Note on the bacterial flora of the Egyptian desert in summer

Summary The response of bacterial population to edaphic drought of the Egyptian desert in summer has been investigated. The sporeformers Bacillus subtilis, Bacillus licheniformis, and Bacillus megaterium have predominated in the soil. B. subtilis and B. licheniformis predominated in the rhizosphere of the studied chamaephytes. The total bacterial counts were found to be much higher in the rhizospheres than in the soils apart. Azotobacter sp. and Clostridium sp. have been isolated from rhizospheres but not from soils. The significance of the rhizosphere as constituting a microhabitat in the desert community, has been discussed. The probable contribution of the peritrophic mantle of bacteria for protecting root cells against edaphic drought has also been notified.     

Specific labeling and identification of bacteria based on concentration-dependent carbon dot staining combined with hyperspectral imaging

Concentration-dependent carbon dot (CD) fluorescence was developed and utilized alongside hyperspectral microscopy as a specific labeling and identification technique for bacteria. Staining revealed that the CD concentration within cells depended on the characteristic intracellular environment of the species. Therefore, based on the concentration dependence of the CD fluorescence, different bacterial species were specifically labeled. Hyperspectral microscopy captured subtle fluorescence variations to identify bacteria. Method validation using Bacillus subtilis and Bacillus licheniformis succeeded with an identification accuracy of 99%. As a simple, rapid method for labeling and identifying bacterial species in mixtures, this technique has excellent potential for bacterial community studies.     

Survey of bacterial populations present in US‐produced linerboard with high recycle content

Aims: To survey paperboard products from 17 US mills for bacterial populations and for bacteria potentially harmful to human health. Methods and Results: Culturable aerobic bacteria were isolated from paperboard products using selective and nonselective medium. Resulting colonies from samples from three regions of the United States were identified using fatty acid methyl ester analysis. Percentages of bacteria species found were Bacillus megaterium (47), Bacillus licheniformis (15), Bacillus pumilus (12), Paenibacillus macerans (5), Paenibacillus pabuli (3), Bacillus subtilis (2), Bacillus cereus (2), Bacillus coagulans (1), Bacillus circulans (1), Bacillus brevis (1), Bacillus thuringiensis (1), Paenibacillus polymyxa (1), Cellulomonas turbata (1), Cellulomonas flavigena (1), unidentified Bacillus sp. (3) and unidentified bacteria (1). Conclusions: Recycled paperboard contained high populations of bacteria, and a positive correlation was found between recycle content and bacterial populations. Escherichia coli, Salmonella, Shigella or confirmed coliform bacteria were not found in any product. Significance and Impact of the Study: Populations of bacteria did not differ significantly from original counts over a 4‐month period of dry storage, indicating that bacteria persist in paperboard over long periods and may re‐enter the recycling process. The predominance of heat‐tolerant endospore‐forming bacteria explains the high bacteria counts found in paperboard made from recycled materials .     

Antibacterial Potential of 2,4-Di-tert-Butylphenol and Calixarene-Based Prodrugs from Thermophilic Bacillus licheniformis Isolated in Algerian Hot Spring

The present investigation reports the isolation, molecular identification and structure elucidation of antibacterial produced by two thermophilic spore-forming bacteria from hot spring (98?°C) of Guelma (Algeria). Morphological, biochemical and physiological characteristics were carried out. The molecular identification by 16S rRNA and 16-23S rRNA ITS-PCR sequencing identified the thermophilic strains as Bacillus licheniformis with 99% of similarity with GenBank accession numbers KX100031 and KX100032. Phenotypic characterization has mentioned several differences between thermophilic isolates and Bacillus licheniformis ATCC 14580. The ability of the thermophilic spore- forming bacteria to produce antibacterial compounds against two multidrug resistance bacteria Pseudomonas aeruginosa (NR_0754828.1) and Staphylococcus aureus (NR_075000.1) in pure and mixed culture was investigated by Radial Diffusion Assay at 55?°C. Structural elucidation of actives compounds was carried out using gas chromatography–mass spectrometry analyses. Antibacterial potency of the thermophilic isolates might be due to the association between two phenolic compounds: 2,4-Di-tert-butyl-phenol as principal active compound and p-tert-butylcalix[4]arene as prodrugs comparing between gas chromatography–mass spectrometry analysis of pure and mixed extract. To the best of our knowledge, this is the first report showing production of p-tert-butylcalix[4]arene and 2,4-Di-tert-butyl-phenol as extremolytes compounds from thermophilic Bacillus licheniformis at 55?°C.     

