Study of the bacterial load in a gelatine production process focussed on Bacillus and related endosporeforming genera

Gelatine is an animal protein with many industrial applications. Previous studies pointed out that endosporeforming bacteria, belonging to the genus Bacillus or related genera, might contaminate and survive the production process of gelatine, leading to products of low quality and safety. The aim of this study is to determine the bacterial diversity of contaminants isolated from a gelatine production chain with emphasis on aerobic endosporeforming bacteria. Contaminants were isolated from samples taken at five crucial points along two different production lines of a gelatine production process and from water supplies used for extraction and cooling. Gaschromatographic methyl ester analysis of fatty acids was performed to differentiate isolates at the genus level. Apart from members of the genus Bacillus or related endosporeforming genera, also members of Salmonella, Kluyvera, Staphylococcus, Burkholderia, Enterococcus, Pseudomonas, Yersinia, Streptococcus and Brevundimonas could be detected. Isolates identified as belonging to Bacillus and related endosporeforming genera were further characterised by gelatinase tests, rep-PCR and 16S rDNA sequencing. All these isolates showed the ability to liquefy gelatine. Endosporeforming isolates were assigned to Bacillus licheniformis, B. fumarioli, members of the B. cereus group, B. badius, B. coagulans, B. subtilis, Brevibacillus agri, Alicyclobacillus acidocaldarius and a yet undescribed Paenibacillus species.     

Screening of bacterial contamination during gelatine production by means of denaturing gradient gel electrophoresis, focussed on Bacillus and related endospore-forming genera

AIMS: To screen for bacterial contamination during gelatine production by means of denaturing gradient gel electrophoresis (DGGE). As members of Bacillus and related genera were found to persist in the final product, this study focussed on these taxa. METHODS AND RESULTS: Template DNA was extracted from gelatine samples at five crucial points of a gelatine production process. A primer specific for Bacillus and related genera was designed and used in a selective PCR, followed by a nested DGGE-PCR targeting the V9 region of the 16S rDNA. DGGE analysis of the resulting amplicons, and sequence analysis of selected bands, showed high sequence similarities of these bands with Bacillus fumarioli, B. licheniformis, B. coagulans and Clostridium perfringens. When the selective PCR was omitted, primarily Lactobacillus bands were retrieved. CONCLUSIONS: PCR-DGGE analysis of gelatine extracts can be used for tracing and screening of bacterial contamination during gelatine production. A selective PCR, nested with DGGE-PCR, gave much more accurate information about endospore-forming contaminants than did the direct DGGE procedure alone. Significance AND IMPACT OF THE STUDY: Use of this nested DGGE-PCR protocol may provide important information about possible hazards to the final microbiological quality and/or safety of gelatine, so allowing production parameters and/or remediation procedures may be adjusted on-line.     

Isolation, characterization, and identification of bacterial contaminants in semifinal gelatin extracts

Bacterial contamination of gelatin is of great concern. Indeed, this animal colloid has many industrial applications, mainly in food and pharmaceutical products. In a previous study (E. De Clerck and P. De Vos, Syst. Appl. Microbiol. 25:611-618), contamination of a gelatin production process with a variety of gram-positive and gram-negative bacteria was demonstrated. In this study, bacterial contamination of semifinal gelatin extracts from several production plants was examined. Since these extracts are subjected to harsh conditions during production and a final ultrahigh-temperature treatment, the bacterial load at this stage is expected to be greatly reduced. In total, 1,129 isolates were obtained from a total of 73 gelatin batches originating from six different production plants. Each of these batches was suspected of having bacterial contamination based on quality control testing at the production plant from which it originated. For characterization and identification of the 1,129 bacterial isolates, repetitive-element PCR was used to obtain manageable groups. Representative strains were identified by means of 16S rRNA gene sequencing, species-specific gyrB PCR, and gyrA and rpoB sequencing and were tested for gelatinase activity. The majority of isolates belonged to members of Bacillus or related endospore-forming genera. Representative strains were identified as Bacillus cereus, Bacillus coagulans, Bacillus fumarioli, Bacillus amyloliquefaciens, Bacillus licheniformis, Bacillus pumilus, Bacillus sonorensis, Bacillus subtilis, Bacillus gelatini, Bacillus thermoamylovorans, Anoxybacillus contaminans, Anoxybacillus flavithermus, Brevibacillus agri, Brevibacillus borstelensis, and Geobacillus stearothermophilus. The majority of these species include strains exhibiting gelatinase activity. Moreover, some of these species have known pathogenic properties. These findings are of great concern with regard to the safety and quality of gelatin and its applications.     

