星体形成正在发育的纺锤体的两极。
染色体排列于纺锤体赤道板上;
微丝是控制纺锤体旋转的关键因素;
Microfilaments play a crucial role in regulating spindle rotation.
极光激酶A参与中心体分离、成熟和纺锤体组装及稳定。
Aurora a is involved in centrosome separation, maturation, and spindle assembly and stability.
目的探讨女性年龄对卵母细胞纺锤体和染色体构型的影响。
Objective To study the effect of maternal age on meiotic spindle and chromosome configuration of oocytes.
目的:观察环境温度的改变对MII期人卵纺锤体结构的影响。
AIM: To observe the effect of the environmental temperature on spindles in MII oocytes.
Auroraa涉及到中心体分离,成熟和纺锤体聚集以及稳定。
Aurora a is involved in centrosome separation, maturation, and spindle assembly and stability.
它在细胞分裂之前复制,其中一个中心粒移向细胞的另一端,组织纺锤体和中心体。
Prior to cell division it replicates, and the sister centrioles move to opposite ends of the cell to lie within the spindle - organizing structure, the centrosome.
一个人在睡眠中经历的睡眠纺锤体越多,他们在运用自己词汇表中的词汇方面就越成功。
The more sleep spindles a person experienced during sleep, the more successful they were in using new words in their vocabulary.
伴随着纺锤体多极率的增加,微重力72小时后,细胞的染色体众数由61变为62。
The mode number of chromosomes also varies with the multiple polar spindle rates from 61 to 62 after simulated microgravity for 72hours.
这些凋亡细胞会呈现出不同程度上的染色体臂解凝集,此时的动粒还与纺锤体的微管结合。
The dying cells exhibited progressive chromosome arm decondensation while the kinetochores were still associated with spindles.
着丝点是一个大分子物质,位于染色体的着丝粒上,在有丝分裂期间,是纺锤体微管附着的位置。
The kinetochores are the macromolecular structure that is associated with the centromeres of chromosomes and serves as the site of spindle microtubule attachment during mitosis.
一些大脑皮质里也控制视觉和听觉的区域,比如纺锤体,在人失去视力后会扩大范围来利用视觉中枢里的闲置网络。
Also, some regions of cerebral cortex that border visual and auditory cortices—the left fusiform gyrus, for example—expand territory in blind people to make use of the idle circuitry in visual cortex.
准确的染色体分离依赖于有丝分裂过程的精确调控,包括有丝分裂的时间,及纺锤体检查点的正确调控等。
Accurate chromosome segregation depends on the precise regulation of mitotic progression, including the timing of mitosis and proper regulation of spindle assembly checkpoint.
在纺锤体迁移的过程中,一个无微绒毛但富含微丝的区域形成于其上方皮质区域。至此,卵母细胞的极性形成。
During spindle migration, an area enriched in actin microfilaments and devoid of microvilli begins to form in the cortex overlying the spindle, and prominent cortical polarity develops.
细胞学观察表明,6一dmap阻止了纺锤体的形成和染色体的移动,导致一个融合的二倍性雄性原核的形成。
According to Cytological observations, 6-dmap disrupted the spindle at mitosis and inhibited chromosome movement, resulting in the formation of one diploid male nucleus.
紫杉醇还能抑制有丝分裂所需的微管网再生,妨碍有丝分裂纺锤体的形成导致染色体的断裂,抑制了肿瘤细胞的复制。
Taxol can inhibit mitosis of the microtubule network renewable, prevent mitotic spindle lead to the formation of chromosome break, inhibit the replication of tumor cells.
Heald长期以来对细胞内部结构的尺寸调控有着浓厚兴趣,尤其是对细胞核和在细胞分裂时牵拉染色体的纺锤体。
Heald has long been interested in what regulates the size of a cell's internal structures - in particular, the nucleus and the spindles that pull chromosomes apart during cell division.
目的建立用人类淋巴母细胞TK 6检测纺锤体毒物——长春花碱的TK基因突变试验方法,同时探讨长春花碱的遗传毒性分子机理。
Objective To establish TK gene mutation assay using human lymphoblastoid cell line TK6 and to study the genotoxic mechanism of Vinblastine(VBL).
中心体作为细胞的主要微管组织中心,在细胞周期过程中建立两极纺锤体,调节细胞有丝分裂,从而对维持染色体的稳定起着重要的作用。
The centrosome, the major microtubule organizing center regulates cell division through forming bipolar mitotic spindles and plays an essential role in the maintenance of chromosomal stability.
中心体作为细胞的主要微管组织中心,在细胞周期过程中建立两极纺锤体,调节细胞有丝分裂,从而对维持染色体的稳定起着重要的作用。
The centrosome, the major microtubule organizing center regulates cell division through forming bipolar mitotic spindles and plays an essential role in the maintenance of chromosomal stability.
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