ABSTRACT
BACKGROUND: Although bioactive metabolites capable of causing oxidative photo-necrosis in plant tissues have been identified in fungi, little is known about this type of mechanism in bacteria. These metabolites act as photosensitizers that generate reactive oxygen species (ROS) capable of causing damage to cells. In addition, these metabolites can pass into an energetically excited state when they receive some luminous stimulus, a condition in which they interact with other molecules present in the environment, such as molecular oxygen (O2), also known as triplet oxygen (3 O2), generating ROS. RESULTS: The suspension of the bacterial culture of Pseudomonas cedrina was shown to produce foliar necrosis in papaya leaves (Carica papaya L.) only in the presence of sunlight, which is evidence of photosensitizing mechanisms that generate singlet oxygen (1 O2). From the chemical study of extracts obtained from this bacteria, 3-(4-(2-carboxipropyl) phenyl) but-2-enoic acid (1) was isolated. This compound, in the presence of light and triplet oxygen (3 O2), was able to oxidize ergosterol to its peroxide, since it acted as a photosensitizer producing 1 O2, with which it was corroborated that a photosensitization reaction occurs, mechanism by which this bacterium could prove to cause oxidative foliar photo-necrosis. CONCLUSIONS: P. cedrina was able to induce oxidative foliar photo-necrosis because of its potential ability to produce photosensitizing metabolites that generate singlet oxygen in the plants it colonizes. Based on the above, it can be proposed that some bacteria can cause oxidative foliar photo-necrosis as an important mechanism in the pathogenesis of host species.
Subject(s)
Plant Diseases/microbiology , Pseudomonas/physiology , Carica/microbiology , Singlet Oxygen/metabolism , Pseudomonas/metabolism , Acids , Reactive Oxygen Species , Plant Leaves/microbiology , Photooxidation , Light , NecrosisABSTRACT
Abstract Three phosphate solubilizing bacteria were isolated and identified by 16S rRNA sequencing as Pseudomonas putida, Pseudomonas sp and Pseudomonas fulva . The strains were subjected to plant biochemical testing and all the PGPR attributes were checked in the presence of pesticides (chlorpyrifos and pyriproxyfen). The phosphate solubilizing index of strain Ros2 was highest in NBRIP medium i.e 2.23 mm. All the strains showed acidic pH (ranges from 2.5-5) on both medium i.e PVK and NBRIP. Strain Ros2 was highly positive for ammonia production as well as siderophore production while strain Rad2 was positive for HCN production. The results obtained by the strains Rad1, Rad2 and Ros2 for auxin production were 33.1, 30.67 and 15.38 µg ml-1, respectively. Strain Rad1 showed 16% increase in percentage germination in comparison to control in the presence of pesticide stress. Most promising results for chlorophyll content estimation were obtained in the presence of carotenoids upto 6 mgg-1 without stress by both strains Rad1 and Rad2. Study suggests that especially strain Ros2 can enhance plant growth parameters in the pesticide stress.
Resumo Três bactérias solubilizantes de fosfato foram isoladas e identificadas por seqüenciamento de rRNA 16S como Pseudomonas putida, Pseudomonas sp e Pseudomonas fulva. As estirpes foram submetidas a testes bioquímicos de plantas e todos os atributos PGPR foram verificados na presença de pesticidas (clorpirifos e piriproxifeno). O índice de solubilização de fosfato da estirpe Ros2 foi mais elevado no meio NBRIP, isto é, 2,23 mm. Todas as estirpes apresentaram um pH ácido (varia de 2,5-5) em ambos os meios, isto é PVK e NBRIP. A estirpe Ros2 foi altamente positiva para a produção de amoníaco, bem como a produção de sideróforos enquanto a estirpe Rad2 foi positiva para a produção de HCN. Os resultados obtidos pelas estirpes Rad1, Rad2 e Ros2 para a produção de auxina foram 33,1, 30,67 e 15,38 μg ml-1 , respectivamente. A deformação Rad1 mostrou aumento de 16% na germinação percentual em comparação com o controlo na presença de stress de pesticida. Os resultados mais promissores para a estimativa do teor de clorofila foram obtidos na presença de carotenóides até 6 mgg-1 sem estresse por ambas as cepas Rad1 e Rad2. Estudo sugere que especialmente a estirpe Ros2 pode melhorar parâmetros de crescimento de plantas no estresse de pesticidas.
