A new group of parasporal inclusions encoded by the S-layer gene of Bacillus thuringiensis

Bacillus thuringiensis produces various groups of active proteins, such as Cyt, Vip and Parasporin, in addition to the Cry protein. In this study we show S-layer proteins to be a new group of parasporal inclusions of B. thuringiensis . The S-layer consists of a two-dimensional lattice structure and is the outermost component of many archaeobacteria and eubacteria. The parasporal inclusion of B. thuringiensis strain CTC was found to be not a typical crystal protein encoded by the cry gene, but a proteinaceous inclusion encoded by the S-layer gene. Furthermore, the CTC-like strains (with their parasporal inclusions coded by the S-layer gene) are widely distributed and accounted for 25.4% of the B. thuringiensis strains tested. These strains constitue a new group of parasporal inclusions encoded by the S-layer gene of B. thuringiensis and shed new light on B. thuringiensis nontoxic strains.     

苏云金芽胞杆菌CTC菌株的S-层蛋白可以形成伴胞晶体

苏云金芽胞杆菌(Bacillus thuringiensis)CTC菌株产生卵圆形伴胞晶体,晶体蛋白分子量为100kD;透射电子显微镜观察结果表明该菌株有S—层结构,而且在母细胞内可以形成伴胞晶体和S—层的初体结构;其蛋白基因导入苏云金芽胞杆菌无晶体突变株BMB171后,扫描电子显微镜观察结果表明转化子能形成晶体,而其形状与CTC菌株的相同;转化子晶体蛋白的分子量大小也与CTC菌株的相同,为100kD。以上实验结果结合以前晶体蛋白N—末端测序和基因核苦酸序列,表明苏云金芽胞杆菌CTC菌株的S—层蛋白可以形成伴胞晶体。     

A Bacillus thuringiensis S-layer protein involved in toxicity against Epilachna varivestis (Coleoptera: Coccinellidae)

The use of Bacillus thuringiensis as a biopesticide is a viable alternative for insect control since the insecticidal Cry proteins produced by these bacteria are highly specific; harmless to humans, vertebrates, and plants; and completely biodegradable. In addition to Cry proteins, B. thuringiensis produces a number of extracellular compounds, including S-layer proteins (SLP), that contribute to virulence. The S layer is an ordered structure representing a proteinaceous paracrystalline array which completely covers the surfaces of many pathogenic bacteria. In this work, we report the identification of an S-layer protein by the screening of B. thuringiensis strains for activity against the coleopteran pest Epilachna varivestis (Mexican bean beetle; Coleoptera: Coccinellidae). We screened two B. thuringiensis strain collections containing unidentified Cry proteins and also strains isolated from dead insects. Some of the B. thuringiensis strains assayed against E. varivestis showed moderate toxicity. However, a B. thuringiensis strain (GP1) that was isolated from a dead insect showed a remarkably high insecticidal activity. The parasporal crystal produced by the GP1 strain was purified and shown to have insecticidal activity against E. varivestis but not against the lepidopteran Manduca sexta or Spodoptera frugiperda or against the dipteran Aedes aegypti. The gene encoding this protein was cloned and sequenced. It corresponded to an S-layer protein highly similar to previously described SLP in Bacillus anthracis (EA1) and Bacillus licheniformis (OlpA). The phylogenetic relationships among SLP from different bacteria showed that these proteins from Bacillus cereus, Bacillus sphaericus, B. anthracis, B. licheniformis, and B. thuringiensis are arranged in the same main group, suggesting similar origins. This is the first report that demonstrates that an S-layer protein is directly involved in toxicity to a coleopteran pest.     

类似S-层蛋白的苏云金芽胞杆菌伴胞晶体蛋白基因的克隆

芽胞杆菌CTC菌被鉴定为苏云金芽胞杆菌,鞭毛血清型H2,幕虫亚种;产生卵圆形伴胞晶体,伴胞晶体蛋白为100kD;测定了该蛋白 N－末端序列,该序列与炭疽芽胞杆菌的细胞表面S－层蛋白具92－93％相似性,根据Southern杂交制作了该晶体蛋白基因ctc所在位置的限制性酶切图谱,分别克隆了该基因5’和3’端所在2．9kb XbaI片段和3．1kb Cla I DNA片段,彼此间具0．6kb重叠,通过拼接获得含完整ctc基因的克隆,含该基因的大肠杆菌与表达S－层蛋白的大肠杆菌具相似生长特征,初步表明CTC菌株的伴胞晶体由细胞表面S－层蛋白组成,苏云金芽胞杆菌区别于蜡状芽胞杆菌和炭疽芽胞杆菌的唯一标准是能形成伴胞晶体,由于S－层是细胞表面的结构成分,本文对CTC菌株鉴定为苏云金芽胞杆菌以及伴胞晶体作为苏云金芽胞杆菌鉴别的唯一标准提出了质疑。     

