AI Article Synopsis
- RCC1 plays multiple roles during the cell cycle, but its specific functions in living organisms and the importance of its various domains remain unclear.
- Researchers created a conditional knockout cell line to study different RCC1 mutants and discovered that nuclear reformation was disrupted in RCC1-deficient cells.
- Interestingly, neither the nuclear localization signal nor the chromatin-binding domain is individually essential, but their combined disruption affects nuclear reformation, highlighting that RCC1's chromatin association during mitosis is vital for its nuclear localization and function in interphase.
Article Abstract
RCC1, a guanine nucleotide exchange factor of the small GTPase Ran, plays various roles throughout the cell cycle. However, the functions of RCC1 in biological processes in vivo are still unclear. In particular, although RCC1 has multifunctional domains, the biological significance of each domain is unclear. To examine each domain of RCC1, we established an RCC1 conditional knockout chicken DT40 cell line and introduced various RCC1 mutants into the knockout cells. We found that nuclear reformation did not occur properly in RCC1-deficient cells and examined whether specific RCC1 mutants could rescue this phenotype. Surprisingly, we found that neither the nuclear localization signal nor the chromatin-binding domain of RCC1 is essential for its function. However, codisruption of these domains resulted in defective nuclear reformation, which was rescued by artificial nuclear localization of RCC1. Our data indicate that chromatin association of RCC1 during mitosis is crucial for its proper nuclear localization in the next interphase. Moreover, proper nuclear localization of RCC1 in interphase is essential for its function through its nucleotide exchange activity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4713138 | PMC |
| http://dx.doi.org/10.1091/mbc.E15-07-0497 | DOI Listing |
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