两株棉花立枯病拮抗菌MH1和MH25的筛选与鉴定

从棉花根际分离了1277个细菌分离物,以棉花立枯病病原真菌立枯丝核菌(Rhizoctonia solani Kuhn)为靶标菌,通过平板对峙法获得25个具有拮抗性能的分离物,其中MH1和MH25具有较强的拮抗性能,且拮抗性能稳定,具有较好的生防潜力.经过形态观察、生理生化特征分析及16S rDNA序列分析,MH1为短芽孢杆菌(Brevibacillus brevis),MH25为枯草芽孢杆菌(Bacillus subtilis).MH1和MH25的16S rDNA序列在GenBank中注册号分别为:EF488102,EF488103.     

两株棉花立枯病拮抗菌MH1和MH25的筛选与鉴定

从棉花根际分离了1277个细菌分离物, 以棉花立枯病病原真菌立枯丝核菌(Rhizoctonia solani Kuhn)为靶标菌, 通过平板对峙法获得25个具有拮抗性能的分离物, 其中MH1和MH25具有较强的拮抗性能, 且拮抗性能稳定, 具有较好的生防潜力。经过形态观察、生理生化特征分析及16S rDNA序列分析, MH1为短芽孢杆菌(Brevibacillus brevis), MH25为枯草芽孢杆菌(Bacillus subtilis)。MH1和MH25的16S rDNA序列在GenBank中注册号分别为: EF488102, EF488103。     

几种经济作物根际拮抗细菌的多样性

采用抗菌谱测定以及BOXAIR-PCR、生理生化特征和16S rDNA序列分析等方法对分离自10种作物根际的55株拮抗细菌的多样性及主要拮抗菌类群进行了分析.结果表明： 根际拮抗细菌的拮抗作用具有丰富的多样性;BOXAIR-PCR分析中供试菌在721％相似性水平上可以聚为7个群,850%相似性水平上聚为25个群;所有供试根际拮抗菌分别属于芽孢杆菌属（Bacillus）芽孢杆菌属（Paenibacillus）、短芽孢杆菌属（Brevibacillus）、假单胞菌属（Pseudomonas）和产碱菌属（Alcaligenes）.作物根际拮抗菌具有丰富的遗传多样性和拮抗性能多样性.     

Isolation, Characterization, and Identification of Bacterial Contaminants in Semifinal Gelatin Extracts

Bacterial contamination of gelatin is of great concern. Indeed, this animal colloid has many industrial applications, mainly in food and pharmaceutical products. In a previous study (E. De Clerck and P. De Vos, Syst. Appl. Microbiol. 25:611-618), contamination of a gelatin production process with a variety of gram-positive and gram-negative bacteria was demonstrated. In this study, bacterial contamination of semifinal gelatin extracts from several production plants was examined. Since these extracts are subjected to harsh conditions during production and a final ultrahigh-temperature treatment, the bacterial load at this stage is expected to be greatly reduced. In total, 1,129 isolates were obtained from a total of 73 gelatin batches originating from six different production plants. Each of these batches was suspected of having bacterial contamination based on quality control testing at the production plant from which it originated. For characterization and identification of the 1,129 bacterial isolates, repetitive-element PCR was used to obtain manageable groups. Representative strains were identified by means of 16S rRNA genesequencing, species-specific gyrB PCR, and gyrA and rpoB sequencing and were tested for gelatinase activity. The majority of isolates belonged to members of Bacillus or related endospore-forming genera. Representative strains were identified as Bacillus cereus, Bacillus coagulans, Bacillus fumarioli, Bacillus amyloliquefaciens, Bacillus licheniformis, Bacillus pumilus, Bacillus sonorensis, Bacillus subtilis, Bacillus gelatini, Bacillus thermoamylovorans, Anoxybacillus contaminans, Anoxybacillus flavithermus, Brevibacillus agri, Brevibacillus borstelensis, and Geobacillus stearothermophilus. The majority of these species include strains exhibiting gelatinase activity. Moreover, some of these species have known pathogenic properties. These findings are of great concern with regard to the safety and quality of gelatin and its applications.     

