Co-rotational Formulation for Bonded Joint Finite Elements

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/97052/1/AIAA2012-1449.pd

Thymoquinone Induces Telomere Shortening, DNA Damage and Apoptosis in Human Glioblastoma Cells

Background: A major concern of cancer chemotherapy is the side effects caused by the non-specific targeting of both normal and cancerous cells by therapeutic drugs. Much emphasis has been placed on discovering new compounds that target tumour cells more efficiently and selectively with minimal toxic effects on normal cells. Methodology/Principal Findings: The cytotoxic effect of thymoquinone, a component derived from the plant Nigella sativa, was tested on human glioblastoma and normal cells. Our findings demonstrated that glioblastoma cells were more sensitive to thymoquinone-induced antiproliferative effects. Thymoquinone induced DNA damage, cell cycle arrest and apoptosis in the glioblastoma cells. It was also observed that thymoquinone facilitated telomere attrition by inhibiting the activity of telomerase. In addition to these, we investigated the role of DNA-PKcs on thymoquinone mediated changes in telomere length. Telomeres in glioblastoma cells with DNA-PKcs were more sensitive to thymoquinone mediated effects as compared to those cells deficient in DNA-PKcs. Conclusions/Significance: Our results indicate that thymoquinone induces DNA damage, telomere attrition by inhibiting telomerase and cell death in glioblastoma cells. Telomere shortening was found to be dependent on the status of DNA-PKcs. Collectively, these data suggest that thymoquinone could be useful as a potential chemotherapeutic agent in th

Consumption taxation, social status and indeterminacy in models of endogenous growth with elastic labor supply

Social status, Consumption externality, Indeterminacy, Consumption taxation, Endogenous labor supply, D62, D90, E62, O40, P10,

Detection of SUMOylated Phytochromes in Plants

Posttranslational modifications (PTMs) happen after or during protein translation. Small Ubiquitin-like Modifier (SUMO) proteins are covalently attached to certain lysine residues of the target proteins to modify their activity, stability, or localization. This process is called SUMOylation, which is a reversible PTM: SUMO protease enzymes can cleave SUMOs off the target protein backbone. Although many ubiquitinated proteins are targeted for degradation, SUMOylation does not necessary lead to the degradation of the modified protein but lead to the regulation of various physiological responses. SUMOylation of the examined protein cannot simply be monitored by immunoblotting techniques performed on total protein extracts, due to the SUMO-specific signals derived from other modified molecules. Furthermore, the fact that only a limited fraction of the target protein pool is SUMOylated makes the detection of SUMOylated proteins challenging. This protocol shows how SUMOylated phytochrome B (phyB) molecules can be detected using homologous and heterologous experimental systems in planta

Guidelines for the diagnosis and treatment of pulmonary hypertension Orienta\ue7\uf5es para o diagn\uf3stico e tratamento da hipertens\ue3o pulmonar

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