三倍体草鱼染色体限制性内切酶带分析

本文报道运用Ｇｉｅｍｓａ染色、Ｃ－带显带、ＮＯＲ－显带和多种限制性内切酶消化对草鱼三倍体的染色体进行分析。其中,内切酶ＨａｅⅢ和ＨｉｎｄⅢ等使染色体产生Ｇ－带,其余内切酶产生与常规Ｃ－带不同的分化,即所谓修饰Ｃ－带。实验结果表明,限制性内切酶可使鱼类染色体产生多种带型,各种显带技术的结合使用,可探讨鱼类染色体及染色质结构与进化。     

成年草鱼外周血细胞的超微结构

用透视电镜技术研究了成年草鱼外周血细胞的超微结构,结果表明：在外周血细胞中可区分出红细胞,淋巴细胞,单核细胞,嗜中性白细胞,嗜酸性白细胞和血检细胞;嗜碱性白细胞无论在血涂片上或超薄切片上都没有发现。电镜图像显示,在红细胞中,仅能看到少数线粒体和液泡。淋巴细胞以短的伪足,较多的游离核糖体和滑面内质网为其特征。单核细胞的特征是具有较多的伪足和胞质液泡以及偏位核。在外周血液中发现了嗜中性白细胞生长、发育、功能成熟和衰退的全过程,描述了嗜中性白细胞的幼稚型、成熟型和衰退型细胞的超微结构。在成年草鱼外周血中,还发现了一种新型的颗粒细胞,它的特殊颗粒为大的六角形或棒状致密结晶颗粒,对上述特殊颗粒细胞的属性也进行了讨论。     

一种制备鱼类染色体的新方法

自1966年Ojima建立鱼类染色体空气干燥法以来,鱼类染色体研究技术有了很大进展.目前有肾细胞培养法、上皮细胞培养法和外周血培养法等。细胞培养需要在有一定条件的实验室进行(如无菌操作),因而简便快速的制备鱼类染色体方法便不断产生,有PHA+秋水仙碱注射法、秋水仙碱体外注射法和CoCl+秋水仙碱体外注射等方法.本文介绍一种适合于在野外条件下进行的小型鱼类和鱼苗染色体制片方法。     

同步化技术在草鱼染色体显带中的应用及草鱼核型的初步分析

对草鱼细胞进行同步化处理,并在DNA复制的早期和晚期分别掺入BrdU,制备的染色体标本置于CaCl_2溶液中温浴同时用紫外线照射,然后用Giemsa染色即可分别显示出G带和R带。标本中的部分晚前期和早中期分裂相具有高分辨染色体显带特征。用这一技术对草鱼每条染色体进行识别和分析,提出了初步的草鱼核型,发现了四对草鱼染色体具有随体。     

人工雌核发育草鱼染色体倍性的鉴定

运用经典的红细胞及细胞核体积大小测量方法以及流式细胞仪,检测了人工诱导雌核发育草鱼染色体倍性与DNA含量.雌核发育草鱼红细胞体积为(333.5±41.94)μm3,细胞核体积为(20.7±2.378)μm3;与所测普通草鱼红细胞体积(343.8±50.1)μm3,细胞核体积(21.2±1.98)μm3,没有显著差异.雌核发育草鱼DNA含量(2C)平均为2.23pg,普通草鱼DNA含量(2C)2.20pg,两者无显著差异.研究结果表明,人工雌核发育草鱼与普通草鱼具有相同的染色体倍性.     

草鱼和团头鲂染色体G带带型的研究

本文报道了经改进的胰酶一步法和放线菌素D(AMD-BSG)法所显示的鱼类染色体G带。采用草鱼(Ctenopharyngodon idellus)和团头鲂(Megalobrama amblycephala)的血淋巴细胞和肾细胞进行短期培养。血淋巴细胞的空气干燥制片,用胰酶一步法处理,显示出细致清晰的染色体G带。培养的肾细胞在收集前1-1.5h,1.5—2h,2.5—3h,用最终浓度为2μg/ml的AMD(actiomycin D)处理,其气干制片在HCI和Ba(OH)_2中处理,经2×SSC温育,Giemsa染色,获得了良好的染色体G带。在前中期或早中期的一个细胞单倍体组的染色体显带能达200多条带纹,结果较稳定,反差明显,图象清晰。根据实验结果初步绘制了草鱼和团头鲂的G带模式图。     

