Aslı Deniz Pehlivan, M. Tijen Bozdemir, Z. Yesim Ozbas
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In fermentations carried out in shaking water baths, the carbon source that most supported the liamocin production of this strain was fructose, and the nitrogen source was peptone-yeast extract combination. In the medium containing fructose and the peptone-yeast extract mixture, <i>A. pullulans</i> NBRC 100716 produced 4.26 g liamocin L<sup>−1</sup>. The specific liamocin production rate (qp) of the strain in this medium was 0.0090 g liamocin/g mo.h. This study is also the first to produce liamocin with a fructophilic <i>A. pullulans</i> strain. Present findings in this research also demonstrated the excellent biosurfactant capacity of the liamocin produced by this strain. The obtained liamocin reduced the water surface tension to a degree that can compete with synthetic surfactants. 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引用次数: 0
摘要
连姆菌素是一种具有多元醇脂质结构的分子,由罕见的 Aureobasidium pullulans 菌株产生。近年来,由于具有抗菌、抗癌和表面活性等特性,连姆菌素引起了人们的关注,并在食品、农业、医疗和制药等领域发现了潜在的应用前景。本研究首次探讨了不同碳源和氮源对 A. pullulans NBRC 100716 菌株生长和利亚莫西汀生产动力学的影响。该菌株是从六株不同的 A. pullulans 菌株中挑选出来的,我们首次对其利亚莫西汀的产量进行了测试。在振荡水浴发酵过程中,最有助于该菌株生产利拉莫星的碳源是果糖,氮源是蛋白胨-酵母提取物组合。在含有果糖和蛋白胨-酵母提取物混合物的培养基中,A. pullulans NBRC 100716 产生了 4.26 g liamocin L-1。这项研究也是首次利用嗜果糖的 A. pullulans 菌株生产利亚莫西菌素。目前的研究结果还表明,该菌株生产的利拉莫星具有出色的生物表面活性剂能力。所获得的利拉莫星可降低水的表面张力,其程度可与合成表面活性剂相媲美。此外,这是第一份揭示从 A. pullulans NBRC 100716 中获得的 liamocin 的脂肪酸谱的报告,其中含有相当数量的不饱和脂肪酸,与植物油的成分相似。
Effects of different carbon and nitrogen sources on liamocin production kinetics of Aureobasidium pullulans NBRC 100716 strain
Liamocins are molecules with a polyol lipid structure produced by rare strains of Aureobasidium pullulans. In recent years, liamocins have attracted attention due to their antibacterial, anticancer and surface-active properties, and promising potential applications have been identified in the food, agriculture, medical and pharmaceutical industries. This study is the first to investigate the effects of different carbon and nitrogen sources on the growth and liamocin production kinetics of A. pullulans NBRC 100716 strain. This strain was selected among six different A. pullulans strains whose liamocin productions were tested by us for the first time. In fermentations carried out in shaking water baths, the carbon source that most supported the liamocin production of this strain was fructose, and the nitrogen source was peptone-yeast extract combination. In the medium containing fructose and the peptone-yeast extract mixture, A. pullulans NBRC 100716 produced 4.26 g liamocin L−1. The specific liamocin production rate (qp) of the strain in this medium was 0.0090 g liamocin/g mo.h. This study is also the first to produce liamocin with a fructophilic A. pullulans strain. Present findings in this research also demonstrated the excellent biosurfactant capacity of the liamocin produced by this strain. The obtained liamocin reduced the water surface tension to a degree that can compete with synthetic surfactants. Furthermore, this is the first report to reveal that the fatty acid profile of liamocin obtained from A. pullulans NBRC 100716 contains an appreciable amount of unsaturated fatty acids and is similar to the composition of vegetable oil.
期刊介绍:
Research papers must make a significant and original contribution to
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