In the same way that cry genes, coding for larvicidal delta endotoxins, constitute a large and diverse gene family, the cyt genes for hemolytic toxins seem to compose another set of highly related genes in Bacillus thuringiensis. Although the occurrence of Cyt hemolytic factors in B. thuringiensis has been typically associated with mosquitocidal strains, we have recently shown that cyt genes are also present in strains with different pathotypes; this is the case for the morrisoni subspecies, which includes strains biologically active against dipteran, lepidopteran, and coleopteran larvae. In addition, while one Cyt type of protein has been described in all of the mosquitocidal strains studied so far, the present study confirms that at least two Cyt toxins coexist in the more toxic antidipteran strains, such as B. thuringiensis subsp. israelensis and subsp. morrisoni PG14, and that this could also be the case for many others. In fact, PCR screening and Western blot analysis of 50 B. thuringiensis strains revealed that cyt2-related genes are present in all strains with known antidipteran activity, as well as in some others with different or unknown host ranges. Partial DNA sequences for several of these genes were determined, and protein sequence alignments revealed a high degree of conservation of the structural domains. These findings point to an important biological role for Cyt toxins in the final in vivo toxic activity of many B. thuringiensis strains.
We cloned and sequenced a new cytolysin gene from Bacillus thuringiensis subsp. medellin. Three IS240-like insertion sequence elements and the previously cloned cyt1Ab and p21 genes were found in the vicinity of the cytolysin gene. The cytolysin gene encodes a protein 29.7 kDa in size that is 91.5% identical to Cyt2Ba from Bacillus thuringiensis subsp. israelensis and has been designated Cyt2Bc. Inclusions containing Cyt2Bc were purified from the crystal-negative strain SPL407 of B. thuringiensis. Cyt2Bc reacted weakly with antibodies directed against Cyt2Ba and was not recognized by an antiserum directed against the reference cytolysin Cyt1Aa. Cyt2Bc was hemolytic only upon activation with trypsin and had only one-third to one-fifth of the activity of Cyt2Ba, depending on the activation time. Cyt2Bc was also mosquitocidal against Aedes aegypti, Anopheles stephensi, and Culex quinquefasciatus, including strains resistant to the Bacillus sphaericus binary toxin. Its toxicity was half of that of Cyt2Ba on all mosquito species except resistant C. quinquefasciatus.
Adenylate cyclase activity associated with Trypanosoma cruzi sedimentable fractions was solubilized by treatment with the non-ionic detergent Lubrol PX and 0.5 M-(NH4)2SO4. The following hydrodynamic and molecular parameters were established for a partially purified enzyme-detergent complex: sedimentation coefficient 6.2 S; Stokes radius 5.65 nm; partial specific volume 0.83 ml/g; Mr 244 000; frictional ratio 1.33. A Mr of about 124 000 was calculated for the detergent-free protein from these parameters. The pI of this enzyme activity was 6.2. A monoclonal antibody to T. cruzi adenylate cyclase was obtained, which inhibited cyclase activities from several lower eukaryotic organisms. The T. cruzi adenylate cyclase was further purified by using this antibody in immunoaffinity chromatographic columns. Fractions obtained after this chromatography showed, on SDS/polyacrylamide-gel electrophoresis, a main polypeptide band with an apparent Mr of about 56 000, which specifically reacted with the monoclonal antibody.
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