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71.
72.
Oncogene-induced senescence (OIS) is characterised by a stable cell cycle arrest triggered by activated oncogenes and tumour suppressors. Whilst the in vivo relevance of OIS as a mode of tumour suppression is now beyond doubt many key questions with regard to the underlying mechanisms remain unanswered. To address these questions, we first review current knowledge of the essential players and pathways in OIS focussing our discussions mainly on murine cell systems and the paradigm of Ras-induced senescence. We then update experimental evidence for the involvement of the Runx genes that have recently emerged as important mediators of OIS. Of particular interest is the observation that Runx2 disruption renders primary murine embryonic fibroblasts (MEFs) refractory to Ras-induced senescence despite induction of a cascade of growth inhibitors and senescence markers. We suggest that Runx acts downstream of p53 in the "execution phase" of senescence specifically through deregulation of cyclin gene expression. We speculate how this might operate and consider the implications of these findings for the emerging role of the Runx family as tumour suppressors. 相似文献
73.
Christina R?hr Martin Kerick Axel Fischer Alexander Kühn Karl Kashofer Bernd Timmermann Andriani Daskalaki Thomas Meinel Dmitriy Drichel Stefan T. B?rno Anja Nowka Sylvia Krobitsch Alice C. McHardy Christina Kratsch Tim Becker Andrea Wunderlich Christian Barmeyer Christian Viertler Kurt Zatloukal Christoph Wierling Hans Lehrach Michal R. Schweiger 《PloS one》2013,8(7)
MiRNAs are discussed as diagnostic and therapeutic molecules. However, effective miRNA drug treatments with miRNAs are, so far, hampered by the complexity of the miRNA networks. To identify potential miRNA drugs in colorectal cancer, we profiled miRNA and mRNA expression in matching normal, tumor and metastasis tissues of eight patients by Illumina sequencing. We validated six miRNAs in a large tissue screen containing 16 additional tumor entities and identified miRNA-1, miRNA-129, miRNA-497 and miRNA-215 as constantly de-regulated within the majority of cancers. Of these, we investigated miRNA-1 as representative in a systems-biology simulation of cellular cancer models implemented in PyBioS and assessed the effects of depletion as well as overexpression in terms of miRNA-1 as a potential treatment option. In this system, miRNA-1 treatment reverted the disease phenotype with different effectiveness among the patients. Scoring the gene expression changes obtained through mRNA-Seq from the same patients we show that the combination of deep sequencing and systems biological modeling can help to identify patient-specific responses to miRNA treatments. We present this data as guideline for future pre-clinical assessments of new and personalized therapeutic options. 相似文献
74.
75.
Francesca Spyrakis Fátima Lucas Axel Bidon-Chanal Cristiano Viappiani Victor Guallar F. Javier Luque 《Biochimica et Biophysica Acta - Proteins and Proteomics》2013,1834(9):1957-1967
This study reports a comparative analysis of the topological properties of inner cavities and the intrinsic dynamics of non-symbiotic hemoglobins AHb1 and AHb2 from Arabidopsis thaliana. The two proteins belong to the 3/3 globin fold and have a sequence identity of about 60%. However, it is widely assumed that they have distinct physiological roles. In order to investigate the structure–function relationships in these proteins, we have examined the bis-histidyl and ligand-bound hexacoordinated states by atomistic simulations using in silico structural models. The results allow us to identify two main pathways to the distal cavity in the bis-histidyl hexacoordinated proteins. Nevertheless, a larger accessibility to small gaseous molecules is found in AHb2. This effect can be attributed to three factors: the mutation Leu35(AHb1) → Phe32(AHb2), the enhanced flexibility of helix B, and the more favorable energetic profile for ligand migration to the distal cavity. The net effect of these factors would be to facilitate the access of ligands, thus compensating the preference for the fully hexacoordination of AHb2, in contrast to the equilibrium between hexa- and pentacoordinated species in AHb1. On the other hand, binding of the exogenous ligand introduces distinct structural changes in the two proteins. A well-defined tunnel is formed in AHb1, which might be relevant to accomplish the proposed NO detoxification reaction. In contrast, no similar tunnel is found in AHb2, which can be ascribed to the reduced flexibility of helix E imposed by the larger number of salt bridges compared to AHb1. This feature would thus support the storage and transport functions proposed for AHb2. This article is part of a Special Issue entitled: Oxygen Binding and Sensing Proteins. 相似文献
76.
