原生土壤细菌脲酶纯化及CaCO3晶体积累

IF 0.3 Q4 BIOLOGY

International Journal of Biology and Chemistry Pub Date : 2020-12-31 DOI:10.26577/ijbch.2020.v13.i2.03

H. A. M. Takci, Pemra Bakirhan, Kıvılcım Caktu Guler

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引用次数: 1

摘要

Ab st ract。最近，微生物诱导的方解石沉淀已被评估为一种有效且生态友好的替代修复技术，用于封堵建筑行业混凝土中的微裂纹和孔隙。利用微生物合成的脲酶对CaCO3沉淀进行了酶活性的诱导。研究了从土耳其基利斯分离的本土土壤细菌（芽孢杆菌属）的脲酶活性和脲酶诱导的碳酸钙矿化。粗19B细胞内酶样品的总脲酶活性和比脲酶活性分别计算为0.67±0.003 EU/mL/min和0.63±0.011µmol/min/mg。SDS-PAGE检测到三条分别为60.48、23.27和20.17kDa的脲酶亚基蛋白带。通过扫描电子显微镜/能量分散X射线分析对微生物碳酸钙沉淀进行了分析。在SEM图像中可以清楚地观察到菱形方解石碎屑。沉淀的元素组成主要由钙、碳和氧组成。结果表明，19世纪的降雨可用于工程应用，如修复

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Urease purification from indigenous soil bacteria and accumulation of CaCO3 crystals

Ab st ract . Recently, microbiologically induced calcite precipitation has been evaluated as an effective and eco friendly alternative to a repair technique in plugging of microcracks and pores in concrete for building trade. Enzymatic activity of urease synthesized by microorganisms has been induced for precipitation of CaCO 3 cry st als. Urease activity and urease-induced calcium carbonate mineralization of indigenous soil bacteria ( Bacillus spp.) isolated from Kilis, Turkey were st udied. Total and specific urease activity of crude 19B intracellular enzyme sample were calculated as 0.67±0.003 EU/mL/min and 0.63±0.011 µmol/min/ mg, respectively. Three protein bands (60.48, 23.27 and 20.17 kDa) indicating subunits of urease were detected by SDS-PAGE. Microbial calcium carbonate precipitation was analyzed by Scanning Electron Microscopy/Energy Dispersive X-Ray Analysis. Rhombohedral calcite cry st als were clearly observed in SEM images. Element composition of precipitate was revealed to mo st ly comprise of calcium, carbon and oxygen. Results indicated that 19B st rain may be evaluated for engineering applications such as remediation of

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International Journal of Biology and Chemistry BIOLOGY-

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