Beneficial effects of <Emphasis Type="Italic">Bacillus licheniformis</Emphasis> on the intestinal microflora and immunity of the white shrimp, <Emphasis Type="Italic">Litopenaeus vannamei</Emphasis>

When Bacillus licheniformis was administered to the white shrimp, Litopenaeus vannamei, although the total bacterial counts in the intestinal tract of the shrimp remained constant, Vibrio numbers significantly decreased (P < 0.05). Haemocyte counts together with phenoloxidase and superoxide dismutase activities of the shrimp were significantly higher (P < 0.05) in treatments than in the control. Thus, administration of B. licheniformis can improve the white shrimp's intestinal microflora and its immune ability.     

Effect of Plant Age on Endophytic Bacterial Diversity of Balloon Flower (Platycodon grandiflorum) Root and Their Antimicrobial Activities

Balloon flower (Platycodon grandiflorum) is widely cultivated vegetable and used as a remedy for asthma in East Asia. Experiments were conducted to isolate endophytic bacteria from 1-, 3-, and 6-year-old balloon flower roots and to analyze the enzymatic, antifungal, and anti-human pathogenic activities of the potential endophytic biocontrol agents obtained. Total 120 bacterial colonies were isolated from the interior of all balloon flower roots samples. Phylogenetic analysis based on 16S rRNA gene sequences showed that the population of ‘low G + C gram-positive bacteria’ (LGCGPB) gradually increased 60.0–80.0% from 1 to 6 years balloon flower sample. On the other hand, maximum hydrolytic enzyme activity showing endophytic bacteria was under LGCGPB, among the bacterial strains, Bacillus sp. (BF1-1 and BF3-8), Bacillus sp. (BF1-2 and BF3-5), and Bacillus sp. (BF1-3, BF3-6, and BF6-4) showed maximum enzyme activities. Besides, Bacillus licheniformis (BF3-5 and BF6-6) and Bacillus pumilus (BF6-1) showed maximum antifungal activity against Phytophthora capsici, Fusarium oxysporum, Rhizoctonia solani, and Pythium ultimum. Moreover, Bacillus licheniformis was found in 3 and 6 years balloon flower roots, but Bacillus pumilus was found only in 6 years sample. It is presumed that older balloon flower plants invite more potential antifungal endophytes for there protection from plant diseases. In addition, Bacillus sp. (BF1-2 and BF3-5) showed maximum anti-human pathogenic activity. So, plant age is presumed to influence diversity of balloon flower endophytic bacteria.     

Comparison of microbially induced calcium carbonate precipitation eligibility using sporosarcina pasteurii and bacillus licheniformis on two different sands

The use of biological means for ground improvement have become popular, which generally works through the process called microbially-induced calcium carbonate precipitation (MICP). Many studies indicate successful application of MICP based improvement with multiple bacteria and on several soils. Given the proven performance of MICP, this study aims to examine the MICP process by comparing the calcium carbonate precipitation ability of widely studied bacteria, i.e., Sporosarcina pasteurii and relatively under-recognized bacteria, i.e., Bacillus licheniformis to outline the formation success. For this purpose, two different sands were tested for observing precipitation behavior using a series of syringe tests. Furthermore, the effect of concentration and inclusion of calcium chloride for nutrition of bacteria, saturation with water, and hybrid use of two bacteria were investigated in some tests for diversification. X-ray diffraction (XRD), scanning electron microscopy (SEM), and energy dispersive x-ray spectroscopy (EDS) were used for the interpretation of results. Results indicated that Sporosarcina pasteurii had performed superior over Bacillus licheniformis when achieving calcium carbonate precipitation in tests for both sands. In addition, many intriguing SEM images contributed to the literature of MICP monitoring, highlighting the effects of the variables investigated.     

