中华鳖精母细胞联会复合体的研究

本文以微铺展技术制备中华鳖精母细胞联会复合体标本,经硝酸银染色后电镜观察,分析了SC组型。并与有丝分裂染色体组型相比较,发现二者有着良好的一致性,而且微小染色体的SC结构和着丝粒清晰,未发现形态上有分化的性染色体。中华鳖SC的研究为其细胞遗传学及性别决定机制提供了重要的依据。 Abstract　Synaptonemal Complexes (SC) in Trionyx sinensis spermatocytes prepared with micro-spreading technique and silver staining was analyzed by electron microscopy. The meiotic SC karyotype was constructed from 10 cells and compared with mitotic chromosome karyotype. There is a good agreement between them. The structure and kinetochores of micro-chromosomes are very distinctive on each SC. There does not exist differential sex chromosome.     

豚鼠精母细胞联会复合体的电镜观察

以微铺展法制备豚鼠精母细胞联会复合体标本,经硝酸银染色后作电镜观察,建立了SC组型．与有丝分裂染色体组型比较,发现二者有良好的一致性．在粗线期,X,Y轴的配对区很短,配对区的X轴和Y轴没有明显变细．未发现银染SC具有着丝粒,并对可能的原因作了分析讨论．     

2例男性育性障碍患者的联会复合体分析

运用表面铺展联会复合体（synaptonemal complex,SC）的电镜技术对2例男性育性障碍患者的联会复合体进行分析,发现患者1的部分粗线期精母细胞（20%）中出现配对紊乱（一些SCs中间未完全配对,未配对区轴心出现增粗,类似性染色体配对行为;有些SC仅两端配对,形成很短的两段SC,中间大部分未配对,在未配对区出现断裂,似乎是一个三价体和单价体）现象,大部分细胞配对正常。患者2的几乎100%生精细胞被阻断在减数分裂的前期阶段,显示联会异常如SC粉碎化、SC侧生组分膨化等现象。该文对男性育性障碍的机理进行了讨论。 Abstract:Synaptonemal complexes (SCs) of male fertility impairment were analysed in two patiants.In case one,his testicular histology was normal and there were 20% abnormal pachytene spermatoeytes,showing unsynaptic and broken SCs.It resulted in spermatogensis with unbalanced chromosomes and pregnancy wastages.In case two,he had no sperms basically.G-banded chromosome analysis of lymphocytes showed normal chromosomal karyotype,but triple fragment,lateral element swelling and fragment breakages of SCs were observed in his spermatocytes.The mechanisms of infertility,impairment of fertility for the observed men were discussed in this paper.     

Mitosin／CENP-F is a conserved kinetochore protein subjected to cyto-plasmic dynein-mediated poleward transport

Mitosin/CENP-F is a human nuclear protein transiently associated with the outer kinetochore plate in M phase and is involved in M phase progression. LEK1 and CMF1, which are its murine and chicken orthologs, however, are implicated in muscle differentiation and reportedly not distributed at kinetochores.We therefore conducted several assays to clarify this issue. The typical centromere staining patterns were observed in mitotic cells from both human primary culture and murine, canine, and mink cell lines. A C-terminal portion of LEK1 also conferred centromere localization. Our analysis further suggests conserved kinetochore localization of mammalian mitosin orthologs. Moreover, mitosin was associated preferentially with kinetochores of unaligned chromosomes. It was also constantly transported from kinetochores to spindle poles by cytoplasmic dynein. These properties resemble those of other kinetochore proteins important for the spindle checkpoint, thus implying a role of mitosin in this checkpoint. Therefore, mitosin family may serve as multifunctional proteins involved in both mitosis and differentiation.     

小麂、黑麂、赤麂精母细胞联会复合体的比较研究

本工作以界面铺张——硝酸银染色技术,对小麂(Muntiacus reeuesi)、黑麂(M.crinifrons)和赤麂(M.muntjak)的精母细胞联会复合体(Syna ptonemal complex,SC)进行亚显微结构的比较研究。结果表明: 1.SC的平均相对长度和臂比指数同有丝分裂细胞相应染色体的数值有很好的一致性。根据SC的相对长度和臂比指数绘制了三种麂的SC组型图。雄性黑麂减数分裂前期形成一个复杂的易位多价体,意味着其核型的演化过程涉及两次染色体易位和一次臂间倒位。 2.在减数分裂前期,性染色体的形态和行为同常染色体的有明显差异,如性染色体嗜银性较强,配对延迟等。XY的配对起始于早粗线期,在中粗线期,Y的全长均同X配对;XY-SC开始解体于晚粗线期。 3.在粗线期,X染色体未配对区域出现自身折叠,形成“发夹”状结构。这种“发夹”结构的形成,可能是在性染色体的进化过程中,X染色体通过不对称易位得到的重复片段在减数分裂前期同源配对的一种细胞学表现。     

