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Cell cycle-specific phase separation regulated by protein charge blockiness
by
Hirano, Tatsuya
, Yoshimura, Shige H.
, Yamazaki, Hiroya
, Takagi, Masatoshi
, Kosako, Hidetaka
in
14/19
/ 631/337/386/1362
/ 631/45/612/1223
/ 631/80/103
/ 631/80/458/1733
/ Biomedical and Life Sciences
/ Cancer Research
/ Cell Biology
/ Cell cycle
/ Chromatin
/ Chromosomes
/ Developmental Biology
/ Kinases
/ Letter
/ Life Sciences
/ Liquid phases
/ Mitosis
/ Molecular interactions
/ Nucleoli
/ Organelles
/ Phase separation
/ Phosphorylation
/ Proteins
/ Stem Cells
2022
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Cell cycle-specific phase separation regulated by protein charge blockiness
by
Hirano, Tatsuya
, Yoshimura, Shige H.
, Yamazaki, Hiroya
, Takagi, Masatoshi
, Kosako, Hidetaka
in
14/19
/ 631/337/386/1362
/ 631/45/612/1223
/ 631/80/103
/ 631/80/458/1733
/ Biomedical and Life Sciences
/ Cancer Research
/ Cell Biology
/ Cell cycle
/ Chromatin
/ Chromosomes
/ Developmental Biology
/ Kinases
/ Letter
/ Life Sciences
/ Liquid phases
/ Mitosis
/ Molecular interactions
/ Nucleoli
/ Organelles
/ Phase separation
/ Phosphorylation
/ Proteins
/ Stem Cells
2022
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Cell cycle-specific phase separation regulated by protein charge blockiness
by
Hirano, Tatsuya
, Yoshimura, Shige H.
, Yamazaki, Hiroya
, Takagi, Masatoshi
, Kosako, Hidetaka
in
14/19
/ 631/337/386/1362
/ 631/45/612/1223
/ 631/80/103
/ 631/80/458/1733
/ Biomedical and Life Sciences
/ Cancer Research
/ Cell Biology
/ Cell cycle
/ Chromatin
/ Chromosomes
/ Developmental Biology
/ Kinases
/ Letter
/ Life Sciences
/ Liquid phases
/ Mitosis
/ Molecular interactions
/ Nucleoli
/ Organelles
/ Phase separation
/ Phosphorylation
/ Proteins
/ Stem Cells
2022
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Cell cycle-specific phase separation regulated by protein charge blockiness
Journal Article
Cell cycle-specific phase separation regulated by protein charge blockiness
2022
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Overview
Dynamic morphological changes of intracellular organelles are often regulated by protein phosphorylation or dephosphorylation
1
–
6
. Phosphorylation modulates stereospecific interactions among structured proteins, but how it controls molecular interactions among unstructured proteins and regulates their macroscopic behaviours remains unknown. Here we determined the cell cycle-specific behaviour of Ki-67, which localizes to the nucleoli during interphase and relocates to the chromosome periphery during mitosis. Mitotic hyperphosphorylation of disordered repeat domains of Ki-67 generates alternating charge blocks in these domains and increases their propensity for liquid–liquid phase separation (LLPS). A phosphomimetic sequence and the sequences with enhanced charge blockiness underwent strong LLPS in vitro and induced chromosome periphery formation in vivo. Conversely, mitotic hyperphosphorylation of NPM1 diminished a charge block and suppressed LLPS, resulting in nucleolar dissolution. Cell cycle-specific phase separation can be modulated via phosphorylation by enhancing or reducing the charge blockiness of disordered regions, rather than by attaching phosphate groups to specific sites.
Yamazaki et al. show that cell cycle-regulated changes in hyperphosphorylation of Ki-67 and NPM1 modulate alternating charge blocks in these proteins, which defines their propensity for liquid–liquid phase separation at chromatin.
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