[1] 宋晓兵, 彭埃天, 程保平, 等.一株侵染柑橘木虱的球孢白僵菌的分离及鉴定[J].植物保护, 2017, 43(4):139-144.

SONG Xiaobing, PENG Aitian, CHENG Baoping, et al. Isolation and identification of a Beauveria bassiana strain infecting Diaphorina citri[J]. Plant Prot, 2017, 43(4):139-144.
[2] 王月, 文斌, 马军, 等.球孢白僵菌(Beauveria bassiana)对寒地温室4种害虫防控研究[J].生物灾害科学, 2017, 40(4):284-287.

WANG Yue, WEN Bin, MA Jun, et al. Control effects of Beauveria bassiana on 4 conservatory pests in frigid regions[J]. Biol Disaster Sci, 2017, 40(4):284-287.
[3] XIAO Guohua, YING Shenghua, ZHENG Peng, et al. Genomic perspectives on the evolution of fungal entomopathogenicity in Beauveria bassiana[J]. Scic Rep, 2012, 2:483. doi:10.1038/srep00483.
[4] 刘丹丹, 段玉玺, 陈立杰. Snf 907-76发酵液杀线虫活性测定及活性物质分离纯化[J].农药, 2007, 46(9):644-646.

LIU Dandan, DUAN Yuxi, CHEN Lijie. Determine nematicidal of ferment liquid of Snf 907-76 and isolation and purification nematocide[J]. Agrochemicals, 2007, 46(9):644-646.
[5] DONADIO S, STAVER M J, MCALPINE J B, et al. Modular organization of genes required for complex polyketide biosynthesis[J]. Science, 1991, 252(5006):675-679.
[6] KIM E S, BIBB M J, BUTLER M J, et al. Sequences of the oxytetracycline polyketide synthase-encoding otc genes from Streptomyces rimosus[J]. Gene, 1994, 141(1):141-142.
[7] AHARONOWITZ Y, COHEN G, MARTIN J F. Penicillin and cephalosporin biosynthetic genes:structure, organization, regulation, and evolution[J]. Ann Rev Microbiol, 1992, 46:461-495.
[8] MARTIN F J. New aspects of genes and enzymes for beta-lactam antibiotic biosynthesis[J]. Appl Microbiol Biotechnol, 1998, 50(1):1-15.
[9] MOTAMEDI H, SHAFIEE A. The biosynthetic gene cluster for the macrolactone ring of the immunosuppressant FK506[J]. Eur J Biochem, 2010, 256(3):528-534.
[10] SCHWECKE T, APARICIO J F, MOLNAR I, et al. The biosynthetic gene cluster for the polyketide immunosuppressant rapamycin[J]. Proc Natl Acad Sci USA, 1995, 92(17):7839-7843.
[11] DU Liangcheng, SÁNCHEZ C, CHEN Mei, et al. The biosynthetic gene cluster for the antitumor drug bleomycin from Streptomyces verticillus ATCC15003 supporting functional interactions between nonribosomal peptide synthetases and a polyketide synthase[J]. Chem Biol, 2000, 7(8):623-642.
[12] TANG Li, SHAH S, CHUNG L, et al. Cloning and heterologous expression of the epothilone gene cluster[J]. Science, 2000, 287(5453):640-642.
[13] COX R J. Polyketides, proteins and genes in fungi:programmed nano-machines begin to reveal their secrets[J]. Org Biomol Chem, 2007, 5(13):2010-2026.
[14] SESHIME Y, JUVVADI P R, KITAMOTO K, et al. Aspergillus oryzae type Ⅲ polyketide synthase CsyA is involved in the biosynthesis of 3, 5-dihydroxybenzoic acid[J]. Bioorg Med Chem Lett, 2010, 20(16):4785-4788.
[15] KROKEN S, GLASS N L, TAYLOR J W, et al. Phylogenomic analysis of type Ⅰ polyketide synthase genes in pathogenic and saprobic ascomycetes[J]. Proc Natl Acad Sci USA, 2003, 100(26):15670-15675.
[16] SISKOS A P, BAERGA-ORTIZ A, BALI S, et al. Molecular basis of Celmer's rules:stereochemistry of catalysis by isolated ketoreductase domains from modular polyketide synthases[J]. Chem Biol, 2005, 12(10):1145-1153.
[17] BALI S, O'HARE H M, WEISSMAN K J. Broad substrate specificity of ketoreductases derived from modular polyketide synthases[J]. Org Biomol Chem, 2006, 7(3):478-484.
[18] CHALLIS G L, RAVEL J, TOWNSEND C A. Predictive, structure-based model of amino acid recognition by nonribosomal peptide synthetase adenylation domains[J]. Chem Biol, 2000, 7(3):211-224.
[19] 黎志凤, NGUIMBI E, 李越中, 等.埃博霉素(Epothilones)的PKS/NRPS杂合基因簇[J].生物工程学报, 2003, 19(5):511-515.

