dipel) crystals. The crystals contained 0.54% sugars, including, in decreasing order of prevalence, glucose, fucose, arabinose/rhamnose, galactose, galactosamine, glucosamine, xylose, and mannose. Three lines of evidence indicated that these sugars arose from nonenzymatic glycosylation: (i) the sugars could not be removed by Nor O-glycanases; (ii) the sugars attached were influenced both by the medium in which the bacteria had been grown and by the time at which the crystals were harvested; and (iii) the chemical identity and stoichiometry of the sugars detected did not fit any known glycoprotein models. Thus, the sugars detected were the product of fermentation conditions rather than bacterial genetics. The implications of these findings are discussed in terms of crystal chemistry, fermentation technology, and the efficacy of B. thuringiensis as a microbial insecticide.
Applied and environmental microbiology, 1988
We have investigated the protein composition and the insecticidal spectrum of crystals of 29 Bacillus thuringiensis strains active against lepidopteran larvae. All crystals contained proteins of 130 to 140 kilodaltons (kDa) which could be grouped into three types by the molecular weight of the protoxin and the trypsin-activated core fragment. Proteins of the three types showed a characteristic insecticidal spectrum when tested against five lepidopteran species. Type A crystal proteins were protoxins of 130 or 133 kDa, which were processed into 60-kDa toxins by trypsin. Several genes encoding crystal proteins of this type have been cloned and sequenced earlier. They are highly conserved in the N-terminal half of the toxic fragment and were previously classified in three subtypes (the 4.5-, 5.3-, and 6.6-kilobase subtypes) based on the restriction map of their genes. The present study shows that different proteins of these three subtypes were equally toxic against Manduca sexta and Pi...
Applied and environmental microbiology, 1986
The immunological relationships among the proteins of the mosquito larvicidal toxin produced by Bacillus thuringiensis subsp. israelensis have been investigated by using polyclonal antisera specific for the 28-, 70-, and 135-kilodalton proteins. Each of these proteins was immunologically distinct. There was no cross-reaction among the three proteins and the two non-homologous antisera. Treatment of toxin proteins with larval gut enzymes for 20 h identified protease-resistant domains at approximately 65, 38, and 22 kilodaltons. Similar domains were generated by treatment with trypsin and chymotrypsin. Our immunological and kinetic data indicate that the 28-kilodalton protein is degraded successively to protein bands at 26, 25, 23, and 22 kilodaltons, the 70-kilodalton protein is degraded to a protein at 38 kilodaltons, and the 135-kilodalton protein is degraded successively to protein bands at 94, 72, and, probably, 65 kilodaltons. Solubilized toxin possesses two biological activitie...
Applied and Environmental Microbiology, 1988
At least three different insecticidal crystal protein genes were shown to be expressed in Bacillus thuringiensis subsp. aizawai 7.29, a strain that is potentially active against the cotton leafworm Spodoptera littoralis Bdv. Among crude K-60 fractions (60- to 70-kilodalton [kDa] molecules) that were products of proteolysed crystals containing the active domains of the protoxin molecules, we were able to distinguish several distinct components on the basis of their antigenic relationship and their larvicidal properties. A purified fraction designated SF2 was a 61-kDa component specifically active against Pieris brassicae L. and homologous to the B. thuringiensis subsp. berliner 1715 plasmid-encoded crystal protein. A second fraction designated SF1 was composed of 63- and 65-kDa polypeptides and was specifically active against S. littoralis. The SF1 fraction and particularly the 65-kDa component were not antigenically related to the 61-kDa component. The purified fractions were compar...
Memórias do Instituto Oswaldo Cruz, 1996
Characterization of the insecticidal and hemolytic activity of solubilized crystal proteins of Bacillus thuringiensis (Bt) subsp. medellin (Btmed) was performed and compared to solubilized crystal proteins of isolates 1884 of B. thuringiensis subsp. israelensis (Bti) and isolate PG-14 of B. thuringiensis subsp. morrisoni (Btm). In general, at acid pH values solubilization of the Bt crystalline parasporal inclusions (CPI) was lower than at alkaline pH. The larvicidal activity demonstrated by the CPI of Btmed indicated that optimal solubilization of CPI takes place at a pH value of 11.3, in Bti at pH values from 5.03 to 11.3 and in Btm at pH values from 9.05 to 11.3. Hemolytic activity against sheep red blood cells was mainly found following extraction at pH 11.3 in all Bt strains tested. Polyacrylamide gel electrophoresis under denaturing conditions revealed that optimal solubilization of the CPI in all Bt strains takes place at the alkaline pH values from 9.05 to 11.3. An enriched preparation of Btmed crystals was obtained, solubilized and crystal proteins were separated on a size exclusion column . Three main protein peaks were observed on the chromatogram. The first peak had two main proteins that migrate between 90 to 100 kDa. These proteins are apparently not common to other Bt strains isolated to date. The second and third peaks obtained from the size exclusion column yielded polypeptides of 68 and 28-30 kDa, respectively. Each peak independently, showed toxicity against 1st instar Culex quinquefasciatus larvae. Interestingly, combinations of the fractions corresponding to the 68 and 30 kDa protein showed an increased toxicity. These results suggest that the 94 kDa protein is an important component of the Btmed toxins with the highest potency to kill mosquito larvae. When crystal proteins of Bti were probed with antisera raised independently against the three main protein fractions of Btmed, the only crystal protein that showed cross reaction was the 28 kDa protein. These data suggest that Btmed could be an alternative bacterium for mosquito control programs in case mosquito larval resistance emerges to Bti toxic proteins.
