Genomic sequencing of fourteen bacillus thuringiensis isolates: insights into geographic variation and phylogenetic implications.

OBJECTIVE: This work was performed in support of a separate study investigating the activity of pesticidal proteins produced by Bacillus thuringiensis against the Asian citrus psyllid, Diaphorina citri. The fourteen Bacillus isolates chosen were selected from a large, geographically diverse collection that was characterized only by biochemical phenotype and morphology of the parasporal crystal, hence, for each isolate it was desired to determine the specific pesticidal proteins produced, assign each to a Bacillus cereus multilocus sequence type (ST), and predict their placement within the classical Bt serotyping system. In addition, phylogenetic distances between the isolates and Bacillus thuringiensis serovar type strains were determined by calculating digital DNA-DNA hybridization (dDDH) values among the isolates. RESULTS: Based on the assembled sequence data, the isolates were found to be likely representatives of the Bt serovars kurstaki (ST 8), pakistani (ST 550), toumanoffi (ST 240), israelensis (ST 16), thuringiensis (ST 10), entomocidus (ST 239), and finitimus (ST 171). In cases where multiple isolates occurred within a predicted serovar, pesticidal protein profiles were found to be identical, despite the geographic diversity of the isolates. As expected, the dDDH values calculated for pairwise comparisons of the isolates and their apparent corresponding Bt serovar type strains were quite high (> 98%), however dDDH comparisons of the isolates with other serovar type strains were often surprisingly low (< 70%) and suggest unrecognized taxa within Bt and the Bacillus cereus sensu lato.

Isolation, molecular characterization and pathogenicity of native Bacillus thuringiensis, from Ethiopia, against the tomato leafminer, Tuta absoluta: Detection of a new high lethal phylogenetic group.

Tuta absoluta (tomato leafminer) is one of the devastating agricultural pest that attack mainly tomatoes. The continuous use of chemical pesticides is not affordable and poses a collateral damage to human and environmental health. This requires integrated pest management to reduce chemical pesticides. B. thuringiensis is a cosmopolitan, antagonistic soil bacterium used to control agricultural pests. In this study, effective Bt strains were screened from different sample sources based on their lepidopteran specific cry genes and larvicidal efficacy against tomato leafminer, T. absoluta under laboratory conditions. Of the 182 bacterial isolates, 55 (30 %) of isolates harbored parasporal protein crystals. Out of these, 34 (62 %) isolates possess one or more lepidopteran specific cry genes: 20 % of isolates positive for cry2, 18.2 % for cry9, 3.6 % for cry1, 16.4 % for cry2 + cry9, 1.8 % for cry1 + cry9, and 1.8 % for cry1 + cry2 + cry9. However, 21 (38.2 %) isolates did not show any lepidopteran specific cry genes. Isolates positive for cry genes showed 36.7-75 % and 46.7-98.3 % mortality against second and third instar larvae of the T. absoluta at the concentration of 108 colony forming units (CFUs) ml-1. Cry1 and cry1 plus other cry gene positive isolates were relatively more pathogenic against T. absoluta. However, third instar larvae of the T. absoluta was more susceptible than second instar larvae. Two of the isolates, AAUF6 and AAUMF9 were effective and scored LT50 values of 2.3 and 2.7 days and LC50 values of 3.4 × 103 and 4.15 × 103 CFUs ml-1 against the third instar larvae, respectively. The phylogenetic studies showed some congruence of groups with cry gene profiles and lethality level of isolates and very interestingly, we have detected a putative new phylogenetic group of Bt from Ethiopia.

The Distribution of Several Genomic Virulence Determinants Does Not Corroborate the Established Serotyping Classification of Bacillus thuringiensis.

Bacillus thuringiensis, commonly referred to as Bt, is an object of the lasting interest of microbiologists due to its highly effective insecticidal properties, which make Bt a prominent source of biologicals. To categorize the exuberance of Bt strains discovered, serotyping assays are utilized in which flagellin serves as a primary seroreactive molecule. Despite its convenience, this approach is not indicative of Bt strains' phenotypes, neither it reflects actual phylogenetic relationships within the species. In this respect, comparative genomic and proteomic techniques appear more informative, but their use in Bt strain classification remains limited. In the present work, we used a bottom-up proteomic approach based on fluorescent two-dimensional difference gel electrophoresis (2D-DIGE) coupled with liquid chromatography/tandem mass spectrometry(LC-MS/MS) protein identification to assess which stage of Bt culture, vegetative or spore, would be more informative for strain characterization. To this end, the proteomic differences for the israelensis-attributed strains were assessed to compare sporulating cultures of the virulent derivative to the avirulent one as well as to the vegetative stage virulent bacteria. Using the same approach, virulent spores of the israelensis strain were also compared to the spores of strains belonging to two other major Bt serovars, namely darmstadiensis and thuringiensis. The identified proteins were analyzed regarding the presence of the respective genes in the 104 Bt genome assemblies available at open access with serovar attributions specified. Of 21 proteins identified, 15 were found to be encoded in all the present assemblies at 67% identity threshold, including several virulence factors. Notable, individual phylogenies of these core genes conferred neither the serotyping nor the flagellin-based phylogeny but corroborated the reconstruction based on phylogenomics approaches in terms of tree topology similarity. In its turn, the distribution of accessory protein genes was not confined to the existing serovars. The obtained results indicate that neither gene presence nor the core gene sequence may serve as distinctive bases for the serovar attribution, undermining the notion that the serotyping system reflects strains' phenotypic or genetic similarity. We also provide a set of loci, which fit in with the phylogenomics data plausibly and thus may serve for draft phylogeny estimation of the novel strains.

