Li Hsing-Hsi, Chiang Chuen-Sheue, Huang Hsiao-Yu, Liaw Gwo-Jen
Department of Life Sciences and Institute of Genome Sciences, National Yang-Ming University, Taipei, 112 Taiwan, ROC.
J Biomed Sci. 2009 Jun 1;16(1):51. doi: 10.1186/1423-0127-16-51.
High levels of Hepatoma Up-Regulated Protein (HURP) and Tousled-Like Kinase (TLK) transcripts are found in hepatocellular carcinoma. HURP overexpression induces anchorage-independent growth of 293-T cells and enhances a rough-eye phenotype resulting from tlk overexpression in Drosophila. In addition, both HURP and Mars, a Drosophila HURP sequence homologue, promote polymerization of mitotic spindles. Thus, the genetic interaction of mars with tlk might be required for accurate chromosome segregation.
To reveal whether chromosome fidelity was decreased, the frequency of gynandromorphy, an individual with both male and female characteristics, and of non-disjunction were measured in the progeny from parents with reduced mars and/or tlk activities and analyzed by Student's t-test. To show that the genetic interaction between mars and tlk is epistatic or parallel, a cytological analysis of embryos with either reduced or increased activities of mars and/or tlk was used to reveal defects in mitotic-spindle morphology and chromosome segregation.
A significant but small fraction of the progeny from parents with reduced mars activity showed gynandromorphy and non-disjunction. Results of cytological analysis revealed that the decrease in chromosome fidelity was a result of delayed polymerization of the mitotic spindle, which led to asynchronous chromosome segregation in embryos that had reduced mars activity. By removing one copy of tousled-like kinase (tlk) from flies with reduced mars activity, chromosome fidelity was further reduced. This was indicated by an increased in the non-disjunction rate and more severe asynchrony. However, the morphology of the mitotic spindles in the embryos at metaphase where both gene activities were reduced was similar to that in mars embryos. Furthermore, tlk overexpression did not affect the morphology of the mitotic spindles and the cellular localization of Mars protein.
Chromosome fidelity in progeny from parents with reduced mars and/or tlk activity was impaired. The results from cytological studies revealed that mars and tlk function in parallel and that a balance between mars activity and tlk activity is required for cells to progress through mitosis correctly, thus ensuring chromosome fidelity.
在肝细胞癌中发现高水平的肝癌上调蛋白(HURP)和类Tousled激酶(TLK)转录本。HURP过表达诱导293 - T细胞的锚定非依赖性生长,并增强果蝇中tlk过表达导致的粗糙眼表型。此外,HURP和果蝇HURP序列同源物Mars都促进有丝分裂纺锤体的聚合。因此,Mars与tlk的遗传相互作用可能是准确染色体分离所必需的。
为了揭示染色体保真度是否降低,在具有降低的Mars和/或tlk活性的亲本后代中测量雌雄嵌合体(具有雄性和雌性特征的个体)和不分离的频率,并通过学生t检验进行分析。为了表明Mars和tlk之间的遗传相互作用是上位性的还是平行的,对具有降低或增加的Mars和/或tlk活性的胚胎进行细胞学分析,以揭示有丝分裂纺锤体形态和染色体分离中的缺陷。
Mars活性降低的亲本后代中有一小部分出现了显著的雌雄嵌合体和不分离现象。细胞学分析结果表明,染色体保真度的降低是有丝分裂纺锤体聚合延迟的结果,这导致了Mars活性降低的胚胎中染色体分离不同步。通过从Mars活性降低的果蝇中去除一个类Tousled激酶(tlk)拷贝,染色体保真度进一步降低。这表现为不分离率增加和更严重的不同步。然而,在中期基因活性都降低的胚胎中,有丝分裂纺锤体的形态与Mars胚胎中的相似。此外,tlk过表达不影响有丝分裂纺锤体的形态和Mars蛋白的细胞定位。
Mars和/或tlk活性降低的亲本后代的染色体保真度受损。细胞学研究结果表明,Mars和tlk平行发挥作用,细胞正确进行有丝分裂需要Mars活性和tlk活性之间的平衡,从而确保染色体保真度。
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