Journal of Molecular Biology, 1999
Binding of the insecticidal Bacillus thuringiensis Cry1Ac toxin to the putative receptor aminopeptidase N is speci®cally inhibited by N-acetylgalactosamine (GalNAc), suggesting that this toxin recognises GalNAc on the receptor. A possible structural basis for involvement of domain III of the toxin in carbohydrate-mediated receptor recognition was noted in the similarity between the domain III fold of the related toxin Cry3A and a carbohydrate-binding domain in the 1,4-b-glucanase from Cellulomonas ®mi. This possibility was investigated by making selected mutations in domain III of the Cry1Ac d-endotoxin. Mutagenesis of residues Asn506, Gln509 or Tyr513 resulted in toxins with reduced binding and a slower rate of pore formation in Manduca sexta midgut membrane vesicles compared to the wild-type Cry1Ac. These mutants also showed reduced binding to the 120 kDa Cry1Ac putative receptor aminopeptidase N. Unlike the wild-type toxin, binding of the triple mutant N506D,Q509E,Y513A (Tmut) to M. sexta midgut membrane vesicles could not be inhibited by GalNAc. These data indicate that GalNAc binding is located on domain III of Cry1Ac and therefore support a lectin-like role for this domain. A preliminary analysis of the Cry1Ac crystal structure locates Asn506, Gln509 and Tyr513 in a region on and adjacent to b-16 in domain III, which has a unique conformation compared to the other known Cry structures. These residues are in a favourable position to interact with either soluble or protein-bound carbohydrate.
Toxicon, 1995
R. Cahan, A. Shainberg, I. Pechatnikov and Y. Nitzan. A 28,000 mol. wt toxin from Bacillus thuringiensis israelensis induces cation transport in rat muscle cultures. Toxicon 33, 943-951, 1995.-The mechanism by which the Bacillus thuringiensis israelensis (Bti) 28,000 mol. wt toxin exerts its effect on mature muscle cultures was examined. The toxin inhibited Na+/K+-ATPase activity as revealed by 86Rb influx. A 50% inhibition of Na+/K+-ATPase activity was obtained with 0.2 pgg/ml of the toxin. The inhibition was time and dose dependent, and it was reversible with low doses of the toxin (up to 0.2 pg/ml. A considerable release of 86Rb was obtained by doses greater than 0.2 pgg/ml. The "Rb release was also time and dose dependent. This effect is probably non-specific, since 45Ca influx is also accelerated by toxin-treated cultures. Pre-incubation of the toxin with phosphotidylserine (PS) antagonized the toxin. It is concluded that the toxin is a hydrophobic protein which interacts with the membrane. In low doses this interaction reduces the activity of the sodium pump and in high doses it causes non-specific permeability of the sarcolemma.
Gene, 1986
Cloning and expression of the lepidopteran toxin produced by ~aciZ~~s t~uringie~sis var. t~uri~gie~sis in Escherichia coli (Recombinant DNA; plasmid size determination; pACYC; restriction analysis; colony hybridization, bioassay) SUMMARY The BaciZlus thuringiensis var. thuringiensis strain 3A produces a proteinaceous parasporal crystal toxic to larvae of a variety of lepidopteran pests including Spodoptera littoralis (Egyptian cotton leaf worm), Heliothis zeae, H. virescens and Boarmia selenaria. By cloning of individual plasmids of B. thuringiensis in Escherichia coli, we localized a gene coding for the delta-endotoxin on the B. thuringiensis plasmid of about 17 kb designated pTN4. Following partial digestion of the B. th~r~ngiensjs plasmid pTN4 and cloning into the E. co/i pACYC 184 plasmid three clones were isolated in which toxin production was detected. One of these hybrid plasmids pTNG43 carried a 1.7-kb insert that hybridized to the 14-kb BumHI DNA fragments of B. thuringiensis var. thuringiensis strains 3A and berliner 1715. This BamHI DNA fragment of strain bet-finer 17 15 has been shown to contain the gene that codes for the toxic protein of the crystal . No homologous sequences have been found between pTNG33 and the DNA of B. thu~ngie~is var. e~tomocidMs strain 24, which exhibited insecticidal activity against S. littoralis similar to that of strain 3A.