Isolation and Identification of Hydrocarbon-Degrading Bacteria that Tolerant to Saponin of Sapindus Rarak Plant

Jurnal Biodjati Pub Date : 2019-05-28 DOI:10.15575/BIODJATI.V4I1.4392

E. Octaviany, S. Suharjono, I. Mustafa

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引用次数: 2

Abstract

A commercial saponin as biosurfactant can reduce the surface tension of water and increase of hydrocarbon degradation. However, this saponin can be toxic to some hydrocarbonoclastic bac-teria. This study aimed to obtain bacterial isolates that were tolerant and incapable to degrade saponin, and to identify them based on 16S rDNA sequence. Bacteria were isolated from petroleum contaminated soil in Wonocolo Village, Bojonegoro Regency, East Java, Indonesia. The soil samples were acclimated using Bushnell-Haas (BH) broth with 0.5% crude oil at room temperature for 3 weeks. The culture was spread onto BH agar incubated at 30°C for 7 days. The first screened, isolates were grown in nutrient broth with addition of sap-onin 0%, 8%, and 12% (v/v) then incubated at 30°C for three days. The bacterial cell density was measured using a spectrophotometer. Second screened, the isolates were grown on BH broth with addition of 0.5% saponin as a sole carbon source, and their cell densities were measured. The selected isolates were identified based on 16S rDNA sequences. Among 34 bacterial isolates, nine isolates were tol-erant to 12% saponin. Three bacterial isolates IHT1.3, IHT1.5, and IHT3.24 tolerant to high concentration of saponin and did not use this substance as growth nutrition. The IHT1.3, IHT1.5, and IHT3.24 isolates were identified as Ochrobactrum pseudogrignonense (99% similarity), Pseudomonas mendocina (99%), and Ochrobactrum pi-tuitosum; (97%), respectively. Those three selected isolates are good candidates as hydrocarbon-degrading bacteria to bioremediation of soil contaminated crude oil. However, the combined activity of bacteria and saponin to degrade hydrocarbon needs further study.

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皂角植物耐皂苷烃降解菌的分离与鉴定

商品皂苷作为生物表面活性剂可以降低水的表面张力，增加烃类的降解。然而，这种皂苷对一些碳氢化合物分解细菌是有毒的。本研究旨在获得耐和不能降解皂素的分离菌，并基于16S rDNA序列对其进行鉴定。从印度尼西亚东爪哇省Bojonegoro县Wonocolo村石油污染土壤中分离到细菌。土壤样品用含0.5%原油的Bushnell-Haas (BH)肉液在室温下驯化3周。将培养物铺在BH琼脂上，30℃孵育7天。第一次筛选的分离株分别在添加0%、8%和12% (v/v)皂苷的营养液中培养，然后在30°C下孵育3天。用分光光度计测定细菌细胞密度。筛选后，在添加0.5%皂苷作为唯一碳源的BH培养基上培养分离菌，测定其细胞密度。根据16S rDNA序列对所选菌株进行鉴定。在34株分离菌中，9株对12%皂苷有良好的反应。3株分离菌株IHT1.3、IHT1.5和IHT3.24对高浓度皂苷具有耐受性，不以该物质作为生长营养。分离物IHT1.3、IHT1.5和IHT3.24分别鉴定为假绿假单胞菌(99%相似度)、mendocina假单胞菌(99%相似度)和pi-tuitosum假单胞菌;分别为(97%)。这3株分离菌是土壤污染原油生物修复烃类降解菌的良好候选者。然而，细菌与皂苷的联合降解碳氢化合物的活性还有待进一步研究。

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来源期刊

Jurnal Biodjati

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审稿时长

4 weeks