Exploration of insecticidal potential of Cry protein purified from Bacillus thuringiensis VIID1.

Insect pests are a threat to agriculture as they cause a loss of 15-22% to economically important crops every year. Bacillus thuringiensis produces parasporal crystal inclusions that have insecticidal 'Cry' proteins which are toxic to insect larvae of the order Lepidoptera, Coleoptera and Diptera, etc. In the present study, 40 different soil samples from Amritsar and its surrounding areas were selected for isolation of B. thuringiensis. The rod shaped, gram-positive bacterial isolates were further analyzed for characteristic crystal formation using phase contrast and scanning electron microscopy. 6 Bacillus samples containing cry genes were identified using the universal primers for cry genes, of which one isolate exhibited a protein band of ~95 kDa. This protein was purified using a Sephadex G-75 column. The insecticidal assays conducted with purified Cry protein on insect larvae of lepidopteran and dipteran orders viz. Spodoptera litura, Galleria malonella, Bactrocera cucurbitae and Culex pipens revealed considerable detrimental effects. A significant increase in larval mortality was observed for the larvae of all insects in a concentration dependent manner when treated with Cry protein purified from B. thuringenisis VIID1. The purified Cry protein did not have any significant effect on honey bee larvae.

Long inverted repeats around the chromosome replication terminus in the model strain Bacillus thuringiensis serovar israelensis BGSC 4Q7.

Bacillus thuringiensis serovar israelensis is the most widely used natural biopesticide against mosquito larvae worldwide. Its lineage has been actively studied and a plasmid-free strain, B. thuringiensis serovar israelensis BGSC 4Q7 (4Q7), has been produced. Previous sequencing of the genome of this strain has revealed the persistent presence of a 235 kb extrachromosomal element, pBtic235, which has been shown to be an inducible prophage, although three putative chromosomal prophages have been lost. Moreover, a 492 kb region, potentially including the standard replication terminus, has also been deleted in the 4Q7 strain, indicating an absence of essential genes in this area. We reanalysed the genome coverage distribution of reads for the previously sequenced variant strain, and sequenced two independently maintained samples of the 4Q7 strain. A 553 kb area, close to the 492 kb deletion, was found to be duplicated. This duplication presumably restored the equal sizes of the replichores, and a balanced functioning of replication termination. An analysis of genome assembly graphs revealed a transient association of the host chromosome with the pBtic235 element. This association may play a functional role in the replication of the bacterial chromosome, and the termination of this process in particular. The genome-restructuring events detected may modify the genetic status of cytotoxic or haemolytic toxins, potentially influencing strain virulence. Twelve of the single-nucleotide variants identified in 4Q7 were probably due to the procedure used for strain construction or were present in the precursor of this strain. No sequence variants were found in pBtic235, but the distribution of the corresponding 4Q7 reads indicates a significant difference from counterparts in natural B. thuringiensis serovar israelensis strains, suggesting a duplication or over-replication in 4Q7. Thus, the 4Q7 strain is not a pure plasmid-less offshoot, but a highly genetically modified derivative of its natural ancestor. In addition to potentially influencing virulence, genome-restructuring events can modify the replication termination machinery. These findings have potential implications for the conclusions of virulence studies on 4Q7 as a model, but they also raise interesting fundamental questions about the functioning of the Bacillus genome.

Identification of Cyt2Ba from a New Strain of Bacillus thuringiensis and Its Toxicity in Bradysia difformis.

