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1.
《Cell calcium》2019
Alterations in the (bio)chemical and physical microenvironment of cells accompany and often promote disease formation and progression. This is particularly well established for solid cancers, which are typically stiffer than the healthy tissue in which they arise, and often display profound acidification of their interstitial fluid. Cell surface receptors can sense changes in the mechanical and (bio)chemical properties of the surrounding extracellular matrix and fluid, and signalling through these receptors is thought to play a key role in disease development and advancement. This review will look at ion channels and G protein coupled receptors that are activated by mechanical cues and extracellular acidosis, and stimulation of which results in increases in intracellular Ca2+ concentrations. Cellular Ca2+ levels are dysregulated in cancer as well as cancer-associated cells, and mechano- and proton-sensing proteins likely contribute to these aberrant intracellular Ca2+ signals, making them attractive targets for therapeutic intervention. 相似文献
2.
Total cellular calcium content (determined by atomic absorption spectrometry) of Rat-1 cells transformed by temperature-sensitive Rous sarcoma virus decreases with cell density, but is found not significantly different at permissive and at non-permissive temperature. Kinetic analysis of 45Ca efflux from preloaded cells exhibits three separable pools of exchangeable calcium. The ratio of pool size of the fast-exchanging Ca-compartment (bound to cell surface) to pool size of the intermediate Ca-compartment (cytoplasmic) was found to decrease from 2.5 to 1.3 upon shift from non-permissive to permissive temperature. The slowly exchanging Ca-pool (presumably mitochondrial) did not change significantly upon temperature shift. These and further data demonstrate a close correlation between distribution of cellular Ca among different cellular compartments and characteristics of cellular proliferation, both attributable to the function(s) of a single oncogene. 相似文献
3.
Summary The 68C puff is a highly transcribed region of theDrosophila melanogaster salivary gland polytene chromosomes. Three different classes of messenger RNA originate in a 5000-bp region in the puff; each class is translated to one of the salivary gland glue proteins sgs-3, sgs-7, or sgs-8. These messenger RNA classes are coordinately controlled, with each RNA appearing in the third larval instar and disappearing at the time of puparium formation. Their disappearance is initiated by the action of the steroid hormone ecdysterone. In the work reported here, we studied evolution of this hormone-regulated gene cluster in themelanogaster species subgroup ofDrosophila. Genome blot hybridization experiments showed that five other species of this subgroup have DNA sequences that hybridize toD. melanogaster 68C sequences, and that these sequences are divided into a highly conserved region, which does not contain the glue genes, and an extraordinarily diverged region, which does. Molecular cloning of this DNA fromD. simulans, D. erecta, D. yakuba, andD. teissieri confirmed the division of the region into a slowly and a rapidly evolving protion, and also showed that the rapidly evolving region of each species codes for third instar larval salivary gland RNAs homologous to theD. melanogaster glue mRNAs. The highly conserved region is at least 13,000 bp long, and is not known to code for any RNAs. 相似文献
4.
A simple procedure is described for the elimination ofO-linked glycans from bovine submaxillary mucin under non-reducing conditions, using triethylamine in aqueous hydrazine. The glycans were isolated as the hydrazones, which were converted to the reducing glycans by exchange with acetone in neutral aqueous solution. The glycan alditols obtained after reduction corresponded to those obtained by the reductive 68m8400p8/xxlarge946.gif" alt="beta" align="MIDDLE" BORDER="0">-elimination ofO-glycans. 相似文献
5.
