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The role of p53 in the response to mitotic spindle damage
D W Meek
Research output
:
Contribution to journal
›
Article
›
peer-review
63
Citations (Scopus)
Overview
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Dive into the research topics of 'The role of p53 in the response to mitotic spindle damage'. Together they form a unique fingerprint.
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Keyphrases
Mitosis
100%
Mitotic Spindle Damage
100%
Spindle Formation
50%
P53-independent
50%
Molecular Mechanism
25%
Cell Cycle Checkpoint
25%
Centrosome
25%
Hypoxia
25%
Polyploidy
25%
Null Cell
25%
Tumor Protein p53 (TP53)
25%
Cellular Stress
25%
DNA Damage
25%
Wild-type p53
25%
Sister Chromatids
25%
Mitotic Spindle
25%
Growth Arrest
25%
Spindle
25%
Nuclear Envelope
25%
Viral Infection
25%
M Cells
25%
Nucleate
25%
Duplication
25%
Metaphase-anaphase Transition
25%
Metabolic Changes
25%
Delay Period
25%
Spindle Damage
25%
Oncogene Expression
25%
Aberrant Mitosis
25%
Mitotic Slippage
25%
Micronucleus
25%
Medicine and Dentistry
Protein P53
100%
Mitosis Spindle
100%
Division
18%
Oncogene
9%
Cell Cycle Checkpoint
9%
DNA Damage
9%
Hypoxia
9%
Cell Cycle
9%
Null Cell
9%
Metaphase
9%
Anaphase
9%
Nuclear Membrane
9%
Centrosome
9%
Cell Stress
9%
Polyploidy
9%
Sister Chromatid
9%
Growth Disorder
9%
Virus Infection
9%
Micronucleus
9%
Microfold Cell
9%
Nuclear Pore
9%
Immunology and Microbiology
P53
100%
Mitosis Spindle
100%
Wild Type
9%
Null Cell
9%
Cell Stress
9%
DNA Damage
9%
Cell Cycle
9%
Cell Cycle Checkpoint
9%
Sister Chromatid
9%
Anaphase
9%
Metaphase
9%
Viral Disease
9%
Centrosome
9%
Nuclear Pore
9%
Polyploidy
9%
Micronucleus
9%
Oncogene
9%
Biochemistry, Genetics and Molecular Biology
P53
100%
Mitosis Spindle
100%
Metaphase
9%
Anaphase
9%
Cell Cycle
9%
Wild Type
9%
Centrosome
9%
Polyploid
9%
Cell Stress
9%
DNA Damage
9%
Cell Cycle Checkpoint
9%
Oncogene
9%
Sister Chromatid
9%
Nuclear Membrane
9%
Nuclear Pore
9%