假单胞菌OXDC12产草酸脱羧酶的生长条件优化及草酸脱羧酶对草酸钙结晶的体外抑制作用

Shruti Gupta, S. S. Kanwar
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引用次数: 1

摘要

肾结石已成为世界范围内的一种常见疾病,其发病率和复发率在过去几十年中急剧增加。草酸脱羧酶(OxDC)酶能催化草酸单阴离子歧化反应生成甲酸和二氧化碳,在高草酸尿症的治疗中具有重要的应用潜力。本研究描述了从富含草酸盐的土壤中分离和筛选新的氧化dc产生细菌菌株,并使用单因子一次(OFAT)和响应面法(RSM)统计方法优化生产培养基,以提高细胞内氧化dc的产量。从菠菜土壤样品中分离到一株产OxDC的细菌,经16S rRNA测序鉴定为Pseudomonas sp. OXDC12。利用OFAT法测定了添加碳、氮及pH、温度等物理条件对假单胞菌OXDC12胞内产氧的影响。利用Plackett Burman设计(PBD)筛选的3个因素,进一步采用RSM中心复合设计(CCD)方法,确定它们对氧化二氯甲烷生成的交互作用。在体外草酸钙结晶实验中,测定了OxDC酶的抗尿石活性。23个CCD选择的氧化直流因子值为:温度30℃,锰离子浓度5 mmol l-1,微孔大小3.25% (v/v)。OxDC的最高预测值为5.7 U ml-1,实际值为6.7 U ml-1,比假单胞菌OXDC12产生的OxDC的初始活性高79.1%和2.92倍。正如光学显微照片所示,与体外条件下的对照相比,OxDC在草酸钙结石的结晶和形成方面显着减少。OFAT和RSM统计优化方法提高了OxDC产量,最终活性为6.7 U ml-1,酶活性提高了2.92倍。研究表明,OFAT和RSM优化方法可显著提高假单胞菌OXDC12的氧化dc产量。该酶可以作为高草酸尿症或肾结石的潜在治疗剂,因为它在体外条件下显著抑制草酸钙晶体的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of growth conditions for oxalate decarboxylase production from Pseudomonas sp. OXDC12 and in vitro inhibition of calcium oxalate crystallization by oxalate decarboxylase
Kidney stones have become a common disease worldwide and their incidence and recurrence rates have drastically increased over the past few decades. Oxalate decarboxylase (OxDC) enzyme which catalyzes the disproportionation reaction of oxalate monoanions into formate and CO2 could exhibit significant potential in the treatment of hyperoxaluria. The present work describes isolation and screening of new OxDC producing bacterial strain from oxalate rich soils and one-factor-at-a-time (OFAT) and response surface methodology (RSM) statistical approaches were used to optimize the production media to obtain an improved intracellular OxDC production. An OxDC producing bacterial strain isolated from spinach soil sample(s) was identified to be Pseudomonas sp. OXDC12 by 16S rRNA sequencing. The OFAT approach was used to determine the effect of supplementation of carbon, nitrogen and other physical conditions like pH, temperature etc. on intracellular OxDC production by Pseudomonas sp. OXDC12. The three factors screened by Plackett Burman design (PBD) were further used by central composite design (CCD) approach of RSM to determine their interactive effects on OxDC production. The anti-urolithiatic activity of the enzyme OxDC was determined by carrying out in vitro calcium oxalate crystallization in presence and absence of OxDC. The factorial values selected by 23 CCD for OxDC were temperature 30ºC, manganese ion concentration 5 mmol l-1 and innoculum size 3.25% (v/v). The highest predicted value of OxDC was 5.7 U ml-1 while the actual value obtained was 6.7 U ml-1 which was 79.1% and 2.92 fold greater than the initial activity of OxDC produced by Pseudomonas sp. OXDC12. As depicted by the light micrographs, OxDC displayed a significant reduction in the crystallization and formation of calcium oxalate stones as compared to the control under in vitro conditions. OFAT and RSM statistical optimization approaches led to improved OxDC production with a final activity of 6.7 U ml-1 and a 2.92 fold increase in the enzyme activity. The study suggests that OFAT and RSM optimization approaches significantly enhanced OxDC production from Pseudomonas sp. OXDC12. The enzyme may serve as a potential therapeutic agent for hyperoxaluria or kidney stones as it significantly inhibited the formation of calcium oxalate crystals under in vitro conditions.
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