Zimmermannli6337

More importantly, PLAGL2 expression reduced hepatoma cells' response to the anti-EGFR drug erlotinib. PLAGL2 knockdown enhanced the response to erlotinib. Conclusion This study reveals the pivotal role of PLAGL2 in HCC cell proliferation, metastasis, and erlotinib insensitivity. This suggests that PLAGL2 can be a potential novel therapeutic target of HCC. This article is protected by copyright. All rights reserved.Conventional wheat production utilizes fertilizers of various nitrogen forms. Sole ammonium nutrition has been shown to improve grain quality, despite the potential toxic effects of ammonium at elevated concentrations. We therefore investigated the responses of young seedlings of winter wheat to different nitrogen sources (NH4 NO3 = NN, NH4 Cl = NNH4 + and KNO3 = NNO3 - ). Growth with ammonium-nitrate was superior. However, an elevated concentration of sole ammonium caused severe toxicity symptoms and significant decreases in biomass accumulation. We addressed the molecular background of the ammonium uptake by gathering an overview of the ammonium transporter (AMT) inventory of wheat and characterized the putative high affinity TaAMT1 transporters. TaAMT1;1 and TaAMT1;2 were both active in yeast and Xenopus laevis oocytes and showed saturating high affinity ammonium transport characteristics. Interestingly, nitrogen starvation, as well as ammonium resupply to starved seedlings triggered an increase in the expression of the TaAMT1s. The presence of nitrate seamlessly repressed their expression. We conclude that wheat showed the ability to respond robustly to sole ammonium supply by adopting distinct physiological and transcriptional responses. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.Lipid A represents a heterogeneous group of bacterial outer membrane phosphoglycolipids, which play a major role in the pathogenesis of Gram-negative sepsis. The number and position of phosphoryl and acyl groups in lipid A molecules are key structural determinants in their bioactivities. In this study, a NACE-ESI-MS/MS method was developed for the simultaneous analysis of lipid A isomers possessing a different degree of phosphorylation and acylation. Various C4'- and C1-monophosphorylated lipid A isobars, as well as acylation isomers, were baseline separated within 43 min in a separation medium of methanol/dichloromethane/triethylamine/acetic acid 60401.080.36 (v/v/v/v). Both normal and reverse CE polarities could be applied for proper detection of the analytes owing to the combination of a suction effect caused by the nebulizer gas at the outlet end of the capillary and external pressure applied on the inlet vial. The separated lipid A species could be identified unequivocally by their characteristic fragmentation patterns through CID performed in both negative- and positive-ionization modes. The uniqueness of the NACE-ESI-MS/MS method lies in its simplicity and reliability for proving the phosphorylation isomerism (C1 or C4') and acylation pattern of native lipid A species or those designed for therapeutic applications. ITD-1 clinical trial © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Singular use of activity assays or staining dyes to assess pathogen agrochemical tolerance can underestimate tolerance if pesticides cause sublethal effects. We exposed Schistosoma mansoni cercariae, the aquatic life stage of this trematode that infects humans, to four insecticides at five concentrations using a 24-hr time-to-death assay. We used Trypan blue dye, which stains dead tissue, and activity assays simultaneously to discriminate dead from live, but paralyzed individuals. Whereas cypermethrin, deltamethrin, and dimethoate exposure did not affect cercariae at any ecologically relevant concentrations, methamidophos exposure increased survival of cercariae compared to those in the controls. This was because methamidophos induced paralysis reduced cercarial activity and thus energy expenditures, extending the lifespan of this short-lived parasite that causes human schistosomiasis. These findings highlight that sublethal effects should be considered when investigating pesticide effects on disease. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.BACKGROUND AND OBJECTIVES Postoperative complications (POCs) after hepatic resection for colorectal liver metastases (CRLM) adversely affect long-term survival. The aim of this study was to analyze the effect of POC etiology and severity on overall survival (OS) and disease-free survival (DFS). METHODS A retrospective study of 254 consecutive hepatectomies for CRLM was performed. Univariate and multivariate analyses were performed to determine the effects of demographic, tumor-related and perioperative variables on OS and DFS. A 11 propensity score matching (PSM) was then used to compare patients with different POC etiology infective (Inf-POC), noninfective (Non-inf POC), and no-complications (No-POC). RESULTS Inf-POC, Non-inf POC, and No-POC patients represented 18.8%, 19.2%, and 62% of the sample, respectively. In univariate and multivariate analyses infectious POC were independent risk factors for decreased OS and DFS. After PSM, Inf-POC group presented decreased OS and DFS when compared with Non-inf POC (5-year OS 31.8% vs 51.6%; P = .05 and 5-year DFS 13.6% vs 31.9%; P = .04) and with No-POC (5-year OS 29.4% vs 58.7%; P = .03 and 5-year DFS 11.8% vs 39.7%; P = .03). There were no differences between Non-inf POC and No-POC patients. POC severity calculated using the Comprehensive Complications Index did not influence OS and DFS before and after PSM. CONCLUSION The negative oncological impact of POCs after CRLM resection is determined by infective etiology not by severity. © 2020 Wiley Periodicals, Inc.High temperature (HT) has an adverse effect on rice grain filling by inhibiting the accumulation of storage materials. However, the regulatory mechanism of this inhibition remains unknown. Here, we report that Opaque2 like transcription factor OsbZIP58 is a key factor regulating storage material accumulation under HT. The OsbZIP58 gene promotes expression of many seed storage protein genes and starch synthesis genes while inhibits expression of some starch hydrolyzing α-amylase genes under HT. The loss of OsbZIP58 function leads to floury and shrunken endosperms and dramatically reduced storage materials in the seeds under HT. HT is found to affect alternative splicing of OsbZIP58, promoting the formation of the truncated OsbZIP58β protein form over the full-length OsbZIP58α protein form. The OsbZIP58β form has a lower transcriptional activity than the OsbZIP58α form, especially under HT condition. Interestingly, rice varieties with less heat sensitivity have reduced alternative splicing of OsbZIP58. Therefore, OsbZIP58 is a crucial gene in regulating storage material accumulation under HT and lower alternative splicing of OsbZIP58 may contribute to heat tolerance during grain filling.