Alexander Tsvetkov scite author profile

We present evidence for the essential homology of four nuclear organelles that have previously been described under four different names: coiled bodies in mammalian somatic nuclei, prenucleolar bodies in nuclei assembled in vitro in Xenopus egg extract, sphere organelles in amphibian germinal vesicles (GVs), and Binnenkörper in insect GVs. Each of these organelles contains coilin or a coilin-related protein plus a variety of small nuclear ribonucleoproteins. We suggest that the sphere organelle/coiled body is a "universal" nuclear component in the sense that it is involved in common nuclear processes and hence will be found in one form or another in most eukaryotic cells. We postulate that it functions in the assembly and sorting of snRNP complexes for three RNA processing pathways: pre-mRNA splicing, rRNA processing, and histone pre-mRNA 3' end formation. Specifically, the sphere organelle/coiled body may be the initial site for assembly of processing complexes, which are then sorted to other places in the nucleus, where the actual RNA processing takes place.

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Transcription on lampbrush chromosome loops in the absence of U2 snRNA.

Tsvetkov

Jantsch

et al. 1992

MBoC

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The five small nuclear RNAs (snRNAs) involved in splicing occur on the loops of amphibian lampbrush chromosomes and in hundreds to thousands of extrachromosomal granules called B snurposomes. To assess the role of these snRNAs during transcription and to explore possible relationships between the loops and B snurposomes, we injected singlestranded antisense oligodeoxynucleotides (oligos) against Ul and U2 snRNA into toad and newt oocytes. As shown before, antisense Ul and U2 oligos caused truncation of Ul and complete destruction of U2 snRNAs, respectively. However, injection of any oligo, regardless of sequence, brought on dramatic cytological changes, including shortening of the chromosomes and retraction of the lateral loops, with concomitant shutdown of polymerase II transcription, as well as disappearance of some or all of the B snurposomes. When injected oocytes were incubated for 12 h or longer in physiological saline, these changes were reversible; that is, the chromosomes lengthened, transcription (detected by 3H-UTP incorporation) resumed on newly extended lateral loops, and B snurposomes reappeared. In situ hybridization showed that loops and B snurposomes had negligible amounts of U2 snRNA after recovery from injection of the anti-U2 oligo, whereas these structures had normal levels of U2 snRNA after recovery from a control oligo. Thus, the morphological integrity of B snurposomes and lampbrush chromosome loops is not dependent on the presence of U2 snRNA. Because transcription occurs in the absence of U2 snRNA, we conclude that splicing is not required for transcription on lampbrush chromosome loops.

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An immunoelectron study of karyosphere and nuclear bodies in oocytes of mealworm beetle, Tenebrio molitor (Coleoptera: Polyphaga)

et al. 2000

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The karyosphere and nuclear bodies (NBs) were studied in Tenebrio molitor oocytes using immunoelectron cytochemistry. During early diplotene (previtellogenic stage), oocyte chromosomes begin to unite in a small nuclear volume forming the karyosphere. In vitellogenic oocyte nuclei, the chromatin undergoes condensation, and the karyosphere acquires a ring-shaped structure. The karyosphere is the only structure containing DNA in the oocyte nucleus. Pre-mRNA splicing factors [small nuclear ribonucleoproteins (snRNPs) and SC35] are not found in the karyosphere itself. In previtellogenic oocyte nuclei, these factors are present in NBs and in a fibrogranular substance surrounding the chromosomes in the early stages of karyosphere formation. At this stage, larger fibrillar NBs contain the non-snRNP splicing factor SC35. Smaller roundish NBs were shown to contain snRNPs. Some NBs with the same morphology contain neither snRNPs nor SC35. In the vitellogenic oocyte, there are fibrogranular NBs containing both snRNPs and SC35 splicing factors, fibrillar NBs containing snRNPs only, and complex NBs containing both. Complex NBs are often connected with the ring-shaped karyosphere. Based on the obtained immunoelectron data, we suggest that T. molitor oocyte NBs containing both snRNPs and the non-snRNP splicing factor SC35 are homologs of the well-characterized B-snurposomes in amphibian germinal vesicles and clusters of interchromatin granules in mammalian oocyte nuclei. Other NBs containing only snRNPs are suggested to represent a special class of insect oocyte snurposomes. The nuclear organelles mentioned seem to play a role as storage domains for pre-mRNA splicing factors during T. molitor oogenesis.

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Snurposomes and Coiled Bodies

Wu¹,

Murphy²,

Wu³

et al. 1993

Cold Spring Harbor Symposia on Quantitative Biology

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In the GV of amphibian oocytes, the splicing snRNPs (U1, U2, U4, U5, and U6) occur on most of the lampbrush chromosome loops in association with the nascent transcripts. They also occur in thousands of small extrachromosomal bodies (1-4 microns in diameter) designated B snurposomes. U7 snRNA, which is involved in processing the 3' end of histone pre-mRNAs, occurs in a few dozen extrachromosomal bodies (1-20 microns in diameter) called C snurposomes. C snurposomes often have B snurposomes attached to their surface and B-like inclusions; these compound structures are known as spheres or sphere organelles. One or two sphere organelles are attached to the lampbrush chromosomes at the histone gene loci. Two snRNAs (or snoRNAs) known to be involved in pre-rRNA processing (U3 and U8) occur in the 1000 or so extrachromosomal nucleoli of the GV. We looked for a snurposome that might contain U3 and U8 but not rDNA or rRNA. We were unable to find such a snurposome, but we did identify a hitherto unrecognized population of minute nucleoli in the size range of B snurposomes. Prenucleolar bodies in telophase/early interphase nuclei meet the definition of a pre-rRNA snurposome in that they contain U3 snoRNA and fibrillarin (and probably other processing components) but lack rDNA and do not synthesize rRNA. The structures previously identified as prenucleolar bodies in pronuclei formed in vitro in Xenopus egg extracts share many components with coiled bodies from HeLa nuclei.(ABSTRACT TRUNCATED AT 250 WORDS)

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