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© 2020. Published by The Company of Biologists Ltd.The development of successful educational scholarship, either curricula or medical education research, is vital in ensuring that the field of medical education continues to evolve. Fostering the skills of medical educators in conducting high-quality educational research is essential to this process because publishing such research helps to disseminate best educational practices to the medical community at large. Unfortunately, developing rigorous medical education research can be challenging for pediatric hospitalists within busy clinical settings. In this article, we aim to discuss key principles and frameworks for curricular development as well as offer guidance in transforming a curriculum into a scholarly medical education research product for pediatric hospital medicine providers. Copyright © 2020 by the American Academy of Pediatrics.Calcium (Ca) is an essential plant nutrient, required for signaling, cell wall fortification and growth and development. Calcium deficiency (Ca-deficiency) in maize causes leaf tip rot and a so-called "bull-whipping" or "buggy-whipping" phenotype. Seedlings of the maize line B73 displayed these Ca-deficiency-like symptoms when grown in the greenhouse with excess fertilizer during the winter months, while seedlings of the Mo17 maize line did not display these symptoms under the same conditions. These differential phenotypes could be recapitulated in 'mini-hydroponic' systems in the laboratory in which high ammonium, but not nitrate, levels induced the symptoms in B73 but not Mo17 seedlings. Consistent with this phenotype being caused by Ca-deficiency, addition of Ca2+ completely relieved the symptoms. These data suggest that ammonium reduces the seedling's ability to absorb calcium, which causes the Ca-deficiency phenotype, and that this trait varies among genotypes. A recombinant inbred line (RIL) population derived from a B73 x Mo17 cross was used to map quantitative trait loci (QTL) associated with the Ca-deficiency phenotype. QTL associated with variation in susceptibility to Ca-deficiency were detected on chromosomes 1, 2, 3, 6 which explained between 3.30%-9.94% of the observed variation. Several genes predicted to bind or be activated by calcium map to these QTL on chromosome 1, 2, 6. These results describe for the first time the genetics of Ca-deficiency symptoms in maize and in plants in general. Copyright © The Author(s) 2020. Published by the Genetics Society of America.The black yeast-like fungus Arthrocladium fulminans is known from strains that cause severe, eventually fatal disseminated infections in human patients with a genetic immune disorder. Given the dramatic outcome of this clinical case, it is essential to understand the virulence potential of this species. The fungus is a member of the family Trichomeriaceae, at some phylogenetic distance from the Herpotrichiellaceae where most infectious fungi in the order Chaetothyriales are located. Main ecological preferences among Trichomeriaceae include colonization of exposed inert surfaces. Currently, black yeasts genomes that are available in public databases cover members of the families Herpotrichiellaceae and Cyphellophoraceae In the present report, we sequenced the genome of the first member and only clinical representative of the family Trichomeriaceae. Copyright © The Author(s) 2020. Published by the Genetics Society of America.Red blood cell distribution width (RDW) is a measurement of the variation in size and volume of red blood cells (RBCs). Increased RDW, indicating a high heterogeneity of RBCs, is prominently associated with a variety of illnesses, especially cardiovascular diseases. However, the significance of this association to the onset and progression of cardiovascular and renal diseases is unknown. We hypothesized that a genetic predisposition for increased RDW is an early risk factor for cardiovascular and renal comorbidities. Since there is no known animal model of increased RDW, we examined a CRISPR/Cas9 gene-edited rat model (RfflTD) which presented with features of hematologic abnormalities as well as severe cardiac and renal comorbidities. A mass-spectrometry based quantitative proteomic analysis indicated anemia of these rats presented with significant downregulation of hemoglobin and haptoglobin. Decreased hemoglobin and increased RDW were further observed in RfflTD through complete blood count. Next, a systematic temporal assessment detected an early increased RDW in RfflTD, which was prior to the development of other comorbidities. The primary mutation of RfflTD is a 50bp deletion in a non-coding region, whereby, our study has serendipitously identified this locus as a novel quantitative trait locus (QTL) for RDW. To our knowledge, our study is the first to experimentally pinpoint a QTL for RDW and provides a novel genetic rat model mimicking the clinical association of increased RDW with poor cardio-renal outcomes. © 2020. Published by The Company of Biologists Ltd.Acute idiopathic or so-called viral pericarditis is a frequent and usually benign disease, although recurrences are frequent. Data strongly suggest the presence of underlying autoinflammatory and/or autoimmune disorders. It has been reported that there is an inflammatory response of the innate immune system typical of 'autoinflammatory diseases', predominantly mediated by interleukin-1 (IL-1). This may result from the activation of the inflammasome by a cardiotropic virus or a non-specific agent. The inflammatory response of the adaptive immune system, typical of 'autoimmune