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Jaglarz MK 《Tissue & cell》2001,33(4):395-401
Within the oocyte nucleus of many insect species, a variable number of intensely stained spherical bodies occur. These nuclear bodies differ significantly from nucleoli and their precise role in nuclei has not been elucidated yet. I have examined some of the histochemical properties as well as the molecular composition of these structures in a representative of ground (carabid) beetles. I demonstrate, using molecular markers, that the nuclear bodies are composed of small nuclear RNAs and associated proteins, including p80 coilin. Hence, they correspond to Cajal bodies (= coiled bodies) described in somatic cell nuclei as well as oocyte germinal vesicles in plant and animal organisms. It is suggested that Cajal bodies in the carabid germinal vesicle serve as a storage site for splicing factors.  相似文献   

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Bogoliubov DS 《Tsitologiia》2003,45(11):1083-1093
In vitellogenic oocytes of Tenebrio molitor (inactive stage), numerous fibrogranular nuclear bodies (NBs) are present. Using immunofluorescent microscopy, these NBs were shown to contain pre-mRNA splicing factors (small nuclear [sn] RNPs and SR-protein, SC35) as well as RNA polymerase II. A limited set of NBs also contained coilin, a marker protein for Cajal bodies (CBs). We suggest that in T. molitor oocytes, coilin-containing NBs, which also contain splicing factors and RNA polymerase II, seem to represent CBs. In the species studied, no morphological features of CBs were established as compared with other NBs, which do not contain coilin. Microinjectons in oocytes of myc-tagged coilin mRNA, followed by revealing newly translated protein with antibody specific for this tag, have shown targeting of myc-coilin with CBs. The own and literary data on the morphology and molecular composition of CBs are discussed in terms of searching for criteria for CB identification in cells of different origin, and at active and inactive stages.  相似文献   

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Nuclear bodies: multifaceted subdomains of the interchromatin space.   总被引:21,自引:0,他引:21  
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Oocyte nuclear structures were studied for the scorpionfly Panorpa communis at different stages of oocyte growth, from pachytene to the first meiotic division. Using immunofluorescent and immunogold microscopy, we analyzed the nuclear distribution of RNA polymerase II, splicing factors and coilin. These factors were revealed in close association with perichromatin fibrils and, later, with some elements of the karyosphere and extrachromosomal nuclear bodies (NBs). Besides, it was shown that large amounts of P. communis oocyte NBs represent Cajal bodies (CBs) and contain CB marker protein, coilin, as well as RNA polymerase II, and in some cases an essential splicing factor, SC35. The presence of SC35 is commonly not characteristic of CBs in somatic cells. CB dynamics was traced in inactivated oocyte nuclei, during a gradual condensation of chromosomes and their final assembling into the karyosphere. It has been shown that coilin, RNA polymerase II and SC35 protein are common compounds shared by CBs and some granular material associated with these condensed chromosomes. CB remnants were demonstrated in the ooplasm after the breakdown of nuclear envelope before the first meiotic division. In inactivated oocyte nuclei, CBs serve presumably as storage compartments for some inactive components essential for gene expression.  相似文献   

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UV-induced fragmentation of Cajal bodies   总被引:1,自引:0,他引:1       下载免费PDF全文
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Profilin is one of the major components controlling actin polymerization. Here, profilin I was located in fibroblasts and HeLa cells by the use of two different sets of affinity-purified antibodies. Both antibody preparations labeled nuclei in a speckle-like pattern and displayed extensive colocalization with small nuclear ribonucleoprotein particle (snRNP)-core proteins and p80 coilin-containing Cajal bodies. Treatment with actinomycin D led to largely similar reorganizations of snRNPs and profilin, while profilin and Cajal bodies separated under these conditions. One of the profilin antibodies interfered with pre-mRNA splicing in vitro, further indicating a role for profilin during pre-mRNA processing.  相似文献   

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Bogoliubov DS 《Tsitologiia》2000,42(2):136-145
An immunoelectron study of nuclear distribution of pre-mRNA splicing and pre-rRNA processing factors was carried out for oocytes of two turbellarian species: the Baikal endemic Geocentrophora wagini and a cosmopolitan G. baltica. Using monoclonal antibodies against Sm-epitope of small nuclear RNPs (snRNPs) and SR-protein SC35, it has been shown that on different stages of oocyte growth splicing factors (snRNPs and SC35) are distributed within the whole nucleus. A fibrogranular material located near heterochromatin clumps is labeled with these antibodies. A fibrillar part of this material seems to represent perichromatin fibrils. The features of intranuclear distribution of splicing factors in Geocentrophora oocyte nuclei and their ultrastructural features suggest that pre-mRNA synthesis and splicing may occur up to the end of diplotene. In Geocentrophora oocyte nuclei a few nuclear bodies (NBs) were found. Splicing factors (snRNPs and SC35) and fibrillarin were revealed in these NBs. Homology of Geocentrophora oocyte NBs to coiled bodies of oocyte and somatic cell nuclei of other animals is discussed. During diplotene, Geocentrophora oocyte nucleoli were found to lose their granular component and to change to large fibrillar structures named "postnucleoli". The postnucleoli contain both fibrillarin and non-nucleolar spliceosomal components (snRNPs and SC35). Geocentrophora oocyte postnucleoi are compared with similar structures of mammalian oocyte nuclei, taken as an example of morphological convergence of nuclear structure organization in phylogenetically distant animal species.  相似文献   

