Project description:Mycobacterium gilvum Spyr1 overview

Project description:Mycobacterium gilvum overview

Project description:Capable of degrading a variety of polycyclic aromatic hydrocarbons

Project description:Mycobacterium sp. A1-PYR Raw sequence reads

Project description:Polymorphum gilvum overview

Project description:In a fluorescence polarization screen for MYC-MAX interaction, we have identified a novel small molecule inhibitor of MYC, KJ-Pyr-9, from a Kröhnke pyridine library. The Kd of KJ-Pyr-9 for MYC in vitro is 6.5 ± 1.0 nM as determined by backscattering interferometry; KJ-Pyr-9 also interferes with MYC-MAX complex formation in the cell as shown in a protein fragment complementation assay. KJ-Pyr-9 specifically inhibits MYC-induced oncogenic transformation in cell culture; it has no or only weak effects on the oncogenic activity of several unrelated oncoproteins. KJ-Pyr-9 preferentially interferes with the proliferation of MYC-overexpressing human and avian cells and specifically reduces the MYC-driven transcriptional signature. In vivo, KJ-Pyr-9 effectively blocks the growth of a xenotransplant of MYC-overexpressing  human cancer cells.

Project description:Draft genome sequence of Mycobacterium gilvum PYR2010

Project description:In a fluorescence polarization screen for MYC-MAX interaction, we have identified a novel small molecule inhibitor of MYC, KJ-Pyr-9, from a Kröhnke pyridine library. The Kd of KJ-Pyr-9 for MYC in vitro is 6.5 ± 1.0 nM as determined by backscattering interferometry; KJ-Pyr-9 also interferes with MYC-MAX complex formation in the cell as shown in a protein fragment complementation assay. KJ-Pyr-9 specifically inhibits MYC-induced oncogenic transformation in cell culture; it has no or only weak effects on the oncogenic activity of several unrelated oncoproteins. KJ-Pyr-9 preferentially interferes with the proliferation of MYC-overexpressing human and avian cells and specifically reduces the MYC-driven transcriptional signature. In vivo, KJ-Pyr-9 effectively blocks the growth of a xenotransplant of MYC-overexpressing  human cancer cells. 4 treatment groups analyzed in triplicate: no treatment(control), 20uM KJ-Pyr-9, 0.1ug/mL doxycycline and KJ-Pyr-9 in combination with doxycycline

Project description:Unveiling the signal transduction of phytohormone abscisic acid (ABA) will be greatly helpful to improve plant responses to stressful environment. ABA signaling is perceived and mediated by multi-member receptor PYR/PYLs, while whose post-translational modification, especially phosphorylation, is largely unknown. Here we demonstrated that Arabidopsis EL1-like (AEL), a casein kinase that regulates various physiological processes, phosphorylates PYR/PYLs and stimulates whose ubiquitination and degradation, leading to the suppressed ABA responses. Arabidopsis ael triple mutants display hypersensitive responses to ABA treatment, which is consistent with the suppressed degradation of PYR/PYL proteins. PYR/PYLs are phosphorylated in vivo and mutation of the conserved AEL-phosphorylation sites results in the reduced phosphorylation, ubiquitination, and degradation of PYR/PYLs, and hence the enhanced ABA responses. Our studies demonstrate the crucial roles of AEL-mediated phosphorylation in regulating the stability and function of PYR/PYLs and provide informative clues for elucidating the functional mechanism of ABA through regulating PYR/PYL receptors.

Project description:Microplastics represent a growing environmental concern for the oceans due to their potential capability to adsorb different classes of pollutants, thus representing a still unexplored source of exposure for aquatic organisms. In this study polystyrene (PS) microplastics were characterized for their capability to adsorb pyrene (PYR) as model compound for polycyclic aromatic hydrocarbons, and transfer this chemical to filter feeding mussels Mytilus galloprovincialis. Gene expression analyses of Mytilus galloprovincialis exposed to polystyrene (PS) microplastics and to polystyrene contaminated with pyrene (PS-PYR) have been performed trough a DNA microarray platform.