In oocyte nuclei of the scorpionfly, Panorpa communis, we have recently defined a population of nuclear bodies (NBs) that contain some components of Cajal bodies (CBs). In the present study, we used several criteria [presence of coilin, U7 snRNA, RNA polymerase II (pol II) and specific ultrastructure] to identify these NBs as CBs. The essential evidence for CB identification came from experiments with microinjection of fluorescein-tagged U7 snRNA. Consistent with the U7 data, we found pol II and pre-mRNA splicing factor, SC35, in Panorpa oocyte CBs. We show here that the dynamics of CBs differs from that in somatic cells and correlates with the level of oocyte chromosome condensation. We also found that the significant increase of CB size is accompanied by condensation of the chromosomes in the karyosphere, which is indicative of a decline in transcription. Using immunogold microscopy we determined that pol II and coilin are shared by CBs and the granular material associated with condensed chromosomes in the Panorpa karyosphere. The colocalization of pol II, U7 snRNA and splicing factors with CBs at the inactive stage of late oogenesis suggests that the latter may serve as storage domains for components that were earlier engaged in RNA transcription and processing.
The first ultrastructural and immunomorphological characteristics of the karyosphere (karyosome) and extrachromosomal nuclear bodies in the red flour beetle, Tribolium castaneum, are presented. The karyosphere forms early in the diplotene stage of meiotic prophase by the gathering of all oocyte chromosomes in a limited nuclear volume. Using the BrUTP assay, T. castaneum oocyte chromosomes united in the karyosphere maintain their transcriptional activity until the end of oocyte growth. Hyperphosphorylated RNA polymerase II and basal transcription factors (TFIID and TFIIH) were detected in the perichromatin region of the karyosphere. The T. castaneum karyosphere has an extrachromosomal capsule that separates chromosomes from the rest of the nucleoplasm. Certain structural proteins (F-actin, lamin B) were found in the capsule. Unexpectedly, the karyosphere capsule in T. castaneum oocytes was found to be enriched in TMG-capped snRNAs, which suggests that the capsule is not only a structural support for the karyosphere, but may be involved in biogenesis of snRNPs. We also identified the counterparts of 'universal' extrachromosomal nuclear domains, Cajal bodies (CBs) and interchromatin granule clusters (IGCs). Nuclear bodies containing IGC marker protein SC35 display some features unusual for typical IGCs. SC35 domains in T. castaneum oocytes are predominantly fibrillar complex bodies that do not contain trimethyl guanosine (TMG)-capped small nuclear (sn) RNAs. Microinjections of 2'-O-methyl (U)22 probes into the oocytes allowed revealing poly(A)+ RNAs in these nuclear domains. Several proteins related to mRNA export (heterogeneous ribonucleoprotein core protein A1, export adapters Y14 and Aly and export receptor NXF1) were also detected there. We believe that unusual SC35 nuclear domains of T. castaneum oocytes are possibly involved in mRNP but not snRNP biogenesis.
The distribution of Vasa protein and splicing factors of pre-mRNA has been studied in oogenesis of Panorpa communis. This distribution was analyzed relative to three types of perinuclear bodies (PBs) in trophocyte cytoplasm, PBs and polar granules (PGs) in oocyte. Immunoelectron labeling using antibody against Vasa protein revealed PBs of the 2nd type of P. communis trophocytes as well as oocyte PBs and PGs to contain Vasa protein. From this evidence emerged proposal that PBs of the 2nd type are homologues to the "nuage" of Drosophila, a marker of germ line cells. Besides, we suggest that in P. communis, both trophocytes and oocytes take part in formation of PGs. Using immunoelectron microscopy, we also show small nuclear RNPs both in trophocyte PBs of the 2nd type and in oocyte PBs. The functional significance of coupling in the same structure of Vasa protein and snRNPs is discussed.
Abstract. Diplotene oocyte nucleus of the scorpionfly Panorpa communis is transcriptionally silent and contains numerous nuclear bodies including interchromatin granule clusters (IGCs). The latter consist of the granules of 30-50 nm in diameter and contain IGC marker protein SC35 as well as RNA polymerase II. In this study, we also localized in P. communis oocyte IGCs the transcription coactivators CBP/p300, TATA-binding protein (TBP) which is a component of the basal transcription factor TFIID and the basal transcription factor TFIIH. We belive that IGCs in transcriptionally inert P. communis oocytes are storage sites for the components of RNA polymerase II holoenzyme and other factors of RNA pol II transcription.
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