---

The combustion of fossil fuels containing sulfur results in the release of sulfur dioxide into the atmosphere and environmental pollution. Hence, the researchers focused on the biological desulfurization method. Dibenzothiophene is used as the model molecule to study the ability of the desulfurization of microorganisms. The most suitable sources of carbon, nitrogen and sulfur concentration optimized by response surface method to obtain the highest cell growth and biological desulfurization activity. The performance of iron nanoparticles on the growth and biodesulfurization activity of thermophilic bacterium Bacillus thermoamylovorans strain EAMYO was investigated. Characterization of starch-modified iron nanoparticles was performed by TEM, SEM. The images of TEM and SEM of starch / Iron nanoparticles showed that the Fe₃O₄ and Fe0 nanoparticles were 20 and 30 nm, respectively. The investigating the growth of microorganism in the presence of iron nanoparticles showed that these nanoparticles not only did not have a toxic effect on microorganism growth, but also increased the growth of microorganism in 96 h (OD 660 = 1.864, 1.896 respectively in the presence of nanoparticles Fe₀ and Fe₃O₄), while the highest rate of growth in the absence of nanoparticles in 96 h (OD660 = 1.51). Also, the activity of desulfurization in the presence of starch/Fe₀ nanoparticles and starch/Fe₃O₄ / starch increased by 26.52% and 10.75%, respectively, compared to the cells without the coating of iron nanoparticles.
 

---

Biosurfactants are produced by microorganisms. Surfactin is one of the main lipopeptide biosurfactants produced by different species of Bacillus subtilis. This study aims to analyze the effect of starch-coated Fe⁰and Fe³⁺nanoparticles on the biosurfactant production of Bacillus subtilis. Out of 70 soil samples, 20 Bacillus were isolated and genome sequenced by biochemical methods and 16S rRNA gene. Quantitative and qualitative screening methods were used to isolate and detect biosurfactant production. For the aim of this study, 61 and 63 (Bacillus subtilis subsp. Inaquosorum) were selected. Then, hemolytic activity, surfactant production and reduction of surface tension in Minimal Salt Medium containing Fe⁰ and Fe³⁺ nanoparticles were examined after 48h, 72h and 96h of culture. The binding of the nanoparticles to the surfactant was confirmed by SEM. Strain 61 was the best bacterium and Fe³⁺ was the best nanoparticle and it was cultured. The results were compared with the results of non-nanoparticle bioreactor. Surfactin from strain 61 culture in the Fe³⁺ nanoparticle bioreactor after 72 hours of growth showed higher production than the same strain culture after 72 hours without Fe³⁺, if continuing the research, this strain can be commercialized in the future.
 

---

Lactobacilli are the most well-known strains with probiotic properties that have a great effect on promoting gastrointestinal health. The purpose of this study was to isolate and evaluate the probiotic properties of local Lactobacillus in dairy products in Fars province. Gram-positive and catalase-negative bacilli were isolated and analyzed from dairy samples by chemical methods. To evaluate the probiotic properties of the isolates, their growth rate was measured at different acidic and alkaline pHs, different concentrations of bile salt and NaCl salt. The antimicrobial activity of the isolates on pathogenic bacteria was investigated by agar well diffusion method and also susceptibility testing to common antibiotics was performed by disk diffusion method. Optimal strains were identified molecularly by 16 S rRNA gene sequencing. Out of 36 gram-positive and catalase-negative strains, 10 strains were biochemically similar to Lactobacilli that 5 strains being able to grow at pH 3 to 9 and different concentrations of bile salt and NaCl salt. These bacteria had antimicrobial activity against common pathogens and were resistant to the antibiotics Clindamycin, Ampicillin, Erythromycin, and Tetracycline. Strains M3 and Y4 had better probiotic properties. Molecular evaluation showed that these two strains are 100% and 99.98% similar to Lactobacillus brevis and Lactobacillus casei strains, respectively. As a result, it was found that these two strains of Lactobacillus with approved probiotic properties are available in traditional dairy products in Fars province, which can be used in the dairy food industry to improve the quality of livestock and poultry feed.