利用S-层蛋白在苏云金芽胞杆菌细胞表面展示多聚组氨酸肽（简报）

S层(Slayer)是由单一的蛋白或糖蛋白组成的薄层晶状结构,它广泛存在于古细菌和真细菌细胞的最外表面,可包裹整个细胞。S层在结构化学、形态学、遗传学以及物理化学等方面具有独特的性质,使之在生物技术、分子纳米技术和仿生学等领域蕴藏着广泛的应用潜力。近年来,随着微生物表     

Charactererization of novel non-toxic Bacillus thuringiensis isoloates from Korea

J.Y. ROH, H.W. PARK, B.R. JIN, H.S. KIM, Y.M. YU AND S.K. KANG. 1996. Four Bacillus thuringiensis isolates from soil samples produced parasporal inclusions which were non-toxic to insects. The isolates were named B. thuringiensis NTB-1, NTB-2, NTB-3 and NTB-4. The parasporal inclusions were shown to be ovoid by phase contrast and scanning electron microscopy. The serotypes of the four isolates were determined by agglutination using 33 antisera; NTB-1 and NTB-4 seemed to be subsp. isruelensis ,and NTB-2 seemed to be subsp. pondzcheriensis . NTB-3 did not react with the 33 antisera. However, comparison of parasporal protein and plasmid DNA patterns of the four isolates with those of 15 known non-toxic B. thuringiensis strains demonstrated that the four isolates are novel.     

Structural insights into the molecular organization of the S-layer from Clostridium difficile

Clostridium difficile expresses a surface layer (S-layer) which coats the surface of the bacterium and acts as an adhesin facilitating interaction of the bacterium with host enteric cells. The S-layer contains a high-molecular-weight S-layer protein (HMW SLP) and its low-molecular-weight partner protein (LMW SLP). We show that these proteins form a tightly associated non-covalent complex, the H/L complex, and we identify the regions of both proteins responsible for complex formation. The 2.4 Å X-ray crystal structure of a truncated derivative of the LMW SLP reveals two domains. Domain 1 has a two-layer sandwich architecture while domain 2, predicted to orientate towards the external environment, contains a novel fold. Small-angle X-ray scattering analysis of the H/L complex shows an elongated molecule, with the two SLPs arranged 'end-to-end' interacting with each other through a small contact area. Alignment of LMW SLPs, which exhibit high sequence diversity, reveals a core of conserved residues that could reflect functional conservation, while allowing for immune evasion through sequence variation. These structures are the first described for the S-layer of a bacterial pathogen, and provide insights into the assembly and biogenesis of the S-layer.     

利用S-层蛋白在苏云金芽胞杆菌细胞表面展示多聚组氨酸肽

S-层(S-layer)是由单一的蛋白或糖蛋白组成的薄层晶状结构,它广泛存在于古细菌和真细菌细胞的最外表面,可包裹整个细胞。S-层在结构化学、形态学、遗传学以及物理化学等方面具有独特的性质,使之在生物技术、分子纳米技术和仿生学等领域蕴藏着广泛的应用潜力。近年来,随着微生物表面展示技术的兴起和展示系统的逐渐成熟,继外膜蛋白、附屑结构蛋白、粘附蛋白以及凝集素等表面蛋白之后,S-层蛋白被作为一种新的表面展示载体成功的在细胞表面展示了一些外源大分子。多聚组氨酸肽是由若干个单位的六聚组氨酸串联而成的短肽。六聚组氨酸能够有效的吸附镍、镉等重金     

Characterization of a mosquitocidal Bacillus thuringiensis serovar sotto strain isolated from Okinawa, Japan

AIMS: To characterize the mosquitocidal activity of parasporal inclusions of the Bacillus thuringiensis serovar sotto strain 96-OK-85-24, for comparison with two well-characterized mosquitocidal strains. METHODS AND RESULTS: The strain 96-OK-85-24 significantly differed from the existing mosquitocidal B. thuringiensis strains in: (1) lacking the larvicidal activity against Culex pipiens molestus and haemolytic activity, and (2) SDS-PAGE profiles, immunological properties and N-terminal amino acid sequences of parasporal inclusion proteins. CONCLUSIONS: It is clear from the results that the strain 96-OK-85-24 synthesizes a novel mosquitocidal Cry protein with a unique toxicity spectrum. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report of the occurrence of a mosquitocidal B. thuringiensis strain with an unusual toxicity spectrum, lacking the activity against the culicine mosquito.     

