98 research outputs found
Study of the inhibiting efficiency of the corrosion inhibitor (prop-2-yn-1-ol, methyloxirane) of mild steel in the chemical pickling (18.5% HCl)
The study of the inhibitory efficacy of prop-2-yn-1-ol, methyloxirane for corrosion control of mild steel in concentrated hydrochloric acid (18.5%) at temperature 80 °C (chemical pickling conditions of steel) was investigated using electrochemical and gravimetric methods for different concentrations. Using weight loss, and potentiodynamic polarization techniques and the morphological structure, the results shows that inhibitor had an excellent protection. The substance has demonstrated remarkable inhibition efficiency, and its inhibitory characteristics are stronger as concentrations increase (Inhibitory efficacy of up to 91 % for 1.2g/L). Based on the polarisation curves, the addition of the inhibitor in the HCl solution induces the decrease of the anodic current corresponding to the attack of the metal. The morphological structure was examined by scanning electron microscopy, which clearly shows this inhibitor's good protection, which delays the acid attack of bare steel with a uniform and bright pickling appearance
ZAK beta is activated by cellular compression and mediates contraction-induced MAP kinase signaling in skeletal muscle
Mechanical inputs give rise to p38 and JNK activation, which mediate adaptive physiological responses in various tissues. In skeletal muscle, contraction-induced p38 and JNK signaling ensure adaptation to exercise, muscle repair, and hypertrophy. However, the mechanisms by which muscle fibers sense mechanical load to activate this signaling have remained elusive. Here, we show that the upstream MAP3K ZAK beta is activated by cellular compression induced by osmotic shock and cyclic compression in vitro, and muscle contraction in vivo. This function relies on ZAKO's ability to recognize stress fibers in cells and Z-discs in muscle fibers when mechanically perturbed. Consequently, ZAK-deficient mice present with skeletal muscle defects characterized by fibers with centralized nuclei and progressive adaptation towards a slower myosin profile. Our results highlight how cells in general respond to mechanical compressive load and how mechanical forces generated during muscle contraction are translated into MAP kinase signaling.Peer reviewe
MTH1 deficiency selectively increases non-cytotoxic oxidative DNA damage in lung cancer cells: more bad news than good?
Representative images of âCometsâ and the corresponding intensity profiles, showing (i) ~â5% Tail DNA damage, typical of the NSCLC cells treated with no siRNA or scramble siRNA, and analysed by regular Fpg-modified alkaline comet assay (0.8Â U Fpg/gel); and (ii) comets showing ~â10% tail DNA, typical of the NSCLC cells treated with MTH1 siRNA. Superimposed on the Comet images are the image analysis software (Komet 5.5, Andor Technology) determined boundaries demarcating the âComet headâ (pink circle) and âtail extentâ (vertical orange line) (Barber RC, Hickenbotham P, Hatch T, Kelly D, Topchiy N, Almeida GM, et al. Radiation-induced transgenerational alterations in genome stability and DNA damage. Oncogene. 2006;25(56):7336â7342). % tail DNAâ=â100 - % head DNA; % head DNAâ=â(integrated optical head intensity / (integrated optical head intensity + integrated optical tail intensity)) Ăâ100. (PDF 1431Â kb
Genetic variants associated with mosaic Y chromosome loss highlight cell cycle genes and overlap with cancer susceptibility.
The Y chromosome is frequently lost in hematopoietic cells, which represents the most common somatic alteration in men. However, the mechanisms that regulate mosaic loss of chromosome Y (mLOY), and its clinical relevance, are unknown. We used genotype-array-intensity data and sequence reads from 85,542 men to identify 19 genomic regions (P < 5 Ă 10-8) that are associated with mLOY. Cumulatively, these loci also predicted X chromosome loss in women (n = 96,123; P = 4 Ă 10-6). Additional epigenome-wide methylation analyses using whole blood highlighted 36 differentially methylated sites associated with mLOY. The genes identified converge on aspects of cell proliferation and cell cycle regulation, including DNA synthesis (NPAT), DNA damage response (ATM), mitosis (PMF1, CENPN and MAD1L1) and apoptosis (TP53). We highlight the shared genetic architecture between mLOY and cancer susceptibility, in addition to inferring a causal effect of smoking on mLOY. Collectively, our results demonstrate that genotype-array-intensity data enables a measure of cell cycle efficiency at population scale and identifies genes implicated in aneuploidy, genome instability and cancer susceptibility.This research has been conducted using the UK Biobank Resource under Application Number 9905. This work was supported by the UK Medical Research Council (Unit Programme numbers MC_UU_12015/1 and MC_UU_12015/2). Research in the S. Jackson laboratory is funded by Cancer Research UK (CRUK; programme grant C6/A18796), with Institute core funding provided by CRUK (C6946/A14492) and the Wellcome Trust (WT092096). S. Jackson receives salary from the University of Cambridge, supplemented by CRUK
Insight into mechanisms of 3'-5' exonuclease activity and removal of bulky 8,5'-cyclopurine adducts by apurinic/apyrimidinic endonucleases
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