Species Diversity and Substrate Utilization Patterns of Thermophilic Bacterial Communities in Hot Aerobic Poultry and Cattle Manure Composts

This study investigated the species diversity and substrate utilization patterns of culturable thermophilic bacterial communities in hot aerobic poultry and cattle manure composts by coupling 16S rDNA analysis with Biolog data. Based on the phylogenetic relationships of 16S rDNA sequences, 34 thermophilic (grown at 60 degrees C) bacteria isolated during aerobic composting of poultry manure and cattle manure were classified as Bacillus licheniformis, B. atrophaeus, Geobacillus stearothermophilus, G. thermodenitrificans, Brevibacillus thermoruber, Ureibacillus terrenus, U. thermosphaericus, and Paenibacillus cookii. In this study, B. atrophaeus, Br. thermoruber, and P. cookii were recorded for the first time in hot compost. Physiological profiles of these bacteria, obtained from the Biolog Gram-positive (GP) microplate system, were subjected to principal component analysis (PCA). All isolates were categorized into eight different PCA groups based on their substrate utilization patterns. The bacterial community from poultry manure compost comprised more divergent species (21 isolates, seven species) and utilized more diverse substrates (eight PCA groups) than that from cattle manure compost (13 isolates, five species, and four PCA groups). Many thermophilic bacteria isolated in this study could use a variety of carboxylic acids. Isolate B110 (from poultry manure compost), which is 97.6% similar to U. terrenus in its 16S rDNA sequence, possesses particularly high activity in utilizing a broad spectrum of substrates. This isolate may have potential applications in industry.     

Multiple displacement amplification of DNA from human colon and rectum biopsies: bacterial profiling and identification of Helicobacter pylori-DNA by means of 16S rDNA-based TTGE and pyrosequencing analysis

Amplifying bacterial DNA by PCR from human biopsy specimens has sometimes proved to be difficult, mainly due to the low amount of bacterial DNA present. Therefore, nested or semi-nested 16S rDNA PCR amplification has been the method of choice. In this study, we evaluate the potential use of whole genome amplification of total DNA isolated from human colon and rectum biopsy specimens, followed by 16S rDNA PCR amplification of multiple displacement amplified (MDA)-DNA. Subsequently, a H. pylori-specific 16S rDNA variable V3 region PCR assay was applied directly on MDA-DNA and, combined with pyrosequencing analysis; the presence of H. pylori in some biopsies from colon in patients with microscopic colitis was confirmed. Furthermore, temporal temperature gradient gel electrophoresis (TTGE) of 16S rDNA amplicons using primers flanking variable regions V3, V4, and V9, was used to establish bacterial profiles from individual biopsies. A variation of the bacterial profiles in the colonic mucosa in microscopic colitis and in normal rectal mucosa was observed. In conclusion we find the MDA technique to be a useful method to overcome the problem of insufficient bacterial DNA in human biopsy specimens.     

