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减数分裂遗传重组对同源染色体的正确分离和单倍体的正确形成起至关重要的作用,但人们对人精母细胞减数分裂遗传重组机制了解的还很少。通过免疫荧光染色技术标记减数分裂I联会复合体上的MLH1(DNA错配修复蛋白)位点可以检测人精母细胞的重组。文章对10例可育男性进行分析,发现每个细胞中重组位点数平均为49.4士4.4,范围为33~63,具有显著的个体差异,只有0.4%(1/220)的常染色体SC上缺少MLH1位点。进一步通过Spearman相关性分析,分析了年龄因素与个体间重组位点差异的相关性,结果提示年龄因素对常染色体及性染色体的重组均无影响。 相似文献
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联会复合体:减数分裂的结构基础 总被引:1,自引:0,他引:1
减数分裂是有性生殖生物产生单倍体配子的特殊分裂方式,其第一次分裂(减数分裂I)过程中同源染色体的行为是最突出的特征。在减数分裂I,同源染色体间形成的联会复合体通过促进和调控程序性DNA双链断裂的形成和修复,确保同源染色体正确的识别、配对、重组和分离,从而为减数分裂I的顺利完成提供保障。本综述对联会复合体的组成和功能研究进展进行了回顾,探讨了联会复合体的组装如何影响程序性DNA双链断裂的修复和交叉互换的形成,并总结了与人类生殖障碍相关的联会复合体成分突变,还对该领域未来研究方向进行了展望。 相似文献
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减数分裂时期染色体行为作为遗传学三大遗传规律(基因分离规律、基因自由组合定律及连锁遗传规律)的细胞学基础,是遗传学教学中的重点,也是生命科学前沿研究的焦点。快速发展的分子生物学为减数分裂的分子机制提供了更深的认识和理解,并出现一些与教科书内容不一致的情况。本文对减数分裂研究前沿进行简单综述,重点阐述对减数分裂时期配对、联会和重组关系的新认识,以期将前沿研究融入遗传学教学之中,从而激发学生的学习兴趣,提高授课效果。 相似文献
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本文采用表面铺展法, 应用AgNO3及PTA 染色技术研究了达乌尔黄鼠精母细胞联会复合体。根据对10个精母细胞SC 的测量结果, 作出了达乌尔黄鼠SC 的核型, 并与有丝分裂核型进行了比较。本文对XY 配对行为进行了讨论, 同时按性染色体配对特征划分了SC 在粗线期的不同发展阶段。 相似文献
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黄鳝减数分裂和联会复合体组型分析 总被引:5,自引:2,他引:5
联会复合体(Synaptonemal Complex,SC)是减数分裂前期同源染色体配对形成的一种非永久性核内细胞器,同染色体配对、遗传交换以及染色体的分离有着密切的关系。自Moses和Fawcett的早期工作以来,围绕着SC的结构、行为及化学组成等开展了大量的工作,积累了丰富的资料。近年来,由于界面铺张技术的发展,进一步推动了 相似文献
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在多数有性生殖生物中,减数分裂第一次分裂前期同源染色体间会形成一种复杂的超级蛋白结构——联会复合体(Synaptonemal complex,SC)。该结构与同源染色体间的配对、联会、交换、分离等过程密切相关。若其出现异常,将可导致性母细胞大量凋亡,宏观上即表现为生物个体不育。近年来,该结构已成为减数分裂研究领域的一个热点,但其控制机理至今所知还十分有限。文章对联会复合体的组成、功能及其遗传控制等情况进行概述,并对其未来的研究进行探讨和展望。 相似文献
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正向遗传学突变体筛选被广泛用于揭示减数分裂中涉及的遗传基因, 如调控减数分裂II型交叉形成途径的重组抑制基因。该研究利用拟南芥(Arabidopsis thaliana)花粉荧光标记系进行EMS突变体的正向遗传学筛选, 鉴定拟南芥野生型Col遗传背景下的重组抑制突变体, 共获得18个重组率显著提高3倍以上的重组抑制突变体, 其中包括显性和隐性遗传突变。研究表明, 基于荧光标记高通量鉴定重组抑制突变体是可行的, 可为植物减数分裂重组调控分子机制研究提供新方法和突变材料。 相似文献
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Edith Y. Cheng Patricia A. Hunt Theresa A. Naluai-Cecchini Corrine L. Fligner Victor Y. Fujimoto Tanya L. Pasternack Jackie M. Schwartz Jody E. Steinauer Tracey J. Woodruff Sheila M. Cherry Terah A. Hansen Rhea U. Vallente Karl W. Broman Terry J. Hassold 《PLoS genetics》2009,5(9)
Studies of human trisomies indicate a remarkable relationship between abnormal meiotic recombination and subsequent nondisjunction at maternal meiosis I or II. Specifically, failure to recombine or recombination events located either too near to or too far from the centromere have been linked to the origin of human trisomies. It should be possible to identify these abnormal crossover configurations by using immunofluorescence methodology to directly examine the meiotic recombination process in the human female. Accordingly, we initiated studies of crossover-associated proteins (e.g., MLH1) in human fetal oocytes to analyze their number and distribution on nondisjunction-prone human chromosomes and, more generally, to characterize genome-wide levels of recombination in the human female. Our analyses indicate that the number of MLH1 foci is lower than predicted from genetic linkage analysis, but its localization pattern conforms to that expected for a crossover-associated protein. In studies of individual chromosomes, our observations provide evidence for the presence of “vulnerable” crossover configurations in the fetal oocyte, consistent with the idea that these are subsequently translated into nondisjunctional events in the adult oocyte. 相似文献
