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着丝粒－动粒复合体（centromere kinetochore complex,CKC)变异与不良孕产的相关性,探索不良孕产中非整倍体表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,两相比有显性差异（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。     

新酵母遗传学

基因克隆和酵母菌DNA转化技术已大大地加强了形式酵母遗传学的力量。现在已可能分离任何形式遗传学确定的基因,用离体产生的突变衍生物取代正常的染色体序列而任意改变酵母基因组,创造表现为自主复制子或小染色体的DNA分子。新酵母遗传学的这些独特的特征已用于研究真核分子生物学中的许多问题。     

昆明山海棠在微核实验中非整倍体毒性的研究

本文报道以小鼠着丝粒次要卫星DNA探针FISH和抗着丝粒CREST染色,研究了可疑的非整倍体毒剂昆明山棠(THH)诱导的小鼠NIH3T3细胞微核(MN)的着丝粒组成情况,结果THH(10-60μg/ml)诱导的62.1-68.4%的MN为FISH阳性, 35.9-42.2%的MN为CREST阳性,较精确的FISH结果显示THH具有较强的非整倍体诱发效应,同时认为次要卫星DNA探针比CREST染色更适合于MN的着丝粒检测。     

St基因组中的CRW同源序列在偃麦草中的FISH分析

为了确定十倍体长穗偃麦草(Thinopyrum ponticum, Liu & Wang)和六倍体中间偃麦草(Th. intermedium, [Host] Barkworth & Dewey )的基因组组成, 根据野生一粒小麦(Triticum boeoticum)着丝粒自主型反转录转座子(CRW)序列设计特异引物, 以二倍体拟鹅观草(Pseudoroegneria spicata, Á Löve )基因组 DNA为模板进行PCR扩增, 筛选到一条St基因组着丝粒区相对特异反转录转座子的部分序列pStC1, 长度为1.755 kb (GenBank登录号: FJ952565), 其中有800 bp与小麦着丝粒反转录转座子(CRW)的LTR区高度同源, 另有小部分片段与其外壳蛋白编码基因(gag)部分同源, 并且包含一段富含AGCAAC碱基的重复序列。以pStC1为探针, 对十倍体长穗偃麦草的FISH检测结果显示其基因组组成为两个St组3个E组(St₁St₂E^eE^bE^x); pStC1与中间偃麦草杂交时, 不仅St基因组上有强烈的荧光信号, 而且E基因组一些染色体的近着丝粒区域也有杂交信号, 说明偃麦草属异源多倍体物种在其形成及进化过程中St与E基因组之间在着丝粒及近着丝粒相关区域可能存在协同进化。     

Identification and Preliminary Analysis of Several Centromere-associated Bacterial Artificial Chromosome Clones from a Diploid Wheat Library

Although the centromeres of some plants have been investlgated prevlously, our knowledge of the wheat centromere Is still very llmlted. To understand the structure and functlon of the wheat centromere, we used two centromeric repeats （RCS1 and CCS1-5ab） to obtain some centromere-assoclated bacterial artificial chromosome （BAC） clones in 32 RCS1-related BAC clones that had been screened out from a diploid wheat （Triticum boeoticum Boiss.; 2n=2x=14） BAC library. Southern hybridization results indicated that, of the 32 candidates, there were 28 RCS1-positive clones. Based on gel blot patterns, the frequency of RCS1 was approximately one copy every 69.4 kb in these 28 RCS1-positive BAC clones. More bands were detected when the same filter was probed with CCS1-5ab. Furthermore, the CCS1 bands covered all the bands detected by RCS1, which suggests that some CCS1 repeats were distributed together with RCS1. The frequency of CCS1 families was once every 35.8 kb, nearly twice that of RCS1. Fluorescence in situ hybridization （FISH） analysis Indicated that the five BAC clones containing RCS1 and CCS1 sequences all detected signals at the centromerlc regions in hexaplold wheat, but the signal intensities on the A-genome chromosomes were stronger than those on the B- and/or Dgenome chromosomes. The FISH analysis among nine Triticeae cereals indicated that there were A-genomespecific （or rich） sequences dispersing on chromosome arms in the BAC clone TbBACS. In addition, at the interphase cells, the centromeres of diploid species usually clustered at one pole and formed a ring-like allocation In the period before metaphase.     