Obtaining of Intrapopulational Dissociants of Some Bacilli and the Use of DIR-PCR for Their Identification

The paper is the first to suggest methods for rapid obtaining and genotypic identification of phenotypic (colonial–morphological) dissociants of bacterial cultures. For revealing the potential dissociation ability and obtaining dissociants, the use of bacterial cystlike refractile cells (CRC) is recommended. These cells are characterized by enhanced variability; upon their first passage, an abrupt increase in the dissociation index is observed as a result of the emergence of cells that form morphologically different types of colonies. The approaches elaborated were tested with Bacillus cereus, B. subtilis, and B. licheniformis, for which colonial–morphological dissociants of various types were obtained after the first passage of CRC (both of those formed in the developmental cycle of the bacteria and of those arising as a result of an artificial increase in the concentration of anabiosis autoinducers in the cultivation medium). The genomic distinctions between dissociants of B. cereus and B. subtilis were estimated using polymerase chain reaction with a primer system designed based on the analysis of nucleotide sequences of complete prokaryotic genomes available in the GenBank database (DIR-PCR). The application of the proposed method allowed distinctions to be revealed between the genomes of dissociants of Bacillus cereus and B. subtilis, which is in agreement with the hypothesis that assumes reversible intragenomic rearrangements to be the basis of bacterial dissociation into subpopulations.     

Eggshell Bacterial Load Is Related to Antimicrobial Properties of Feathers Lining Barn Swallow Nests

The use of feathers to line bird’s nests has traditionally been interpreted as having a thermoregulatory function. Feather-degrading bacteria growing on feathers lining nests may have antimicrobial properties, which may provide an additional benefit to lining nests with feathers. We test the hypothesis that the production of antimicrobial substances by feather bacteria affects the microbiological environment of the nest, and therefore the bacterial density on eggshells and, indirectly, hatching success. These effects would be expected to differ between nests lined with pigmented and white feathers, because bacteria grow differently on feathers of different colors. We experimentally manipulated the composition of pigmented and unpigmented feathers in nests of the barn swallow (Hirundo rustica) and studied the antimicrobial properties against the keratin-degrading bacterium Bacillus licheniformis of bacteria isolated from feathers of each color. Analyzed feathers were collected at the end of the incubation period, and antimicrobial activity was defined as the proportion of bacteria from the feathers that produce antibacterial substances effective against B. licheniformis. Our experimental manipulation affected antimicrobial activity, which was higher in nests with only white feathers at the beginning of incubation. Moreover, white feathers showed higher antimicrobial activity than black ones. Interestingly, antimicrobial activity in feathers of one of the colors correlated negatively with bacterial density on feather of the opposite color. Finally, antimicrobial activity of white feathers was negatively related to eggshell bacterial load. These results suggest that antimicrobial properties of feathers in general and of white feathers in particular affect the bacterial environment in nests. This environment in turn affects the bacterial load on eggshells, which may affect hatching success.     

Detailed identification of desert-originated bacteria carried by Asian dust storms to Japan

Several halotolerant bacteria were isolated from dust allowed to settle passively on saline medium in Higashi-Hiroshima, Japan during Asia dust events in 2005–2006. The primary identification, based on the sequence similarity of the 16S rRNA gene, revealed that these isolates were strains of Bacillus subtilis, B. licheniformis, Staphylococcus epidermidis, Gracillibacillus sp., and Halomonas venusta. A parallel investigation carried out on desert sand collected directly from sand dunes in Dunhuang, Gobi Desert, China resulted in the revivification of seven bacterial strains that were highly identical to the B. subtilis and B. licheniformis strains obtained in Higashi-Hiroshima (99.7 and 100% of 16S rDNA sequence similarity, respectively). A subsequent genetic analysis on the group of B. licheniformis isolates based on the universally house-keeping genes, gyrB and parE, revealed high sequence similarities in both genes among the strains of both locations (99.0–99.4%), which clustered them in a monophyletic line. Phenotype characterized by numerical taxonomy for 150 physiological tests confirmed the close relatedness between strains (similarity coefficient S _SM = 96.0%). The remarkable agreement between phenotype and genotype of the bacterial isolates allows us to conclude that there may have been an aerosolized dispersion of a Gobi Desert B. licheniformis by dust storms to Japan. This study provides evidence of microbial transport by yellow dust events in North-East Asia.     