Summary While reported interactions of elongation factor-168p41562m53n63l/xxlarge945.gif" alt="agr" align="BASELINE" BORDER="0"> (EF-168p41562m53n63l/xxlarge945.gif" alt="agr" align="BASELINE" BORDER="0">) with various other molecules involved in protein biosynthesis are abundant, its interactions with major cytoskeletal proteins have not been as extensively examined. Major roles for EF-168p41562m53n63l/xxlarge945.gif" alt="agr" align="BASELINE" BORDER="0"> in cytoskeletal organization emerge from a review of such interactions within species as diverse as slime molds and mammals, sea urchins and higher plants. Based on these studies, the integration of EF-168p41562m53n63l/xxlarge945.gif" alt="agr" align="BASELINE" BORDER="0">'s cytoskeletal roles with those of translation is considered, and prospective mechanisms for regulation of EF-168p41562m53n63l/xxlarge945.gif" alt="agr" align="BASELINE" BORDER="0">'s cytoskeletal associations are discussed.Abbreviations EF
elongation factor
- RNP
ribonucleoprotein particle
- MT
microtubule
- MA
mitotic apparatus
- CaM
calmodulin
- MAP
microtubule-associated protein 相似文献
6.
动物细胞在鼓泡式生物反应器中的死亡速率 总被引:1,自引:1,他引:0
通过实验测定,证明生物反应器中细胞死亡速率与气体鼓泡速率成正比而与反应器体积成反比。实验发现气泡大小对细胞死亡速率具有两种作用,一种作用在于影响气泡表面积生成速率;另一种作用则在于影响细胞在气泡表面的吸附程度,其最佳直径为5mm左右。血清和Pluronic F68能显著降低细胞死亡速率,当Pluronic F68浓度达到0.1%时,kd趋于零。所有这些实验结果均与前文提出的生物反应器设计模型具有很好的一致性。 相似文献
7.
9.
Pluronic F68 is one of the most used shear protecting additives in cell culture cultivations. It is well known from literature that such surface‐active surfactants lower the surface tension at the gas‐liquid interface, which influences the mass transfer. In this study, the effect of Pluronic F68 on oxygen mass transfer in aqueous solutions was examined. Therefore, the gassing in/gassing out method and bubble size measurements were used. At low concentrations of 0.02 g/L, a 50% reduction on mass transfer was observed for all tested spargers and working conditions. An explanation of the observed effects by means of Higbie's penetration or Dankwerts surface renewal theory was applied. It could be demonstrated that the suppressed movement of the bubble surface layer is the main cause for the significant drop down of the kLa‐values. For Pluronic F68 concentrations above 0.1 g/L, it was observed that it comes to changes in bubble appearance and bubble size strongly dependent on the sparger type. By using the bubble size measurement data, it could be shown that only small changes in mass transfer coefficient (kL) take place above the critical micelle concentration. Further changes on overall mass transfer at higher Pluronic F68 concentrations are mainly based on increasing of gas holdup and, more importantly, by increasing of the surface area available for mass transfer. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29:1278–1288, 2013 相似文献
10.
Simona Pedrotti Pamela Bielli Maria Paola Paronetto Fabiola Ciccosanti Gian Maria Fimia Stefan Stamm James L Manley Claudio Sette 《The EMBO journal》2010,29(7):1235-1247
Spinal muscular atrophy (SMA) is a neurodegenerative disease caused by loss of motor neurons in patients with null mutations in the SMN1 gene. An almost identical SMN2 gene is unable to compensate for this deficiency because a single C‐to‐T transition at position +6 in exon‐7 causes skipping of the exon by a mechanism not yet fully elucidated. We observed that the C‐to‐T transition in SMN2 creates a putative binding site for the RNA‐binding protein Sam68. RNA pull‐down assays and UV‐crosslink experiments showed that Sam68 binds to this sequence. In vivo splicing assays showed that Sam68 triggers SMN2 exon‐7 skipping. Moreover, mutations in the Sam68‐binding site of SMN2 or in the RNA‐binding domain of Sam68 completely abrogated its effect on exon‐7 skipping. Retroviral infection of dominant‐negative mutants of Sam68 that interfere with its RNA‐binding activity, or with its binding to the splicing repressor hnRNP A1, enhanced exon‐7 inclusion in endogenous SMN2 and rescued SMN protein expression in fibroblasts of SMA patients. Our results thus indicate that Sam68 is a novel crucial regulator of SMN2 splicing. 相似文献