• Title/Summary/Keyword: toxin gene

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Expression of Bacillus thringiensis HD-1 gene in rhizobacteria Pseudomonas fluorescens KR164 (근권 길항세균 Pseudomonas fluorescens KR164에 Bacillus thuringiensis HD-1 유전자의 삽입과 발현)

  • Kim, Yeong-Yil;Rhee, Young-Hwan;Kang, Heun-Soo
    • Applied Biological Chemistry
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    • v.35 no.4
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    • pp.227-231
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    • 1992
  • The plasmids pSUPBT and pSUPBTR were constructed with a vector pSUP2021 and the BT toxin gene in the plasmid pES 1. The plasmids constructed were introduced into the antagonistic rhizobacteria P. fluorescens KR164 by conjugation and P. fluorescens having pSUPBT and pSUPBTR were named P. fluorescens KR164(pSUPBT)#2, KR164(pSUPBT)#3, KR164(pSUPBTR)#2 and KR164(pSUPBTR)#3, respectively. The BT toxin gene were identified in all transformants by Southern hybridization and the final product of BT toxin gene was identified only in P. fluorescens KR164(pSUPBTR)#3 by SDS-PAGE. This crystal toxin protein were also observed in electron microscopy.

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Introduction and Expression of the Urease Gene in Mosquitocidal Bacillus sphaericus 1593 (세균성 Urease Gene에 의한 모기유충 방제균 Bacillus sphaericus 1593의 형질전환)

  • 한길환;김상달
    • Microbiology and Biotechnology Letters
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    • v.23 no.4
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    • pp.390-396
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    • 1995
  • Bacillus sphaericus 1593 is a larvicidal toxin-producing mosquitocidal bacterium. The toxin contains a parasporal crystalline inclusion which is composed of a protein that is activated under alkaline condition. To enhance alkaline environment around toxin protein, cryptic plasmid cured, B. sphaericus 1593 was transformed by the Bacillus pasteurii urease gene which generate ammonia from urea. Transformant produced urease at about 80% more than wild type strain. B. sphaericus 1593, and the urease gene was stably maintained. It also produced crystalline toxin protein at the same level as the wild type strain B. sphaericus 1593.

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Molecular Cloning of Two cDNAs Encoding an Insecticidal Toxin from the Spider, Araneus ventricosus, and Construction of a Recombinant Baculovirus Expressing a Spider Toxin

  • Chung, Eun-Hwa;Lee, Kwang-Sik;Han, Ji-Hee;Je, Yeon-Ho;Chang, Jin-Hee;Roh, Jong-Yul
    • International Journal of Industrial Entomology and Biomaterials
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    • v.4 no.1
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    • pp.43-49
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    • 2002
  • We have cloned cDNAs encoding toxin from the spider, Araneus ventricosus, and constructed a recombinant baculovirus expressing the insecticidal toxin. The cDNAs encoding toxin were cloned from the cDNA library of A. ventricosus. Sequence analysis of the cDNAs encoding the toxin of A. ventricosus revealed that the 240 bp cDNA for AvTox-1 and 192 bp cDNA for AvTox-2 have an open reading frame of 80 and 64 amino acid residues, respectively. The deduced protein sequence of the toxin genes of AvTox-1 and AvTox-2 was aligned to that of the snack Anemonia sulcata and scorpion Centruroides limpidus limpidus, respectively. Northern blot analysis indicated that AvTox-2 toxin gene showed a fat body-spe-cific expression pattern at the transcriptional level. Furthermore, we have explored the possibility of improving baculovirus by incorporating the A. vontricosus toxin gene into Bombyx mori nuclear polyhedrosis virus genome under the control of polyhedrin promoter, The AvTox-2 toxin gene was expressed as approximately 5.8 kDa band in the recombinant baculovirus-injected silkworm larvae. Bioassays with the recombinant virus expressing AvTox-2 on 5th instar silkworm larvae demonstrated a decrease in the time to kill $(LT_{50} days)$ compared to wild-type BmNPV-Kl $(LT_{50} 6.72 days)$ in the injection of 10 viruses. These results indicate that A. ventricosus toxin is a novel member of the spider toxin family, suggesting that the toxin gene can be used in recombinant baculoviruses to reduce insect feeding damage and increase the speed of insect kill.