不良孕产夫妇着丝粒-动粒复合体的细胞遗传学研究

为研究不良孕产夫妇染色体着丝粒-动粒复合体(centromerekinetochorecomplex,CKC)变异与不良孕产的相关性,探索不良孕产中非整倍体形成的细胞遗传学基础,应用改良的着丝粒点-核仁组织区(Cd-NOR)同步银染技术,分别对53对不明原因的不良孕产夫妇和57对已生育正常儿的正常夫妇外周血淋巴细胞染色体CKC变异类型及频率进行研究和分析.结果发现,不良孕产夫妇其小Cd、Cd消失、Cd迟滞和Cd-NOR融合频率均较正常对照组明显增高,两者相比有显著性差异(P＜0.05).CKC变异频率增高可能是导致不良孕产非整倍体形成的主要原因之一。 Abstract:To search the cytogenctic mechanism of adverse pregnancy,a study was carried out on 110 couples,57 of them with unexplained adverse pregnancy and 57 served as a control.A technique for the simultaneous staining of both nucleolar organizer regions and kinetochores of human chromosomes with silver was used.The results showed that the variations of chromosomal centromere kinetochore complex (CKC) in couples with adverse pregnancy were significantly high than of the control.The variations of CKC may be the main reason for the chromosomal nondisjunction during meiosis that is attributed to the adverse pregnancy.     

家鸡联会复合体的亚显微结构分析

本文以表面铺展——硝酸银染色技术,对家鸡的联会复合体(Syneptonemal Complex,SC)作亚显微结构分析。根据对10个精母细胞和10个卵母细胞SC的测量结果,绘制组型图。发现雌雄家鸡的常染色体的SC组型相同。在精母细胞中,性染色体(ZZ)的行为与常染色体相似。在卵母细胞中,性染色体ZW的长度不同,长轴为Z,短轴为W,两者之间只有部分配对,形成SC。从早粗线期到晚粗线期,由同源配对调整为非同源配对。另外,在一只雌鸡中,第一次观察到,有些细胞的常染色体能正常配对,而性染色体完全不配对的现象。     

Temporal dynamics of mental impasses underlying insight-like problem solving

Insight problem solving is characterized by mental impasses,states of mind in which the problem solver does not know what to do next.Although many studies have investigated the neural correlates of insight problem solving,however,the question when mental impasses occur during insight problem solving has been rarely studied.The present study adopted high temporal resolution ERPs to investigate the temporal dynamics of an impasse underlying insight problem solving.Time locked ERPs were recorded associated with problems with impasses(PWI) and problems without impasses(POI).The problem types were determined by participants’ subjective responses.The results revealed an early frontocentral P2 was linked with the preconscious awareness of mental impasses and a P3a was associated with fixed attention when the impasse formed.These findings suggest the impasse may occur initially at a relatively early stage and metacognition plays an important role in insight problem solving.     

The Synaptonemal Complex of Basal Metazoan Hydra:More Similarities to Vertebrate than Invertebrate Meiosis Model Organisms

The synaptonemal complex （SC） is an evolutionarily well-conserved structure that mediates chromosome synapsis during prophase of the first meiotic division. Although its structure is conserved, the characterized protein components in the current metazoan meiosis model systems （Drosophila melanogaster, Caenorhabditis elegans, and Mus musculus） show no sequence homology, challenging the question of a single evolutionary origin of the SC. However, our recent studies revealed the monophyletic origin of the mammalian SC protein components. Many of them being ancient in Metazoa and already present in the cnidarian Hydra. Remarkably, a comparison between different model systems disclosed a great similarity between the SC components of Hydra and mammals while the proteins of the ecdysozoan systems （D. rnelanogaster and C. elegans） differ significantly. In this review, we introduce the basal-branching metazoan species Hydra as a potential novel invertebrate model system for meiosis research and particularly for the investigation of SC evolution, function and assembly. Also, available methods for SC research in Hydra are summarized.