苏云金芽胞杆菌幕虫亚种晶胞粘连现象与晶体蛋白基因cry26Aa所在质粒有关

苏云金芽胞杆菌幕虫亚种T02菌株的伴胞晶体在芽胞外壁内侧形成,呈现晶胞粘连的现象。在此菌株中克隆了cry26 Aa和cry28 Aa两个基因,并对晶胞粘连现象与质粒的相关性做了系统研究。通过消除幕虫亚种T02菌株的质粒,得到了仅消除cry26 Aa所在质粒的菌株BMB1151和无质粒的菌株BMB1152。通过穿梭载体将cry26 Aa和cry28 Aa两个基因分别和同时转化无质粒突变株BMB1152并表达,形成的晶体与芽胞独立存在不能粘连,表明在幕虫亚种染色体背景下仅仅cry的表达不能形成晶胞粘连现象,从而推断晶胞粘连现象可能与幕虫亚种两个基因所在的质粒有关;进一步的研究发现将cry26 Aa在仅消除cry26 Aa所在质粒的突变株BMB1151中表达,形成的晶体与芽胞也分别独立存在不能粘连,从而进一步推断幕虫亚种晶胞粘连现象与cry26 Aa所在质粒有关。     

Lectin activity of Bacillus thuringiensis parasporal inclusion proteins

Parasporal inclusion proteins from a total of 151 Bacillus thuringiensis strains, consisting of 139 Japanese isolates and the type strains of 12 H serovars, were screened for haemagglutination (HA) activity against sheep erythrocytes. Of 58 B. thuringiensis strains with HA activity, nine strains exhibited high activity and the remaining 49 strains were moderately active. The strains with high HA activity were derived from phylloplanes and soils of five geographically different localities, and belonged to H serovars kurstaki and other undefined serotype(s). The HA activities in the four selected strains were generated only when alkali-solubilised parasporal inclusion proteins were proteolytically processed. Furthermore, the lectin activity of the four strains was strongly inhibited by preincubation with N-acetylgalactosamine. The lectin-producing B. thuringiensis strains were heterogeneous in other biological activities of parasporal inclusions: insecticidal activity and cytocidal action on human leukaemia T cells.     

Patterns of sequence conservation in the S-Layer proteins and related sequences in Clostridium difficile

Clostridium difficile is the etiological agent of antibiotic-associated diarrhea. Among the factors that may play a role in infection are S-layer proteins (SLPs). Previous work has shown these to consist mainly of two components, resulting from the cleavage of a precursor encoded by the slpA gene. The high-molecular-weight (MW) subunit is related both to amidases from B. subtilis and to at least another 28 gene products in C. difficile strain 630. To gain insight into the functions of the SLPs and related proteins, we have further investigated the pattern of variability both at the slpA locus and at six nearby paralogs. Sequencing of the slpA gene from an S-layer group II strain and a variant S-layer group strain confirms a high degree of divergence in the low-MW SLP, which may result from diversifying selection. A highly conserved motif, however, is found at the C terminus in all low-MW subunits and may be essential for SlpA precursor cleavage. In strain 167, a variant cleavage product is present, suggesting a secondary processing site. Southern blotting analysis shows slpA-like open reading frames (ORFs) 2 to 7 to be conserved in all nine strains tested, with one exception: ORF2, which encodes a 66-kDa polypeptide coextracted at low pH with the main SLPs in strain 630, may be partially deleted in strain 167. Polymorphism within the slpA-ORF7 cluster may be more pronounced in the region proximal to the slpA gene. Unexpectedly, a high-MW subunit probe cross hybridizes to sequences outside the slpA locus, which appear to vary in number in different strains.     

Isolation of a non-insecticidal Bacillus thuringiensis strain belonging to serotype H8a8b

Bacillus thuringiensis strains non-toxic to Lepidoptera, Bombyx mori and Diptera, Culex pipiens pallens larvae were isolated from Korean soil samples during an investigation of B. thuringiensis isolates highly toxic to insect pests. One of these isolates, NTB-88, produces parasporal inclusions about 138 kDa in size and is non-toxic to 19 insect species of three orders, Lepidoptera, Diptera and Coleoptera, even though it is highly susceptible to tryptic cleavage. Study of flagellar (H) antibodies of 33 B. thuringiensis strains revealed that NTB-88 has an H antigen identical with that of subsp. morrisoni (serotype 8a8b). Comparison of parasporal inclusion proteins and plasmid DNA patterns of strain NTB-88 with B. thuringiensis subsp. morrisoni HD-12 and B. thuringiensis subsp. morrisoni PG-14 showed that the isolate is a novel non-insecticidal B. thuringiensis strain belonging to serotype 8a8b.     

