Enzyme immunoassay of herbicide decomposition by soil and wood decay fungi

The effect of herbicide atrazine was studied on the growth and development of a number of soil and wood decay fungi: white-rot basidiomycetes (Cerrena maxima, Coriolopsis fulvocenerea, and Coriolus hirsutus), thermophilic micromycetes from self-heating grass composts (cellulolytic fungus Penicillium sp. 13 and noncellulolytic ones Humicola lanuginosa spp. 5 and 12), and mesophilic phenol oxidase-producing micromycete Mycelia sterilia INBI 2-26. Detection of atrazine in liquid fungal cultures was performed by using the enzyme immune assay technique. Both stimulation (Humicola lanuginosa 5) and suppression (Humicola lanuginosa 12 and Penicillium sp. 13) of fungal growth with atrazine were observed on solid agar media. Hyphomycete Mycelia sterilia INBI 2-26 was almost insensitive to the presence of atrazine. Neither of the thermophilic strains was capable of atrazine consumption in three-week cultivation. In contrast with that, active laccase producers Cerrena maxima, Coriolopsis fulvocenerea, and Coriolus hirsutus consumed up to 50% atrazine in 5-day cultivation in the presence of the xenobiotic and at least 80-92% in 40 days. Mycelia sterilia INBI 2-26, which also forms extracellular laccase, also consumed up to 70% atrazine in 17 days. The degree of atrazine consumption depended on the term of its addition to the fungal culture medium.

Authors
Koroleva O.V.1 , Stepanova E.V.1 , Landesman E.O.1 , Vasilchenko L.G.1 , Khromonygina V.V. 2 , Zherdev A.V.1 , Rabinovich M.L. 2
Number of issue
4
Language
English
Pages
355-360
Status
Published
Volume
38
Year
2002
Organizations
  • 1 Bach Institute of Biochemistry, Russian Academy of Sciences, Leninskii pr. 33, Moscow, 119071, Russian Federation
  • 2 Faculty of Ecology, Russ. Univ. of People's Friendship, Moscow, 113093, Russian Federation
Keywords
atrazine; herbicide; laccase; xenobiotic agent; agar medium; article; Basidiomycetes; Cerrena maxima; compost; controlled study; Coriolopsis fulvocenerea; coriolus hirsutus; culture medium; decomposition; enzyme immunoassay; fungal strain; fungus culture; fungus growth; Humicola lanuginosa; mycelia sterilia; nonhuman; Penicillium; soil; strain difference; wood; Basidiomycota; Cerrena; Coriolopsis; Coriolus; Fungi; Humicola; Penicillium; Penicillium sp.; Thermomyces lanuginosus; Trametes hirsuta
Date of creation
19.10.2018
Date of change
19.10.2018
Short link
https://repository.rudn.ru/en/records/article/record/151/
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