[1]解淀粉芽孢杆菌TWC2发酵条件的优化. 梁艳琼,黄兴,吴伟怀,李锐,郑金龙,习金根,贺春萍,易克贤. 2017

[2]一种新的黄瓜细菌性叶斑病拮抗细菌的筛选鉴定及其发酵条件的初步研究. 穆晓雅,谭志琼,刘铜,彭正强,张荣意. 2019

[3]淀粉芽孢杆菌HAB-7对18株植物病原真菌的抑制作用. 刘文波,秦春秀,熊燕红,孙亮,林春花,缪卫国,郑服丛. 2017

[4]一株具有广谱抗真菌活性的解淀粉芽孢杆菌的分离鉴定. 刘小玉,付登强,刘立云,黄丽云,齐兰. 2021

[5]咪鲜胺和吡唑醚菌酯对杧果炭疽病菌的复配作用研究. 钟祯凯,康浩,吴诚,杨石有,刘晓妹. 2017

[6]咪鲜胺和吡唑醚菌酯对杜果炭疽病菌的复配作用研究. 钟祯凯,康浩,吴诚,杨石有,刘晓妹,蒲金基,谢艺贤,张贺. 2017

[7]蓖麻根际土壤解钾菌的筛选鉴定及发酵条件的优化. 张妙宜,陈宇丰,周登博,起登凤,高祝芬,张锡炎. 2016

[8]根结线虫拮抗放线菌菌株DA07118的筛选与鉴定及其发酵条件的优化. 曾庆飞,李传浩,黄惠琴,方哲,鲍时翔. 2009

[9]Transcriptome characterization and expression profiles of the related defense genes in postharvest mango fruit against Colletotrichum gloeosporioides. Hong, Keqian,Gong, Deqiang,Zhang, Lubin,Hu, Huigang,Jia, Zhiwei,Gu, Hui,Song, Kanghua. 2016

[10]Cloning of a carbendazim-resistant gene from Colletotrichum gloeosporioides of mango in South China. Ru-Lin, Zhan,Jun-Sheng, Huang. 2007

[11]The analysis of T-DNA insertional Colletotrichum gloeosporioides in Stylo pathogenicity-weakened mutant strain 1681. Xu, Peidong,Xu, Peidong,Zheng, Xiaolan,Tang, Wen,Li, Qiujie,Wu, Weihuai,Xi, Jingen,Liang, Yanqiong,Zheng, Jinlong,Li, Rui,Zhang, Chicheng,Yi, Kexian,He, Chunping,Tang, Wen,Li, Qiujie,Zhang, Chicheng,Yi, Kexian,Zhang, Xiaobo,Zhang, Xiaobo. 2015

[12]Antifungal Activity of Compounds Extracted from Cortex Pseudolaricis against Colletotrichum gloeosporioides. Zhang, Jing,Yuan, En-Lin,Ye, Huo-Chun,Zhang, Zheng-Ke,Yan, Chao,Feng, Gang,Zhang, Jing,Yuan, En-Lin,Ye, Huo-Chun,Zhang, Zheng-Ke,Yan, Chao,Feng, Gang,Yan, Li-Ting,Liu, Ying-Qian,Yuan, En-Lin,Ding, Hai-Xin.

[13]The Colletotrichum gloeosporioides perilipin homologue CAP 20 regulates functional appressorial formation and fungal virulence. Lin, Chunhua,Liu, Xianbao,Shi, Tao,Li, Chaoping,Huang, Guixiu,Lin, Chunhua. 2018

[14]Alterations of growth, antioxidant system and gene expression in Stylosanthes guianensis during Colletotrichum gloeosporioides infection. Wang, Hui,Jia, Yanxing,Luo, Lijuan,Chen, Zhijian,Liu, Guodao,Bai, Changjun,Qiu, Hong. 2017

[15]Identifying pathogenicity genes in the rubber tree anthracnose fungus Colletotrichum gloeosporioides through random insertional mutagenesis. Cai, Zhiying,Cai, Zhiying,Lin, Chunhua,Shi, Tao,Chen, Yipeng,Huang, Guixiu,Cai, Zhiying,Li, Guohua,Zhai, Ligang. 2013

[16]beta-Aminobutyric acid induces resistance of mango fruit to postharvest anthracnose caused by Colletotrichum gloeosporioides and enhances activity of fruit defense mechanisms. Zhang, Zhengke,Gao, Zhaoyin,Li, Min,Hu, Meijiao,Yang, Dongping,Yang, Bo,Zhang, Zhengke,Jiang, Yueming. 2013

[17]The laccase gene (LAC1) is essential for Colletotrichum gloeosporioides development and virulence on mango leaves and fruits. Wei, Yunxie,Liu, Yanan,Zhou, Fangxue,Zhang, Kaili,Liu, Xiaomei,Wei, Yunxie,Liu, Yanan,Zhou, Fangxue,Zhang, Kaili,Liu, Xiaomei,Pu, Jinji,Zhang, He. 2017

[18]Purification and identification of cutinases from Colletotrichum kahawae and Colletotrichum gloeosporioides. Chen, Zhenjia,Franco, Catarina F.,Baptista, Ricardo P.,Cabral, Joaquim M. S.,Coelho, Ana V.,Rodrigues, Carlos J., Jr.,Melo, Eduardo P..

[19]Colletotrichum gloeosporioides can overgrow Colletotrichum kahawae on green coffee berries first inoculated with C-kahawae. Chen, ZJ,Liang, JS,Rodrigues, CJ.

[20]拮抗香蕉枯萎病菌的解淀粉芽孢杆菌LX1菌株的鉴定及其抗菌蛋白基因的克隆. 卢娟,夏启玉,顾文亮,孙建波,卢雪花,张欣,王宇光. 2013