(=Magnolia subg. Magnolia L.), but seems a sister of Michelia L. Moreover, M. polytepala which belongs to the genus Yulania is most closely related to M. liliiflora. All these results indicated that plastome data may contribute to investigating taxonomy, population genetics and phylogeny of Yulania. Estrogen receptor (ER) signaling is key regulator for maintaining successful pregnancy. Several research suggested that genetic variation in ER genes (ESR)1 and ESR2 is associated with the susceptibility to unexplained recurrent pregnancy loss (RPL), often with inconclusive results. In this study, we investigate the relationship between ESR1 and ESR2 polymorphisms and idiopathic RPL. A total of 444 patients with RPL, defined as three or more consecutive pregnancy losses of unknown etiology, and 446 control women were recruited to the study and their genotypes for ESR1-rs2234693, ESR1-rs3020314, and ESR2-rs928554 variants were determined using allelic exclusion method on real-time polymerase chain reaction. Minor allele frequencies (MAF) of tagging SNPs ESR1 rs2234693 and rs3020314, and ESR2 rs928554 were not significantly different between RPL cases and control women.  https://www.selleckchem.com/products/rk-701.html  Considerable higher frequencies of homozygous (2/2) ESR1 rs2234693 genotype carriers were seen between patients vs. control women, which maintained after controlling for age, body mass index (BMI), and menarche. ESR1 haplotype analysis demonstrated two common haplotype (rs2234693-rs3020314) with no linkage disequilibrium between both polymorphisms, and no 2-locus haplotype linked with RPL risk was revealed. The present study confirmed a significant association of specific ESR1 variant (rs2234693) with an increased risk of RPL, further supporting a role for ESR1 as an important candidate locus inducing RPL. BACKGROUND Skin ageing is associated with structure-functional changes in the extracellular matrix, which is in part caused by proteolytic degradation. Since cysteine cathepsins are major matrix protein-degrading proteases, we investigated the age-dependent expression of elastolytic cathepsins K, S, and V in human skin, their in vitro impact on the integrity of the elastic fibre network, their cleavage specificities, and the release of bioactive peptides. METHODS Cathepsin-mediated degradation of human skin elastin samples was assessed from young to very old human donors using immunohistochemical and biochemical assays, scanning electron microscopy, and mass spectrometry. RESULTS Elastin samples derived from patients between 10 and 86 years of age were analysed and showed an age-dependent deterioration of the fibre structure from a dense network of thinner fibrils into a beaded and porous mesh. Reduced levels of cathepsins K, S, and V were observed in aged skin with a predominant epidermal expression. Cathepsin V was the most potent elastase followed by cathepsin K and S. Biomechanical analysis of degraded elastin fibres corroborated the destructive activity of cathepsins. Mass spectrometric determination of the cleavage sites in elastin revealed that all three cathepsins predominantly cleaved in hydrophobic domains. The degradation of elastin was efficiently inhibited by an ectosteric inhibitor. Furthermore, the degradation of elastin fibres resulted in the release of bioactive peptides, which have previously been associated with various pathologies. CONCLUSION Cathepsins are powerful elastin-degrading enzymes and capable of generating a multitude of elastokines. They may represent a viable target for intervention strategies to reduce skin ageing. BACKGROUND PYY (1-36) peptides from phylogenetically ancient fish, such as sea lamprey, have previously been shown to function as specific neuropeptide Y1 receptor (NPYR1) agonists. Although, sea lamprey PYY (1-36) is N-terminally stable, we reveal in this study that the peptide is subject to endopeptidase mediated C-terminal dipeptide degradation. In an attempt to prevent this, (d-Arg35)-sea lamprey PYY (1-36) was developed. METHODS In vitro bioassays assessed enzymatic stability, insulinostatic activity as well as beta-cell anti-apoptotic actions of (d-Arg35)-sea lamprey PYY (1-36). Follow-up studies examined the impact of twice daily administration of sea lamprey PYY (1-36) or (d-Arg35)-sea lamprey PYY (1-36) in multiple low dose STZ-induced diabetic mice. RESULTS (d-Arg35)-sea lamprey PYY (1-36) was fully resistant to plasma enzymatic degradation. The peptide possessed similar significant insulinostatic, as well as positive anti-apoptotic biological actions, as the parent peptide. Sea lamprey PYY (1-36) and (d-Arg35)-sea lamprey PYY (1-36) delayed diabetes progression in STZ mice. Both treatment interventions induced a significant decrease in body weight, food and fluid intake as well as glucose and glucagon concentrations. In addition, glucose tolerance, plasma and pancreatic insulin were partially normalised. (d-Arg35)-sea lamprey PYY (1-36) was significantly more effective than sea lamprey PYY (1-36) in terms of enhancing glucose-stimulate insulin release. Both treatments improved pancreatic islet morphology, linked to decreased apoptosis of beta-cells. CONCLUSION We present (d-Arg35)-sea lamprey PYY (1-36) as the first-in-class N- and C-terminally stable PYY (1-36) peptide analogue. GENERAL SIGNIFICANCE Enzymatically stable, long-acting PYY (1-36) peptides highlight the therapeutic benefits of sustained activation of NPYR1's in diabetes. Sorting nexins are a conserved protein family involved in vesicle transport, membrane trafficking and protein sorting. The sorting nexin ATG24/SNX4 has been demonstrated to be involved in different autophagy pathways and in endosomal trafficking. However, its impact on cellular quality control and on aging and development is still elusive. Here we report studies analyzing the function of PaATG24 in the aging model Podospora anserina. Ablation of PaATG24 leads to a reduced growth rate, infertility, and to a pronounced lifespan reduction. These characteristics are accompanied by alterations of the morphology and size distribution of vacuoles and severe impairments in non-selective and selective autophagy of peroxisomes (pexophagy) and mitochondria (mitophagy). While general autophagy and pexophagy are almost completely blocked, a PaATG24-independent form of mitophagy is induced during aging. In the ΔPaAtg24 mutant a strong accumulation of peroxisomes occurs while mitochondrial abundance is only slightly increased.