77.
Isabel Thome Michala E. Pettitt Maureen E. Callow James A. Callow Michael Grunze Axel Rosenhahn 《Biofouling》2013,29(5):501-510
Conditioning, ie the adsorption of proteins and other macromolecules, is the first process that occurs in the natural environment once a surface is immersed in seawater, but no information is available either regarding the conditioning of surfaces by artificial seawater or whether conditioning affects data obtained from laboratory assays. A range of self-assembled monolayers (SAMs) with different chemical terminations was used to investigate the time-dependent formation of conditioning layers in commercial and self-prepared artificial seawaters. Subsequently, these results were compared with conditioning by solutions in which zoospores of the green alga Ulva linza had been swimming. Spectral ellipsometry and contact angle measurements as well as infrared reflection absorption spectroscopy (IRRAS) were used to reveal the thickness and chemical composition of the conditioning layers. The extent that surface preconditioning affected the settlement of zoospores of U. linza was also investigated. The results showed that in standard spore settlement bioassays (45–60 min), the influence of a molecular conditioning layer is likely to be small, although more substantial effects are possible at longer settlement times. 相似文献
78.
Variations in genomic DNA methylation during the long-term in vitro proliferation of oil palm embryogenic suspension cultures 总被引:1,自引:0,他引:1
Alain Rival Pascal Ilbert Axel Labeyrie Esperanza Torres Sylvie Doulbeau Aline Personne Stéphane Dussert Thierry Beulé Tristan Durand-Gasselin James W. Tregear Estelle Jaligot 《Plant cell reports》2013,32(3):359-368
Key message
The long-term proliferation of embryogenic cell suspensions of oil palm is associated with changes in both genomic methylation rates and embryogenic capacities.Abstract
In the aim of exploring the relationship between epigenetic stability and the long-term in vitro proliferation of plant tissues, we have studied changes in genomic DNA methylation levels in embryogenic suspensions of oil palm (Elaeis guineensis Jacq.). Five embryogenic callus lines were obtained from selected hybrid seeds and then proliferated as suspension cultures. Each clonal line obtained from a single genotype was subdivided into three independent subclonal lines. Once established, cultures proliferated for 12 months and genomic DNA was sampled at 4 months intervals for the estimation of global DNA methylation rates through high performance liquid chromatography (HPLC) quantitation of deoxynucleosides. Our results show that in vitro proliferation induces DNA hypermethylation in a time-dependent fashion. Moreover, this trend is statistically significant in several clonal lines and shared between subclonal lines originating from the same genotype. Interestingly, the only clonal line undergoing loss of genomic methylation in the course of proliferation has been found unable to generate somatic embryos. We discuss the possible implications of genome-wide DNA methylation changes in proliferating cells with a view to the maintenance of genomic and epigenomic stability. 相似文献79.
ABSTRACTHoney bees have a remarkable sense of time and individual honey bee foragers are capable of adjusting their foraging activity with respect to the time of food availability. Although, there is compelling experimental evidence that foraging behavior is guided by the circadian clock, nothing is known about the underlying molecular mechanisms. Here we present for the first time a study that explores whether time-restricted foraging under natural light-dark (LD) condition affects the molecular clock in honey bees. Food was presented in an enclosed flight chamber (12 m × 4 m × 4 m) either for 2 hours in the morning or 2 hours in the afternoon for several consecutive days and daily cycling of the two major clock genes, cryptochrome2 (cry2) and period (per), were analyzed for three different parts of the nervous system involved in feeding-related behaviors: brain, subesophageal ganglion (SEG), and the antennae with olfactory sensory neurons. We found that morning and afternoon trained foragers showed significant phase differences in the cycling of both clock genes in all three tissues. In addition, the phase differences were more pronounced when the feeder was scented with the common plant odor, linalool. Together our findings suggest that foraging time may function as a Zeitgeber that might have the capability to modulate the light entrained molecular clock. 相似文献