Lymphocyte DNA damage was independently correlated with only TAS. Lymphocyte DNA damage was increased in hypertensive patients. The major increase in lymphocyte DNA damage was observed in newly diagnosed hypertensive patients compared with hypertensive patients who already on drug therapy. Decreased TAS levels, which reflect to increased Selleckchem LY3023414 oxidative stress, may be the reason of increased
total lymphocyte DNA damage in South Indian hypertensive patients. Journal of Human Hypertension (2010) 24, 475-482; doi: 10.1038/jhh.2009.100; published online 7 January 2010″
“Mitochondria are responsible for the oxidative phosphorylation process. Accordingly, putatively adaptive changes in their genomic features have been variously associated with major eco-physiological shifts in animal evolution, including increased metabolic rates and heat adaptation. Antarctic pycnogonids offer an interesting system to test whether the selective pressure for heat production and increased aerobic metabolism may be driving genomic changes like: (a) unusual compositional biases at the nucleotide and amino acid level, possibly related to cold adaptation; (b) an accelerated rate of mutations/genomic rearrangements, possibly related to the mutagenic effects of oxygen intermediates.
The complete mitochondrial genome (mtDNA) of the Antarctic sea spider Ammothea carolinensis Leach, 1814 (Arthropoda: Pycnogonida), the type species for the genus Ammothea, has been determined and is here compared
to known genomes from Antarctic and temperate species. We describe a marked heterogeneity in base composition P005091 order skewness parameters as well as a strong signature of purifying selection toward an increase in thymines at second codon positions, possibly associated with an increased stability of hydrophobic inter-membrane domains. We further observe a fairly high rate of genomic changes, including a possible hot spot of recombination at the level of tRNA-Q. Nevertheless, these features AS1842856 cell line do not seem to be restricted to the two Antarctic pycnogonids analyzed, as to suggest a causal relationship between cold adaptation and genomic changes, and are better interpreted as basal features shared by the entire group. The relevance of the newly determined sequence for the phylogeny of pycnogonids, including its base composition and genomic rearrangements, is further discussed.”
“The removal of recalcitrant chemicals in wastewater treatment systems is an increasingly relevant issue in industrialized countries. The elimination of persistent xenobiotics such as endocrine-disrupting chemicals (EDCs) emitted by municipal and industrial sewage treatment plants remains an unsolved challenge. The existing efficacious physico-chemical methods, such as advanced oxidation processes, are resource-intensive technologies. In this work, we investigated the possibility to remove phenolic EDCs [i.e., bisphenol A (BPA)] by means of a less energy and chemical consuming technology.