免培养法对一热泉细菌多样性的初步研究

应用免培养法（Cultureindependent）对云南腾冲热海大滚锅高温热泉中细菌的多样性进行初步的分析。经过克隆筛选,测定了5个克隆的16S rDNA插入片段的近全序列,系统发育分析的结果表明,它们分属于Bacillus、Hydrogenobacter和Pseudomonas,有一个克隆尚难确定其分类地位,它属于Thermodesulfobacteriaceae科,介于Geothermbacterium属和Thermodesulfobacteria属之间。经PCR扩增出上述5个克隆16S rDNA插入序列中及环境样品总DNA中的16S rDNA V8高变区约600bp片段,进行变性梯度电泳（DGGE）。所得电泳图谱和5个序列的系统发育树不仅表明该高温热泉存在着丰富的细菌多样性,还显示了它们是该高温热泉中细菌的优势物种。     

Diversity of bacterial endophytes in roots of Mexican husk tomato plants (Physalis ixocarpa) and their detection in the rhizosphere

Endophytic bacterial diversity was estimated in Mexican husk tomato plant roots by amplified rDNA restriction analysis and sequence homology comparison of the 16S rDNA genes. Sixteen operational taxonomic units from the 16S rDNA root library were identified based on sequence analysis, including the classes Gammaproteobacteria, Betaproteobacteria, Actinobacteria, and Bacilli. The predominant genera were Stenotrophomonas (21.9%), Microbacterium (17.1%), Burkholderia (14.3%), Bacillus (14.3%), and Pseudomonas (10.5%). In a 16S rDNA gene library of the same plant species' rhizosphere, only common soil bacteria, including Stenotrophomonas, Burkholderia, Bacillus, and Pseudomonas, were detected. We suggest that the endophytic bacterial diversity within the roots of Mexican husk tomato plants is a subset of the rhizosphere bacterial population, dominated by a few genera.     

Microbial diversity in hot synthetic compost as revealed by PCR-amplified rRNA sequences from cultivated isolates and extracted DNA

High-temperature (>/=60 degrees C) synthetic food waste compost was examined by cultivation-dependent and -independent methods to determine predominant microbial populations. Fluorescent direct counts totaled 6.4 (+/-2.5)x10(10) cells gdw(-1) in a freeze-dried 74 degrees C compost sample, while plate counts for thermophilic heterotrophic aerobes averaged 2.6 (+/-1.0)x10(8) CFU gdw(-1). A pre-lysis cell fractionation method was developed to obtain community DNA and a suite of 16S and 18S rDNA-targeted PCR primers was used to examine the presence of Bacteria, Archaea and fungi. Bacterial 16S rDNA, including a domain-specific 1500-bp fragment and a 300-bp fragment specific for Actinobacteria, was amplified by PCR from all compost samples tested. Archaeal rDNA was not amplified in any sample. Fungal 18S rDNA was only amplified from a separate dairy manure compost that reached a peak temperature of 50 degrees C. Amplified rDNA restriction analysis (ARDRA) was used to screen isolated thermophilic bacteria and a clone library of full-length rDNA fragments. ARDRA screening revealed 14 unique patterns among 63 isolates, with one pattern accounting for 31 of the isolates. In the clone library, 52 unique patterns were detected among 70 clones, indicating high diversity of uncultivated bacteria in hot compost. Phylogenetic analysis revealed that the two most abundant isolates belonged in the genera Aneurinibacillus and Brevibacillus, which are not commonly associated with hot compost. With the exception of one Lactobacillus-type sequence, the clone library contained only sequences that clustered within the genus Bacillus. None of the isolates or cloned sequences could be assigned to the group of obligate thermophilic Bacillus spp. represented by B. stearothermophilus, commonly believed to dominate high-temperature compost. Amplified partial fragments from Actinobacteria, spanning the V3 variable region (Neefs et al. (1990) Nucleic Acids Res. 18, 2237-2242), included sequences related to the genera Saccharomonospora, Gordonia, Rhodococcus and Corynebacterium, although none of these organisms were detected among the isolates or full-length cloned rDNA sequences. All of the thermophilic isolates and sequenced rDNA fragments examined in this study were from Gram-positive organisms.     

