Fatma Karray, Manel Ben Abdallah, Nidhal Baccar, Hatem Zaghden, Sami Sayadi
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引用次数: 10
Abstract
Microbial production of bioplastics, derived from poly(3-hydroxybutyrate) (PHB), have provided a promising alternative towards plastic pollution. Compared to other extremophiles, halophilic archaea are considered as cell factories for PHB production by using renewable, inexpensive carbon sources, thus decreasing the fermentation cost. This study is aimed at screening 33 halophilic archaea isolated from three enrichment cultures from Tunisian hypersaline lake, Chott El Jerid, using starch as the sole carbon source by Nile Red/Sudan Black staining and further confirmed by PCR amplification of phaC and phaE polymerase genes. 14 isolates have been recognized as positive candidates for PHA production and detected during both seasons. The identification of these strains through 16S rRNA gene analyses showed their affiliation to Halorubrum, Natrinema, and Haloarcula genera. Among them, three PHB-producing strains, CEJ34-14, CEJ5-14, and CEJ48-10, related to Halorubrum chaoviator, Natrinema pallidum, and Haloarcula tradensis were found to be the best ones reaching values of 9.25, 7.11, and 1.42% of cell dry weight (CDW), respectively. Our findings highlighted that Halorubrum, Natrinema, and Haloarcula genera were promising candidates for PHB production using soluble starch as a carbon source under high salinity (250 g L-1 NaCl).
由聚(3-羟基丁酸酯)(PHB)衍生的生物塑料的微生物生产为塑料污染提供了一个有希望的替代方案。与其他极端微生物相比,嗜盐古菌被认为是利用可再生、廉价的碳源生产PHB的细胞工厂,从而降低了发酵成本。本研究以淀粉为唯一碳源,采用尼罗红/苏丹黑染色法对突尼斯高盐湖Chott El Jerid 3种富集培养物中分离的33株嗜盐古菌进行筛选,并对phaC和phaE聚合酶基因进行PCR扩增。14株分离株被认为是PHA生产的阳性候选株,并在两个季节检测到。这些菌株通过16S rRNA基因分析鉴定为Halorubrum、Natrinema和Haloarcula属。其中,产phb菌株CEJ34-14、CEJ5-14和CEJ48-10与潮盐菌、苍白钠菌和贸易盐菌相关,产phb效果最好,分别达到细胞干重(CDW)的9.25、7.11和1.42%。我们的研究结果强调,在高盐度(250 g L-1 NaCl)条件下,利用可溶性淀粉作为碳源生产PHB的有希望的候选植物是Halorubrum、Natrinema和Haloarcula属。
期刊介绍:
Archaea is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles dealing with all aspects of archaea, including environmental adaptation, enzymology, genetics and genomics, metabolism, molecular biology, molecular ecology, phylogeny, and ultrastructure. Bioinformatics studies and biotechnological implications of archaea will be considered. Published since 2002, Archaea provides a unique venue for exchanging information about these extraordinary prokaryotes.