Chisa Bamba scite author profile

The GTPase Ran is known to regulate transport of proteins across the nuclear envelope. Recently, Ran has been shown to promote microtubule polymerization and spindle assembly around chromatin in Xenopus mitotic extracts and to stimulate nuclear envelope assembly in Xenopus or HeLa cell extracts. However, these in vitro findings have not been tested in living cells and do not necessarily describe the generalized model of Ran functions. Here we present several lines of evidence that Ran is indispensable for correct chromosome positioning and nuclear envelope assembly in C. elegans. Embryos deprived of Ran by RNAi showed metaphase chromosome misalignment and aberrant chromosome segregation, while astral microtubules seemed unaffected. Depletion of RCC1 or RanGAP by RNAi resulted in essentially the same defects. The immunofluorescent staining showed that Ran localizes to kinetochore regions of metaphase and anaphase chromosomes, suggesting the role of Ran in linking chromosomes to kinetochore microtubules. Ran was shown to localize to the nuclear envelope at telophase and during interphase in early embryos, and the depletion of Ran resulted in failure of nuclear envelope assembly. Thus, Ran is crucially involved in chromosome positioning and nuclear envelope assembly in C. elegans.

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Dynamic whole-body 18F-FDG PET for differentiating abnormal lesions from physiological uptake

Nishimura

Tamaki

Matsushima

et al. 2020

Eur J Nucl Med Mol Imaging

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Comparison between dynamic whole-body FDG-PET and early-delayed imaging for the assessment of motion in focal uptake in colorectal area

et al. 2021

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Reading efficiency can be improved by minor modification of assigned duties; a pilot study on a small team of general radiologists

et al. 2017

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Ic‐p‐068: Jart Is a Protective and Independent Measure From Pathological Change of Alzheimer's Disease

Bamba

Iwata

Nakashima

et al. 2019

Alzheimer's & Dementia

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Chisa Bamba

The GTPase Ran Regulates Chromosome Positioning and Nuclear Envelope Assembly In Vivo

Dynamic whole-body 18F-FDG PET for differentiating abnormal lesions from physiological uptake

Comparison between dynamic whole-body FDG-PET and early-delayed imaging for the assessment of motion in focal uptake in colorectal area

Reading efficiency can be improved by minor modification of assigned duties; a pilot study on a small team of general radiologists

Ic‐p‐068: Jart Is a Protective and Independent Measure From Pathological Change of Alzheimer's Disease

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