Production and characterization of a low‐molecular‐weight bacteriocin from Bacillus licheniformis MKU3

Aims: Enhancing production and characterization of a low‐molecular‐weight bacteriocin from Bacillus licheniformis MKU3. Methods and Results: The culture supernatant of B. licheniformis MKU3 exhibited bacteriocin‐like activity against Gram‐positive and ‐negative bacteria and different fungi and yeast. SDS–PAGE analysis of the extracellular proteins of B. licheniformis MKU3 revealed a bacteriocin‐like protein with a molecular mass of 1·5 kDa. This bacteriocin activity was found to be stable under a pH range of 3·0–10·0 and at temperatures up to 100°C for 60 min, but inactivated by proteinase K, trypsin or pronase E. An experimental fractional factorial design for optimization of production medium resulted in a maximum activity of bacteriocin (11 000 AU ml^?1) by B. licheniformis MKU3. Conclusions: A low‐molecular‐weight bacteriocin‐like protein from B. licheniformis MKU3 exhibited a wide spectrum of antimicrobial activity against several Gram‐positive bacteria, several fungi and yeast. A 3·6‐fold increase in the production of bacteriocin was achieved using the culture medium optimized through a fractional factorial design. Significance and Impact of the Study: A bacteriocin with wide spectrum of activity against Gram‐positive bacterial pathogens, filamentous fungi and yeast suggested its potential clinical use. Statistical method facilitated optimization of cultural medium for the improved production of bacteriocin.     

地衣芽孢杆菌对南美白对虾零水交换养殖系统细菌群落的影响

【目的】地衣芽孢杆菌（Bacillus licheniformis）对南美白对虾（Penaeus vannamei）免疫反应、抗病性和营养的影响已被广泛研究，但零水交换养殖系统下地衣芽孢杆菌对对虾肠道和养殖水环境微生物群落的影响尚不清楚。【方法】通过收集添加地衣芽孢杆菌在饲料或水中后，对虾肠道、池水和池低沉积物样品，通过16S rRNA基因测序和线性判别分析（linear discriminant analysis effect size，LEfSe）进行微生物分析。【结果】结果表明，添加地衣芽孢杆菌对对虾的生长影响较小。此外，添加方式的不同对对虾肠道菌群的影响较小。但添加地衣芽孢杆菌可以有效地改变对虾肠道微生物群落，并改善对虾免疫力。【结论】这些结果有助于全面了解在零水交换养殖系统中，通过饲料和水添加地衣芽孢杆菌后对虾肠道和环境的变化，从而为选择正确的益生菌以及如何添加益生菌维持对虾健康提供基础信息。     

Potential metabolites of dimethoate produced by bacterial degradation

Microbial degradation of pesticide has been recognized as a potential solution for the disposal of pesticide. Two bacterial strains namely Bacillus licheniformis and Pseudomonas aeruginosa, which were isolated from water and fish intestine, respectively, were allowed to grow in mineral salt solution. The acetonitrile extracts of the bacterial cultures were subjected to thin layer chromatography using two different solvent systems: hexane–chloroform–methanol and cyclohexane–acetone–chloroform. The chromatogram revealed the presence of four metabolites of dimethoate with different R_f values, in the original P. aeruginosa strain using both hexane–chloroform–methanol and cyclohexane–acetone–chloroform solvent systems. Total disappearance of dimethoate spot occurred in the culture of B. licheniformis strain at day 3. Thus, the present study establishes the bacterial degradation of dimethoate and also suggests the role of bacteria in the bioremediation of pesticides.     