Subject(s)
Phosphates/metabolism , Pseudomonas/physiology , Pyridines/administration & dosage , Triticum/growth & development , Chlorpyrifos/administration & dosage , Insecticides/administration & dosage , Pakistan , Pseudomonas/drug effects , Triticum/metabolism , Triticum/microbiology , RNA, Bacterial/analysis , RNA, Ribosomal, 16S/analysis , Pseudomonas putida/drug effects , Pseudomonas putida/physiology , Sequence Analysis, RNAABSTRACT
ABSTRACT Plant Growth Promoting Rhizobacteria (PGPR) have different mechanisms of action in the development of plants, such as growth promotion, production of phytohormones and antibiotic substances and changes in root exudates. These help to control plant diseases. In order to evaluate the potential of microorganisms in the control of Meloidogyne javanica and Ditylenchus spp., five rhizobacteria isolated from rhizosphere of garlic cultivated in the Curitibanos (SC) region were tested. Hatching chambers were set on Petri dishes, in which were added 10 mL of bacterial suspension and 1 mL of M. javanica eggs suspension, at the rate of 4500, on the filter paper of each chamber. The same procedure was performed with 300 juvenile Ditylenchus spp. The experimental design was completely randomized, with four replications. The evaluations were performed every 72 h for nine days. The antagonized population of nematodes was determined in Peters counting chamber, determining the percentage hatching (for M. javanica) and motility (for Ditylenchus spp). Isolates CBSAL02 and CBSAL05 significantly reduced the hatching of M. javanica eggs (74% and 54.77%, respectively) and the motility of Ditylenchus spp. (55.19% and 53.53%, respectively) in vitro. Isolates were identified as belonging to the genera Pseudomonas (CBSAL05) and Bacillus (CBSAL02).
Subject(s)
Animals , Bacillus/physiology , Plant Diseases/prevention & control , Pseudomonas/physiology , Tylenchoidea/microbiology , Bacillus/genetics , Bacillus/isolation & purification , Pest Control, Biological , Plant Diseases/parasitology , Pseudomonas/genetics , Pseudomonas/isolation & purification , Tylenchoidea/physiologyABSTRACT
Abstract Plant growth promoting rhizobacteria increase plant growth and give protection against insect pests and pathogens. Due to the negative impact of chemical pesticides on environment, alternatives to these chemicals are needed. In this scenario, the biological methods of pest control offer an eco-friendly and an attractive option. In this study, the effect of two plant growth promoting rhizobacterial strains (Bacillus sp. strain 6 and Pseudomonas sp. strain 6K) on aphid population and wheat productivity was evaluated in an aphid susceptible (Pasban-90) and resistant (Inqlab-91) wheat cultivar. The seeds were inoculated with each PGPR strain, separately or the combination of both. The lowest aphid population (2.1 tiller−1), and highest plant height (85.8 cm), number of spikelets per spike (18), grains per spike (44), productive tillers (320 m−2), straw yield (8.6 Mg ha−1), and grain yield (4.8 Mg ha−1) were achieved when seeds were inoculated with Bacillus sp. strain 6 + Pseudomonas sp. strain 6K. The grain yield of both varieties was enhanced by 35.5-38.9% with seed inoculation with both bacterial strains. Thus, the combine use of both PGPR strains viz. Bacillus sp. strain 6 + Pseudomonas sp. strain 6K offers an attractive option to reduce aphid population tied with better wheat productivity.
Subject(s)
Animals , Aphids/growth & development , Pseudomonas/physiology , Bacillus/physiology , Triticum/growth & development , Plant Diseases/parasitology , Plant Diseases/prevention & control , Soil Microbiology , Triticum/microbiology , Triticum/parasitology , Pest Control, Biological , Population DynamicsABSTRACT
Acanthamoeba is a “Trojan horse” of the microbial world. The aim of this study was to identify the presence of Pseudomonas as an amoeba-resistant microorganism in 12 isolates of Acanthamoeba. All isolates showed the genus Pseudomonas spp. as amoeba-resistant microorganisms. Thus, one can see that the Acanthamoeba isolates studied are hosts of Pseudomonas.
Acanthamoeba é um “Cavalo de Tróia” do mundo microbiano. Este estudo teve como objetivo identificar a presença de Pseudomonas como microrganismo resistente a ameba em 12 isolados de Acanthamoeba. Todos os isolados apresentaram o gênero Pseudomonas spp. como um microrganismo resistente a ameba. Assim, podemos ver que os isolados de Acanthamoeba estudados são hospedeiros de Pseudomonas.
