在此过程中,多种同源异型盒基因的表达发挥了重要的调控作用。
Recently, homeobox genes have been detected in vascular smooth muscle cells, and may play an important role in regulating these processes.
目的探讨同源异型盒基因CDX1和CDX2胆对食管腺癌细胞表型的影响。
Objective To study the effect of homeobox genes CDX1 and CDX2 on the phenotype of esophageal adenocarcinoma cells.
植物同源异型基因及同源异型盒基因是涉及植物个体发育调节的两类重要转录因子编码基因。
Plant homeotic genes and homeobox genes are two types of the important genes encoding transcription factors involved in plant development.
这些器官的性质由花的“同源异型基因”决定,决定花的器官数和对称性等的基因族也在起作用。
These floral organs are specified by floral homeotic genes, as well as genes which specify the number and symmetry of floral organ.
现就同源异型盒基因与血管平滑肌细胞的表型调变、增殖和迁移的关系等方面的研究进展作一综述。
This paper will review the homeobox genes involve in the phenotypic modulation, proliferation and migration of vascular smooth muscle cells.
这对进一步深入研究同源异型突变的花发育机理、雄性不育机理以及应用价值有着十分重要的意义。
It is very important to study further mechanism of floral development and male sterile line of HGMS as well as its practicality.
不结球白菜同源异型突变雄性不育系hgms由于花器官开裂滞后,雌蕊损伤、柱头老化致使自然结实性较差。
Because blooming hysteresis of the floral organs of HGMS and the lesion of its pistil and aging stigma resulted in bad natural fecundity.
经典的ABC模型有效地解释了花器官发育的分子机制,可以广泛地解释因同源异型基因的突变而引起的植物花器官变异。
The classical ABC model illustrated the molecular mechanism of floral development, and explained the floral organ mutants of homeotic gene.
经典的ABC模型有效地解释了花器官发育的分子机制,可以广泛地解释因同源异型基因的突变而引起的植物花器官变异。
The classical ABC model illustrated the molecular mechanism of floral development, and explained the floral organ mutants of homeotic gene.
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