Isolation and Analysis of Bacillus thuringiensis serovar. darmstadiensis Insecticidal Protein Gene (Bacillus thuringiensis serovar. darmstadiensis의 곤충치사독소 유전자분리 및 구조해석)

  • 김도영;구본성;도대홍
    • The Korean Journal of Food And Nutrition
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    • v.9 no.4
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    • pp.459-465
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    • 1996
  • Bacillus thuringiensis serovar. darmstadiensis produced bipyramidal endo-toxin. The toxin protein was purified by Renografin-76 step gradient centrifugation and investigated by electron microscope. Analysis of total plasmid DNA patterns showed that four different size of plasmids existed in wild type B. thuringiensis serovar. darmstadiensis. Total plasmids DNA was isolated and transformed into pst I site of pBR322 cloning vector. Ten clones containing crystal toxin gene were forst screened colony hybridization by using PUYBT 9044 probe ontained B. thuringiensis kurskaki HD 1 toxin gene. Cloned-DNA was digested with EcoR1 and HindIII and transformed to pIBI30 sequencing vector. Finally, 2.6kb and 3.6kb size fragments contatined toxin-gene were cloned with restriction analysis.

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Prevalence and Toxin Characteristics of Bacillus thuringiensis Isolated from Organic Vegetables

  • Kim, Jung-Beom;Choi, Ok-Kyung;Kwon, Sun-Mok;Cho, Seung-Hak;Park, Byung-Jae;Jin, Na Young;Yu, Yong Man;Oh, Deog-Hwan
    • Journal of Microbiology and Biotechnology
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    • v.27 no.8
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    • pp.1449-1456
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    • 2017
  • The prevalence and toxin characteristics of Bacillus thuringiensis isolated from 39 organic vegetables were investigated. B. thuringiensis was detected in 30 out of the 39 organic vegetables (76.9%) with a mean value of 2.60 log CFU/g. Twenty-five out of the 30 B. thuringiensis isolates (83.3%) showed insecticidal toxicity against Spodoptera exigua. The hblCDA, nheABC, and entFM genes were found to be the major toxin genes, but the ces gene was not detected in any of the tested B. thuringiensis isolates. The hemolysin BL enterotoxin was detected in all 30 B. thuringiensis isolates (100%). The non-hemolytic enterotoxin complex was found in 27 out of 30 B. thuringiensis isolates (90.0%). The B. thuringiensis tested in this study had similar toxin gene characteristics to B. cereus, which possessed more than one toxin gene. B. thuringiensis could have the potential risk of foodborne illness based on the toxin genes and toxin-producing ability.

Transformation of Citrus with Coleopteran Specific $\delta$-Endotoxin Gene from Bacillus thuringiensis ssp. tenebrionis

  • Rhim, Seong Lyul;Kim, Il Gi;Jin, Tae Eun;Lee, Jin Hyoung;Kuo, Ching I;Suh, Suk Chul;Huang, Li Chun
    • Journal of Plant Biotechnology
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    • v.6 no.1
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    • pp.21-24
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    • 2004
  • A modified $\delta$-endotoxin gene of Bacillus thuringiensis ssp. tenebrionis (B.t.t.), encoding a coleoptera-specific toxin, was utilized to transform citrus plants, Citrus reticulata Blanco 'Ponkan' mandarian. By co-culturing the nucelli with Agrobacterium tumefaciens harboring the modified gene in the binary vector pBinAR-Btt, the chimeric toxin gene was transferred into citrus plants. The transgenic plants were selected on modified Murashige and Skoog medium containing kanamycin. Hybridization experiments demonstrated that the transgenic plants contained and expressed the toxin protein gene.

Molecular Breeding of Transgenic Tomato Plants Expressing the ${\delta}-Endotoxin$ Gene of Bacillus thuringiensis subsp. tenebrionis (살충성 형질 전환 토마토 식물체의 분자 육종)

  • Rhim, Seong-Lyul
    • Applied Biological Chemistry
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    • v.41 no.2
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    • pp.137-140
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    • 1998
  • The transgenic tomato plants showing the insecticidal activity against the coleopteran insect larvae have been bred to the 4th generation $(R_4)$. The Bacillus thuringiensis subsp. tenebrionis (B.t.t.)-toxin gene and the expression were detected in the $R_4$ transgenic plants. The expression of the toxin gene conferred a coleopteran insect larvae tolerance to the transgenic tomato plants. The ploidy levels of the $R_4$ transgenic plants were diploid. The results indicated that the toxin gene was inherrited to the next generation and expressed. Such a molecular breeding can provide a method for a permanent control of insects a agronomic relevance.