鱼类染色体的荧光显带研究

应用GC碱基特异性荧光染料色霉素A,辅以AT减基特异性荧光染料Hoechst33258,DAPI或喹吖因对鲤鱼,鲫鱼,大鳞副泥鳅和的有丝分裂染色体及黄鳝的有丝分裂和减数分裂染色体进行了荧光显带研究,结果发现,色霉素A3可以特异性地显示鱼类有丝分裂及减数分裂各个时期核仁组织区NORS的存在,Hoechst33258,DAPI或喹吖因则使这些区域（NORs)淡染,大鳞副泥鳞的染色体NORs 分布位置具有性别,根据实验结果,对有关鱼类染色体的荧光染色研究及其应用进行了讨论。     

Tun形目三种鱼的染色体研究

tun形目鱼类是一种比较特化的真骨鱼类。在我国沿海分布较广,并且具有较大的经济价值。现在东方tun属的有些鱼类已成功地用于人工养殖。Nelson(1984)将tun形目分为两个亚目,共329种。迄今考察过染色体的种类有30余种。本文报道了3种鱼的染色体组型：绿鳍马面tunNavodon septentrionalis、丝背细鳞tunStephanolepis cirrhifer和红鳍东方tunFugu rubripes,其中前2种鱼的核型国外已有报道(Murofushi等,1979;Murofushi等,1980)。后1种鱼的核型为首次报道,文章还对丝背细鳞tun的Ag-NORs进行了观察。     

染色质集缩包装成染色体的过程和机制

染色质集缩包装形成染色体是有丝分裂的一个重要事件,它使母细胞的遗传物质得以平均地分配到两个子细胞中去． 本文综述了近年来在染色质集缩包装研究方面取得的进展, 参加集缩包装的几种蛋白质以及它们可能的作用方式．     

Relationship between nuclear remodeling and subsequent development of mouse embryonic nuclei transferred to enucleated oocytes

The present study was conducted to examine the relationship between nuclear remodeling and subsequent embryonic development in nuclear transplant mouse embryos. Metaphase II oocytes were enucleated without staining and fused with transferred donor nuclei from two-, four-, or eight-cell embryos. Fusion and oocyte activation were performed by means of electric fields. High rates of enucleation (89.1%), fusion (88.0–91.6%), and activation (95.2–96.9%) were obtained using this system. Nuclear remodeling was characterized by premature chromosome condensation (PCC), followed by various pronuclear-like formations upon oocyte activation. Development to blastocysts was obtained from both PCC (17.9%) and non-PCC (NPCC; 52.9%) embryos fused with the two-cell nuclei. However, development to term was obtained only in PCC embryos with a single pronucleus-like structure and a polar body (12.5%). In vitro development of nuclear transplant embryos with four- and eight-cell nuclei was limited. All the NPCC embryos examined had tetraploid chromosome constitutions, but chromosome constitutions of PCC embryos varied. Only 37.5% of the PCC embryos had diploid chromosome constitutions. The results indicated that the development of nuclear transplant embryos is affected by the types of nuclear remodeling and that oocyte activation in relation to their chromosome constitutions. The results also indicated that the PCC of the donor nucleus in nonactivated cytoplasm is important for the development of the nuclear transplant embryos. © 1994 Wiley-Liss, Inc.     

