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81.
Yifan Wang Tiago J. Dantas Pierce Lalor Peter Dockery Ciaran G. Morrison 《Cell cycle (Georgetown, Tex.)》2013,12(4):635-636
Comment on: Taherbhoy AM, et al. Mol Cell 2011; 44:451–61 相似文献
82.
《Cell cycle (Georgetown, Tex.)》2013,12(15):2896-2910
Equal partitioning of the duplicated chromosomes into two daughter cells during cell division is a coordinated process and is initiated only after completion of DNA synthesis. However, this strict order of execution breaks down in CDC6-deficient cells. Cdc6, an evolutionarily conserved protein, is required for the assembly of pre-replicative complexes (pre-RCs) and is essential for the initiation of DNA replication. Yeast cells lacking Cdc6 function, though unable to initiate DNA replication, proceed to undergo “reductional anaphase” by partitioning the unreplicated chromosomes and lose viability rapidly. This extreme form of genomic instability in cdc6 cells is thought to be due to inactivation of a pre-RC based, Cdc6-dependent checkpoint mechanism that, during normal cell cycle, inhibits premature onset of mitosis until pre-RC is assembled. Here, we show that chromosome segregation in cdc6 mutant is caused not by precocious initiation of mitosis in the absence of a checkpoint, but by the deregulation of spindle dynamics induced via a regulatory network involving the ubiquitin-conjugating enzyme Cdc34, microtubule-associated proteins (MAPs) and the anaphase-promoting complex (APC) activator Cdh1. This regulatory circuit governs spindle behavior in the early part of the division cycle and precipitates catastrophic chromosome segregation in the absence of DNA replication. 相似文献
83.
In addition to governing mitotic progression, Plk1 also suppresses the activation of the G2 DNA damage checkpoint and promotes checkpoint recovery. Previous studies have shown that checkpoint activation after DNA damage requires inhibition of Plk1, but the underlying mechanism of Plk1 regulation was unknown. In this study we show that the specific phosphatase activity toward Plk1 Thr-210 in interphase Xenopus egg extracts is predominantly PP2A-dependent, and this phosphatase activity is upregulated by DNA damage. Consistently, PP2A associates with Plk1 and the association increases after DNA damage. We further revealed that B55α, a targeting subunit of PP2A and putative tumor suppressor, mediates PP2A/Plk1 association and Plk1 dephosphorylation. B55α and PP2A association is greatly strengthened after DNA damage in an ATM/ATR and checkpoint kinase-dependent manner. Collectively, we report a phosphatase-dependent mechanism that responds to DNA damage and regulates Plk1 and checkpoint recovery. 相似文献
84.
Maintenance of genomic stability during eukaryotic cell division relies on the Spindle Assembly Checkpoint (SAC), which has evolved as a surveillance mechanism that monitors kinetochore-microtubule attachment and prevents APC/C-mediated mitotic exit until all chromosomes are properly attached to the mitotic spindle. Reversible protein phosphorylation has long been accredited as a regulatory mechanism of the SAC. Nevertheless, knowledge of how several mitotic kinases act in concert within the signaling pathway to orchestrate SAC function is still emerging. In a recent study, we undertook a comprehensive dissection of the hierarchical framework controlling SAC function in Drosophila cells. We found that Polo lies at the top of the SAC pathway promoting the efficient recruitment of Mps1 to unattached kinetochores. This renders Mps1 fully active to control BubR1 phosphorylation that generates the 3F3/2 phosphoepitope at tensionless kinetochores. We have proposed that Polo is required for SAC function and that the molecular outcome of Mps1-dependent 3F3/2 formation is to promote the association of Cdc20 with BubR1 allowing proper kinetochore recruitment of Cdc20 and efficient assembly of the Mitotic Checkpoint Complex (MCC) required for a sustained SAC response. 相似文献
85.
Angela Poehlmann Kathrin Reissig Peter Schönfeld Diana Walluscheck Antje Schinlauer Roland Hartig Wiebke Lessel Thomas Guenther Andrew Silver Albert Roessner 《Journal of cellular and molecular medicine》2013,17(12):1619-1631
The production of hydrogen peroxide (H2O2) drives tumourigenesis in ulcerative colitis (UC). Recently, we showed that H2O2 activates DNA damage checkpoints in human colonic epithelial cells (HCEC) through c‐Jun N‐terminal Kinases (JNK) that induces p21WAF1. Moreover, caspases circumvented the G1/S and intra‐S checkpoints, and cells accumulated in G2/M. The latter observation raised the question of whether repeated H2O2 exposures alter JNK activation, thereby promoting a direct passage of cells from G2/M arrest to driven cell cycle progression. Here, we report that increased proliferation of repeatedly H2O2‐exposed HCEC cells (C‐cell cultures) was associated with (i) increased phospho‐p46 JNK, (ii) decreased total JNK and phospho‐p54 JNK and (iii) p21WAF1 down‐regulation. Altered JNK activation and p21WAF1 down‐regulation were accompanied by defects in maintaining G2/M and mitotic spindle checkpoints through adaptation, as well as by apoptosis resistance following H2O2 exposure. This may cause increased proliferation of C‐cell cultures, a defining initiating feature in the inflammation‐carcinoma pathway in UC. We further suggest that dysregulated JNK activation is attributed to a non‐apoptotic function of caspases, causing checkpoint adaptation in C‐cell cultures. Additionally, loss of cell‐contact inhibition and the overcoming of senescence, hallmarks of cancer, contributed to increased proliferation. Furthermore, there was evidence that p54 JNK inactivation is responsible for loss of cell‐contact inhibition. We present a cellular model of UC and suggest a sinusoidal pattern of proliferation, which is triggered by H2O2‐induced reactive oxygen species generation, involving an interplay between JNK activation/inactivation, p21WAF1, c‐Fos, c‐Jun/phospho‐c‐Jun, ATF2/phospho‐ATF2, β‐catenin/TCF4‐signalling, c‐Myc, CDK6 and Cyclin D2, leading to driven cell cycle progression. 相似文献
86.
