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MOS is a serine/threonine kinase that activates the MAP kinase cascade through direct phosphorylation of the MAP kinase activator MEK (MAP2K1\; MIM 176872) (Prasad et al., 2008 [PubMed 18246541]).[supplied by OMIM, Jul 2009].. De plus, nous expédions MOS Protéines (12) et beaucoup plus de produits pour cette protéine.
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while cyclin B1 RNA granules were disassembled in a manner dependent on actin filament depolymerization, certain fractions of mos RNA granules were disassembled independently of actin filaments. These results suggest that cytoplasmic regulation of translationally repressed mRNAs by formation of different RNA granules is a key mechanism for translational control of
employed genetic linkage analysis and physical mapping to place the mosm188 mutation on chromosome 6 in the vicinity of the foxd3 (Montrer FOXD3 Anticorps) gene
In Xenopus oocytes, the N-terminal Pro of murine & Xenopus c-MOS is dispensable for degradation if Ser-2 of c-MOS is replaced by a small non-phosphorylatable residue. The N-terminal Pro residue is not a recognition determinant for a ubiquitin ligase.
Mos protein is unstable in early mouse embryos
This suggests that c-mos might play important roles in spermatogenesis
Cdc2 (Montrer CDK1 Anticorps) and Mos regulate Emi2 stability to promote the meiosis I-meiosis II transition
Mos is responsible for the mitotic activation of the p42 MAPK (Montrer MAPK1 Anticorps) pathway in Xenopus egg extracts.
Results suggest that the specific synthesis of either B-type cyclins or c-Mos, induced by progesterone, is required to induce meiotic maturation and Cdc2 activation.
Thus, Mos and Erp1 (Montrer FBXO43 Anticorps) collaboratively establish and maintain metaphase II arrest in Xenopus eggs
results clarify the direct link of the classical Mos-MAPK pathw (Montrer MAPK1 Anticorps)ay to Erp1 in meiotic arrest of ve (Montrer MAPK1 Anticorps)rtebrate oocytes
approach identified 18 kinase and kinase-related genes whose overexpression can substitute for EGFR (Montrer EGFR Anticorps) in EGFR (Montrer EGFR Anticorps)-dependent PC9 (Montrer PCSK9 Anticorps) cells, and these genes include seven of nine Src (Montrer SRC Anticorps) family kinase genes, FGFR1 (Montrer FGFR1 Anticorps), FGFR2 (Montrer FGFR2 Anticorps), ITK (Montrer ITK Anticorps), NTRK1 (Montrer NTRK1 Anticorps), NTRK2 (Montrer NTRK2 Anticorps), MOS, MST1R (Montrer MST1R Anticorps), and RAF1 (Montrer RAF1 Anticorps).
High methylation level in MOS is associated with intestinal metaplasia.
among the candidate genes, DNA methylation (Montrer HELLS Anticorps) of MOS may reflect the duration of H. pylori exposure and may be a marker for the development of gastric cancer.
In the absence of p53 (Montrer TP53 Anticorps), Mos knockdown prevents multipolar mitoses and exerts genome-stabilizing effects.
multiple meiotic genes are aberrantly activated during mitotic catastrophe in p53 (Montrer TP53 Anticorps) mutated lymphoma cells after irradiation; the coordinated expression of MOS and REC8 (Montrer REC8 Anticorps) regulate the extent of arrested mitoses and polyploidy
Mos 3' UTR (Montrer UTS2R Anticorps) regulatory differences underlie species-specific temporal patterns of Mos mRNA cytoplasmic polyadenylation and translational recruitment during oocyte maturation.
Cdc2 (Montrer CDK1 Anticorps) and Mos regulate Emi2 (Montrer FBXO43 Anticorps) stability to promote the meiosis I-meiosis II transition
These results clarify the direct link of the classical Mos-MAPK (Montrer MAPK1 Anticorps) (mitogen-activated protein kinase (Montrer MAPK1 Anticorps)) pathway to Erp1 (Montrer FBXO43 Anticorps) in meiotic arrest of vertebrate oocytes.
the Mos/MAPK (Montrer MAPK1 Anticorps) pathway is not essential for initiating goldfish oocyte maturation despite its general function as a cytostatic factor (CSF (Montrer CSF2 Anticorps)).
the length of the MOS 3'-UTR (Montrer UTS2R Anticorps) tightly controls the level of translation during oocyte maturation. two U-rich (U5A) elements and the hexanucleotide signal (AAUAAA) are required for translation.
MOS is a serine/threonine kinase that activates the MAP kinase cascade through direct phosphorylation of the MAP kinase activator MEK (MAP2K1\; MIM 176872) (Prasad et al., 2008
v-mos Moloney murine sarcoma viral oncogene homolog
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, v-mos moloney murine sarcoma viral oncogene homolog
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, oncogene MOS, Moloney murine sarcoma virus
, oocyte maturation factor Mos