High-level cryIVD and cytA gene expression in Bacillus thuringiensis does not require the 20-kilodalton protein, and the coexpressed gene products are synergistic in their toxicity to mosquitoes.

Interactions among the 20-kDa protein gene and the cytA and cryIVD genes located in a 9.4-kb HindIII fragment were studied. A series of plasmids containing a combination of these different genes was constructed by using the Escherichia coli/Bacillus thuringiensis shuttle vector pHT3101. The plasmids were then used to transform an acrystalliferous strain, cryB, derived from B. thuringiensis subsp. kurstaki. The results from sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblot analyses suggest that although the 20-kDa protein is required for the efficient CytA protein production in E. coli, it is not required in B. thuringiensis. With or without the truncated 20-kDa protein gene, the CtyA and/or CryIVD proteins are produced and form parasporal inclusions in B. thuringiensis cells. However, more-efficient expression is obtained when a second protein, probably acting as a chaperonin, is present. In addition, the time course studies show that the CytA and CryIVD proteins are coordinately produced. Both the crude B. thuringiensis culture and purified inclusions from each recombinant B. thuringiensis strain are toxic to Culex quinquefasciatus larvae. The parasporal inclusions formed in B. thuringiensis cells are mosquitocidal, with CytA synergizing CryIVD toxicity.     

利用苏云金芽胞杆菌细胞表面展示系统表达禽流感病毒NP蛋白

首次利用苏云金芽胞杆菌(Bacillus thuringiensis,Bt)S-层蛋白CTC表面展示系统研究在Bt细胞表面展示禽流感病毒NP蛋白的可行性和最佳方案,为研制能常温长期保藏和运输的禽用口服疫苗奠定基础。用全长np基因或部分np基因(npp)代替S-层蛋白ctc基因的3′-端或中部,构建了4个重组质粒pSNP(含ctc-np)、pCSA-SNP(csa-ctc-np)、pCTC-NPP(ctc-npp)和pCSNPP(csa-ctc-npp)。将重组质粒分别电转化入Bt受体菌株BMB171中,获得了5个重组菌株BN、BCN、C-S、BCCN和CN。用5个重组菌株的营养细胞做玻片凝集试验,结果显示5个重组菌株均成功地在细胞表面展示了NP蛋白。用5个重组菌株的营养细胞免疫小鼠,ELISA测定血清抗体效价,结果显示5个重组菌株均具有免疫原性,其中重组菌株CN的免疫原性最高,其含融合基因csa-ctc-npp,证明该种融合基因的构建方式最佳。这为利用S-层蛋白CTC表面展示系统构建展示其它禽类病原体抗原的重组菌株以研制禽用热稳定性口服疫苗奠定了基础。     

Isolation and Identification of novel toxins from a new mosquitocidal isolate from Malaysia, Bacillus thuringiensis subsp. jegathesan.

A new mosquitocidal Bacillus thuringiensis subsp., jegathesan, has recently been isolated from Malaysia. Parasporal crystal inclusions were purified from this strain and bioassayed against fourth-instar larvae of Culex quinquefasciatus, Aedes aegypti, Aedes togoi, Aedes albopictus, Anopheles maculatus, and Mansonia uniformis. The 50% lethal concentration of crystal inclusions for each species was 0.34, 8.08, 0.34, 17.59, 3.91, and 120 ng/ml, respectively. These values show that parasporal inclusions from this new subspecies have mosquitocidal toxicity comparable to that of inclusions isolated from B. thuringiensis subsp. israelensis. Solubilized and chymotrypsin-activated parasporal inclusions possessed low-level hemolytic activity. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that the crystals were composed of polypeptides of 77, 74, 72, 68, 55, 38, 35, 27, and 23 kDa. Analysis by Western blotting (immunoblotting) with polyclonal antisera raised against toxins purified from B. thuringiensis subsp. israelensis reveals that proteins in parasporal inclusions of subsp. jegathesan are distinct, because little cross-reactivity was shown. Analysis of the plasmid content of B. thuringiensis subsp. jegathesan indicates that the genes for toxin production may be located on 105- to 120-kb plasmids. Cry- clones that have been cured of these plasmids are nontoxic. Southern blot analysis of plasmid and chromosomal DNA from subsp. jegathesan showed little or low homology to the genes coding for CryIVA, CryIVB, and CryIVD from B. thuringiensis subsp. israelensis.     

