黑曲霉与硒(IV)的基本相互作用

Q4 Agricultural and Biological Sciences
M. Urík, J. Ševc, P. Littera, M. Kolenčík, S. Čerňanský
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引用次数: 0

摘要

丝状真菌黑曲霉常见于腐烂的植被或室内环境中,具有许多用途,包括在生物修复方面的应用。因此,本文研究了亚硒酸盐与真菌的基本相互作用,包括亚硒酸盐对真菌生长的生物挥发、生物积累和毒性作用。从无污染土壤中分离出真菌菌株,在浓度为Se(IV) 19或27 mg的液体培养基上进行好氧培养。25天内L-1。与对照相比,亚硒酸盐没有抑制真菌的生长,只是减少了孢子量。液体培养基中Se(IV)浓度在前10天迅速下降至1 mg.l-1。然而,从培养第25天的结果来看,培养基中总硒的浓度变化不显著,只有微量的硒被生物积累(小于1%)。这表明亚硒酸盐有一定的生物转化为其他硒种。在培养过程中,高达21%的硒被丝状真菌黑霉转化为挥发性衍生物(生物挥发)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Basic interactions of Aspergillus niger with Se(IV)
Filamentous fungus Aspergillus niger is commonly found on decaying vegetation or in indoor environment and has a number of uses, including application in bioremediation. Hence, the basic interactions of this common mould with selenite were studied, including biovolatilization, bioaccumulation and toxicity effects of selenite on fungal growth. The fungal strain, originally isolated from noncontaminated soil, was cultivated under aerobic conditions on liquid cultivation media with concentration of Se(IV) 19 or 27 mg.l-1 during 25 days. The fungal growth in the presence of selenite was not inhibited when compared to control, only the sporulation was reduced. The concentration of Se(IV) in liquid medium decreased rapidly within first ten days to 1 mg.l-1. However, according to results from the 25th day of cultivation, the concentration of total selenium in medium did not change significantly and only negligible amount of selenium (less then 1%) was bioaccumulated. That indicates some biotransformation of selenite into other selenium species. During the cultivation, up to 21% of total amount of selenium was transformed into volatile derivatives (biovolatilization) by filamentous fungus A. niger.
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来源期刊
Nova Biotechnologica et Chimica
Nova Biotechnologica et Chimica Agricultural and Biological Sciences-Food Science
CiteScore
0.60
自引率
0.00%
发文量
47
审稿时长
24 weeks
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