热休克法抑制第一次卵裂实现草鱼雌核发育的细胞学观察

用组织切片方法系统地观察了草鱼卵被经辐射处理的鲤精子激活后进行第一次卵裂的发育过程。实验表明：在24℃孵化水温下草鱼卵在被激活后24min进入第一次卵裂胶期,27－30min处于中期,33min进入后期。由此可知被激活的草鱼卵子在第24min时已经完成染色体的复制,使草鱼卵子雌核染色体人工加倍的最佳时期是在被激活后的27－30min这一时间区段内。此外,用不同热休克温度和不同的热休克强度处理已完成染色体复制的被激活草鱼卵,表明草鱼卵经41℃处理2min可得到较高比例的基因纯合型雌核发育二倍体鱼。     

Clastogenic effects of bleomycin, cyclophosphamide, and ethyl methanesulfonate on resting and proliferating human B- and T-lymphocytes

The effects of bleomycin (BM), cyclophosphamide (CP), and ethyl methanesulfonate (EMS) on the frequencies of chromosomal aberrations were tested in mitogen-stimulated highly purified human B- and T-lymphocytes. In unstimulated G0/G1 B- and T-lymphocytes the clastogen induction of chromosome fragments was investigated in prematurely condensed chromosomes (PCC) induced by cell fusion with xenogenic mitotic cells. BM, CP (with metabolic activation), and EMS induced a significant increase in chromosome aberrations in proliferating human B- and T-lymphocytes. There were no significant differences in the BM-induced aberration rates between the cell populations. CP and EMS induced more aberrations in T- than in B-lymphocytes. In the PCC tests, BM-exposed G0/G1 lymphocytes showed dose-dependent high yields of chromosome fragments. No significant differences between B- and T-lymphocytes were observed. CP and EMS induced no clear increase in fragments in either cell population.     

Various chemical agents can induce premature chromosome condensation in Vicia faba

A number of chemical agents known to influence the key cell cycle regulatory factors were used to assess the requirements of hydroxyurea-treated root meristem cells of Vicia faba for premature condensation of chromosomes (PCC). These included caffeine and 2-aminopurine (inhibitors of ATM/ATR sensor kinases activated by DNA damage or stalled replication forks), inhibitors of protein kinases (staurosporine and wortmannin), inhibitors of protein phosphatases (sodium vanadate and calyculin A), and other compounds like 1,2-dioctyl-sn-glycerol, an activator of protein kinase C, 5-azacytidine, an inhibitor of DNA methyltransferase, dithiothreitol and N-etylmaleimide, capable to up- and down-regulate the activity of Cdc25 phosphatase. Cytological parameters used to evaluate quantitative aspects of PCC allowed us to discriminate various phenotypes of cells and, consistent with the extent of chromosomal fragmentation, to classify them as S- or G2-PCC. Two significant aspects relevant to the induction of premature mitosis in plants seem to emerge: one concerns the inverse relationship between the incidence of mitotic and PCC events, the other refers to the extent with which a variety of chemical agents may activate mechanisms that override the S-M replication checkpoint. 1,2-dioctyl-sn-glycerol, an activator of protein kinase C in animal cells proved extremely effective in stimulation of PCC, in spite of evident lack of molecular targets in plants.     

Differential chromatin condensation of female and male pronuclei in mouse zygotes

Mouse zygotes or halves of zygotes, containing either a female or a male pronucleus, were fused with ovulated metaphase II oocytes. In 59.7% of the resulting hybrid cells, the pronuclei underwent premature chromosome condensation (PCC). In some of these heterokaryons the 2 pronuclei differed in the dynamics of condensation. Detectability of differential PCC of pronuclei (dPCC) depended on the type of preparation. In hybrids with PCC, produced by fusion of intact zygotes with metaphase II oocytes and processed for whole-mount preparations, one pronucleus was more advanced in the condensation process in 47% of cases. In air-dried preparations dPCC was detected in as many as 94% of hybrids. Experiments with the fusion of halves of zygotes with metaphase II oocytes have shown that the differential reaction of pronuclei to condensation factor depended on their parental origin. Maternal chromatin responded faster to the condensation factor and attained more advanced stages of PCC than paternal chromatin. Different responses of the maternal and paternal pronucleus to the condensation factor suggests that the 2 pronuclei are not identical with regard to the organization of chromatin and/or the lamin composition of the nuclear envelope. © 1993 Wiley-Liss, Inc.     