Subject(s)
Acanthamoeba/microbiology , Host-Pathogen Interactions/physiology , Pseudomonas/physiology , Disease Reservoirs/microbiologyABSTRACT
Aim: The aim of this study was to ascertain the effect of temperature on nutrient uptake ability of four bacterial species. Methodology: A total of four bacterial species (Klebsiella sp., Pseudomonas sp., Lysinibacillus sp. and Staphylococcus sp.) were used for the study. The media used for the investigation was synthetic wastewater. Four different temperatures (25ºC, 30ºC, 35ºC and 40ºC) were used for the investigation. The study was carried out under shake flasks conditions. Immediate after inoculation with the respective test bacterial species and every 24 h for a 96 h incubation time, aliquot wastewater samples were removed from the flasks for the estimation of total phosphate, nitrate, pH and growth rate, using standard procedures. Results: The results revealed phosphate and nitrate removal ranges of 10.84 % to 55.55 % and 90.67 % to 97.27 %, respectively in the presence of the Klebsiella sp. In the presence of the Pseudomonas sp, Lysinibacillus sp. and Staphylococcus sp., phosphate removals ranges of 0.36 % to 46.98 %, 11.89 % to 50.80 % and 2.74 % to 51.21 % were observed, respectively. For nitrate concentrations, removal levels that ranged from 2.19 % to 92.95 %, 0.97 % to 23.12 % and 7.56 % to 91.66 % were observed in the presence of Pseudomonas sp, Lysinibacillu ssp. and Staphylococcus sp., respectively. All the test bacterial species showed some measure of efficiency in phosphate removal. For nitrate removal, the Lysinibacillus sp. did not exhibit remarkable nitrate removal ability at any of the temperatures. In addition, the optimum temperatures for phosphate removals were observed to be 30ºC to 40ºC for the Klebsiella sp. and Pseudomonas sp; and 30ºC to 35ºC for the Lysinibacillus sp. and Staphylococcus sp. For nitrate removal, optimum temperatures for removal were observed to be 25ºC to 40ºC, for the Klebsiella sp and 25ºC to 35ºC, for the Pseudomonas sp. and Staphylococcus sp. Conclusion: The study was able to reveal the optimum temperatures for phosphate and nitrate uptake in synthetic wastewater by the test bacterial species.
Subject(s)
Bacillaceae/physiology , Bacteria/physiology , Food , Klebsiella/metabolism , Klebsiella/physiology , Nitrates , Potassium , Pseudomonas/physiology , Pseudomonas/metabolism , Staphylococcus/metabolism , Staphylococcus/physiology , Temperature/physiology , Water Microbiology , /chemistry , /microbiologyABSTRACT
Bacterial biofilms are complex, mono- or poly-microbialn communities adhering to biotic or abiotic surfaces. This adaptation has been implicated as a survival strategy. The formation of biofilms is mediated by mechanical, biochemical and genetical factors. The biofilms enhance the virulence of the pathogen and have their potential role in various infections, such as dental caries, cystic fibrosis, osteonecrosis, urinary tract infection and eye infections. A number of diagnostic techniques, viz., bright-field microscopy, epifluorescence microscopy, scanning electron microscopy, confocal laser scanning microscopy and amplicon length heterogeneity polymerase chain reaction, have been employed for detection of these communities. Researchers have worked on applications of catheter lock solutions, a fish protein coating, acid shock treatment, susceptibility to bacteriophages, etc., for biofilm control. However, we need to rearrange our strategies to have thorough insight and concentrate on priority basis to develop new accurate, precise and rapid diagnostic protocols for detection and evaluation of biofilm. Above all, the strict compliance to these techniques is required for accurate diagnosis and control.