Bradysia difformis is one of the most damaging pests in mushroom production in China. In this study, eight Bacillus thuringiensis strains were analyzed for insecticidal activity in B. difformis. The strain JW-1 showed the highest insecticidal activity against B. difformis larvae, but did not inhibit the mycelial growth of Pleurotus ostreatus and P. geesteranus. The 16S rRNA gene (1397 bp) and cyt2 gene (792 bp) were obtained from strain JW-1. The phylogenetic tree based on 16S rRNA gene and Cyt2 toxin showed that strain JW-1 was a member of B. thuringiensis and Cyt2 toxin belonged to Cyt2Ba toxin cluster. The Cyt2Ba toxin from strain JW-1 was overexpressed in E. coli as a fusion protein and the fusion protein (70 kDa) was purified by Ni-IDA affinity chromatography. The purified Cyt2Ba fusion protein was toxic to B. difformis larvae (LC50 was 2.25 ng/mL). The identification of Cyt2Ba from strain JW-1 and confirmation of the insecticidal activity of Cyt2Ba in B. difformis provided a new means of biological control of the important pest in mushroom production.

Comparative genomic analysis and mosquito larvicidal activity of four Bacillus thuringiensis serovar israelensis strains.

Bacillus thuringiensis serovar israelensis (Bti) is used to control insect vectors of human and animal diseases. In the present study, the toxicity of four strains of Bti, named T0124, T0131, T0137, and T0139, toward Aedes aegypti and Culex quinquefasciatus larvae was analyzed. The T0131 strain showed the highest larvicidal activity against A. aegypti (LC50 = 0.015 µg/ml) and C. quinquefasciatus larvae (LC50 = 0.035 µg/ml) when compared to the other strains. Furthermore, the genomic sequences of the four strains were obtained and compared. These Bti strains had chromosomes sizes of approximately 5.4 Mb with GC contents of ~35% and 5472-5477 putative coding regions. Three small plasmids (5.4, 6.8, and 7.6 kb) and three large plasmids (127, 235, and 359 kb) were found in the extrachromosomal content of all four strains. The SNP-based phylogeny revealed close relationship among isolates from this study and other Bti isolates, and SNPs analysis of the plasmids 127 kb did not reveal any mutations in δ-endotoxins genes. This newly acquired sequence data for these Bti strains may be useful in the search for novel insecticidal toxins to improve existing ones or develop new strategies for the biological control of important insect vectors of human and animal diseases.

Indications of biopesticidal Bacillus thuringiensis strains in bell pepper and tomato.

Members of the Bacillus cereus group are common contaminants of vegetables. One potential source of contamination is the application of B. thuringiensis based biopesticides. Although evidence of the presence of biopesticidal strains on food products is scarce, this information is essential for assessing potential risks associated with the application of these biopesticides. In order to contribute to knowledge about the presence of biopesticidal B. thuringiensis strains in foodstuffs, we investigated the occurrence of B. thuringiensis on tomatoes and bell pepper. We analyzed 99 samples of fresh bell pepper for B. cereus group members, while 426 samples of tomatoes were tested by the competent food control laboratories of the federal states in Germany. The isolates recovered from these samples were further characterized in terms of their capability to produce parasporal crystals as well as enterotoxins. A possible correlation between the B. thuringiensis isolates and biopesticidal strains was investigated by multilocus sequence typing (MLST) and whole genome Single Nucleotide Polymorphism (wgSNP) analyses. The prevalence of B. cereus group members was 41% for bell pepper and 28% for tomato samples. Isolates recovered from these samples were dominated by B. thuringiensis (93% and 99%, respectively). All B. thuringiensis isolates carried the enterotoxin genes nheA, hblD and cytK-2. In a subset of 83 B. thuringiensis isolates analyzed by MLST, 99% of the isolates matched the sequence types (ST) 8 and 15, which are also shared by the biopesticidal strains B. thuringiensis kurstaki ABTS-351 and B. thuringiensis aizawai ABTS-1857. Of the 82 isolates assigned to ST 8 or ST 15, a selection of 42 isolates was further characterized by wgSNP analysis. Of these, seven isolates differed from strain ABTS-351 by ≤4 core SNPs and 18 isolates differed from strain ABTS-1857 by ≤2 core SNPs, indicating a relationship of these isolates with the respective biopesticidal strain. These isolates originated from samples with maximum colony counts of 5.3 × 103 cfu/g for bell pepper and 1.0 × 105 cfu/g for tomatoes.

Bacterial communities of plum phyllosphere and characterization of indigenous antagonistic Bacillus thuringiensis R3/3 isolate.