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An oocyte nucleus contains different extrachromosomal nuclear domains collectively called nuclear bodies (NBs). In the present work we revealed, using immunogold labeling electron microscopy, some marker components of interchromatin granule clusters (IGCs) and Cajal bodies (CBs) in morphologically heterogeneous oocyte NBs studied in three hemipteran species: Notostira elongata, Capsodes gothicus (Miridae) and Velia caprai (Veliidae). Both IGC and CB counterparts were revealed in oocyte nuclei of the studied species but morphological and biochemical criteria were found to be not sufficient to determine carefully the define type of oocyte NBs. We found that the molecular markers of the CBs (coilin and non-phosphorylated RNA polymerase II) and IGCs (SC35 protein) may be localized in the same NB. Anti-SC35 antibody may decorate not only a granular material representing "true" interchromatin granules but also masks some fibrillar parts of complex NBs. Our first observations on the hemipteran oocyte NBs confirm the high complexity and heterogeneity of insect oocyte IGCs and CBs in comparison with those in mammalian somatic cells and amphibian oocytes.  相似文献   

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Coiled bodies (CBs) are nuclear organelles whose morphology and composition have been conserved from plants to animals. They are highly enriched in components of three different RNA processing pathways. Small nuclear RNAs (snRNAs) involved in pre-mRNA splicing, rRNA processing, and histone mRNA 3′ end maturation all take up residence in CBs. However, CB function(s) remain obscure. This review will focus on recent developments in several aspects of CB structure and function, including exciting new results on their twin organelles, called gems. In particular, the reader will be introduced to a novel hypothesis called the “salmon theory of snRNP biogenesis.” Questions arising from and experiments necessary to test this hypothesis will be discussed. J. Cell. Biochem. 70:181–192, 1998. © 1998 Wiley-Liss, Inc.  相似文献   

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In some species of insects, oocytes have vesicular organelles, termed accessory nuclei (ANs). The ANs form by budding off from the nuclear envelope of the oocyte and are filled with translucent matrix containing dense inclusions. One type of these inclusions contains coilin and small nuclear ribonucleoproteins (snRNPs) and is homologous to Cajal bodies. We describe the early events in the morphogenesis of Cajal bodies in the ANs (ANCBs) of the common wasp, Vespula germanica, and show that they contain survival of motor neurons (SMN) protein. We present evidence that in the wasp, ANCBs form by the gradual accumulation of aggregates composed of SMN and small nuclear RNAs. We also show that ANCBs break down and disperse within the ANs as the ANs, which initially surround the oocyte nucleus, localize to the oocyte cortex. The components of dispersed ANCBs are retained within ANs until the end of oogenesis, which suggests that their function may be required at the onset of embryonic development. Because the morphology and behavior of ANs and their Cajal body-like inclusions are conserved in two other hymenopteran species, these features might be characteristic of all hymenopterans.  相似文献   

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C H Wu  C Murphy    J G Gall 《RNA (New York, N.Y.)》1996,2(8):811-823
Using cytoplasmic and nuclear injection assays, we show that U7 snRNA constructs are targeted rapidly and specifically to the coiled bodies (spheres) in the germinal vesicle (GV) of the amphibian oocyte, including those coiled bodies attached to the lampbrush chromosomes at the histone gene loci. Because the U7 snRNP is required for removing the 3' end of histone pre-mRNA, we suggest that a major function of coiled bodies is to recruit U7 snRNPs to the histone gene loci, before they associate with the pre-mRNA. Targeting to coiled bodies requires the specific U7 Sm binding site; replacement of the U7 Sm site by that of U2 snRNA reduces this targeting dramatically. No other part of the molecule is required, and the U7 Sm binding site alone is sufficient to direct nuclear import of an unrelated RNA sequence and its specific targeting to coiled bodies. Injected U7 constructs displace the endogenous U7 in the coiled bodies, the amount of injected U7 that ends up in coiled bodies being roughly equal to the amount of endogenous U7 snRNA.  相似文献   

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Nucleation of nuclear bodies by RNA   总被引:1,自引:0,他引:1  
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It is now clear that two prominent nuclear domains, interchromatin granule clusters (IGCs) and Cajal bodies (CBs), contribute to the highly ordered organization of the extrachromosomal space of the cell nucleus. These functional domains represent structurally stable but highly dynamic nuclear organelles enriched in factors that are required for different nuclear activities, especially RNA biogenesis. IGCs are considered to be the main sites for storage, assembly, and/or recycling of the essential spliceosome components. CBs are involved in the biogenesis of several classes of small RNPs as well as the modification of newly assembled small nuclear RNA. We have summarized data on the molecular composition, structure, and functional roles of IGCs and CBs in the nuclei of mammalian somatic cells and oocytes of some animals with a special focus on insects. We have focused on similarities and differences between the IGCs and CBs of oocytes and the well‐studied CBs and IGCs of cultured mammalian somatic cells. We have shown the heterogeneous character of oocyte IGCs and CBs, both in structure and molecular content. We have also demonstrated the unique capacity of oocytes to form close structural interactions between IGC and CB components. We proposed to consider these joint structures as integrated entities, sharing the features of both IGCs and CBs.  相似文献   

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