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Checkpoint kinase 1 (Chk1) is a master regulator of the DNA damage and replication checkpoints in vertebrate cells. When activated via phosphorylation by its upstream regulatory kinase, ATR, Chk1 prevents cells with damaged or incompletely replicated DNA from entering mitosis, and acts to stabilize stalled replication forks and suppress replication origin firing when DNA synthesis is inhibited. Chk1...
The underlying etiologies of genetic congenital microcephaly are complex and multifactorial. Recently, with the exponential growth in the identification and characterization of novel genetic causes of congenital microcephaly, there has been a consolidation and emergence of certain themes concerning underlying pathomechanisms. These include abnormal mitotic microtubule spindle structure, numerical...
Recent data show that catastrophic events during one cell cycle can cause massive genome damage producing viable clones with unstable genomes. This is in contrast with the traditional view that tumorigenesis requires a long‐term process in which mutations gradually accumulate over decades. These sudden events are likely to result in a large increase in genomic diversity within a relatively short time,...
Deregulation of the cell cycle underlies the aberrant cell proliferation that characterizes cancer and loss of cell cycle checkpoint control promotes genetic instability. During the past two decades, cancer genetics has shown that hyperactivating mutations in growth signalling networks, coupled to loss of function of tumour suppressor proteins, drives oncogenic proliferation. Gene expression profiling...
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