diseases'-mainly mediated by autoantibodies or autoreactive T lymphocytes-seems also involved as anti-heart or anti-intercalated disk autoantibodies were associated with a higher number of recurrences and hospitalisations. Current guidelines recommend that aspirin/non-steroidal anti-inflammatory drugs for a few weeks should be associated to colchicine for 6 months in recurrent pericarditis. In refractory cases, low-dose corticosteroids or immunosuppressive drugs have been proposed with limited efficacy. Growing evidences suggest a place of IL-1 receptor antagonists in the treatment of recurrent pericarditis. Many retrospective studies, one recent randomised placebo-controlled study and data of a real-life large international registry showed the good efficacy of anakinra with a good safety profile. Other IL-1 receptor antagonists showed promising results (canakinumab, rilonacept). However, IL-1 receptor antagonists' position in the treatment algorithm of recurrent pericarditis needs further evaluation in larger prospective clinical trials to replicate initial findings as well as to assess safety, cost-effectiveness and long-term efficacy. © Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.Oxygen surrogates (OSs) have been used to support cytochrome P450 enzymes for diverse purposes in drug metabolism research, including reaction phenotyping, mechanistic and inhibition studies, studies of redox partner interactions, and to avoid the need for NADPH or a redox partner. They also have been used in engineering P450s for more cost-effective, NADPH-independent biocatalysis. However, despite their broad application little is known of the preference of individual P450s for different OSs, or the substrate dependence of OS-supported activity. Furthermore, the biocatalytic potential of OSs other than cumene hydroperoxide (CuOOH) and hydrogen peroxide (H2O2) is yet to be explored. Here, we investigated the ability of the major human drug-metabolizing P450s, namely CYP3A4, CYP2C9, CYP2C19, CYP2D6 and CYP1A2, to use different OSs H2O2; tert-butyl hydroperoxide (tert-BuOOH); CuOOH; (diacetoxyiodo)benzene (BAIB); and bis(trifluoroacetoxy)iodobenzene (F-BAIB). Overall, CuOOH and tert-BuOOH were found to be the most effective at supporting these P450s. However, the ability of P450s to be supported by OSs effectively was also found to be highly dependent on the substrate used. This suggests that the choice of OS should be tailored to both the P450 and the substrate under investigation, underscoring the need to employ screening methods in directed evolution experiments that reflect the activity towards the substrate of interest to the end application. SIGNIFICANCE STATEMENT Cytochrome P450 enzymes can be supported by different oxygen surrogates (OSs), avoiding the need for a redox partner and costly NADPH. However few data exist comparing relative activity with different OSs and substrates. This study shows that the choice of OS used to support the major drug-metabolizing P450s influences their relative activity and regioselectivity in a substrate specific fashion, and provides a model for the more efficient use of P450s for metabolite biosynthesis. The American Society for Pharmacology and Experimental Therapeutics.Bioactivation of the antidepressant and smoking cessation drug bupropion is catalyzed predominantly by cytochrome P4502B6 (CYP2B6). The metabolite hydroxybupropion derived from t-butylhydroxylation is considered to contribute to the antidepressant and smoking-cessation effects of the parent drug. Bupropion hydroxylation is the canonical in vitro and in vivo probe for CYP2B6 activity. P450 also requires obligate partnership with P450 oxidoreductase (POR). Human CYP2B6 and POR genes are highly polymorphic. Some CYP2B6 variants affect bupropion disposition. This investigation evaluated the influence of several human CYP2B6 and POR genetic variants on stereoselective bupropion metabolism, using an insect cell coexpression system containing CYP2B6, POR and cytochrome b5. Based on intrinsic clearances, relative activities for S,S-hydroxybupropion formation were in the order CYP2B6.4>CYP2B6.1>CYP2B6.17>CYP2B6.5>CYP2B6.6≈CYP2B6.26≈CYP2B6.19>CYP2B6.7> CYP2B6.9>>CYP2B6.16 and CYP2B6.18; relative activities for R,R-hydr metabolism, suggesting no clinical consequence of this polymorphism. These CYP2B6 polymorphisms may portend diminished in vivo bupropion hydroxylation and predict additional clinically important variant alleles. The American Society for Pharmacology and Experimental Therapeutics.The regulation of transposable element (TE) activity by small RNAs is a ubiquitous feature of germlines. However, despite the obvious benefits to the host in terms of ensuring the production of viable gametes and maintaining the integrity of the genomes they carry, it remains controversial whether TE regulation evolves adaptively. We examined the emergence and evolutionary dynamics of repressor alleles after P-elements invaded the Drosophila melanogaster genome in the mid 20th century. In many animals including Drosophila, repressor alleles are produced by transpositional insertions into piRNA clusters, genomic regions encoding the Piwi-interacting RNAs (piRNAs) that regulate TEs. We discovered that ~94% of recently collected isofemale lines in the Drosophila melanogaster Genetic Reference Panel (DGRP) contain at least one P-element insertion in a piRNA cluster, indicating that repressor alleles are produced by de novo insertion at an exceptional rate. Furthermore, in our sample of ~200 genomes, we uncovered no fewer than 80 unique P-element insertion alleles in at least 15 different piRNA clusters.