Biological control is an eco-friendly strategy for mitigating and controlling plant diseases with negligible effects on human health and environment. Biocontrol agents are mostly isolated from field crops, and microbiomes associated with wild native plants is underexplored. The main objective of this study was to characterize the bacterial isolates associated with Smilax bona-nox L, a successful wild plant with invasive growth habits. Forty morphologically distinct bacterial isolates were recovered from S. bona-nox. Based on 16S rRNA gene sequencing, these isolates belonged to 12 different genera namely Burkholderia, Pseudomonas, Xenophilus, Stenotrophomonas, Pantoea, Enterobactriaceae, Kosakonia, Microbacterium, Curtobacterium, Caulobacter, Lysinibacillus and Bacillus. Among them, Pseudomonas sp. EA6 and Pseudomonas sp. EA14 displayed the highest potential for inhibition of Phytophthora. Based on sequence analysis of rpoD gene, these isolates revealed a 97% identity with a Pseudomonas fluorescence strain. Bioactivity-driven assays for finding bioactive compounds revealed that crude proteins of Pseudomonas sp. EA6 inhibited mycelial growth of P. parasitica, whereas crude proteins of Pseudomonas sp. EA14 displayed negligible activity. Fractionation and enzymatic analyses revealed that the bioactivity of Pseudomonas sp. EA6 was mostly due to glucanolytic enzymes. Comparison of chromatographic profile and bioactivity assays indicated that the secreted glucanolytic enzymes consisted of β-1,3 and β-1,4 glucanases, which acted together in hydrolyzing Phytophthora cell walls. Since the biological activity of the crude glucanolytic extract was >60-fold higher than the purified β-1,3 glucanase, the glucanolytic enzyme system of Pseudomonas sp. EA6 likely acts synergistically in cell wall hydrolysis of P. parasitica.
BackgroundNatural products of animals, plants and microbes are potential source of important chemical compounds, with diverse applications including therapeutics. Endophytic bacteria that are especially associated with medicinal plants presents a reservoir of therapeutic compounds. Fagonia indica has been recently investigated by numerous researchers because of its striking therapeutic potential especially in cancer. It is also reported that endophytes play a vital role in the biosynthesis of various metabolites; therefore we believe that endophytes associated with F. indica are of crucial importance in this regard. The present study aims successful isolation, molecular identification of endophytic bacteria and their screening for bioactive metabolites quantification and in vitro pharmacological activities.Methods16S rRNA gene sequencing was used for the identification of isolated endophytic bacteria. Methanolic extracts were evaluated for total phenolic contents (TPC), total flavonoids contents (TFC), DPPH free radical scavenging activity, reducing power and total anti-oxidant assays were performed. And also screened for antibacterial and antifungal activities by disc diffusion method and their MIC were calculated by broth dilution method using microplate reader. Further, standard protocols were followed for antileishmanial activity and protein kinase inhibition. Analysis and statistics were performed using SPSS, Table curve and Origin 8.5 for graphs.ResultsBacterial strains belonging to various genera (Bacillus, Enterobacter, Pantoea, Erwinia and Stenotrophomonas) were isolated and identified. Total phenolic contents and total flavonoids contents varies among all the bacterial extracts respectively in which Bacillus subtilis showed high phenolic contents 243 µg/mg of gallic acid equivalents (GAE) and Stenotrophomonas maltophilia showed high flavonoids contents 15.9 µg/mg quercitin equivalents (QA), total antioxidant capacity (TAC) 37.6 µg/mg of extract, reducing power (RP) 206 µg/mg of extract and 2, 2-diphenyl-1-picrylhydrazyl (DPPH) free radical scavenging activity with 98.7 μg/mL IC50 value. Although all the extracts tested were active to inhibit growth of selected pathogenic microbes (bacteria and fungi), but significant antibacterial activity was observed against Klebsiella pneumonia and B. subtilis. An Enterobacter cloaca was active against Leishmania tropica with IC50 value of 1.4 µg/mg extracts. B. subtilis and Bacillus tequilensis correspondingly exhibit significant protein kinase inhibition of 47 ± 0.72 and 42 ± 1.21 mm bald zones, indicating anti-infective and antitumor potential.ConclusionsOur findings revealed that crude extracts of selected endophytic bacteria from F. indica possess excellent biological activities indicating their potential as an important source of antibiotics (antifungal, antibacterial) compounds.
This chapter covers different aspects of solid waste management (SWM) in Pakistan. Being a developing country, Pakistan is facing serious environmental issue as a result of improper and limited SWM practices. The current status of waste generation is far high than waste management operation working in the country. Detailed information has been provided on account of waste generation per capita, waste composition and types, current status of waste management practices, policy and legislations on solid waste management. Furthermore, particular challenges in local setups for achieving waste management goals have been highlighted. There is urgent need to look into the various options to deal with proper management of solid waste in the country. In this regard, various projects by governmental and private sector have been initiated. Particularly, projects related to waste to energy (WTE) have been planned and operational in certain parts of the country.
In a preliminary DNA-based microbiome studies, diverse culturable and unculturable bacterial taxa were identified in the roots and rhizospheres of different medicinal plants. In this report, culturable endophytic bacteria were isolated from four economically important medicinal plants Dodonaea viscosa, Fagonia indica, Caralluma tuberculata and Calendula arvensis. On the basis of initial antimicrobial screening, nine bacterial species in seven different genera, Streptomyces, Pseudomonas, Enterobacter, Bacillus, Pantoea, Pseudarthrobacter and Delftia, were selected for further analyses. These bacteria were identified using 16S rRNA gene sequencing.Antimicrobial assays of these selected bacteria revealed that Pseudomonas taiwanensis has strong anti-Phytophthora activity. Volatiles produced by P. taiwanensis inhibited growth of P. parasitica more than 80%. Ethyl acetate extracts of S. alboniger MOSEL-RD3, P. taiwanensis MOSEL-RD23, E. hormaechei MOSEL-FLS1 and B. tequilensis MOSEL-FLS3 and D. lacustris MB322 also displayed high potency against P. parasitica. All these bacterial extracts showed strong inhibition against P. parasitica at different concentrations (4 µg/mL -400 µg/mL).Bacterial extracts showing higher bioactivity (>80% inhibition in vitro) were selected for detached-leaf assay against P. parasitica on tobacco. In detached-leaf assay, application of 1% ethyl acetate bacterial extract of MOSE L-RD3, MOSEL-RD23, MOSEL-FLS1, MOSEL-FLS3 and MB322 reduced lesion sizes and lesion frequencies caused by P. parasitica by 68 to 81%. Over all P. taiwenensis MOSEL-RD23 showed positive activities for all the assays. Analysing the potential of bacterial endophytes as biological control agents can potentially lead to the formulation of broad-spectrum biopesticides for sustainable production of crops.
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