BGC823和A549细胞染色体着丝粒点变异

癌细胞的一个显著细胞遗传学特征是染色体非整倍性畸变,但其畸变的机制至今仍然不清。因此,本文从与染色体分离直接相关的着丝粒点变异的角度,采用Cd-NOR同步银染技术对BGC823细胞和A549细胞染色体Cd变异进行了分析,以探索癌细胞非整倍性畸变的发生机制。结果表明：（1）BGC823细胞染色体Cd缺失率为1.75%、迟滞复制率为0.28%、小Cd率为1.82%、Cd-NOR融合率为0.95%,与正常人胚胎绒毛细胞染色体Cd相比较,BGC823细胞染色体Cd缺失和Cd-NOR融合显著升高（P＜0.0125）,而Cd迟滞复制和小Cd两者没有显著性差异。（2）A549细胞染色体Cd缺失率为2.73%、迟滞复制率为0.94%、小Cd率为1.73%、Cd-NOR融合率为0.71%,与正常人胚胎绒毛细胞染色体Cd相比较,A549细胞染色体Cd缺失和Cd迟滞复制显著升高（P＜0.0125）,而小Cd和Cd-NOR融合两者没有显著性差异。提示BGC823细胞染色体非整倍性畸变可能主要源于Cd缺失和Cd-NOR融合,而A549细胞染色体非整倍性畸变可能主要源于Cd缺失和Cd迟滞复制。     

正常人胚胎绒毛细胞染色体着丝粒点(Cd)变异的研究

我们采用Cd-NOR同步银染技术,首次对正常人胚胎绒毛细胞染色体着丝粒点(Cd)变异作了研究,并将绒毛细胞染色体Cd变异与正常人外周血淋巴细胞体染色Cd变异进行了对比。在本研究中,我们观察到某些染色体存在Cd迟滞复制现象,并对此作了讨论。 Abstract:Centromeric dots(Cd)variation of chorion tissue chromosomes were studied by a simultaneous silver staining of both NOR and Cd.Comparison analysis of Cd variation for the chorionic villus samples and peripheral blood samples were carried out.We observe an event of Cd delaying reproduction and discuss the relation between the event and X chromosome delaying reproduction as well as chromosomeal nondisjunction.     

Cytological identification of an isotetrasomic in rice and its application to centromere mapping

The aneuploid with isochromosome or telochromosome is ideal material for exploring the position of centromere in lingkage map.For obtaining these aneuploids in rice,the primary trisomics from triplo-1 to triplo-12 and the aneuploids derived from a triploid of indica rice variety Zhongxiao 3037 were carefully investigated.From the offsprings of triplo-10,a primary trisomic of chromosome 10 of the variety,an isotetrasomic “triplo-10-1” was obtained.Cytological investigation revealed that a pair of extra isochromosomes of triplo-10-1 were come from the short arm of chromosome 10.In the offsprings of the isotetrasomic,a secondary trisomic “triplo-10-2”,in which the extra-chromosome was an isochromosome derived from the short arm of chromosome 10,was identified.With the isotetrasomic,secondary trisomic,primary trisomic and diploid of variety Zhongxiao 3037,different molecular markers were used for exploring the position of the centromere of chromosome 10.Based on the DNA dosage effect,it was verified that the molecular markers G1125,G333 and L169 were Located on the short arm,G1084 and other 16 available molecular markers were on the long arm of chromosome 10.So the centromere of chromosome 10 was located somewhere between G1125 and G1084 according to the RFLP linkage map given by Kurata et al[1].The distance from G1125 to G1084 was about 3.2cM.     

小鼠富集着丝粒DNA在小鼠减数分裂粗线期染色体上的原位杂交

本工作用Hoechst 33258及着丝粒特异抗体间接免疫荧光法显示的小鼠粗线期染色体主缢痕区,与以小鼠富集着丝粒(SFA)DNA为探针在粗线期染色体上的原位杂交主缢痕区作了比较。发现SFA DNA探针不仅杂交于全部常染色体联会复合体上的着丝粒区,并且杂交于着丝粒周围的异染色质区;而且,也杂交于X,Y染色体的着丝粒区。由此结论:此富集SFA DNA中含有全套常染色体及X,Y染色体的SFA DNA。     

脉孢霉两对基因顺序四分子分析

真菌和单细胞藻类四分子分析能够利用单次减数分裂的4个产物进行独特的遗传分析, 是帮助人们直观地理解遗传机制的重要手段, 已被用于高等生物遗传作图。文章运用孟德尔遗传规律、遗传重组机理与遗传作图原理, 分析了两对基因杂交的子囊、子囊孢子类型间关系; 推导出了两对基因顺序四分子分析的完整步骤。