Baqiyatallah University of Medical Sciences Journal of Applied Biotechnology Reports 2322-1186 9 4 2022 12 01 Optimization of Ice Nucleation Activity of a Newly Isolated Pseudomonas sp. IRL.INP1 Using Rice Bran Based on Response Surface Methodology 807 816 163954 10.30491/jabr.2021.295614.1424 EN Najmeh Soveizi Department of Microbiology, North Tehran Branch, Islamic Azad University, Tehran, Iran 0000-0002-6921-8038 Ali Mohammad Latifi Applied Biotechnology Research Center, Baqiyatallah University of Medical Sciences, Tehran, Iran 0000-0002-8952-5174 Sedigheh Mehrabian Department of Microbiology, North Tehran Branch, Islamic Azad University, Tehran, Iran Abbas Akhavan Sepahi Department of Microbiology, North Tehran Branch, Islamic Azad University, Tehran, Iran Journal Article 2021 07 17 <span class="fontstyle0"><strong>Introduction:</strong> </span><span class="fontstyle2">Several isolated species from symptomatic frozen leaves and soil produce ice nucleation proteins and have been exploited for their Ice Nucleation Activity (INA). Ice nucleation proteins can be employed as promising substances for biotechnological applications such as artificial snow-making, cryopreservation of tissues, and the condensation of ice nuclei in clouds. Considering INA has a direct relationship with bacterial growth, optimization of the culture medium seems indispensable. In this study, the INA of a newly isolated <em>Pseudomonas</em> sp. IRL.INP1 was evaluated.<br /></span><span class="fontstyle0"><strong>Materials and Methods:</strong> </span><span class="fontstyle2">Plackett–Burman was applied for screening several cost-effective carbon and nitrogen sources affecting bacterial growth and INA. The response surface method was employed for medium optimization. Moreover, biomass, whole-cell protein, specific growth rate, and INA were estimated.<br /></span><span class="fontstyle0"><strong>Results:</strong> </span><span class="fontstyle2">Rice bran, ammonium sulfate, temperature, and olive oil had significant effects on the INA of </span><span class="fontstyle2"><em>Pseudomonas</em> </span><span class="fontstyle2">sp. IRL.INP1. Results demonstrated that 5% rice bran, 31 °C, 1.0% olive oil, and 6 g/L</span><span class="fontstyle2"> </span><span class="fontstyle2">ammonium sulfate led to the best INA. The final optical density at 600 nm was 2.3. Also, 1.94 g/L</span><span class="fontstyle2"> </span><span class="fontstyle2">biomass, 1.75 µg/µl</span><span class="fontstyle2"> </span><span class="fontstyle2">whole-cell protein, and 0.26 specific growth rate (day</span>^{<span class="fontstyle3">-</span><span class="fontstyle2">1</span>}<span class="fontstyle2">) were obtained, and INA was observed after 5 sec at </span><span class="fontstyle3">-</span><span class="fontstyle2">5 °C.<br /></span><span class="fontstyle0"><strong>Conclusions:</strong> </span><span class="fontstyle2">The present research is the first study using agricultural waste for INA optimization. Since rice bran is a cost-effective agro-waste and a qualified replacement for glucose, it can be utilized as a promising substrate for bacterial growth and INA.</span>  https://www.biotechrep.ir/article_163954_03df58206d47e4440ea83e1b7dc31451.pdf