隐球菌芽殖细胞的根很细。
可见带有假菌丝的芽殖细胞是假丝酵母感染的特征。
Budding cells with pseudohyphae seen here are characteristic for Candida infection.
这些细胞会进而成熟和分殖。
在这里,我们表明,在芽殖酵母,在细胞周期细胞的增值能力在变化。
Here we show that in budding yeast, the ability of cells to grow changes during the cell cycle.
通过光学和生理学手法,研究人员能够观察到病毒组合、芽殖甚至与细胞表面分离的步骤。
Through optical and physiological approach, the researchers observed that the virus could mix with the bud yields even on the surface of separation steps.
在这项研究中用的两种生物,单细胞芽殖酵母和秀丽隐杆线虫,是研究老化过程的常用模式。
The two organisms used in this study, the single-celled budding yeast and the roundworm C. elegans, are commonly used models for aging research.
恶性疟原虫裂殖子表面主要蛋白- 1,又称P 195,与人红细胞膜具有结合作用,这种结合是裂殖子识别红细胞的基础。
Major merozoite surface antigen-1, P195, is found to have ability to bind to human erythrocyte. The binding is the base of recognition of merozoite to erythrocyte.
就芽殖酵母细胞周期检查点调控加以介绍。
The checkpoint regulation of budding yeast cell cycle was introduced in this paper.
结论:DND1可能参与调节细胞増殖、迁移及细胞转化等过程。
Conclusion These results suggest that DND1 may involve in the process of cell proliferation, migration and transformation.
基于芽殖酵母细胞形态的特征,提出了毕氏酵母甘油流加发酵过程的细胞循环模型。
Based on the morphological characteristics of budding yeast, a cell cycle model during the p.
描述对免疫抑制小鼠肠上皮细胞寄生的隐孢子虫滋养体、裂殖体和大配子的超微结构及肠上皮细胞改变的透射电镜观察结果。
The ultrastructure of Cryptosporidium parvum, which parasitized on the surface of the intestine of the immunosuppressed mice, was studied by transmission electron microscopy.
以反转录调节基因转殖,转换具有ADA基因的自体造血干细胞对他们进行治疗。
They were treated with transduced autologous hematopoietic stem cells transfected with the ADA gene, inserted via retroviral-mediated transfer.
以反转录调节基因转殖,转换具有ADA基因的自体造血干细胞对他们进行治疗。
They were treated with transduced autologous hematopoietic stem cells transfected with the ADA gene, inserted via retroviral-mediated transfer.
应用推荐