AIMS: The characterization of bacterial communities diversity on four local plum cultivars in two phenological stages using culture-dependent and culture-independent methods and screening among culturable plum community for indigenous bacteria active against phytopathogens. METHODS AND RESULTS: The bacterial communities associated with leaves and fruits of four local Serbian plum cultivars (Pozegaca, Ranka, Cacanska Lepotica and Cacanska Rodna) were investigated in two phenological stages during early (May) and late (July) fruit maturation. Metagenomic approach revealed Methylobacterium, Sphingomonas and Hymenobacter as dominant genera. The most frequently isolated representatives with cultivable approach were pseudomonads with Pseudomonas syringae and Pseudomonas graminis, the most likely resident species of plum community. Antagonistic Bacillus thuringiensis R3/3 isolate from plum phyllosphere had ability to produce exoenzymes, reduce the growth of phytopathogenic bacteria in co-culture environment and show quorum quenching activity. CONCLUSIONS: Plum cultivar and growth season contribute to the structure of the bacterial community associated with plum. Plum phyllosphere is good source of antagonists effective against phytopathogens. SIGNIFICANCE AND IMPACT OF STUDY: Knowledge of bacterial communities on plum will have an impact on studies related to phyllosphere ecology and biocontrol. The indigenous antagonistic isolate, B. thuringiensis R3/3, from plum could be further investigated for its potential use in biological control of plum diseases.

Characterization and Whole Genome Sequencing of AR23, a Highly Toxic Bacillus thuringiensis Strain Isolated from Lebanese Soil.

The demand for sustainable and eco-friendly control methods of pests and insects is increasing worldwide. From this came the interest in Bacillus thuringiensis, an entomopathogenic bacterium capable of replacing chemical pesticides. However, the possibility of pests developing resistance to a particular strain may impair its use, and there is a need to identify novel strains of this species as potential commercial biopesticides. B. thuringiensis sv. israelensis is one of the most successful serovars, widely commercialized for its activity against black fly and mosquito larvae. In this study, we isolated, characterized, and sequenced a new Lebanese B. thuringiensis sv. israelensis isolate, strain AR23. Compared to the commercialized reference strain AM65-52 (Vectobac®, Sumitomo), AR23 showed an increased activity against several mosquito species. The genomic analysis revealed that this strain, compared to AM65-52, possesses a simplified plasmid content and an additional functional cry4Ba coding gene that most likely accounts for the increased effectiveness of this strain in mosquito larvae killing.

Reliable Identification of Bacillus cereus Group Species Using Low Mass Biomarkers by MALDI-TOF MS.

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS)-based pathogen identification relies on the ribosomal protein spectra provided in the proprietary database. Although these mass spectra can discern various pathogens at species level, the spectra-based method still has limitations in identifying closely-related microbial species. In this study, to overcome the limits of the current MALDI-TOF MS identification method using ribosomal protein spectra, we applied MALDI-TOF MS of low-mass profiling to the identification of two genetically related Bacillus species, the food-borne pathogen Bacillus cereus, and the insect pathogen Bacillus thuringiensis. The mass spectra of small molecules from 17 type strains of two bacilli were compared to the morphological, biochemical, and genetic identification methods of pathogens. The specific mass peaks in the low-mass range (m/z 500- 3,000) successfully identified various closely-related strains belonging to these two reference species. The intensity profiles of the MALDI-TOF mass spectra clearly revealed the differences between the two genetically-related species at strain level. We suggest that small molecules with low molecular weight, 714.2 and 906.5 m/z can be potential mass biomarkers used for reliable identification of B. cereus and B. thuringiensis.

Strategical isolation of efficient chicken feather-degrading bacterial strains from tea plantation soil sample

Chicken feather waste is generally insufficiently utilized despite its high content of protein, constituting an environmental issue. Biodegradation of the waste with enabling microbes provides an advantageous option among the available solutions. In this study, an efficient whole feather-degrading strain was strategically isolated from a soil sample taken from a local tea plantation that has little or nothing to do with feathers. The strain was identified as Bacillus thuringiensis (designated as FDB-10) according to the cloned complete 16S rRNA sequence. The FDB-10 could efficiently degrade briefly heat-treated whole feather (102 °C, 5 min; up to 90% of a maximum concentration of 30 g/L) in a salt medium supplemented with 0.1 g/L yeast extract within 24 h (37°C, 150 rpm). Addition of carbon sources (glycerol, glucose, starch, Tween 20, Tween 80, 1.25 g/L as glycerol) to the fermentation medium could improve the degradation. However, significant inhibition could be observed when the added carbon source reached the amount usually adopted in the investigation of carbon source preference (1%). Nitrogen source (NH4Cl, (NH4)2SO4, peptone) adversely influenced the performance of the strain. When the molar concentrations of NH4+ were equal for the two salt, the inhibitory effect on degradation of whole feathers was similar. Entirely different from other reported feather-degrading strains showing a preference to melanin-free feather substrates, the strain isolated in this study could degrade melanin-containing feather equally efficiently, and higher protease activity could be detected in the digest mix. As a plus, the strain could degrade feathers in rice wash produced in daily cooking, indicating its potential use in the simultaneous treatment of rice cooker wastewater produced by a rice processing plant. All these results imply that the FDB-10 is a strain with great potential in the biodegradation of feather waste

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The Bacillus cereus Group: Bacillus Species with Pathogenic Potential.