In vitro assessment of probiotic properties of <Emphasis Type="Italic">Bacillus</Emphasis> isolated from naturally fermented congee from Inner Mongolia of China

A total of thirty-three strains of Bacillus were isolated from sixteen samples of naturally fermented congee in Inner Mongolia of China and identified by 16S rDNA sequence analysis. Probiotic properties including acid, bile tolerance and artificial gastrointestinal juice resistance as well as inhibition on pathogenic bacteria were used for screening of Bacillus. After the preliminary selection, four strains including Bacillus licheniformis IMAUB1002, Bacillus subtilis IMAUB1011, Bacillus amyloliquefaciens IMAUB1014 and Bacillus amyloliquefaciens IMAUB1034 showed high tolerance to simulated gastric juice at pH 2.0 for 3 h with survival rate all above 92%. And then through gastrointestinal transit, survival rates of these four strains were above 90%. Furthermore, Bacillus licheniformis IMAUB1002 performed well in tolerance to bile salt (0.6%) and inhibitory activity to five food-borne pathogens among four strains of Bacillus. The results suggested that Bacillus licheniformis IMAUB1002 should be considered as a potential probiotics. Further study will be focused on evaluation of these porbiotics properties in vivo and clarification of its other functional properties so as to use it in functional foods production in future.     

Production of Oil-Releasing Compounds by Microorganisms from the Daqing Oil Field,China

Twenty pure cultures isolated from formation waters of the Daqing oil field were studied with respect to their capacity to produce surface-active compounds in media with individual hydrocarbons, lower alcohols, and fatty acids. Aerobic saprotrophic bacteria belonging to the genera Bacillus, Brevibacillus, Rhodococcus, Dietzia, Kocuria, Gordonia, Cellulomonas, Clavibacter, Pseudomonas, and Acinetobacter decreased the surface tension of cultivation media from 55–63 to 28–44 mN/m. Strains of Bacillus cereus, Rhodococcus ruber, andBacillus licheniformis produced biosurfactants most actively. Bacteria of the genera Rhodococcus, Dietzia, Kocuria, and Gordonia produced exopolysaccharides in media with hydrocarbons. Culture liquids of the strains of R. ruberand B. licheniformis exhibited an oil-releasing effect. Thus, the Daqing oil field is inhabited by aerobic bacteria capable of producing effective oil-releasing agents.     

Biofilms: strategies for metal corrosion inhibition employing microorganisms

Corrosion causes dramatic economic loss. Currently widely used corrosion control strategies have disadvantages of being expensive, subject to environmental restrictions, and sometimes inefficient. Studies show that microbial corrosion inhibition is actually a common phenomenon. The present review summarizes recent progress in this novel strategy: corrosion control using beneficial bacteria biofilms. The possible mechanisms may involve: (1) removal of corrosive agents (such as oxygen) by bacterial physiological activities (e.g., aerobic respiration), (2) growth inhibition of corrosion-causing bacteria by antimicrobials generated within biofilms [e.g., sulfate-reducing bacteria (SRB) corrosion inhibition by gramicidin S-producing Bacillus brevis biofilm], (3) generation of protective layer by biofilms (e.g., Bacillus licheniformis biofilm produces on aluminum surface a sticky protective layer of γ-polyglutamate). Successful utilization of this novel strategy relies on advances in study at the interface of corrosion engineering and biofilm biology.     

Enthalpies and Entropies of Cd and Zn Adsorption onto Bacillus licheniformis and Enthalpies and Entropies of Zn Adsorption onto Bacillus subtilis from Isothermal Titration Calorimetry and Surface Complexation Modeling

Determining the thermodynamic driving force of metal-bacteria surface complexation is important for understanding why, from a thermodynamic perspective, these spontaneous reactions occur. We therefore determined the Gibbs energies, enthalpies, and entropies of Cd and Zn complexation onto Bacillus licheniformis and of Zn complexation onto Bacillus subtilis using surface complexation modeling and isothermal titration calorimetry. Our results indicated that Cd and Zn complexation onto Bacillus licheniformis is entropically driven at low pH and enthalpically driven at circumneutral pH. Zn complexation onto Bacillus subtilis is entropically driven, which suggests that Bacillus licheniformis has different donor ligands dominating reactivity around circumneutral pH.     

