Epsteindorsey3904

As a typical organism of platyhelminth, Dugesia japonica attracts more and more attention for its strong regenerative ability. Protein arginine methyltransferase (PRMT) family is composed of a class of enzymes with methyltransferase activities, which play fundamental roles in vivo in many important physiological processes. PRMT1 is a predominant type Ⅰ PRMT, which has been reported to be expressed in Schmidtea mediterranea. Nevertheless, the existence and the specific biological functions of PRMT1 in Dugesia japonica need further investigation. In this study, we acquired the full-length sequence of DjPRMT1 and confirmed it was a conserved protein. Thereafter, whole-mount in situ hybridization results showed DjPRMT1 was mainly expressed in neoblasts of adult worms, and obvious aggregation of DjPRMT1 was observed at the wound site in early stages of regeneration. Silencing of the DjPRMT1 gene retarded the movement of planarians with decreased DjPIWI-A expression, and DjPRMT1 knockdown also affected planarian regeneration with slightly attenuated proliferation around the blastema of posterior-facing wounds regeneration. In summary, these preliminary results demonstrated DjPRMT1 was involved in the regeneration of planarian. Signaling adaptor protein Crk has been shown to play an important role in various human cancers. Crk links tyrosine kinases and guanine nucleotide exchange factors (GEFs) such as C3G and Dock180 to activate small G-proteins Rap and Rac, respectively. In pancreatic cancer, various molecular targeted therapies have provided no significant therapeutic benefit for the patients so far due to constitutive activation of KRAS by frequent KRAS mutation. Therefore, the establishment of novel molecular targeted therapy in KRAS-independent manner is required. Here, we investigated a potential of Crk as a therapeutic target in pancreatic cancer. Immunohistochemistry on human pancreatic cancer specimens revealed that the patients with high expression of Crk had a worse prognosis than those with low expression. We established Crk-knockdown pancreatic cancer cells by siRNA using PANC-1, AsPC-1, and MIA PaCa-2 cells, which showed decreased cell proliferation, invasion, and adhesion. In Crk-knockdown pancreatic cancer cells, the decrease of c-Met phosphorylation was observed. In the orthotopic xenograft model, Crk depletion prolonged survival of mice significantly. Thus, signaling adaptor protein Crk is involved in malignant potential of pancreatic cancer associated with decrease of c-Met phosphorylation, and Crk can be considered to be a potential therapeutic molecular target. ubiquitin-Proteasome pathway Cotton Verticillium wilt caused by Verticillium dahliae (V. dahliae) is one of the most destructive fungal diseases and is difficult to control. However, resistant germplasm resources are scarce in cotton. Many studies have shown that host-induced gene silencing (HIGS) is a practical and effective technology in crop disease prevention by silencing virulence genes of pathogens. Acetolactate synthase (ALS) contains a catalytic subunit ILV2 and a regulatory subunit ILV6, which catalyzes the first common step reaction in branched-chain amino acid (BCAA) biosynthesis. We identified two acetolactate synthases, VdILV2 and VdILV6, which are homologs of ILV2 and ILV6, respectively, in Magnaporthe oryzae. To characterize the function of VdILV2 and VdILV6 in V. dahliae, we suppressed their expression in the strong pathogenic isolate Vd991 by using HIGS technology. VdILV2- or VdILV6-silenced V. dahliae had a dramatic reduction in pathogenicity. The results indicated that VdILV2 and VdILV6 are involved in the pathogenicity of V. dahliae. HIGS of VdILV2 or VdILV6 provides a novel fungicide target and an effective control to resist Verticillium wilt caused by V. dahliae. Osteopontin (OPN) is a phosphorylated glycoprotein expressed in various tissues, including brain, and mediates a wide range of cellular activities. In our previous studies, we reported recombinant OPN and RGD and SLAY-containing OPN-peptide icosamer (OPNpt20) exhibited robust neuroprotective activities in an animal model of transient focal ischemia, and attributed these effects to the anti-inflammatory, pro-angiogenic, and phagocytic functions of OPNpt20. In the present study, we truncated OPNpt20 to 13 or 7 amino acid peptides containing RGD (R) and/or SLAY (S) motif (OPNpt13RS, OPNpt7R, OPNpt7RS, and OPNpt7S) and their cell motility and migration inducing activities were examined in BV2 cells (a microglia cell line). All four peptides significantly enhanced BV2 cell motility and migration, but OPNpt7R, an RGD-containing 7-amino-acid OPN peptide (VPNGRGD), was found to be most potent and its potency was comparable to OPNpt20. Phagocytic activity and F-actin polymerization were also significantly enhanced in OPNpt7R-treated BV2 cells. Importantly, studies using two mutant peptides (OPNpt7R-RAA and OPNpt7R-RAD, wherein RGD in OPNpt7R was replaced with RAA or RAD, respectively) revealed that all these effects of OPNpt7R, motility, migration, F-actin polymerization, and phagocytosis induction, were RGD-dependent. Furthermore, the Erk, Fak, and Akt signaling pathways appeared to be involved in the induction of phagocytic activity by OPNpt7R. Co-treating cells with OPNpt7R and D98059 or wortmannin (pharmacological inhibitors of Erk and Akt, respectively) significantly suppressed OPNpt7R-mediated phagocytosis induction. These results indicate the RGD-containing OPN heptamer OPNpt7R triggers microglial motility, migration, and phagocytic activity and that the RGD motif plays a critical role in these activities. A substructure is required for an implant-supported fixed complete denture that is sufficiently strong and supportive to function reliably. A novel prefabricated modular system that allows for the analog generation of a passively fitting, supportive, titanium framework for a 4-implant fixed complete denture is described. The process allows the delivery of an immediate, definitive prosthesis on the same or the next day. BACKGROUND Women make up an increasing proportion of the physician workforce in anaesthesia, but they are consistently under-represented in leadership and governance. METHODS We performed an internet-based survey to investigate career opportunities in leadership and research amongst anaesthesiologists. We also explored gender bias attributable to workplace attitudes and economic factors. The survey instrument was piloted, translated into seven languages, and uploaded to the SurveyMonkey® platform. We aimed to collect between 7800 and 13 700 responses from at least 100 countries. Participant consent and ethical approval were obtained. A quantitative analysis was done with χ2 and Cramer's V as a measure of strength of associations. We used an inductive approach and a thematic content analysis for qualitative data on current barriers to leadership and research. RESULTS The 11 746 respondents, 51.3% women and 48.7% men, represented 148 countries; 35 respondents identified their gender as non-binary. Women were less driven to achieve leadership positions (P less then 0.