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Toxin Genes and Antimicrobial Resistance of Clostridium perfringens Strains Isolated from Commercial Jeotgals (시판 젓갈에서 분리한 Clostridium perfringens의 독소 유전자 및 항균제 내성 분석)

  • Shin-Hye Lee;Kwon-Sam Park
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.56 no.6
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    • pp.826-832
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    • 2023
  • Clostridium perfringens causes diarrhea and other diseases in humans and animals. We investigated the prevalence, toxin gene profiles, and antimicrobial resistance of C. perfringens isolated from commercial jeotgal sample. C. perfringens was isolated from 11 of 22 commercial jeotgals. All C. perfringens strains were positive for the alpha toxin gene, but not for the beta, epsilon, iota, CPE or NetB toxin genes; therefore, all strains were identified as type A C. perfringens. However, the beta2 toxin gene was identified in 54.5% of isolates. Disk diffusion susceptibility tests showed that most isolates were resistant to kanamycin (90.9%), nalidixic acid (72.7%), oxacillin (54.5%), erythromycin (27.3%), ciprofloxacin (9.1%) and clindamycin (9.1%). However, all strains were susceptible to 14 other antimicrobial including amoxicillin, ampicillin, and chloramphenicol. The average minimum inhibitory concentrations against C. perfringens of clindamycin, kanamycin, and nalidixic acid were 128.0, 128.0, and 54.0 ㎍/mL, respectively. These results provide new insight into the necessity for sanitation of commercial jeotgal, and provide evidence to help reduce the risk of contamination with antimicrobial-resistant bacteria.

Expression of Mouse Synaptobrevin (VAMP) Gene in E. coli and its Cleavage by the Clostridium botulinum type B Toxin (Synaptobrevin (VAMP)유전자의 대장균에서의 발현 및 Clostridium botulinum type B 독소에 의한 절단)

  • 정현호;양기혁;이상달;양규환
    • Toxicological Research
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    • v.13 no.4
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    • pp.417-421
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    • 1997
  • Synaptobrevin is a kind of vesicle associated membrane proteins (VAMPs) which plays a secretary role in the neuronal synapse and was recently known as the biochemical target of botulinum neurotoxin type B. The structural gene of the synaptobrevin was cloned from mouse brain using RT-PCR technique and was seqrtenced. The deduced amino acid sequence showed that the synaptobrevin protein from mouse brain is exactly the same with that of the rat brain in the amino acid level. The synaptobrevin gene was subcloned into pET3a vector and expressed in E. coli. The molecular weight of the recombinant protein was 19 kDa as expected. Moreover, when the recombinant synaptobrevin protein was incubated with the native neurotoxin of Clostridium botulinum type B, it was cleaved by the toxin in a time dependent manner. This implies that the recombinant synaptobrevin protein and the native toxin are reacted in the same way as the native synaptobrevin did in the neuronal cells.

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Development of a toxA Gene Knock-out Mutant of Pasteurella multocida and Evaluation of its Protective Effects

  • Kim Tae-Jung;Lee Jae-Il;Lee Bong-Joo
    • Journal of Microbiology
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    • v.44 no.3
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    • pp.320-326
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    • 2006
  • Pasteurella multocida is an important veterinary and opportunistic human pathogen. In particular, strains of P. multocida serogroup D cause progressive atrophic rhinitis, and produce a potent, intracellular, mitogenic toxin known as P. multocida toxin (PMT), which is encoded by the toxA gene. To further investigate the toxigenic and pathogenic effects of PMT, a toxA-deleted mutant was developed by homologous gene recombination. When administrated to mice, the toxigenicity of the toxA mutant P. multocida was drastically reduced, suggesting that the PMT constributes the major part of the toxigenicity of P, multocida. Similar results were obtained in a subsequent experiment, while high mortalities were observed when toxA(+) P. multocida bacterial culture or culture Iysate were administrated. Mice immunized with toxA(-) P. multocida were not protected (none survived) following challenge with toxA(+) P. multocida or bacterial culture Iysate (toxin). These results suggest that the toxigenicity of P. multocida is mainly derived from PMT.