Publications by authors named "Matthieu Lemaire"
The CDC25B phosphatase regulates the activation of CDK1-Cyclin B at the onset of mitosis, being a key target of the checkpoint pathways activated by cellular stress and DNA damage. Previous work has reported that checkpoint activation induces the sequestration of CDC25B in the cytoplasm. Here we show that in response to UV irradiation, the levels of CDC25B protein can be downregulated independently of classical checkpoints pathways such as p53, ATM/ATR and p38 MAPK.
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- Scientists used a special analysis called NanoLC-MS/MS to study a protein called CDC25B3 in human cells and see how it gets changed by adding phosphate groups (phosphorylation).
- They found 18 spots on the protein that can be phosphorylated, and most of these were already known (like S/T P), but they also found 8 new spots that were not the usual type.
- They discovered that up to 13 phosphate groups can attach to one CDC25B3 molecule, and many of the phosphorylation sites they found were new and not seen in similar proteins before.
CDC25B is one of the three human phosphatases that are involved in the control of the activation of cyclin-dependent kinases. CDC25B participates in regulating entry into mitosis and appears to play a key role in the checkpoint response to DNA injury. CDC25B has been reported to be regulated by a number of kinases and controversial evidence suggests that it is phosphorylated by p38SAPK and/or MAPKAP kinase-2.
View Article and Find Full Text PDFCDC25 phosphatases are essential and evolutionary-conserved actors of the eukaryotic cell cycle control. To examine and compare the properties of three splicing variants of human CDC25B, recombinant fission yeast strains expressing the human proteins in place of the endogenous Cdc25 were generated and characterized. We report, that the three CDC25B variants: (i) efficiently replace the yeast counterpart in vegetative growth, (ii) partly restore the gamma and UV radiation DNA damage-activated checkpoint, (iii) fail to restore the DNA replication checkpoint activated by hydroxyurea.
View Article and Find Full Text PDFThe Cds1/CHK2 kinase plays a key role in the activation of the G(2) checkpoint after DNA damage. Here we report the existence in fission yeast of a short variant (Sv) of Cds1 that is produced through an alternative splicing mechanism leading to a frame shift and premature termination. This SvCds1 protein consists solely of the regulatory region and lacks the catalytic domain.
View Article and Find Full Text PDFFission yeast is a simple eukaryotic model organism in which many aspects of cell cycle control can be explored. We examined by homologous recombination whether the human CDC25A phosphatase could substitute for the function of the fission yeast Cdc25. We first show: (a).
View Article and Find Full Text PDFFourteen cases of mesangial IgG glomerulonephritis characterized by exclusive or predominant mesangial IgG deposits are reported. The median age at onset was 19 yr (range, 13 to 47 yr). No patient exhibited evidence of systemic lupus erythematous or other systemic diseases.
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