Interactions of Taxol-producing endophytic fungus with its host (Taxus spp.) during Taxol accumulation.

Li YC; Tao WY

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Interactions of Taxol-producing endophytic fungus with its host (Taxus spp.) during Taxol accumulation.

机译：在紫杉醇积累期间，产生紫杉醇的内生真菌与其宿主（Taxus spp。）的相互作用。

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Endophytic fungi (Fusarium mairei) culture broth (EFCB) was added to cell suspension cultures of Taxus cuspidata. After 5 days, cultures of T. cuspidata given 4 ml of EFCB produced a maximal yield of 6.11 mg/l paclitaxel, with a release ratio of 75%, 2- and 6.8-fold, respectively, greater than the controls. The active element in EFCB is an exopolysaccharide of approximately 79 kD. Endophytic fungi produced 0.19 mg/l of paclitaxel in its producing medium. However, when the supernatant of Taxus cell suspension cultures from day 20 was added to the paclitaxel-producing medium, the biomass of fungi decreased by 24% and the yield of paclitaxel by 45%. In a co-culture system of plant and fungus, the yield of paclitaxel (12.8 mg/l) was >2-fold higher than that in the EFCB-treatment system.

机译：将内生真菌（Fusarium mairei）培养液（EFCB）添加到红豆杉的细胞悬浮培养物中。 5天后，给予4 ml EFCB的虎杖培养物的最大产量为6.11 mg / l紫杉醇，释放率分别比对照大75％，2和6.8倍。 EFCB中的活性元素是约79 kD的胞外多糖。内生真菌在其生产培养基中产生0.19 mg / l紫杉醇。然而，当从第20天起将红豆杉细胞悬浮培养物的上清液添加到紫杉醇生产培养基中时，真菌的生物量降低了24％，紫杉醇的产率降低了45％。在植物和真菌的共培养系统中，紫杉醇的产量（12.8 mg / l）比EFCB处理系统高出2倍以上。

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《Cell biology international.》 |2009年第1期|共7页
作者
Li YC; Tao WY;
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正文语种 eng
中图分类细胞生物学;
关键词
Cell Culture Techniques; Cells; Cultured; Fungi; Paclitaxel; Plant Leaves; 细胞; 培养的; 真菌; 紫杉酚; 植物叶; 时间因素;

机译：Cell Culture Techniques;Cells;Cultured;Fungi;Paclitaxel;Plant Leaves;细胞;培养的;真菌;紫杉酚;植物叶;时间因素;

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专利

1. Interactions of Taxol-producing endophytic fungus with its host (Taxus spp.) during Taxol accumulation. [J] . Li YC, Tao WY Cell biology international. . 2009,第1期

机译：在紫杉醇积累期间，产生紫杉醇的内生真菌与其宿主（Taxus spp。）的相互作用。
2. Molecular and Morphological Characterization of a Taxol-Producing Endophytic Fungus, Gliocladium sp., from Taxus baccata [J] . Sreekanth D., Sushim G. K., Syed A., Mycobiology . 2011,第3期

机译：紫杉产生紫杉醇的内生真菌Gliocladium sp。的分子和形态学表征
3. Molecular and Morphological Characterization of a Taxol-Producing Endophytic Fungus, Gliocladium sp., from Taxus baccata [J] . Sreekanth D., Sushim G. K., Syed A., Mycobiology . 2011,第3期

机译：紫杉生产紫杉醇的内生真菌Gliocladium sp。的分子和形态学表征
4. Glucanase and Chitinase from Some Isolates of Endophytic Fungus Trichoderma spp. [C] . Sasangka Prasetyawan, Lilik Sulistyowati, Aulanniam International Conference on Chemistry and Material Science . 2018

机译：来自食子植物真菌Trichoderma SPP的一些分离株的葡聚糖酶和胰蛋白酶。
5. The anti-cancer drug Taxol produced in endophytic fungi inhabiting Taxus media: Ecology, regulation and biosynthesis [D] . Soliman, Sameh S. M. 2011

机译：红豆杉培养基内生真菌中产生的抗癌药紫杉醇：生态，调控和生物合成
6. Molecular and Morphological Characterization of a Taxol-Producing Endophytic Fungus Gliocladium sp. from Taxus baccata [O] . D. Sreekanth, G. K. Sushim, A. Syed, 2011

机译：紫杉生产紫杉醇的内生真菌Gliocladium sp。的分子和形态学表征
7. Interactions between co-habitating fungi elicit synthesis of Taxol from an endophytic fungus in host Taxus plants [O] . Sameh S.M. Soliman, Manish N Raizada 2013

机译：共生真菌之间的相互作用引起宿主东北红豆杉内生真菌合成紫杉醇

Interactions of Taxol-producing endophytic fungus with its host (Taxus spp.) during Taxol accumulation.

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