按下列公 水稻纹枯病菌、黄瓜菌核病菌(Sclerotinia 式计算抑制率: 大斑病菌(Exserohilum turcicum)等植物病原菌,均由 孢子萌发率(%)=寝鐾徽×100,抑制率(%) : 塑堑蒹嘉裳掣×100。
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玉米大斑病菌 Exserohilum turcicum ; Helminthosporium turcicum ; Setosphearia turcica
大豆灰斑病菌 Cercospora sojina ; Cercospora sojina Hara ; Cercosporidium sojinum ; CERCOSPOORA SOJINA HARA
大豆紫斑病菌 Cercospora kikuchii
大蒜白斑病菌 Stemphylium solani
大豆抗灰斑病菌 Cercospora sojina
杨树大斑溃疡病菌 Dothichiza canker
菜用大豆细菌斑疹病 Soybean bacterial pustule
大麦褐斑病菌 Bacillus hordei Hori
大豆褐斑病菌 Mycosphaerella sojae Hore
Using REMI transformation techniques, we obtained 310 REMI transformants of Setosphaeria turcica 01-23.
利用REMI技术转化玉米大斑病菌野生菌株01-23,共获得了310个玉米大斑病菌REMI转化子。
参考来源 - 玉米大斑病菌REMI插入突变体的获得及筛选·2,447,543篇论文数据,部分数据来源于NoteExpress
研究结果说明,氮元素对玉米大斑病菌的生长和发育有非常重要的作用。
It was proved that nitrogen played an important role on the growth and development of the corn pathogen.
通过比较不同温度下的菌丝生长量,分析出广州地区玉米大斑病菌的主要构成属于高温型。
The comparison of weight of hyphae growing among strains shows that constitution of strains caused leaf blight of corn in Guangzhou belongs to type of fungi adapted to high temperature.
玉米大斑病菌小种的毒力变异和毒力多样化可能是山西省近年大斑病再度严重发生的主要原因。
Virulence variations and diversification of the RACES may be the main cause of renewedly severe occurrence of the NCLB in Shanxi.
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