The new evidence of nucleolar ultrastructural dynamic change: Fibrillar centre (FC) fusion in G1 phase and regeneration in S phase
► The results showed that there were process of FC fusing in G1 phase in the nucleolus of A 375 cell. ► The results showed that there were process of FC reproducing in S phase. ► Few large FCs were found to be coexisted with numerous new tiny FCs in the nucleolus of A 375 cell in G2 phase. In higher...
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Veröffentlicht in: | Micron (Oxford, England : 1993) England : 1993), 2013-06, Vol.49, p.15-20 |
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Zusammenfassung: | ► The results showed that there were process of FC fusing in G1 phase in the nucleolus of A 375 cell. ► The results showed that there were process of FC reproducing in S phase. ► Few large FCs were found to be coexisted with numerous new tiny FCs in the nucleolus of A 375 cell in G2 phase.
In higher eukaryotes ribosome production starts at the end of mitosis, increases during G1, is maximal in G2 (Sirri et al., 2000) and stops during prophase (Gébrane-Younès et al., 1997). But the mechanism of the change is still uncovered. Especially in the actively growing mammalian somatic cells usually contain one or several giant fibrillar centres (GFCs) with many tiny fibrillar centre (FCs) (Koberna et al., 2002; Raška et al., 2004; Casafont et al., 2007). The process how the giant fibrillar centre (GFC) and the many tiny fibrillar centres (FCs) were formed is unknown. The present results showed there were processes of FCs fusion in G1 phase and FCs regeneration in S phase respectively in the nucleoli of A 375 cells. A few FCs fused each other in late G1 phase when the process of nucleoli fusion was completed. In S phase, a lot of tiny FCs were regenerated from the periphery of GFC, separated and scattered into nucleolar matrix in late S phase and early G2 phase. The GFC was found to be coexisted with numerous tiny FCs in the nucleolus in G2 phase. The present study provided a new evidence of nucleolar dynamic change during interphase: fibrillar centre (FC) was not to be a stable state subunit of nucleolar compartment but a highly dynamic process that may be the bases of nucleolar morphological architecture organization and its function taking place. |
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ISSN: | 0968-4328 1878-4291 |
DOI: | 10.1016/j.micron.2013.02.006 |