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真核生物减数分裂重组热点的研究进展 总被引:3,自引:0,他引:3
真核生物减数分裂过程中基因组中某些区域会发生较其他区域高的重组频率,这些区域被称作减数分裂重组热点。该现象首先在酵母的研究中发现,重组区域因含有启动重组的特异位点,从而使基因组中呈现出重组不均匀分布的特征。重组热点还在真菌、玉米和人类等真核生物中发现。本文列举了不同真核生物体中具有代表性鉴别重组热点的方法,总结了目前减数分裂重组热点的研究现状,探讨了引起真核生物减数分裂交换活跃的因子和机制,并就当前存在的问题和今后发展的前景进行了讨论。 相似文献
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Epithelial cells growing around primary explants of carcinomas in plastic ware are well-suited for modern incident light immunofluorescence microscopy. Epithelial outgrowths in growth culture medium are flushed with phosphate-buffered saline (PBS) and absolute ethanol and snap-frozen in liquid nitrogen-isopentane. the walls of the plastic containers bearing the dried monolayer outgrowths are cut out to form microscope slides. Immunofluorescence testa are made on circular areas demarcated on the monolayers by using small metal cylinders to mask against a water-repellent plastic spray. More than 20 immunofluorescence tests can be performed on a culture 40 × 50 mm. 相似文献
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C. B. Taylor 《The Plant cell》1997,9(9):1505-1508
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Salmonellae stained with flagellar sera by either the direct or indirect fluorescent-antibody technique fluoresced at the cell surface. Investigations showed that fimbriae, flagellar material, and capsule antigens were not the participating antigens in this reaction. Cell surface staining was inhibited by mannose but was unaffected by glucose, galactose, lactose, maltose, and sucrose. Specific absorption of the flagellar sera by intact cells and purified somatic antigen showed that O antigens were the site of the surface staining. The advantages of using flagellar sera in fluorescent-antibody screening of materials for the presence of salmonellae are discussed. 相似文献
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Asela J. Wijeratne Hong Ma 《植物学报(英文版)》2007,49(8):1199-1207
Meiosis is essential for sexual reproduction and recombination is a critical step required for normal meiosis. Understanding the underlying molecular mechanisms that regulate recombination is important for medical, agricultural and ecological reasons. Readily available molecular and cytological tools make Arabidopsis an excellent system to study meiosis. Here we review recent developments in molecular genetic analyses on meiotic recombination. These include studies on plant homologs of yeast and animal genes, as well as novel genes that were first identified in plants. The characterizations of these genes have demonstrated essential functions from the initiation of recombination by double-strand breaks to repair of such breaks, from the formation of doubie-HoUiday junctions to possible resolution of these junctions, both of which are critical for crossover formation. The recent advances have ushered a new era in plant meiosis, in which the combination of genetics, genomics, and molecular cytology can uncover important gene functions. 相似文献
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《Cell cycle (Georgetown, Tex.)》2013,12(5):467-471