Occupational exposure to airborne Bacillus thuringiensis kurstaki HD1 and other bacteria in greenhouses and vegetable fields

When microorganisms are used for pest control in vegetable production, the active organisms become part of the microbiota growers are exposed to. The aim of this study was to quantify vegetable growers' exposure to the bacterial strain Bacillus thuringiensis kurstaki strain HD1 (termed HD1) from the biocontrol agent Dipel®, and other airborne mesophilic bacteria. Personal (n=102) and stationary (n=43) measurements of exposure were performed in greenhouses and open fields. Air samples were analysed by plate counts, and total counts with a microscope. Isolates resembling HD1 were identified by PCR analysis. HD1-like bacteria were only detected in environments where Dipel® was used. In a greenhouse with Dipel® treated tomato plants, the growers' exposure to airborne HD1-like bacteria reached 5300 cfu/m³ and 1400 cfu/m³ during harvest and clearing of old plants, respectively. In untreated greenhouses, the highest concentration of total mesophilic bacteria, 1,100,000 cfu/m³, was detected in a cucumber greenhouse. The median concentrations of mesophilic bacteria in tomato greenhouses were significantly lower than the median concentrations in cucumber greenhouses. There was no significant difference in exposure to mesophilic bacteria in tomato greenhouses and in vegetable fields. We found that greenhouse workers, especially in cucumber production, were exposed to high concentrations of total bacteria. Thus, the already present airborne bacteria in greenhouses might have a greater influence on growers' health than applied biocontrol strains. However, further studies are needed to establish an occupational threshold limit for airborne bacteria and to secure a healthy working environment for vegetable growers.     

Calcite-forming Bacillus licheniformis Thriving on Underwater Speleothems of a Hydrothermal Cave

The underwater environment of Grotta Giusti (Monsummano Terme, Italy) is a suggestive setting with different types of speleothems including “leafy” and “cauliflower” concretions along the walls and roof, and conical pseudo-stalagmites on the floor. Very high calcium and dissolved CO₂ levels, and massive calcium carbonate precipitation characterize this cave environment. Yet, life thrives on the leafy concretion surfaces with loads of cultivable heterotrophic microorganisms around 10⁵ colony-forming units per cm². Bacillus licheniformis appeared to be the prevalent cultivable microorganism on a low-nutrient medium that was used for screening. 16S rRNA gene-based polymerase chain reaction–single strand conformation polymorphism profiling indicated that Group VI Bacillaceae species was well represented in the bacterial community of underwater speleothems. Interpretation of X-ray diffraction spectra and Raman spectroscopy data indicated that the B. licheniformis isolate produced in vitro abundant calcite microcrystals that were also characterized by scanning electron microscopy coupled with energy dispersive X-ray spectroscopy. Production of calcite microcrystals was analyzed in different media (Christensen’s urea agar and B4 calcium carbonate precipitation medium) and incubation conditions, and it was found to be enhanced by nitrate supplement in B4 medium under low-oxygen conditions. B4 and B4-nitrate media also stimulated antibiotic production by the B. licheniformis isolate, which was analyzed by microbiological assays.     

Isolation and identification of bacteria from <Emphasis Type="Italic">Thaumetopoea pityocampa</Emphasis> Den. and Schiff. (Lep., Thaumetopoeidae) and determination of their biocontrol potential

The pine processionary moth Thaumetopoea pityocampa (Den. and Schiff.) is one of the most harmful insect pest for pine species in Mediterranean countries including Turkey. The objective of the present study is to find a more effective and safe biological control agent against T. pityocampa. Thus, we investigated the bacterial flora of the pest insect, collected from the Middle Black Sea Region of Turkey from 2003 to 2004. Based on morphological, physiological, biochemical and molecular methods, 14 different bacterial isolates were determined. The identified bacterial flora of T. pityocampa consisted of bacteria belonging to the Enterobacteriaceae (Tp1), Arthrobacter sp. (Tp2), Staphylococcus spp. (Tp3 and 10), Bacillus subtilis (Tp4), Serratia liquefaciens (Tp5), Bacillus thuringiensis subsp. morrisoni (Tp6 and 14), an acrystalliferous form Bacillus thuringiensis (Tp7), Staphylococcus cohnii (Tp8), Bacillus licheniformis (Tp9), Bacillus pumilus (Tp11), Brevibacterium sp. (Tp12) and Bacillus simplex (Tp13). After analysing the conclusions of conventional and molecular tests Tp1 (Enterobacteriaceae), Tp2 (Arthrobacter sp.) and Tp12 (Brevibacterium sp.) were assigned as novel bacterial species. Isolate Tp5 had a promising insecticidal effect on third instar larvae of T. pityocampa (up to 70% mortality within 10 days).