[1] Strobel G A. Rainforest endophytes and bioactive products[J]. Crit Rev Biotechnol, 2002,22:315-333.
[2] 王琪,傅育红,高锦明,等.苦楝内生真菌的初步分离和筛选[J].西北农业学报,2007,16(2):224-227.
[3] 王雅琴,傅育红,高锦明,等.苦楝内生真菌抗菌活性的研究[J].西北林学院学报,2007,22(1):20-22.
[4] 陈远友,单淑芳.苦楝内生真菌的生物多样性研究[J].安徽农学通报,2009,15(14):60-63.
[5] 单淑芳,朱薇薇,吴海亮,等.苦楝内生真菌抗植物病原真菌活性菌株的筛选[J].生物学杂志,2009,26(6):48-50.
[6] 朱虹,单淑芳,李增智,等.苦楝内生真菌及其代谢产物的杀虫活性[J].中国生物防治,2010,26(1):47-52.
[7] 缪莉,王元元,朱磊,等.四种植物内生真菌的分离及其抗肿瘤活性的筛选[J].微生物学通报,2009,36(6):865-869.
[8] Santos R M G, Rodrigues-Fo E. Meroterpenes from Penicillium sp found in association with Melia azedarach[J]. Phytochemistry, 2002, 61:907-912.
[9] Santos R M G, Rodrigues-Fo E. Further meroterpenes produced by Penicillium sp., an endophyte obtained from Melia azedarach[J]. Z Naturforsch, 2003,58c:663-669.
[10] Santos R M G, Rodrigues-Fo E. Structures of meroterpenes produced by Penicillium sp, an endophytic fungus found associated with Melia azedarach[J]. J Braz Chem Soc, 2003,14(5):722-727.
[11] Marinho A M R, Rodrigues-Fo E, Moitinho M L R, et al. Biologically active polyketides produced by Penicillium janthinellum isolated as an endophytic fungus from fruits of Meliaazedarach [J]. J Braz Chem Soc, 2005,16(2):280-283.
[12] Fill T P, Santos M G, Barisson A, et al. Co-Production of bisphenylpropanoid amides and meroterpenes by an endophytic Penicillium brasilianum found in the root bark of Melia azedarach [J]. Z Naturforsch, 2009,64c:355-360.
[13] Fill T P, Silva B F, Rodrigues-Fo E. Biosynthesis of phenylpropanoid amides by an endophytic Penicillium brasilianum found in root bark of Melia azedarach[J]. J Microbiol Biotechnol, 2010,20(3):622-629.
[14] Marinho A M R, Marinho P S B, Rodrigues-Fo E. Steroids produced by Penicillium herquei. an endophytic fungus isolated from the fruits of Melia azedarach (meliaceae) [J]. Quim Nova, 2009,32(7):1710-1712.
[15] Campos F R, Barison A, Daolio C, et al. Complete 1H and 13C NMR assignments of aurasperone A and fonsecinone A, two bis-naphthopyrones produced by Aspergillus aculeatus[J]. Magn Reson Chem, 2005,43:962-965.
[16] Li X J, Zhang Q, Zhang A L, et al. Metabolites from Aspergillus fu migatus, an endophytic fungus associated with Melia azedarach and their Antifungal and antifeedant activities and toxicity[J]. J Agr Food Chem, 2012,60:3424-3431.
[17] Yang S X, Gao J M, Zhang Q, et al. Toxic polyketides produced by Fusarium sp., an endophytic fungus isolated from Melia azedarach [J]. Bioorg Med Chem Lett, 2011,21:1887-1889.
[18] Yang S X, Wang H P, Gao J M, et al. Fusaroside, a unique glycolipid from Fusarium sp., an endophytic fungus isolated from Melia azedarach[J]. Org Biomol Chem, 2012,10:819-824.
[19] Yang S X, Gao J M, Hartmut L, et al. Absolute configuration of fusarone, a new azaphilone from the endophytic fungus Fusarium sp. isolated from Melia azedarach, and of related azaphilones[J]. Chirality, 2012,24:621-627.
[20] Samuel A A. Record of new host plants for Sphaceloma on cowpea in Nigeria [J]. Mycopathologia, 1998,143(1):47-51.
[21] Zhang A L, He L Y, Gao J M, et al. Metabolites from an endophytic fungus Sphaceloma sp. LN-15 isolated from the leaves of Melia azedarach[J]. Lipids, 2009,44:745-751.
[22] Zhang L, Wang S Q, Li X J, et al. New insight into the stereochemistry of botryosphaeridione from a Phoma endophyte[J]. J Mol Struct, 2012,1016:72-75.
[23] Stierle A, Strobel G, Stierle D. Taxol and taxane production by Ta xomyces andreanae, an endophytic fungus of Paific yew[J]. Science, 1993,260(5105):214-216.
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