Proper control of cohesion along the chromosome arms is essential for segregation of homologous chromosomes in meiosis. In a recent study we reported that Tid1p, a protein previously implicated in recombination, is required for resolution of Mcd1p-dependent cohesion in meiosis. Here we demonstrate that Pds5p and Dmc1p promote this cohesion. Pds5p is known to be required for maintenance of cohesion while Dmc1p is recognized as essential for meiotic recombination. Finding that the same defect in separation of sister chromatids could be suppressed by disrupting the functions of these proteins supports the emerging recognition that cohesion is remodeled during recombination and further indicates that cohesion is modified specifically to regulate meiotic recombination. We also find that overexpression of the regulatory subunit of Cdc7p kinase, Dbf4p, suppresses the tid1Δ sporulation defect, suggesting a role for Cdc7p/Dbf4p in regulating cohesion. 相似文献
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We have examined the meiotic recombination characteristics of artificial chromosomes in Saccharomyces cerevisiae. Our experiments were carried out using minichromosome derivatives of yeast chromosome III and yeast artificial chromosomes composed primarily of bacteriophage lambda DNA. Tetrad analysis revealed that the artificial chromosomes exhibit very low levels of meiotic recombination. However, when a 12.5-kbp fragment from yeast chromosome VIII was inserted into the right arm of the artificial chromosome, recombination within that arm mimicked the recombination characteristics of the fragment in its natural context including the ability of crossovers to ensure meiotic disjunction. Both crossing over and gene conversion (within the ARG4 gene contained within the fragment) were measured in the experiments. Similarly, a 55-kbp region from chromosome III carried on a minichromosome showed crossover behavior indistinguishable from that seen when it is carried on chromosome III. We discuss the notion that, in yeast, meiotic recombination behavior is determined locally by small chromosomal regions that function free of the influence of the chromosome as a whole. 相似文献
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Milorad Kojic Jeanette H. Sutherland José Pérez-Martín William K. Holloman 《Genetics》2013,195(4):1231-1240
A central feature of meiosis is the pairing and recombination of homologous chromosomes. Ustilago maydis, a biotrophic fungus that parasitizes maize, has long been utilized as an experimental system for studying recombination, but it has not been clear when in the life cycle meiotic recombination initiates. U. maydis forms dormant diploid teliospores as the end product of the infection process. Upon germination, teliospores complete meiosis to produce four haploid basidiospores. Here we asked whether the meiotic process begins when teliospores germinate or at an earlier stage in development. When teliospores homozygous for a cdc45 mutation temperature sensitive for DNA synthesis were germinated at the restrictive temperature, four nuclei became visible. This implies that teliospores have already undergone premeiotic DNA synthesis and suggests that meiotic recombination initiates at a stage of infection before teliospores mature. Determination of homologous recombination in plant tissue infected with U. maydis strains heteroallelic for the nar1 gene revealed that Nar+ recombinants were produced at a stage before teliospore maturation. Teliospores obtained from a spo11Δ cross were still able to germinate but the process was highly disturbed and the meiotic products were imbalanced in chromosomal complement. These results show that in U. maydis, homologous recombination initiates during the infection process and that meiosis can proceed even in the absence of Spo11, but with loss of genomic integrity. 相似文献