LI Zhifeng, NGUIMBI E, LI Yuezhogn, et al. The PKS/NRPS hetero-gene cluster of epothilones[J]. Chin J Biotechnol, 2003, 19(5):511-515.
[20] BOETTGER D, HERTWECK C. Molecular diversity sculpted by fungal PKS-NRPS hybrids[J]. Chem Biol Chem, 2013, 14(1):28-42.
[21] MIYANAGA A, KUDO F, EGUCHI T. Protein-protein interactions in polyketide synthase-nonribosomal peptide synthetase hybrid assembly lines[J]. Nat Prod Rep, 2018, 14(1):28-42.
[22] BOK J W, HOFFMEISTER D, MAGGIOHALL L A, et al. Genomic mining for Aspergillus natural products[J]. Chem Biol, 2006, 13(1):31-37.
[23] LIU Wencai, YANG Fan, ZHANG Ran, et al. Production of polyketides with anthelmintic activity by the fungus Talaromyces wortmannii using one strain-many compounds (OSMAC) method[J]. Phytochem Lett, 2016, 18:157-161.
[24] YUAN Chao, GUO Yuhua, WANG Haiying, et al. Allelopathic polyketides from an endolichenic fungus Myxotrichum sp. by using OSMAC strategy[J]. Sci Rep, 2016, 6:19350.
[25] 季香云, 杨长举.白僵菌的致病性与应用[J].中国生物防治学报, 2003, 19(2):82-85.

JI Xiangyun, YANG Changju. Infection and application of Beauveria spp.[J]. Chin J Biol Control, 2003, 19(2):82-85.
[26] WEBER T, BLIN K, DUDDELA S, et al. antiSMASH 3.0-a comprehensive resource for the genome mining of biosynthetic gene clusters[J]. Nucleic Acids Res, 2015, 43(W1):W237-W243.
[27] ELEY K L, HALO L M, SONG Z, et al. Biosynthesis of the 2-pyridone tenellin in the insect pathogenic fungus Beauveria bassiana[J]. Chem Biol Chem, 2007, 8(3):289-297.
[28] SONG Z, COX R J, LAZARUS C M, et al. Fusarin C biosynthesis in Fusarium moniliforme and Fusarium venenatum[J]. Chem Biol Chem, 2004, 5(9):1196-1203.
[29] 原晓龙, 陈剑, 张传光, 等.长松萝中非核糖体肽合成酶NRPS基因克隆与鉴定[J].西部林业科学, 2016, 45(1):14-20.

YUAN Xiaolong, CHEN Jian, ZHANG Chuanguang, et al. The genetic clone and identification of non-ribosomal peptides synthetases (NRPS) from Usnea longissima[J]. J West China For Sci, 2016, 45(1):14-20.
[30] HEMPHILL C F, SUREECHATCHAIYAN P, KASSACK M U, et al. OSMAC approach leads to new fusarielin metabolites from Fusarium tricinctum[J]. J Antibiot, 2017, 70(6):726-732.