Purification, amino acid sequence and characterization of Bacthuricin F4, a new bacteriocin produced by Bacillus thuringiensis

Kamoun, Fakher; Mejdoub, Hafedh; Aouissaoui, Hedi; Reinbolt, Joseph; Hammami, Amal; Jaoua, Samir

doi:10.1111/j.1365-2672.2004.02513.x

Cited by 98 publications

(86 citation statements)

References 21 publications

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“…In the past few years, bacteriocin production was reported for many B. thuringiensis (Bt) strains: thuricin from strain HD2 (Favret and Yousten, 1989); tochicin from strain HD868 (Paik et al, 1997); thuricin 7 from strain BMG1.7 (Cherif et al, 2001); thuricin 439A and thuricin 439B from strain B439 (Ahern et al, 2003); entomocin 9 from strain HD9 (Cherif et al, 2003); bacthuricin F4 from strain BUPM4 (Kamoun et al, 2005), thuricin 17 from strain NEB17 (Gray et al, 2006); thuricin S from strain HD198 (Chehimi et al, 2007;Chehimi et al, 2010); entomocin 110 from strain HD110 (Cherif et al, 2008) and thuricin CD from strain DPC 6431 (Rea et al, 2010). Among these bacteriocins, three were reported to share the conserved N-terminal amino acid sequence DWTXWSXL (Kamoun et al, 2005;Gray et al, 2006;Chehimi et al, 2007). The production of which more than one bacteriocin by the same strain has already been described for many Bacillus strains (Oscáriz et al, 1999;Ahern et al, 2003;Wu et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Identification of Three Novel <i>B. thuringiensis</i> Strains that Produce the Thuricin S Bacteriocin

Sonia¹

2012

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In the present work, three antibacterial substances produced by three Bacillus thuringiensis strains: Bacillus thuringiensis subsp. entomocidus HD9, Bacillus thuringiensis subsp. entomocidus HD110 and Bacillus thuringiensis subsp. tolworthy HD125 were used to study the bacteriocin diversity within Bacillus thuringiensis species. The inhibitory substances produced by these strains were purified to homogeneity by reverse phase high-performance liquid chromatography and were identified as bacteriocins. These molecules were all sensitive to proteinase K, heat-resistant and stable over a wide range of pH (3-10.5). Mass spectrometry ESI-TOF-MS analysis provided the monoisotopic masses of the three newly identified bacteriocins. The N-terminal amino acid sequences were also determined by Edman sequencing and by nanoESI-MS/MS experiments. Interestingly, the three newly identified bacteriocins shared the same molecular mass and the same N-terminal sequence with the anti-Listeria bacteriocin: thuricin S, produced by Bacillus thuringiensis subsp. entomocidus HD198 strain. Thereby, we demonstrated at the biochemical level and for the first time that four different Bacillus thuringiensis strains produce the same bacteriocin.

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Section: Introductionmentioning

confidence: 99%

Identification of Three Novel <i>B. thuringiensis</i> Strains that Produce the Thuricin S Bacteriocin

Sonia¹

2012

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“…This bacterium produces many virulent factors such as chitinase [6,7] vegetative insecticidal proteins [8], and bacteriocins [9,10]. Bacteriocins are extracellularly released peptides or proteins affecting growth of closely related bacteria and several pathogenic species [9]. Genetic determinants responsible for bacteriocin activity are usually grouped on one or two operons encoding structural proteins involved in its synthesis and secretion as well as immunity proteins protecting the producer from its own bacteriocin [11].…”

Section: Introductionmentioning

confidence: 99%

“…Bacteriocin genes could be located on plasmids such as bacteriocin 32 produced by Enterococcus strains [12] on chromosomes such as mesarcidin [13], or on conjugative transposons, as in the case of lacticin 481 [14]. B. thuringiensis strain BUPM4 is known for its ability to produce a bacteriocin, called Bacthuricin F4 (BF4), which could be potentially used for the control of harmful related Bacillus species in agricultural products [9]. The search for genes impaired in BF4 synthesis has been carried out in our laboratory via the insertional transposon mutagenesis approach, which is based on the capability of the mini-Tn10 to insert into different sites in B. thuringiensis chromosomes or plasmids [9].…”