Subject(s)
Bacterial Adhesion , Bacterial Infections/diagnosis , Biofilms/growth & development , Escherichia coli/pathogenicity , Escherichia coli/physiology , Fimbriae, Bacterial , Humans , Pseudomonas/pathogenicity , Pseudomonas/physiology , Streptococcus/pathogenicity , Streptococcus/physiology , Vibrio/pathogenicity , Vibrio/physiologyABSTRACT
Glasshouse experiments were conducted twice to assess the ash amendments (0, 20, and 40% with soil), a phosphate solubilizing microorganism Pseudomonas striata and a root-nodule bacterium Rhizobium sp on the reproduction of root-knot nematode Meloidogyne incognita and on the growth and transpiration of pea. Amendments of fly ash with soil had no effect on transpiration. However, M. incognita reduced the rate of transpiration from 1st week onward after inoculation while inoculation of Rhizobium sp and P. striata increased transpiration from 1st week onward after their inoculation both in nematode inoculated and uninoculated plants. Increase in transpiration was greater when both organisms were inoculated together. Addition of 20 and 40% fly ash with soil was beneficial for plant growth both in nematode inoculated and uninoculated plants. Inoculation of above organisms also increases plant growth of nematode inoculated and uninoculated plants in different fly ash soil mixture but increase in growth was greater when both organisms were inoculated together. Use of 20% fly ash increased galling and nematode multiplication over plants grown in without fly ash while 40% fly ash had adverse effect on galling and nematode multiplication. Rhizobium sp had greater adverse effect on galling and nematode multiplication than P. striata. Use of both organisms together had greater adverse effect on galling and nematode multiplication than caused by either of them alone. Highest reduction in galling and nematode multiplication was observed when both organisms were used in 40% fly ash amended soil. However, highest transpiration was observed in plants without nematodes and inoculated with both organisms together both in with or without fly ash amended soil.
Subject(s)
Animals , Carbon , Particulate Matter , Pisum sativum/growth & development , Plant Roots/microbiology , Pseudomonas/physiology , Rhizobium/physiology , Tylenchoidea/physiologyABSTRACT
Maximum colony growth inhibition was observed due to Pseudomonas PS2 (74%) as compared to PS1 (71%) on trypticase soy agar (TSM) plates after 5 days of incubation. Light and scanning electron microscopic examination showed hyphal coiling, vacuolation, coagulation and granulation of cytoplasm resulting in lysis of hyphae of M. phaseolina by pseudomonads. Cell free culture filtrates of strains PS1 and PS2 restricted the growth of mycelium of M. phaseolina. PS1 and PS2 caused maximum colony growth inhibition by 57 and 61% respectively at 20% concentration of culture filtrate after 4 days of incubation. Volatile substances produced by PS1 and PS2 also inhibited the colony growth of M. phaseolina by 25 and 32%, respectively. Inhibitory effect of volatile substances, however, decreased with advancing in incubation period. Colony growth of M. phaseolina was significantly decreased by PS1 and PS2 as compared to control both in iron- sufficient and iron-deficient conditions. PS2 showed higher antagonistic activity than PS1, as evidenced by pronounced colony growth inhibition.
Subject(s)
Basidiomycota/physiology , Fluorescence , Microscopy, Electron , Plant Diseases/microbiology , Pseudomonas/physiologyABSTRACT
Thirty phytopathogenic bacterial isolates were obtained from diseased cucumber plants [Cucumis sativus]. These isolates were highly pathogenic, capable of inducing angular leaf spots as well as wilting of cucumber seedlings within 3-6 days after inoculation. The diagnostic tests including colony morphology, pathogenicity trials and different physiological tests showed that they belonged to Pseudomonas syringae pv lachrymans. Inoculating three weeks old cucumber seedlings with the most virulent isolate resulted in a reduction in dry weight, water content and both shoot and root length to a level below that of the control
Subject(s)
Pseudomonas/isolation & purification , Pseudomonas/physiology , Pseudomonas/pathogenicityABSTRACT
As peritonites em pacientes submetidos a diálise peritoneal apresentam pior prognóstico quando säo causadas por bactérias Gram-negativas, o que exige um tratamento rápido e com antibióticos de amplo espectro sobre estas bactérias. Analisamos a eficácia de um novo antibiótico monobactâmico, ativo contra a maioria das bactérias aeróbicas Gram-negativas, o aztreonam, no tratamento de peritonites causadas por estas bactérias em 10 pacientes submetidos a diálise peritoneal intermitente e seis pacientes submetidos a diálise peritoneal ambulatorial contínua, todos fazendo diálise com cateter permanente (Tenckhoff). Os microorganismos isolados mais comumente foram Pseudomonas sp. em oito casos (50,0 por cento e Enterobacter sp. em tres casos (18,8 por cento). Após monoterapia com aztreonam, obtivemos cura em 13(81,2 por cento) episódios. Em três destes pacientes, entretanto, a cura só foi obtida após retirada do cateter de Tenckhoff. Nos três casos em que houve falência do tratamento com aztreonam, só se obteve cura após mudança do esquema terapêutico, tendo sido necessária a retirada do cateter em dois casos. Näo foram observados efeitos colaterais significativos devido a administraçäo do aztreonam. Os resultados do presente estudo demonstram a eficácia desta droga para tratamento das peritonites por agentes Gram-negativos em pacientes submetidos a diálise peritoneal