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Arginine methylation is a post-translational modification that regulates protein function. RNA-binding proteins are an important class of cell-function mediators, some of which are methylated on arginine. Early studies of RNA-binding proteins and arginine methylation are briefly introduced, and the enzymes that mediate this post-translational modification are described. We review the most common RNA-binding domains and briefly discuss how they associate with RNAs. We address the following groups of RNA-binding proteins: hnRNP, Sm, Piwi, Vasa, FMRP, and HuD. hnRNPs were the first RNA-binding proteins found to be methylated on arginine. The Sm proteins function in RNA processing and germ cell specification. The Piwi proteins are largely germ cell specific and are also required for germ cell production, as is Vasa. FMRP participates in germ cell formation in Drosophila, but is more widely known for its neuronal function. Similarly, HuD plays a role in nervous system development and function. We review the effects of arginine methylation on the function of each protein, then conclude by addressing remaining questions and future directions of arginine methylation as an important and emerging area of regulation. 相似文献
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24p3 is a secreted lipocalin that has been variously related to apoptosis, proliferation, and the neutrophil lineage of blood cells. We have investigated the expression of 24p3 mRNA and protein in myeloid cell lines induced to differentiate by insulin-like growth factor 1 (IGF-1) and the granulocytic-colony simulating factor (G-CSF). Both these growth factors, which cause myeloid cells to differentiate into granulocytes, induced a marked increase in the expression of both 24p3 protein and mRNA. The mRNA especially appeared early after the cells were induced with either IGF-1 or G-CSF, at a time when the cells were still proliferating and are morphologically undifferentiated. 24p3 can be considered an early marker of granulocytic differentiation. 相似文献
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It is frequently assumed that DNA-damaging agents are carcinogenic because they induce mutations. However, another strong possibility is that the damage leads to heritable changes in the methylation of cytosine in DNA. Considerable evidence exists that gene expression in mammalian cells is in part controlled by methylation of specific DNA sequences. Carcinogens may act by altering the normal epigenetic controls of gene activity in specialised cells, and thereby produce aberrant heritable phenotypes. It is known that agents which inhibit DNA methylation can be carcinogenic and that tumour cells are altered in DNA methylation. 相似文献
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Changes in cellular myosin were followed during the differentiation into macrophages of a myeloid leukemia cell line (Ml) which can be induced by conditioned medium (CM) from a rat embryo culture. To extract the myosin, we used three different procedures, all of which gave a lower yield of myosin for the differentiated than for the undifferentiated Ml cells. This low extractability we attributed to increased binding of the myosin to the plasma membrane. Taking the different extractabilities into consideration, we calculated the myosin contents in the total cellular protein from the densitometry of SDS-polyacrylamide electrophoresis, 0.6% for the untreated Ml cells and 1.0% for the differentiated ones. The three ATPase activities of the Ml cell myosin were in the order, K+-EDTA-=Ca2+- much greater than Mg2+-ATPase in the presence of 0.6 M KCl, whether or not there was treatment with CM. Myosin was purified through fractionation with 25-55% saturated ammonium sulfate, then gel filtration with Sepharose 4B followed by affinity chromatography on F actin-Sepharose 4B. The Ml cell myosin consists of 1 heavy chain (H) and 3 light chains (L1, L2, L3), with molecular ratios of L1 + L2/H not equal to and L3/H not equal to 1. The ratio of L1/L2 was about 1.2 for the untreated Ml cells, but it decreased to about 0.7 after differentiation. 相似文献
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Sang Hee Han Jusong Kim Yerim Her Ikjoo Seong Sera Park Deepak Bhattarai Guanghai Jin Kyeong Lee Gukhoon Chung Sungkee Hwang Yun Soo Bae Jaesang Kim 《BMB reports》2015,48(12):691-695
We report that phytosphingosine, a sphingolipid found in many organisms and implicated in cellular signaling, promotes megakaryocytic differentiation of myeloid leukemia cells. Specifically, phytosphingosine induced several hallmark changes associated with megakaryopoiesis from K562 and HEL cells including cell cycle arrest, cell size increase and polyploidization. We also confirmed that cell type specific markers of megakaryocytes, CD41a and CD42b are induced by phytosphingosine. Phospholipids with highly similar structures were unable to induce similar changes, indicating that the activity of phytosphingosine is highly specific. Although phytosphingosine is known to activate p38 mitogen-activated protein kinase (MAPK)-mediated apoptosis, the signaling mechanisms involved in megakaryopoiesis appear to be distinct. In sum, we present another model for dissecting molecular details of megakaryocytic differentiation which in large part remains obscure. [BMB Reports 2015; 48(12): 691-695] 相似文献