Environmental chemistry 2020 - Identification of Leachable from Trametes versicolor in Biodegradation Experiments- Ake Stenholm- Uppsala University

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Environmental chemistry 2020 - Identification of Leachable from Trametes versicolor in Biodegradation Experiments- Ake Stenholm- Uppsala University

机译：环境化学2020 - 在生物降解实验中的Trametes Versicolor识别可浸出的实验 - Ake Stenholm-乌普萨拉大学

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The transport of fungal-derived compounds from Trametesversicolor to the environment was investigated. Fatty acids andsphingoids were identified at the outlet of a bioreactorcontaining an acidic nutrient solution and immobilized fungalmycelia. The analyses were conducted using UHPLC-Q-TOF-MS (/MS). Eleven fatty acids, including C20:0, C18:1-OH andC20:0-OH that have not been previously described for thisspecies, were detected. The identities of myristic acid (C14:0),palmitic acid (C16:0) and stearic acid (C18:0) were confirmedusing reference standards. Six sphingoids, including Sph(t18:0), Sph (t18:1), Sph (d18:0), Sph (d18:1), Sph (d16:0) andSph (d16:1), were tentatively identified, and the identities ofSph (d18:0) and Sph (d18:1) were confirmed by referencestandards.

机译：研究了从摩尔辛斯过硅的真菌衍生的化合物传输到环境。在生物反应器的出口处鉴定了酸性营养溶液和固定的真菌的出口处鉴定了脂肪酸和溶剂。使用UHPLC-Q-TOF-MS（/ MS）进行分析。尚未对此特异性描述的，11脂肪酸，包括C20：0，C18：1-OH和C20：0-OH。肉豆蔻酸（C14：0），棕榈酸（C16：0）和硬脂酸（C18：0）的身份确认了参考标准。暂时识别出六（T18：0），SPH（T18：0），SPH（D18：0），SPH（D18：0），SPH（D18：0），SPH（D18：0），SPH（D16：0）和α（D16：1），以及通过参考名片确认了症状（D18：0）和SPH（D18：1）的标识。

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《Journal of Research and Development》 |2020年第4期|共1页
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Ake Stenholm;
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Environmental chemistryBiodegradationastrochemistryatmospheric chemistryenvironmental modellinggeochemistrymarine chemistrypollution remediation;

机译：环境化学博伊德普罗斯斯特罗化学媒体体化学化学环境型化绿化化学化学化学镇静修复;

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1. Identification of Leachables from Trametes versicolor in Biodegradation Experiments [J] . ?ke Stenholm Journal of Waste Recycling . 2021,第1期

机译：在生物降解实验中识别Trametes Versicolor的鹿浸出物
2. Identification of Leachables from Trametes versicolor in Biodegradation Experiments [J] . Aringke Stenholm, Mikael Hedel, Torbjrn Arvidsson, Trends in Green Chemistry . 2018,第1期

机译：在生物降解实验中鉴定杂色茶树的可浸出物
3. Biodegradation of organics in landfill leachate by immobilized white rot fungi, Trametes versicolor BCC 8725 [J] . Jenjira Saetang, Sandhya Babel Environmental Technology . 2012,第22a24期

机译：固定化的白腐真菌Trametes versicolor BCC 8725对垃圾渗滤液中有机物的生物降解
4. Laccase from Trametes versicolor Stability at Temperature and Alkaline Conditions and Its Effect on Biobleaching of Hardwood Kraft Pulp [C] . MARIA E. A. DE CARVALHO, M. C. MONTEIRO, G. L. SANTANNA Biotechnology for Fuels and Chemicals . 1999

机译：温度和碱性条件下云芝trametes漆酶的稳定性及其对硬木牛皮纸浆生物漂白的影响
5. Biodegradation of amaranth by the white-rot fungus Trametes versicolor. [D] . Gavril, Mihaela. 2006

机译：白腐真菌Trametes versicolor对of菜的生物降解作用。
6. Lignin Peroxidase Activity Is Not Important in Biological Bleaching and Delignification of Unbleached Kraft Pulp by Trametes versicolor [O] . Frederick S. Archibald 1992

机译：木质素过氧化物酶活性在杂色Trametes versicolor的未漂白牛皮纸浆的生物漂白和木质化中并不重要
7. BIODEGRADATION OF BISPHENOL A DURING SUBMERGED CULTIVATION OF TRAMETES VERSICOLOR [O] . Mariya Brazkova 2019

机译：在淹没栽培过程中的双酚A生物降解

Environmental chemistry 2020 - Identification of Leachable from Trametes versicolor in Biodegradation Experiments- Ake Stenholm- Uppsala University

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