The Bacillus cereus group includes several Bacillus species with closely related phylogeny. The most well-studied members of the group, B. anthracis, B. cereus, and B. thuringiensis, are known for their pathogenic potential. Here, we present the historical rationale for speciation and discuss shared and unique features of these bacteria. Aspects of cell morphology and physiology, and genome sequence similarity and gene synteny support close evolutionary relationships for these three species. For many strains, distinct differences in virulence factor synthesis provide facile means for species assignment. B. anthracis is the causative agent of anthrax. Some B. cereus strains are commonly recognized as food poisoning agents, but strains can also cause localized wound and eye infections as well as systemic disease. Certain B. thuringiensis strains are entomopathogens and have been commercialized for use as biopesticides, while some strains have been reported to cause infection in immunocompromised individuals. In this article we compare and contrast B. anthracis, B. cereus, and B. thuringiensis, including ecology, cell structure and development, virulence attributes, gene regulation and genetic exchange systems, and experimental models of disease.

Strategical isolation of efficient chicken feather-degrading bacterial strains from tea plantation soil sample.

Chicken feather waste is generally insufficiently utilized despite its high content of protein, constituting an environmental issue. Biodegradation of the waste with enabling microbes provides an advantageous option among the available solutions. In this study, an efficient whole feather-degrading strain was strategically isolated from a soil sample taken from a local tea plantation that has little or nothing to do with feathers. The strain was identified as Bacillus thuringiensis (designated as FDB-10) according to the cloned complete 16S rRNA sequence. The FDB-10 could efficiently degrade briefly heat-treated whole feather (102 °C, 5 min; up to 90% of a maximum concentration of 30 g/L) in a salt medium supplemented with 0.1 g/L yeast extract within 24 h (37 °C, 150 rpm). Addition of carbon sources (glycerol, glucose, starch, Tween 20, Tween 80, 1.25 g/L as glycerol) to the fermentation medium could improve the degradation. However, significant inhibition could be observed when the added carbon source reached the amount usually adopted in the investigation of carbon source preference (1%). Nitrogen source (NH4Cl, (NH4)2SO4, peptone) adversely influenced the performance of the strain. When the molar concentrations of NH4+ were equal for the two salt, the inhibitory effect on degradation of whole feathers was similar. Entirely different from other reported feather-degrading strains showing a preference to melanin-free feather substrates, the strain isolated in this study could degrade melanin-containing feather equally efficiently, and higher protease activity could be detected in the digest mix. As a plus, the strain could degrade feathers in rice wash produced in daily cooking, indicating its potential use in the simultaneous treatment of rice cooker wastewater produced by a rice processing plant. All these results imply that the FDB-10 is a strain with great potential in the biodegradation of feather waste.

Specific Cytotoxic Effects of Parasporal Crystal Proteins Isolated from Native Saudi Arabian Bacillus thuringiensis Strains against Cervical Cancer Cells.

Currently, global efforts are being intensified towards the discovery of local Bacillus thuringiensis (Bt) isolates with unique anticancer properties. Parasporins (PS) are a group of Bt non-insecticidal crystal proteins with potential and specific in vitro anticancer activity. However, despite the significant therapeutic potential of PS-producing Bt strains, our current knowledge on the effects of these proteins is limited. Hence, the main objective of this study was to screen Bt-derived parasporal toxins for cytotoxic activities against colon (HT-29) and cervical (HeLa) cancerous cell lines. Nine non-larvicidal and non-hemolytic Bt strains, native to Saudi Arabia, were employed for the isolation of their parasporal toxins. 16S rDNA sequencing revealed a 99.5% similarity with a reference Bt strain. While PCR screening results indicated the absence of selected Cry (Cry4A, Cry4B, Cry10 and Cry11), Cyt (Cyt1 and Cyt2) and PS (PS2, PS3 and PS4) genes, it concluded presence of the PS1 gene. SDS-PAGE analysis revealed that proteolytically-cleavaged PS protein profiles exhibit patterns resembling those observed with PS1Aa1, with major bands at 56 kDa and 17 kDa (Bt7), and 41 kDa and 16 kDa (Bt5). Solubilized and trypsinized PS proteins from all Bt strains exhibited a marked and dose-dependent cytotoxicity against HeLa cancerous cells but not against HT-29 cells. IC50 values ranged from 3.2 (Bt1) to 14.2 (Bt6) with an average of 6.8 µg/mL. The observed cytotoxicity of PS proteins against HeLa cells was specific as it was not evident against normal uterus smooth muscle cells. RT-qPCR analysis revealed the overexpression of caspase 3 and caspase 9 by 3.7, and 4.2 folds, respectively, indicative of the engagement of intrinsic pathway of apoptosis. To the best of our knowledge, this is the first report exploring and exploiting the versatile repertoire of Saudi Arabian environmental niches for the isolation of native and possibly novel Saudi Bt strains with unique and specific anticancer activity. In conclusion, native Saudi Bt-derived PS proteins might have a potential to join the arsenal of natural anticancer drugs.