Isolation of an ethanol-tolerant endospore-forming Gram-negative Brevibacillus sp. as a covert contaminant in grape tissue cultures

AIMS: To characterize the alcohol-surviving bacterial isolate ARBG1 from in vitro grapes (Vitis vinifera). METHODS AND RESULTS: Two bacterial strains that survived in covert form in grape cultures were isolated from the spent alcohol used for disinfecting the tools of which one (ARBG2) was characterized earlier. The present study describes characterization of the second isolate, ARBG1. Nutrient agar (NA)-derived colonies of ARBG1 displayed consistently Gram-negative staining rods (2-4x0.5-0.6 micro) substantiated by KOH mucoid thread test. Older cultures (3-7 days) showed emergence of Gram-negative staining, oblong, phase-refractile cells with ellipsoidal spores. The growth and sporulation were modified by growth medium and incubation temperature with the optimum around 37 degrees C. Identification attempts involving microscopic, biochemical, Biolog or fatty acid profiling approaches brought in mixed and inconclusive results. PCR amplification of 16S rDNA was not successful with the standard primers 27F and 1492R but with 27F and a modified primer ARBG1-RP1. The identity of the isolate was established as Brevibacillus sp. based on partial 16S rDNA sequence data from eight single colonies with Gram-positive Brevibacillus choshinensis as the closest match (99.5%). Spotting tests on NA employing spore suspension in aqueous ethanol (0%, 25%, 50%, 60%, 70%, 80% or 90%, v/v) indicated unhindered bacterial-survival in alcohol for 1 month, and that at 2 or 4 months revealed 90% ethanol as more sporicidal than lower levels, corroborated by plating results. Grape microcuttings inoculated with ARBG1 showed substantial general colonization of shoots, roots and medium but low endophytic colonization. CONCLUSIONS: The rare type of spore-producing consistently Gram-negative bacterial isolate ARBG1 was identified as Brevibacillus sp. based on 16S rDNA sequence similarity. The alcohol-defying organism was nonpathogenic and survived in covert form in grape cultures. Aqueous 90% ethanol appeared more sporicidal than lower levels. SIGNIFICANCE AND IMPACT OF THE STUDY: Characterization of an unusual endospore-forming Gram-negative bacterium, observation that some bacteria may fall outside the purview of standard 16S rDNA primers, elucidation of the threats of covert bacteria in plant tissue cultures and alcohol-mediated lateral transmission of spore formers, and the revelation that 70-80% ethanol may not be the most effective bactericidal concentration for all bacteria.     

一株聚氨酯降解菌的分离及其降解特性解析

利用微生物对聚氨酯 (Polyurethane,PUR) 类污染物进行生物降解是目前的研究热点之一。寻找能高效降解聚氨酯的微生物是该类研究的重要前提。文中从塑料垃圾填埋场中分离培养了1株PUR高效降解菌株P10。基于菌落形态观察和16S rDNA系统发育分析,鉴定其为短芽孢杆菌属Brevibacillus的细菌。通过PUR的模式底物水性聚氨酯 (Impranil DLN) 比浊法,确定了该菌株能在6 d内降解71.4%的Impranil DLN。此外,菌株P10能够利用商业聚氨酯海绵作为唯一碳源进行生长;通过降解条件的优化,在5% (V/V) LB作为额外碳源的辅助下实现了6 d内对50 mg PUR泡沫的降解。以上结果表明Brevibacillus sp. P10在聚氨酯废弃物的生物降解过程中具有一定的应用潜力。     