稀有鮈鲫对草鱼出血病病毒敏感性的初步研究

本文报道稀有鲫对草鱼出血病病毒（ＧＣＨＶ）的敏感性。ＧＣＨＶ是草鱼出血病的病原,用ＧＣＨＶ人工感好１－６月龄的稀有鲫,在水温２２－３２℃时能导致稀有鲫出现出血病症状。在水温２８℃时,病鱼在ｌｄ内死亡,潜伏期为５ｄ,发病高峰期在感染后第６－８ｄ。ＧＣＨＶ能在稀有鲫体内传代,并诱导８０％以上的稀行鲫患病死亡。将人工感染ＧＣＨＶ的稀有鲫病鱼组织超薄切片,电镜观察,发现在肠道、脾脏、肾脏等组织中存在大小与形态和ＧＣＨＶ相似的病毒颗粒。从稀有鲫出血病病鱼组织中纯化病毒,免疫电镜观察,发现病毒颗粒能被ＧＣＨＶ的特异性抗体聚集成团。由上可知,稀有鲫出血病是由ＧＣＨＶ感染所致,稀有鲫对ＧＣＨＶ是敏感的,可以作为草鱼抗出血病育种的模型。     

草鱼早期胚胎表面分化的细胞学研究

本文应用扫描电镜对草鱼的受精卵、2-细胞—囊胚期胚胎细胞的表面分化进行了形态学观察,结果表明,在受精卵卵膜上具有纵多的卵膜孔;受精卵质膜、2-32细胞胚胎质膜上均具有隆起和突起;在2、4、16-细胞期胚胎和囊胚表面发现有小孔结构.本文对某些结构特征进行了讨论.     

草鱼同工酶发育遗传学研究——Ⅱ.早期发育过程中的同工酶分析

采用淀粉凝胶电泳技术研究了草鱼早期发育过程中(受精后0—200小时)6种同工酶系统(LDH、MDH、GDH、ADH、IDH、EST)的表达谱式。除了ADH以外,其余5种同工酶系统均具有明显的发育变化谱式。根据早期发育过程中同工酶的变化谱式及其组织分布,草鱼的同工酶可分为三大类型:(1)在未受精卵及早期发育过程中一直存在,并常有较广泛的组织分布;(2)未受精卵及早期发育过程中均不存在,一般仅分布于少数几种组织中;(3)未受精卵及胚胎发育早期不存在,直到早期发育过程中某一特定时期才开始出现。     

Nuclear and microtubular cycles in heterophasic multinuclearTriticum root-tip cells induced by caffeine

Summary Nuclear and microtubular cycles were studied in large heterophasic multinuclear cells induced in root tips ofTriticum turgidum by caffeine treatment. Multinuclear cells and cells with polyploid nuclei exhibited various configurations of multiple and complex preprophase microtubule (Mt) bands (PPBs), including helical ones. The developmental stages of PPBs in some heterophasic cells did not comply with the cell cycle stages of the associated nuclei, a fact indicating that these events are not directly controlled by the associated nuclei. The heterophasic cells exhibited asynchronous nuclei at different stages of mitosis. In cells displaying prophase and interphase nuclei, the prophase spindle was either absent or developed around both of them or developed around the prophase nuclei earlier than around the interphase ones. During prometaphase-metaphase of the advanced nuclei the lagging interphase nuclei were induced to form prematurely condensed chromosomes (PCCs) along with spindle formation around them. These observations suggest that the mitotic transition in heterophasic cells is delayed but is ultimately achieved due to the effect of the advanced nuclei, which induces a premature mitotic entry of the lagging nuclei. Although kinetochore Mt bundles were found associated with PCCs, their metaphase and anaphase spindles were abnormal resulting in abnormal or abortive anaphases. In some heterophasic cells, metaphase-anaphase transition did not take place simultaneously in different chromosome groups, signifying that the cells do not exit from the mitotic state after anaphase initiation of the advanced nuclei. Asynchronous pace of mitosis of different chromosome groups was also observed during anaphase and telophase. Implications of these observations in understanding plant cell cycle regulation are discussed.Abbreviations cdk cyclin dependent kinase - Mt microtubule - PCC prematurely condensed chromosome - PPB preprophase band