Optimizing Exopolysaccharide Production by Bacillus subtilis Using Spoiled Fig and Grape.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-15 DOI:10.1007/s00284-024-03913-4
Shymaa R Bashandy, Mohamed Hemida Abd-Alla, Esraa A Mohammed, Elhagag A Hassan
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Abstract

The study aimed to enhance exopolysaccharides (EPSs) production by the bacterial strain Bacillus subtilis ES (OR501464) isolated from sugar cane juice. Spoiled grape and fig extract were utilized as cost-effective substrates for EPS synthesis by B. subtilis ES (OR501464), and the impact of nutritional factors on EPS synthesis was assessed. Among nineteen bacterial isolates evaluated for EPS production, the isolate with the highest EPS yield was identified through a combination of phenotypic and genotypic analyses. The optimization process revealed that the highest EPS yield of 4.7 g/L was achieved in a production medium containing 4% sucrose, 0.1% NaNO3, 0.002% Na2SO4, and 2% NaCl at 30 °C and pH 9. Additionally, the study explored EPS generation by B. subtilis ES (OR501464) using spoiled grape and fig extract as substrates. The addition of 2% NaCl to spoiled grape extract increased EPS production to 4.357 mg/mL compared to 3.977 mg/mL with grape alone. However, 2% NaCl did not enhance EPSs production in fig waste. Supplementing spoiled fig or grape extract with 0.2 g/L Na2SO4 and 1 g/L NaNO3 increased EPS production by B. subtilis ES (OR501464). The EPS was analyzed using GC-MS and FTIR spectroscopy for partial characterization. The study found that spoiled figs and grapes can be used as effective substrates for EPS production. The highest yield was achieved by adding 0.2 g/L Na2SO4 and 1 g/L NaNO3. This study highlights the use of spoiled figs and grapes to produce valuable biopolymers, promoting sustainable and eco-friendly bioprocessing technologies.

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利用变质无花果和葡萄优化枯草芽孢杆菌的外多糖生产。
本研究旨在提高从甘蔗汁中分离出来的枯草芽孢杆菌 ES (OR501464) 的外多糖(EPSs)产量。研究利用变质葡萄和无花果提取物作为枯草芽孢杆菌 ES(OR501464)合成 EPS 的低成本底物,并评估了营养因素对 EPS 合成的影响。在对 19 个生产 EPS 的细菌分离物进行评估后,通过结合表型和基因型分析,确定了 EPS 产量最高的分离物。优化过程显示,在含有 4%蔗糖、0.1% NaNO3、0.002% Na2SO4 和 2% NaCl 的生产培养基中,在 30 °C、pH 值为 9 的条件下,EPS 产量最高,为 4.7 克/升。 此外,该研究还探讨了枯草杆菌 ES(OR501464)以变质葡萄和无花果提取物为底物产生 EPS 的情况。在变质葡萄提取物中加入 2% 的 NaCl 会使 EPS 产量增至 4.357 mg/mL,而单独使用葡萄提取物时为 3.977 mg/mL。然而,2% 的氯化钠并不能提高无花果废料中的 EPS 产量。用 0.2 g/L Na2SO4 和 1 g/L NaNO3 补充变质的无花果或葡萄提取物可提高枯草杆菌 ES(OR501464)的 EPS 产量。利用气相色谱-质谱和傅立叶变换红外光谱分析了 EPS 的部分特征。研究发现,变质的无花果和葡萄可作为生产 EPS 的有效底物。加入 0.2 克/升 Na2SO4 和 1 克/升 NaNO3 的产量最高。这项研究强调了利用变质无花果和葡萄生产有价值的生物聚合物,促进了可持续和生态友好型生物加工技术的发展。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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