Section: Introductionmentioning

confidence: 99%

“…B. thuringiensis is the most known insecticidal bacterium worldwide for the control of various plant pests. This bacterium produces many virulent factors such as chitinase [6,7] vegetative insecticidal proteins [8], and bacteriocins [9,10]. Bacteriocins are extracellularly released peptides or proteins affecting growth of closely related bacteria and several pathogenic species [9].…”

Section: Introductionmentioning

confidence: 99%

“…B. thuringiensis strain BUPM4 is known for its ability to produce a bacteriocin, called Bacthuricin F4 (BF4), which could be potentially used for the control of harmful related Bacillus species in agricultural products [9]. The search for genes impaired in BF4 synthesis has been carried out in our laboratory via the insertional transposon mutagenesis approach, which is based on the capability of the mini-Tn10 to insert into different sites in B. thuringiensis chromosomes or plasmids [9]. A non-bacteriocin producing mutant (MB1) was obtained by insertion mutagenesis, in which the mini-Tn10 transposon had targeted a plasmidic gene involved in BF4 synthesis (ORF1) (accession number FJ499396) [10].…”

Section: Introductionmentioning

confidence: 99%

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Isolation of the Bacillus thuringiensis plasmid carrying Bacthuricin F4 coding genes and evidence of its conjugative transfer

Fguira

Fourati

Kamoun

et al. 2014

J Infect Dev Ctries

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Introduction: Conjugation is an excellent natural mode of DNA transfer in vivo between bacteria, particularly when these conjugative elements carry technological traits such as bacteriocin encoding genes. In the present work, the bacteriocinogenic plasmid pIBF4 from Bacillus thuringiensis responsible of Bacthuricin F4 synthesis was isolated and characterized. Methodology: To isolate pIBF4, the total plasmid DNA from a non-bacteriocin transposant carrying the mini-Tn10 spectinomycin selective marker was extracted and used to transform Escherichia coli strain Top10. PIBF4 was extracted from the obtained transformant and then subjected to restriction enzyme analysis. Plasmid curing experiments were conducted to test the stability of pIBF4 at a stringent temperature of 42°C. Conjugative behavior of pIBF4 was assessed by mating experiments using the non-bacteriocin transposant mutant as a donor strain and several Bacillus thuringiensis strains as recipients. Results: The pIBF4 plasmid was isolated and had a molecular weight of 19.1 kb. Ninety-five percent of cells retained the pIBF4 plasmid after 200 generations, demonstrating its high stability. PIBF4 was successfully transferred to Bacillus thuringiensis HD1CryB strain with a transfer frequency of 110 -8 transconjugants per donor cell. The study of the recipient host range revealed that pIBF4 is specifically transferable to Bacillus thuringiensis strains with variable transfer frequencies depending on the recipient host strain. Conclusion: Our results show that pIBF4 is a 19.1 kb highly stable plasmid transferable by conjugation to Bacillus thuringiensis strains with deferent transfer frequencies.

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The 3D Solution Structure of Thurincin H, a Bacteriocin with Four Sulfur to α‐Carbon Crosslinks

Sit¹,

Belkum²,

McKay³

et al. 2011

Angewandte Chemie

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Einblick ins Peptid: Für das antimikrobielle Peptid Thurincin H wurde eine Modifizierung nach der Translation vermutet. Eine MS/MS‐Sequenzierung identifizierte nun die modifizierten Reste, und NMR‐spektroskopische Studien in Lösung ergaben eine 3D‐Struktur für Thurincin H, in der vier S‐Cα‐Thioether‐Brücken auftreten (gelb im Bild). Diese Struktur könnte auch für einige andere Bacteriocine mit identischer Masse bedeutsam sein.

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Purification, amino acid sequence and characterization of Bacthuricin F4, a new bacteriocin produced by Bacillus thuringiensis

Cited by 98 publications

References 21 publications

Identification of Three Novel <i>B. thuringiensis</i> Strains that Produce the Thuricin S Bacteriocin

Identification of Three Novel <i>B. thuringiensis</i> Strains that Produce the Thuricin S Bacteriocin

Isolation of the Bacillus thuringiensis plasmid carrying Bacthuricin F4 coding genes and evidence of its conjugative transfer

The 3D Solution Structure of Thurincin H, a Bacteriocin with Four Sulfur to α‐Carbon Crosslinks

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