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    題名: 活性污泥中烷烴降解菌及其烷烴單加氧酶(AlkB)的鑑定;Identification of Alkane-Degrading Bacteria and Their Alkane 1-Monooxygenase (AlkB) in Activated Sludge
    作者: 謝明軒;Xie, Ming-Xuan
    貢獻者: 化學學系
    關鍵詞: 烷烴單加氧酶 (AlkB);不動桿菌;烷烴降解菌;活性污泥;菌種篩選;即時定量聚合酶連鎖反應;Alkane 1-monooxygenase (AlkB);Acinetobacter;Alkane-degrading bacteria;Activated sludge;Bacterial isolation;Real-time quantitative PCR
    日期: 2019-08-21
    上傳時間: 2019-09-03 14:30:45 (UTC+8)
    出版者: 國立中央大學
    摘要: 在原油精煉與石化產業的工業製程中,石化燃料可能會外洩到土壤和水體環境中。石化燃料中的持久性有機污染物,對人體健康和環境皆有潛在的危害。所幸在廢水處理程序的活性污泥含有多樣的微生物,能夠降解這些燃料中大部分的有機成分,像是烷烴和芳香烴。因此,了解參與降解過程的關鍵微生物對污染場址的生物修復非常重要。在本研究中,我們利用無機鹽培養基和柴油,對活性污泥中的菌群進行了不同天數的強化培養。藉由GC / MSD量測其總離子層析圖(TIC)發現,在五天之內柴油中的直鏈烷烴成分幾乎完全降解。同時,我們觀察到不動桿菌屬的菌群在總體菌相中顯著增加。這樣的結果暗示不動桿菌可能在柴油降解過程中扮演重要的角色。為了瞭解更多細節,我們進一步從活性污泥中純化分離出13種細菌菌株,經16S rDNA進行簡易的物種鑑定,其中三種屬於不動桿菌屬。同時對其烷烴單加氧酶alkB基因進行定序,這些不動桿菌可能含有一種或兩種類型的alkB基因,稱為alkB1和alkB2。此外,我們也量測了不同不動桿菌物種對柴油的降解效率。為了解不同直鏈烷烴對活性污泥中不動桿菌生長的影響,我們利用即時聚合酶連鎖反應,分析不同烷烴碳源培養後,活性污泥中的不動桿菌和Acinetobacter venetianus的數量。;Petroleum fuels may leak into soil and the water body during the process of petroleum refining and related industry. Persistent organic pollutants from petroleum fuels are harmful to human health and the environment. Fortunately, activated sludge contain diverse bacteria that have the ability to degrade most of the petroleum components such as alkanes and aromatics. Thus, understanding the key degraders is important for the bioremediation of the contaminated site. In this study, we optimized the bacterial growth in activated sludge with mineral salt medium and diesel at different time courses. The corresponding study of the total ion chromatogram (TIC), monitored by GC/MSD, show that a variety of chain length of n-alkanes were removed within five days. At the same time, the genus Acinetobacter has been observed with a significant increase in the bacterial community of activated sludge. Our results implied this genus may play an important role during diesel degradation process. To obtain more detail, we further isolated 13 bacterial strains from the activated sludge, three of which belong to Acinetobacter. These Acinetobacter strains were annotated and identified via 16S rDNA as well as their variable alkB gene of alkane 1-monooxygenase. Each of isolated Acinetobacter strains may contain either one or two types of alkB gene, known as alkB1 and alkB2. The diesel degradation efficiency for the variable Acinetobacter strains is also being studied. To understand which alkane can stimulated more Acinetobacter growth in activated sludge, we design a real-time PCR method to detect the population of Acinetobacter and Acinetobacter venetianus in the activated sludge enriched with different sole carbon source.
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