对Bt蛋白敏感敏感和敏感的棉铃虫中肠细菌群落的比较

摘要：【目的】通过比较Cry1Ac蛋白抗性及敏感棉铃虫中肠细菌群落的结构组成,研究中肠微生物是否与棉铃虫Bt抗性产生有关。【方法】首先提取了棉铃虫中肠微生物基因组DNA,通过PCR扩增获得了16S rDNA全长片段及V3区。采用基于16S rDNA 的免培养技术—16S rDNA文库建立和变性梯度凝胶电泳（DGGE）研究了国内特有的Bt抗性和敏感品系棉铃虫中肠细菌群落组成,并对其进行分析和比较。【结果】16S rDNA文库测序结果表明,抗性品系与敏感品系棉铃虫中肠细菌群落特别是优势菌群非常相似,但在部分劣势菌群上存在差异。抗性品系中主要优势菌有：不可培养微生物（Uncultured bacterium）占56.4%,鹑鸡肠球菌（Enterococcus gallinarum）占17.0%,铅黄肠球菌（Enterococcus casseliflavus）占17.0%;敏感品系中主要优势菌为不可培养微生物（Uncultured bacterium）60.2%,鹑鸡肠球菌（Enterococcus gallinarum）占19.3%,铅黄肠球菌（Enterococcus casseliflavus）占14.7%。随后进行的PCR验证表明,部分有差异的劣势菌在两种品系虫体都存在。DGGE图谱分析表明,这两个品系棉铃虫中肠菌群相似性达到92.3%。【结论】敏感品系与抗性品系棉铃虫肠道菌群组成极其相似,推测抗性的产生与肠道微生物无直接关系。     

Metagenomic analysis of BTEX-contaminated forest soil microcosm

A microcosmal experiment using a metagenomic technique was designed to assess the effect of BTEX (benzene, toluene, ethylbenzene, and xylenes) on an indigenous bacterial community in a Daejeon forest soil. A compositional shift of bacterial groups in an artificial BTEX-contaminated soil was examined by the 16S rDNA PCR-DGGE method. Phylogenetic analysis of 16S rDNAs in the dominant DGGE bands showed that the number of Actinobacteria and Bacillus populations increased. To confirm these observations, we performed PCR to amplify the 23S rDNA and 16S rDNA against the sample metagenome using Actinobacteria-targeting and Bacilli-specific primer sets, respectively. The result further confirmed that a bacterial community containing Actinobacteria and Bacillus was affected by BTEX.     

Phylogenetic analysis of aerobic freshwater and marine enrichment cultures efficient in hydrocarbon degradation: effect of profiling method

Aerobically grown enrichment cultures derived from hydrocarbon-contaminated seawater and freshwater sediments were generated by growth on crude oil as sole carbon source. Both cultures displayed a high rate of degradation for a wide range of hydrocarbon compounds. The bacterial species composition of these cultures was investigated by PCR of the 16S rDNA gene using multiple primer combinations. Near full-length 16S rDNA clone libraries were generated and screened by restriction analysis prior to sequence analysis. Polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) was carried out using two other PCR primer sets targeting either the V3 or V6-V8 regions, and sequences derived from prominent DGGE bands were compared to sequences obtained via cloning. All data sets suggested that the seawater culture was dominated by alpha-subgroup proteobacteria, whereas the freshwater culture was dominated by members of the beta- and gamma-proteobacteria. However, the V6-V8 primer pair was deficient in the recovery of Sphingomonas-like 16S rDNA due to a 3' terminal mismatch with the reverse primer. Most 16S rDNA sequences recovered from the marine enrichment were not closely related to genera containing known oil-degrading organisms, although some were detected. All methods suggested that the freshwater enrichment was dominated by genera containing known hydrocarbon-degrading species.     

Characterization of microbial communities in gas industry pipelines

Culture-independent techniques, denaturing gradient gel electrophoresis (DGGE) analysis, and random cloning of 16S rRNA gene sequences amplified from community DNA were used to determine the diversity of microbial communities in gas industry pipelines. Samples obtained from natural gas pipelines were used directly for DNA extraction, inoculated into sulfate-reducing bacterium medium, or used to inoculate a reactor that simulated a natural gas pipeline environment. The variable V2-V3 (average size, 384 bp) and V3-V6 (average size, 648 bp) regions of bacterial and archaeal 16S rRNA genes, respectively, were amplified from genomic DNA isolated from nine natural gas pipeline samples and analyzed. A total of 106 bacterial 16S rDNA sequences were derived from DGGE bands, and these formed three major clusters: beta and gamma subdivisions of Proteobacteria and gram-positive bacteria. The most frequently encountered bacterial species was Comamonas denitrificans, which was not previously reported to be associated with microbial communities found in gas pipelines or with microbially influenced corrosion. The 31 archaeal 16S rDNA sequences obtained in this study were all related to those of methanogens and phylogenetically fall into three clusters: order I, Methanobacteriales; order III, Methanomicrobiales; and order IV, Methanosarcinales: Further microbial ecology studies are needed to better understand the relationship among bacterial and archaeal groups and the involvement of these groups in the process of microbially influenced corrosion in order to develop improved ways of monitoring and controlling microbially influenced corrosion.     

