Population aging and public health expenditure mainly dedicated to older dependent persons present major challenges for the European Union (EU) Member States, with profound implications for their economies and labor markets. Sustainable economic development relies on a well-balanced workforce of young and older people. As this balance shifts in favor of older people, productivity tends to suffer, on the one hand, and the older group demands more from health services, on the other hand. These requisites tend to manifest differently within developed and developing EU countries. This research aimed to assess population aging impacts on labor market coordinates (employment rate, labor productivity), in the framework of several health dimensions (namely, health government expenditure, hospital services, healthy life years, perceived health) and other economic and social factors. The analytical approach consisted of applying structural equation models, Gaussian graphical models, and macroeconometric models (robust regression and panel corrected standard errors) to EU panel data for the years 1995–2017. The results show significant dissimilarities between developed and developing EU countries, suggesting the need for specific policies and strategies for the labor market integration of older people, jointly with public health expenditure, with implications for EU labor market performance.
Lipoxygenases with R stereospecificity have a conserved Gly residue, whereas (S)-lipoxygenases have an Ala residue. Site-directed mutagenesis has shown that these residues control position and S/R stereospecificity of oxygenation. Recombinant Mn-LO was expressed in Pichia pastoris, and its conserved Gly-316 residue was mutated to Ala, Ser, Val, and Thr. The G316A mutant was catalytically active. We compared the catalytic properties of Mn-LO and the G316A mutant with 17:3n-3, 18:2n-6, 18:3n-3, and 19:3n-3 as substrates. Increasing the fatty acid chain length from C17 to C19 shifted the oxygenation by Mn-LO from the n-6 toward the n-8 carbon. The G316A mutant increased the oxygenation at the n-8 carbon of 17:3n-3 and at the n-10 carbon of the C17 and C18 fatty acids (from 1-2% to 7-11%). The most striking effect of the G316A mutant was a 2-, 7-, and 15-fold increase in transformation of the n-6 hydroperoxides of 19:3n-3, 18:3n-3, and 17:3n-3, respectively, to keto fatty acids and epoxyalcohols. The n-3 double bond was essential. An experiment under an oxygen-18 atmosphere showed that both oxygen atoms were retained in the epoxyalcohols. (R)-Hydroperoxides at n-6 of C17:3, 18:3, and 19:3 were transformed 5 times faster than S stereoisomers. The G316A mutant converted (13R)-hydroperoxylinolenic acid to 13-ketolinolenic acid (with an apparent K m of 0.01 mM) and to epoxyalcohols (viz. erythro-and threo-11-hydroxy-(12R,13R)-epoxy-(9Z,15Z)-octadecadienoic acids and one of the corresponding cis-epoxides as major products). A reducing lipoxygenase inhibitor stimulated the hydroperoxide isomerase activity, whereas a suicide-type lipoxygenase inhibitor reduced this activity. The n-3 double bond also appeared to influence the anaerobic formation of epoxyalcohols by Mn-LO, since 18:2n-6 and 18:3n-3 yielded different profiles of epoxyalcohols. Our results suggest that the G316A mutant augmented the hydroperoxide isomerase activity by positioning the hydroperoxy group at the n-6 carbon of n-3 fatty acids closer to the reduced catalytic metal.
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