Whole genome sequence of Bacillus thuringiensis ATCC 10792 and improved discrimination of Bacillus thuringiensis from Bacillus cereus group based on novel biomarkers.

BACKGROUND: Among the Bacillus cereus group, B. thuringiensis, is one of the most extensively used biological control agent. The present study reports the complete genome and four novel plasmid analysis of the type strain B. thuringiensis ATCC 10792. METHODS: Complete genome sequencing of Bacillus thuringiensis ATCC 10792, assembled using de-novo (v.3.2.0, assembly name MIRA3), Pac-Bio sequencers and Hierarchical Genome Assembly Process software (version 4.1) and real-time polymerase chain reaction (qPCR) is a consistent technique for quantifying gene expression based on specific biomarkers, in addition the efficiency of the primers were analysed based on artificially spiked food samples on lettuce, kimbab and spinach with B. thuringiensis ATCC 10792. RESULTS: Complete genome annotation was performed, and a total of 6269 proteins with 5427594 bps were identified and four novel plasmid (poh2, poh3, poh4, poh5) a total of 134, 131, 96, 21 proteins with 113294; 92,949; 86488; 11332 bps were identified. Six selective genes (lipoprotein-lipo, methyltransferase-MT, S-layer homology domain protein-BC, flagellar motor protein-motB, transcriptional regulator-XRE, crystal protein-cry2) and associated four novel plasmids were investigated along with the characteristics and expression profiles of two housekeeping genes (chaperonin protein-GroEL and topoisomerase enzyme-gyrB). Although from the assessment of 120 strains, both GroEL and gyrB showed 100% specificity towards detection of both B. thuringiensis in artificially spiked vegetable samples. All the eight genes revealed no specificity towards any of the 9 non- Bacillus strains. CONCLUSION: In our study based on the complete genome and plasmid sequence of B. thuringiensis ATCC 10792, among the six discriminating genes, specifically GroEL, gyrB and XRE showed promising results in identifying B. thuringiensis ATCC 10792, and there detection limit was 3.0-9.6 log CFU/g in the food samples respectfully. The key role in control of the predatory biological agent.

Salmonella spp. em pontos críticos da cadeia de produção de hortaliças orgânicas no Estado de São Paulo: contribuição para avaliação de risco / Salmonella spp. at critical points in organic vegetables production chain in the state of São Paulo: contribution for risk assessment

Dados de vigilância epidemiológica apontam uma crescente associação entre o consumo de hortaliças e surtos de origem alimentar. São inúmeras as fontes de contaminação aos quais os vegetais estão sujeitos ao longo da cadeia produtiva. Estudos sugerem que práticas agrícolas, como o uso de adubo constituído por esterco animal e água de irrigação não tratada, podem aumentar o risco de contaminação por micro-organismos patogênicos. Com as restrições ao uso de pesticidas sintéticos no sistema orgânico de produção agrícola, agentes de controle biológico, como Bacillus thuringiensis (Bt) desempenham um importante papel para a garantia da produtividade. No entanto, recentemente, a segurança do uso de Bt passou a ser questionada em função da possibilidade de produzir enterotoxinas. Este estudo teve por objetivos levantar dados sobre práticas adotadas no cultivo de hortaliças orgânicas no Estado de São Paulo, Brasil e sobre as características microbiológicas de fertilizantes, água de irrigação, água de lavagem e alfaces nas etapas pré e pós-colheita, assim como avaliar a persistência e interações entre Bt e Salmonella em hortaliças, visando contribuir para avaliações de risco microbiológico mais adequadas. Na primeira parte do estudo, dez propriedades de cultivo orgânico certificadas foram visitadas para a obtenção de dados sobre práticas adotadas e para a coleta de amostras para análise microbiológica. As amostras foram submetidas à enumeração e identificação (gênero e espécie) de Enterobacteriaceae; pesquisa de Salmonella spp. por método convencional e qPCR; e enumeração de coliformes totais e Escherichia coli nas amostras de água. Na segunda fase da pesquisa, avaliou-se a persistência e as interações entre Bt e Salmonella Montevideo no pré e pós-colheita de espinafres. Por fim, bactérias epifíticas isoladas de hortaliças foram testadas quanto a capacidade de inibir bactérias do grupo Bacillus cereus e cepas de Salmonella enterica. As contagens de Enterobacteriaceae variaram de <1 a 7,2 ± 0,1 log UFC/g nos fertilizantes, de 4,1 ± 0,3 a 5,6 ± 0,3 log UFC/g nas alfaces coletadas nos canteiros, de 2,9 ± 0,6 a 5,3 ± 0,5 log UFC/g nas alfaces lavadas, de <1 a 3,5 ± 0,1 log UFC/mL nas amostras de água de irrigação e de <1 a 3,0 ± 0,3 log UFC/mL nas amostras de água de lavagem. Salmonella não foi isolada por cultivo em placa, mas foi detectada por qPCR em uma amostra de alface orgânica lavada. Utilizando MALDI-TOF MS, 45 espécies pertencentes a 24 gêneros bacterianos foram identificadas na cadeia produtiva de hortaliças orgânicas. Bt foi capaz de persistir nas folhas de espinafre nas etapas pré e pós-colheita e afetou a persistência de Salmonella durante o cultivo, mas não durante o armazenamento pós-colheita a 12 ºC. Não foi observada tendência de germinação dos esporos de Bt após a aplicação nos espinafres, reduzindo assim a possibilidade de multiplicação e produção de enterotoxinas. A bactéria epifítica Pseudomonas chlororaphis, isolada de hortaliça, foi capaz de inibir membros do grupo Bacillus cereus, incluindo cepas patogênicas e Bt em testes in vitro, sugerindo uma barreira biológica para o controle da multiplicação destes micro-organismos. Este estudo traz importantes informações sobre a segurança microbiológica de hortaliças orgânicas e de práticas agrícolas, evidenciando a importância de boas práticas para a promoção do alimento seguro. Os resultados constituem uma importante contribuição para o desenvolvimento de modelos de avaliação de risco microbiológico e prevenção de surtos de origem alimentar

