1.
Active Oxygen Release and Membrane Lipid Peroxidation in the Interaction of Marssonina brunnea Elicitor and Poplar Suspension Cell
杨树与杨盘二孢菌激发子互作进程中活性氧的释放及膜脂过氧化
2.
Function and Chromosomal Localization of Differentially Expressed Genes Induced by Marssonina Brunnea f.sp. Multigermtubi in Populus Deltoides;
杨盘二孢菌诱导的杨树差异表达基因的功能分析和染色体定位
3.
Proteomic Analysis of Differentially Expressed Proteins in Poplar Leaves Induced by Marssonina Brunnea f.sp. Multigermtubi;
杨盘二孢菌侵染后杨树叶片差异表达蛋白质的鉴定
4.
Spore Image Recognition of Poplar Disease
杨树病害孢子的图像识别技术研究
5.
Identification and Herbicidal Active Fraction Analysis of Pestalotiopsis Microspora;
小孢拟盘多毛孢的鉴定与除草活性物质分析
6.
As a result, dyad spores formed.
结果形成二分体孢子。
7.
Analysis on physical and chemical factors of urediospores germinating of Melampsora larici-populina Klebon
松杨栅锈菌夏孢子萌发的理化因素分析
8.
Preliminary Study on Isolation and Mechanism of Herbicidal Active Fractions from Pestalotiopsis Microspora
小孢拟盘多毛孢除草活性物质的分离和除草机理研究
9.
Formation of Pycnidium and Accumulation of Carotenoid in Pestalotiopsis sp. F Induced by Blue Light
蓝光诱导拟盘多毛孢菌分生孢子器产生和类胡萝卜素的积累
10.
Mr. Yang was from Shanghai, his principal wife from Margin and his second wife from Suzhou.
杨先生是上海人,杨太太是天津人,杨二太太是苏州人。
11.
Diversity of Plant Endophytic Pestalotiopsis in Hainan and Molecular Phylogenetics of Pestalotiopsis;
海南植物内生拟盘多毛孢的多样性及拟盘多毛孢属分子系统学研究
12.
A disk-shaped or cup-shaped ascocarp of some lichens and the fungi Ascomycetes.
子囊盘,裸子器某些地衣和子囊菌的盘状或杯状子囊孢子
13.
Resource, Diversity and Taxonomy of Endophytic Pestalotiopsis on Camellia Sinensis in Hangzhou;
杭州茶内生拟盘多毛孢资源、多样性及分类研究
14.
Studies od Biological Characteristics of Pestalotia Funerea and Its Toxin;
枯斑盘多毛孢菌生物学特性及毒素的研究
15.
Preliminary Study on Direct Infection of Rapeseed Leaves via Ascospores of Sclerotinia sclerotiorum
核盘菌子囊孢子直接侵染油菜叶片初步研究
16.
Four Kinds of Pestalotiopsis Diseases Were Identified in the Palmae Plant
棕榈科植物4种拟盘多毛孢病害的鉴定
17.
Hong Kong property prices rising Yang 1,000 frenzied stew slowly value for beta. Moldy plate showing.
香港豪宅房价疯狂上涨杨千?霉盘炖值让β蚍?
18.
A method of obtaining the formula of the electron configuration (l_+~(n-1)l_-~1) orthogonal young table;
确定电子组态(l_+~(n-1)l_-~1)正交杨盘的公式方法