炭疽芽胞杆菌假想S-层蛋白SLP缺失突变体的构建

目的：构建炭疽芽胞杆菌假想S-层蛋白SLP缺失突变体,以进行后续SLP的功能研究,为炭疽芽孢杆菌重要基因功能的研究建立技术平台。方法：利用PCR技术,分别扩增得到目的基因的上游同源臂（slp-F）和下游同源臂（slp-R）,将抗性基因（S）和上、下游同源臂先后连入穿梭质粒pKSV7,构建打靶载体pKSV7-FSR,经去甲基化后,电转化入炭疽芽胞杆菌A16R,通过同源重组敲除slp基因,并通过DNA测序和Western blot实验验证;对野生株和突变株37℃时的生长曲线及生化反应进行比较研究。结果：分别从DNA水平和蛋白质水平证实slp基因被成功敲除;突变株对数期生长较快,衰退较慢,与野生株的生化反应差异不明显。结论：获得了炭疽芽胞杆菌假想S-层蛋白SLP缺失突变体。     

Delta-endotoxin proteins associated with spherical parasporal inclusions of the four Lepidoptera-specific Bacillus thuringiensis strains

Four Lepidoptera-specific reference strains of Bacillus thuringiensis , belonging to serovars sumiyoshiensis (H3a:3d), fukuokaensis (H3a:3d:3e), darmstadiensis (H10a:10b) and japonensis (H23), which produce spherical parasporal inclusions, were examined for comparative characterization of δ-endotoxins. SDS-PAGE profiles of the alkali-solubilized parasporal inclusions revealed the presence of single major protein bands of 130 kDa in the four strains. Chymotrypsin and trypsin treatment of the proteins gave profiles different from those of the strains HD-1 (serovar kurstaki , H3a:3b:3c) and T84 A1 (serovar sotto , H4a:4b). Also, minor variations were observed in proteolysis profiles among the four strains. The LC₅₀ values of purified parasporal inclusions for the silkworm ( Bombyx mori ) larvae were 7·35, 6·45, 3·08 and 2·63 μg g⁻¹ diet, respectively, showing that their toxicity levels were 5–15 times lower than that of the strain HD-1 (0·49 μg g⁻¹ diet). Analysis by immunodiffusion and immunoblotting with polyclonal antisera revealed that parasporal inclusion proteins of the four strains are highly related, whereas they shared few or no common antigens with those of the strains HD-1, T84 A1 and Buibui (serovar japonensis ).     

A 54-kilodalton protein encoded by pBtoxis is required for parasporal body structural integrity in Bacillus thuringiensis subsp. israelensis

Strains of Bacillus thuringiensis such as B. thuringiensis subsp. israelensis (ONR-60A) and B. thuringiensis subsp. morrisoni (PG-14) pathogenic for mosquito larvae produce a complex parasporal body consisting of several protein endotoxins synthesized during sporulation that form an aggregate of crystalline inclusions bound together by a multilamellar fibrous matrix. Most studies of these strains focus on the molecular biology of the endotoxins, and although it is known that parasporal body structural integrity is important to achieving high toxicity, virtually nothing is known about the matrix that binds the toxin inclusions together. In the present study, we undertook a proteomic analysis of this matrix to identify proteins that potentially mediate assembly and stability of the parasporal body. In addition to fragments of their known major toxins, namely, Cry4Aa, Cry4Ba, Cry11Aa, and Cyt1Aa, we identified peptides with 100% identity to regions of Bt152, a protein coded for by pBtoxis of B. thuringiensis subsp. israelensis, the plasmid that encodes all endotoxins of this subspecies. As it is known that the Bt152 gene is expressed in B. thuringiensis subsp. israelensis, we disrupted its function and showed that inactivation destabilized the parasporal body matrix and, concomitantly, inclusion aggregation. Using fluorescence microscopy, we further demonstrate that Bt152 localizes to the parasporal body in both strains, is absent in other structural or soluble components of the cell, including the endospore and cytoplasm, and in ligand blots binds to purified multilamellar fibrous matrix. Together, the data show that Bt152 is essential for stability of the parasporal body of these strains.