Epidemiological surveillance data indicate a growing association between vegetable consumption and food-borne outbreaks. There are numerous sources of contamination to which plants are subjected throughout the production chain. Studies suggest that agricultural practices such as the use of manure fertilizer and untreated irrigation water may increase the risk of contamination by pathogenic microorganisms. With the restrictions on the use of synthetic pesticides in the organic farming system, biological control agents such as Bacillus thuringiensis (Bt), play an important role in ensuring productivity. However, the safety of Bt has recently been questioned due to the possibility of producing enterotoxins. This study aimed to gather information about the agricultural practices employed in the organic vegetables production fields and the microbiological characteristics of fertilizer, irrigation water, wash water, and lettuces in pre and post-harvest stages, and to evaluate the persistence and interactions between Bt and Salmonella on leafy greens, aiming to contribute for more adequate microbiological risk assessments. In the first part of the study, ten certified organic farms were visited to collect data on the farming practices and for collection of samples for microbiological evaluations. The samples were submitted to Enterobacteriaceae enumeration and identification (genus and species); Salmonella spp. by conventional method and qPCR; and enumeration of total coliforms and Escherichia coli in water samples. In the second part of the study, the persistence and interaction between Bacillus thuringiensis subsp Aizawai (Bt) and Salmonella Montevideo in the pre and post-harvest of spinach were evaluated. Finally, epiphytic bacteria isolated from vegetables were tested for their ability to inhibit growth of Bacillus cereus group members and Salmonella strains. Enterobacteriaceae counts ranged from <1 to 7.2 ± 0.1 log CFU/g in fertilizers, from 4.1 ± 0.3 to 5.6 ± 0.3 log CFU/g in lettuces collected from the fields, from 2.9 ± 0.6 to 5.3 ± 0.5 log CFU/g in washed lettuces, <1 to 3.5 ± 0.1 log CFU/mL in irrigation water and <1 to 3.0 ± 0.3 log CFU/mL in wash water. Salmonella was not isolated by plating but it was detected by qPCR in one sample of washed organic lettuce. Using MALDI-TOF MS, 45 species belonging to 24 bacterial genera were identified in the organic vegetable production chain. Bt was able to persist on pre and post-harvest of spinach and affected Salmonella persistence during cultivation, but not during the storage at 12 ºC. Bt spores showed no tendency to germinate during pre-harvest of spinach, thus reducing the probability of growth and production of enterotoxins. The epiphytic bacterium Pseudomonas chlororaphis isolated from one vegetable sample was able to inhibit members of the Bacillus cereus group, including pathogenic strains and Bt in in vitro tests, suggesting a biological barrier to control the multiplication of these microorganisms. These studies provide important information about the microbiological safety of organic vegetables and agricultural practices, highlighting the importance of good practices for the promotion of safe food. These data are fundamental for the development of microbiological risk assessment models and prevention of foodborne outbreaks

Multilocus sequence typing for phylogenetic view and vip gene diversity of Bacillus thuringiensis strains of the Assam soil of North East India.

