kinetochore

kinetochore

1. median kinetochore

中央着丝粒

2. The metaphase plate would thus be the null point between two equal but oppositely directed and acting groups of kinetochore tubules

中期板大概是两个相等而方向相反的放射状着丝点微管群之间的平衡点。

3. Advance in the Research of Human Chromosome Kinetochore Proteins

人类染色体动粒蛋白研究进展

4. kinetochore fiber

动力纤维

5. kinetochore checkpoint

动粒关卡

6. kinetochore splitting

动粒分裂

7. kinetochore motor

动粒发动蛋白

8. kinetochore tension

动粒张力

9. kinetochore plate

动粒板

10. kinetochore fibres

动粒纤维,着丝粒丝,着丝粒微管

11. kinetochore protein

动粒蛋白

12. kinetochore assembly

动粒装配

13. kinetochore movement

动粒运动

14. kinetochore mobility

动粒运动性

15. multiple kinetochore

复着丝粒

16. sister kinetochore

姐妹动粒

17. naked kinetochore

无染色质着丝点

18. Keywords mitosin;mitosis;kinetochore;spindle;motor protein;checkpoint;

有丝分裂;动粒;纺锤体;马达分子;检查点;

19. The kinetochore thin.The kinetochore was not found on each SC in our experiments and probable reason has been discussed.

未发现银染SC具有着丝粒，并对可能的原因做了分析讨论。

20. Effects of ELF magnetic fields exposure with or without X-rays on induction of kinetochore positive and negative micronuclei in CHO cells

极低频磁场联合或不联合X射线对CHO细胞动粒阳性和阴性微核生成的影响

21. diffuse kinetochore

漫散着丝粒

22. The centromere contains the kinetochore, a structure involved in the attachment of the chromosomes to the spindle during nuclear division.

着丝点上包含了着丝粒，着丝粒确保细胞在分裂中染色体与纺锤体的整合，发生有序的染色体分离。

23. kinetochore microtubule

着丝点微管

24. The distal end of the kinetochore tubule is firmly embedded in the pole

着丝点微管的末端牢牢地埋入纺锤极。

25. kinetochore domain

着丝粒区

26. kinetochore organizer

着丝粒组织者

27. Centromere The region of the chromosome that contains the kinetochore, the structure that becomes attached to the nuclear spindle during mitosis and meiosis.

着丝粒：染色体上包含着丝点的区域，在细胞有丝分裂和减数分裂期间与纺锤体相整合的一种结构。

28. secondary kinetochore

第二动原体

29. Keywords Spindle;Spindle checkpoint;Cell cycle;Kinetochore;Mitosis;

纺锤体;纺锤体检验点;细胞周期;着丝点;有丝分裂;

30. submedian kinetochore

近中间动原体

31. These findings provide insights into the evolution of meiosis and kinetochore regulation during mitosis and meiosis.

这些发现为研究减数分裂以及有丝分裂和减数分裂中动粒调节的演变提供了基础。

32. STUDY OF CHROMOSOMAL POLYMORPHISM AND KINETOCHORE OF THE BLACK MUNTJAC (MUNTIACUS CRINIFRONS)

黑鹿(Muntiacus. crinifrons)染色体的多态及着丝粒的研究