Budding yeast cells suffering a single unrepaired DNA double-strand break (DSB) trigger the ATR (Mec1)-dependent DNA damage checkpoint and arrest prior to anaphase for 12–15 h, following which they adapt and resume cell division. When the DNA lesion can be repaired, the checkpoint is extinguished and cells “recover” and resume mitosis. In this autophagic punctum, we report that hyperactivation of autophagy—specifically via the cytoplasm-to-vacuole targeting (Cvt) pathway—prevents both adaptation to, and recovery from, DNA damage, resulting in the permanent arrest of cells in G2/M. We show that Saccharomyces cerevisiae deleted for genes encoding the Golgi-associated retrograde protein transport (GARP) complex are both adaptation- and recovery-defective. GARP mutants such as vps51Δ exhibit mislocalization of the key mitotic regulator, securin (Pds1), and its degradation by the vacuolar protease Prb1. In addition, separase (Esp1), is excluded from the nucleus, accounting for pre-anaphase arrest. Pds1 is degraded via the Cvt pathway. Many of the same defects seen by deleting GARP genes can be mimicked by hyperactivation of the Cvt pathway by overexpressing an unphosphorylatable form of ATG13 or by adding the TORC1 inhibitor rapamycin. These results suggest that nuclear events such as DNA damage can have profound effects on cytoplasmic processes and further expand the burgeoning connections between DNA damage and autophagy. 相似文献
87.
Kecheng Lei Liwen Zhang Yijing He Hui Sun Weifang Tong Yichun Xu Lingjing Jin 《Bioscience reports》2020,40(12)
Early stage diagnosis of Parkinson’s disease (PD) is challenging without significant motor symptoms. The identification of effective molecular biomarkers as a hematological indication of PD may help improve the diagnostic timelines and accuracy. In the present paper, we analyzed and compared the blood samples of PD and control (CTR) patients to identify the disease-related changes and determine the putative biomarkers for PD diagnosis. Based on the RNA sequencing analysis, differentially expressed genes (DEGs) were identified, and the co-expression network of DEGs was constructed using the weighted gene correlation network analysis (WGCNA). The analysis leads to the identification of 87 genes that were exclusively regulated in the PD group, whereas 66 genes were significantly increased and 21 genes were significantly decreased in contrast with the control group. The results indicate that the core lncRNA–mRNA co-expression network greatly changes the immune response in PD patients. Specifically, the results showed that Prader Willi Angelman Region RNA6 (PWAR6), LINC00861, AC83843.1, IRF family, IFIT family and calcium/calmodulin-dependent protein kinase IV (CaMK4) may play important roles in the immune system of PD. Based on the findings from the present study, future research aims at identifying novel therapeutic strategies for PD. 相似文献
88.
Chengdi Wang Wenliang Qiao Yuting Jiang Min Zhu Jun Shao Tao Wang Dan Liu Weimin Li 《Journal of cellular physiology》2020,235(5):4913-4927
89.
One biggest obstacle in molecular programming is that there is still no direct method to compile any existed mathematical model into biochemical reaction in order to solve a computational problem. In this paper, the implementation of DNA Strand Displacement system based on nature-inspired computation is observed. By using the Immune Network Theory and Chemical Reaction Network, the compilation of DNA-based operation is defined and the formulation of its mathematical model is derived. Furthermore, the implementation on this system is compared with the conventional implementation by using silicon-based programming. From the obtained results, we can see a positive correlation between both. One possible application from this DNA-based model is for a decision making scheme of intelligent computer or molecular robot. 相似文献
90.
Junying Liu Xiping YanQingqing Li Guosong WangHehe Liu Jiwen WangLiang Li Xiaohui DuChunchun Han Hua He 《Journal of thermal biology》2013
Avian embryos are easily influenced by their environment during incubation. Previous studies have demonstrated that incubation temperature changes could influence muscle development and body weight, which subsequently determine the adult phenotype. The objective of this study was to investigate whether the development of immune organs in ducklings could be influenced by thermal manipulation during the middle stage of incubation. To evaluate this hypothesis, a control group was incubated under a normal temperature from E11 to E24, while the incubation temperature of the experimental group was increased by 1 °C. Our results indicated that slight changes in the incubation temperature significantly repressed the bursa of Fabricius index of the duck embryo on E25 (F1, 58=122.51, P<0.0001) and significantly repressed the spleen index of neonatal ducklings (F1, 58=74.38, P<0.0001). At 0 day posthatching (dph) and 14 dph, ducklings hatched from eggs incubated under the higher temperature had a lower percentage of globulin than the control group (F1, 10=19.97, P=0.0111; F1, 10=9.8, P=0.0352). The IFN-γ concentration of ducklings at 14 dph displayed the same trend (F1, 10=284.49, P<0.0001). These results suggested that thermal manipulation during the middle stage of incubation had a repressive effect on the development of immune organs and reduced the concentrations of serum globulin and IFN-γ. These results demonstrated that the subtle alteration of incubation temperature may weaken ducklings' immunity. 相似文献