An agriculturally important insecticidal bacterium, Bacillus thuringiensis have been isolated from the soil samples of various part of Assam including the Kaziranga National Park. Previously, the isolates were characterized based on morphology, 16S rDNA sequencing, and the presence of the various classes' crystal protein gene(s). In the present study, the phylogenetic analysis of a few selected isolates was performed by an unambiguous and quick method called the multiple locus sequence typing (MLST). A known B. thuringiensis strain kurstaki 4D4 have been used as a reference strain for MLST. A total of four the MLST locus of housekeeping genes, recF, sucC, gdpD and yhfL were selected. A total of 14 unique sequence types (STs) was identified. A total number of alleles identified for the locus gdpD and sucC was 12, followed by locus yhfL was 11, however, only 6 alleles were detected for the locus recF. The phylogenetic analysis using MEGA 7.0.26 showed three major lineages. Approximately, 87% of the isolates belonged to the STs corresponding to B. thuringiensis, whereas two isolates, BA07 and BA39, were clustered to B. cereus. The isolates were also screened for the diversity of vegetative insecticidal protein (vip) genes. In all, 8 isolates showed the presence of vip1, followed by 7 isolates having vip2 and 6 isolates for vip3 genes. The expression of Vip3A proteins was analyzed by western blot analyses and expression of the Vip3A protein was observed in the isolate BA20. Thus, the phylogenetic relationship and diversity of Bt isolates from Assam soil was established based on MLST, in addition, found isolates having vip genes, which could be used for crop improvement.

Systematic characterization of Bacillus Genetic Stock Center Bacillus thuringiensis strains using Multi-Locus Sequence Typing.

The goal of this work was to perform a systematic characterization of Bacillus thuringiensis (Bt) strains from the Bacillus Genetic Stock Center (BGSC) collection using Multi-Locus Sequence Typing (MLST). Different genetic markers of 158 Bacillus thuringiensis (Bt) strains from 73 different serovars stored in the BGSC, that represented 92% of the different Bt serovars of the BGSC were analyzed, the 8% that were not analyzed were not available. In addition, we analyzed 72 Bt strains from 18 serovars available at the pubMLST bcereus database, and Bt strains G03, HBF18 and Bt185, with no H serovars provided by our laboratory. We performed a systematic MLST analysis using seven housekeeping genes (glpF, gmK, ilvD, pta, pur, pycA and tpi) and analyzed correlation of the results of this analysis with strain serovars. The 233 Bt strains analyzed were assigned to 119 STs from which 19 STs were new. Genetic relationships were established by phylogenetic analysis and showed that STs could be grouped in two major Clusters containing 21 sub-groups. We found that a significant number of STs (101 in total) correlated with specific serovars, such as ST13 that corresponded to nine Bt isolates from B. thuringiensis serovar kenyae. However, other serovars showed high genetic variability and correlated with multiple STs; for example, B. thuringiensis serovar morrisoni correlated with 11 different STs. In addition, we found that 16 different STs correlated with multiple serovars (2-4 different serovars); for example, ST12 correlated with B. thuringiensis serovar alesti, dakota, palmanyolensis and sotto/dendrolimus. These data indicated that only partial correspondence between MLST and serotyping can be established.

Anti-cancer Parasporin Toxins of New Bacillus thuringiensis Against Human Colon (HCT-116) and Blood (CCRF-CEM) Cancer Cell Lines.

Bacillus thuringiensis is one of the most important microorganisms used against cancer cell lines in latest studies all over the world. This study aims to perform the isolation, molecular identification, and to identify novel B. thuringiensis strains that specifically targeting human cancer cell-killing activities in Iran. A total of 88 B. thuringiensis isolates were recovered from Iran. Upon the treatment of the non-hemolytic crystal proteins by proteinase K, five isolates belonging to three biotypes, thuringiensis, kurstaki and sotto of B. thuringiensis are found to have different cytotoxicity toward HCT-116 and CCRF-CEM cell lines. Digested inclusions of the isolates consisted of one major poly peptide of 34-kDa, as estimated by sodium dodecyl-sulfate polyacrylamide gel electrophoresis. The structure, molecular identification, and functionality of five isolates inclusion proteins have shown to be closely like to parasporin-2 but their size of activated protein is not similar to this parasporin. It is unclear that discovered damaging proteins are parasporin-2. This 34-kD protein exhibited varying degrees of cytocidal activity toward human colon and blood cancer cells and caused cell swelling and the formation of blebs in the surface of the cells or alteration in cytoskeleton. The soil in the humid and temperate climates of Iran is a good reservoir for parasporin producing B. thuringiensis. The isolated B. thuringiensis strains exhibit specific and different cytocidal activities against human colon and blood cancer cells. Parasporin is a novel cytotoxic protein to human cancer cells produced by B. thuringiensis and these toxins appeared to attack an identical target on human cancer cells.