16S rDNA diversity of cultured and uncultured prokaryotes of a mat sample from Lake Fryxell, McMurdo Dry Valleys, Antarctica

The prokaryotic diversity of aerobic and anaerobic bacterial isolates and of bacterial and archaeal 16S rDNA clones was determined for a microbial mat sample from the moated region of Lake Fryxell, McMurdo Dry Valleys, Antarctica. Among the anaerobic bacteria, members of Clostridium estertheticum and some other psychrotolerant strains dominated whereas methanogens and other Archaea were lacking. Isolates highly related to Flavobacterium hibernum, Janthiniobacterium lividum, and Arthrobacter flavus were among the aerobic bacteria most frequently isolated. Assessment of more than 350 partial 16S rDNA clone sequences of libraries generated by Bacteria- and Archaea-specific PCR primers revealed a rich spectrum of bacterial diversity but only two different archaeal clone sequences. Among the Bacteria, representative sequences belonged to the class Proteobacteria, order Verrucomicrobiales, class Actinobacteria, Clostridium/Bacillus subphylum of Gram-positives, and the Cytophaga-Flavobacterium-Bacteroides phylum. The clones formed about 70 higher taxonomy groups (<98% sequence similarity) and 133 potential species, i.e., groups of clones sharing greater than 98% similarity. Only rarely were clone sequences found to be highly related to Lake Fryxell isolates and to strains of described species. Subsequent analysis of ten sequencing batches of 36 individual clones indicated that the diversity might be still higher than had been assessed.     

特异性杀虫基因Bt cry3A在桑粒肩天牛幼虫两种肠道常驻内生菌中的转化和表达

[目的]将特异性杀虫毒蛋白基因Bt cry3A转入桑粒肩天牛(Apriona germari Hope,Ag)幼虫肠道常驻内生菌中,构建能在天牛幼虫肠道中定殖并表达特异性杀虫基因Bt cry3A的工程菌.[方法]以传统方法和16S rDNA分子生物学分析等方法分离、鉴定Ag幼虫肠道优势的常驻内生菌,从中筛选出适合转化的候选菌株.利用电转化技术将含有对鞘翅目昆虫具专一性毒力Bt cry3A基因的Escherichia coli-Bacillus thuringiensis穿梭表达质粒pHT305a和pHT7911分别转入Ag幼虫肠道常驻内生菌短短芽孢杆菌(Brevibacillus brevis Ag12,Ag12)和苏云金芽孢杆菌(Bacillus thuringiensis Ag13,Ag13)中.[结果]从Ag幼虫肠道共分离获得18个不同种的可培养细菌菌株,并从中选取菌株Ag12和Ag13作为出发菌株转入Bt cry3A基因.经质粒稳定性试验、转化子生长特性测试、伴胞晶体电镜检测、毒蛋白SDS-PAGE分析、工程菌定殖性分析以及生物毒力测试,结果显示cry3A基因已经成功转入Ag幼虫的常驻内生菌短短芽孢杆菌和苏云金芽孢杆菌中,并且工程菌Ag12-305a、Ag13-305a、Ag 12-7911和Ag13-7911都能在天牛幼虫肠道内稳定生长、繁殖并表达分子量约65kDa的伴孢晶体杀虫蛋白Cry3A.[结论]Bt cry3A基因已成功转入桑粒肩天牛幼虫肠道优势常驻内生菌中,获得了四株能在桑粒肩天牛幼虫肠道内定殖,并能表达目的杀虫基因Btcry3A的转基因工程菌.