Biodegradation of Phthalic Acid Esters by the White Rot Fungus <i>Peniophora lycii</i>
-
Published:2023-05-01
Issue:3
Volume:92
Page:310-317
-
ISSN:0026-3656
-
Container-title:Микробиология
-
language:
-
Short-container-title:Microbiology
Author:
Savinova O. S.1, Shabaev A. V.1, Fedorova T. V.1
Affiliation:
1. Bach Institute of Biochemistry, Researsch Center of Biotechnology, Russian Academy of Sciences
Abstract
Abstract—The ability of the white rot fungus Peniophora lycii to degrade such phthalic acid esters (PAEs) as diethyl phthalate (DEP), dibutyl phthalate (DBP), di(2-ethylhexyl) phthalate (DEHP), diisobutyl phthalate (DiBP), and n-butylbenzyl phthalate (BBP) was studied. It was shown that DEHP was most efficiently biodegraded by the fungus (over 98% on day 6 of cultivation). The residual content of DBP and DiBP in the culture liquid of the fungus at the end of cultivation (10 days) was ~17–18%. BBP turned out to be the most difficult-to-degrade compound: its residual content on day 10 of P. lycii cultivation was ~40%. DEP was resistant to fungal biodegradation, and exhibited a toxic effect at 1.5 g/L: the rate of radial growth of the fungus on agar decreased threefold compared to the control, and the amount of fungal biomass during liquid-phase deep cultivation decreased by about 1.5 times. During the cultivation of P. lycii on media with PAEs, an increase in esterase activity by about 2 times and a significant decrease (by 2–4 times) in oxidase activity was shown compared to the control medium without phthalates.
Publisher
The Russian Academy of Sciences
Reference29 articles.
1. Савинова О.С., Шабаев А.В., Глазунова О.А., Еремин С.А., Федорова Т.В. Биодеструкция эфиров фталевой кислоты грибами белой гнили // Прикл. биохимия и микробиология. 2022. Т. 58. С. 484‒499. 2. Savinova O.S., Shabaev A.V., Glazunova O.A., Eremin S.A., Fedorova T.V. Biodestruction of phthalic acid esters by white rot fungi // Appl. Biochem. Microbiol. 2022. V. 58. P. 598–612. https://doi.org/10.31857/S0555109922050142 3. Синицын А.П., Гусаков А.В., Черноглазов В.М. Биоконверсия лигноцеллюлозных материалов. М.: Изд-во МГУ, 1995. 224 с. 4. Шкаева И.Е., Солнцева С.А., Никулина О.С., Николаев А.И., Дулов С.А., Земляной А.В. Токсичность и опасность фталатов // Токсикологический вестник. 2019. Т. 159. № 6. С. 3–9. 5. Ahmadi E., Yousefzadeh S., Ansari M., Ghaffari H.R., Azari A., Miri M., Nabizadeh A.M.R., Kakavandi B., Ahmadi P., Badi M.Y., Gholami M., Sharafi K., Karimaei M., Ghoochani M., Brahmand M.B., Mohseni S.M., Sarkhosh M., Rezaei S., Asgharnia H., Dehghanifard E., Jafari B., Mortezapour A., Moghaddam V.K., Mahmoudi M.M., Taghipour N. Performance, kinetic, and biodegradation pathway evaluation of anaerobic fixed film fixed bed reactor in removing phthalic acid esters from wastewater // Sci. Rep. 2017. V. 7. 41020. https://doi.org/10.1038/srep41020
|
|