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Male sterility is a prerequisite for hybrid seed production. The phytohormone gibberellin (GA) are involved in regulating the male reproductive development, but the mechanism underlying GA homeostasis in anther development remains less understood. Here, we report the isolation and characterization of a new positive regulator of GA homeostasis, Swollen Anther Wall 1 (SAW1), for anther development in rice (Oryza sativa). Rice plants carrying the recessive mutant allele saw1 produces abnormal anthers with a swollen anther wall and aborted pollen. CRISPR/Cas9-mediated knockout of SAW1 in rice generated similar male sterile plants. SAW1 encodes a novel nucleus-localizing CCCH-tandem zinc finger protein, and this protein could directly bind to the promoter region of the GA synthesis gene OsGA20ox3 to induce its anther-specific expression. In the saw1 anther, the significantly decreased OsGA20ox3 expression resulted in lower bioactive GA content, which in turn caused the lower expression of the GA-inducible anther-regulator gene OsGAMYB. Thus, our results disclose the mechanism of the SAW1-GA20ox3-GAMYB pathway in controlling rice anther development, and provide a new target gene for the rapid generation of male sterile lines by genome editing for hybrid breeding. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.In the present study, assemblies consisting of CdSe quantum dots that are coupled with one of two molecular complexes/catalysts, viz . [Fe 2 S 2 (CO) 6 ] or [Fe 3 Te 2 (CO) 9 ], using an interface-directed approach, have been tested as catalytic systems for hydrogen production in aqueous solution/organic solution. In the presence of ascorbic acid as a sacrificial electron donor and proton source, these assemblies exhibit enhanced activities for the rate of hydrogen production under visible light irradiation for 8 hrs in aqueous solution at pH 4.0 with up to 110 μmol of H 2 per mg of assembly, almost 8.5 times that of pure CdSe quantum dots under the same conditions. Transient absorption and time-resolved photoluminescence spectroscopies have been used to investigate the charge carrier transfer dynamics in the quantum dot/iron carbonyl cluster assemblies. The spectroscopic results indicate that effective electron transfer from the molecular iron complex to the valence band of the excited CdSe quantum dots to the significantly inhibits the recombination of photogenerated charge carriers, boosting the photocatalytic activity for hydrogen generation; i.e . the iron clusters function as effective intermediaries for electron transfer from the sacrificial electron donor to the valence band of the quantum dots. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The long noncoding RNA GUARDIN functions to protect genome stability. read more Inhibiting GUARDIN expression can alter cell fate decisions toward senescence or apoptosis, but the underlying molecular signals are unknown. Here, we show that GUARDIN is an essential component of a transcriptional repressor complex involving LRP130 and PGC1α. GUARDIN acts as a scaffold to stabilize LRP130/PGC1α heterodimers and their occupancy at the FOXO4 promotor. Destabilizing this complex by silencing of GUARDIN, LRP130, or PGC1α leads to increased expression of FOXO4 and upregulation of its target gene p21, thereby driving cells into senescence. We also found that GUARDIN expression was induced by rapamycin, an agent that suppresses cell senescence. FOS-like antigen 2 (FOSL2) acts as a transcriptional repressor of GUARDIN, and lower FOSL2 levels in response to rapamycin correlate with increased levels of GUARDIN. Together, these results demonstrate that GUARDIN inhibits p21-dependent senescence through a LRP130-PGC1α-FOXO4 signaling axis, and moreover, GUARDIN contributes to the anti-aging activities of rapamycin. © 2020 The Authors.BACKGROUND Real-world use of immuno-oncology (IO) therapies (nivolumab and pembrolizumab) in metastatic head and neck squamous cell carcinoma (mHNSCC) has not been well studied. METHODS mHNSCC patients treated with an IO therapy were identified from a large US claims database from 2016 to 2017. Treatment patterns before and after initiation of IO therapy (index date) were described. RESULTS Among 416 mHNSCC patients, 85% had ≥1 regimen prior to IO therapy. Ninety-seven percent of patients initiated IO as monotherapy and 3% initiated IO combined with another systemic treatment. One hundred seventeen (28%) patients had a subsequent regimen, usually chemotherapy (n = 58, 50%) or IO monotherapy (n = 27, 23%), of which 22 patients restarted the same IO therapy and 5 switched to another IO monotherapy. CONCLUSION The majority of mHNSCC patients initiated IO as a monotherapy. Approximately half of patients with a subsequent regimen received chemotherapy and one-fourth received IO monotherapy. © 2020 Wiley Periodicals, Inc.BACKGROUND The gradually elevated outbreak of plant bacterial diseases severely limits agricultural products and small amounts of pesticides can manage them. Our group has previously synthesized and screened the antimicrobial activity of diverse 1,3,4-oxadiazole thioether/sulfone compounds bridged by a sulfur atom at the 2-position of 1,3,4-oxadiazole. However, few studies evaluated the effect of eliminating the sulfur atom on bioactivity. Herein, a novel type of N-containing heterocyclic pendants-tagged 1,3,4-oxadiazoles bridged by alkyl chains only was systematically synthesized and evaluated for their antimicrobial activities. RESULTS Bioassay results revealed that antibacterial efficacy increased by 551- and 314-folds against the corresponding phytopathogens Xanthomonas oryzae pv. oryzae and X. axonopodis pv. citri comparing to those of commercial agents. In vivo trials showed that C1 exerted remarkable curative activity against rice bacterial blight with the control effectiveness of 52.9% at 200 μg/mL. Antibacterial mechanism research found that C1 could reduce the hypersensitive response behavior and pathogenicity of Xoo through targeting the type III secretion systems (T3SS) at a lower drug dose. This outcome was verified by those observed significantly down-regulated proteins and representative genes from the related quantitative proteomics and qRT-PCR assays. CONCLUSION This study can inspire the design of innovative molecular frameworks targeting T3SS of phytopathogens for controlling bacterial infections. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.BACKGROUND To examine the extent to which group-based exercise programs, informed by self-categorisation theory, result in improvements in psychological flourishing and reductions in age- and gender-related stigma consciousness among older adults. METHODS In the study, older adults (N = 485, ≥ 65 years) were randomised to similar age same gender (SASG), similar age mixed gender (SAMG), or "standard" mixed age mixed gender (MAMG) group-based exercise programs. Flourishing and stigma consciousness were assessed on six occasions during the 24-week intervention and represented secondary trial outcomes. Multilevel growth models examined the effects of the interventions on flourishing and stigma consciousness over time. RESULTS Participants in the SASG and SAMG conditions demonstrated, on average, higher levels of flourishing, relative to the MAMG condition, over the course of the 24 weeks (p  less then  .05). Additionally, participants demonstrated lower levels of age- and gender-related stigma consciousness in both the SASG and SAMG conditions relative to the MAMG condition (p  less then  .05). No time by group interaction effects were observed for either flourishing or stigma consciousness. CONCLUSIONS The results provide some support for the utility of group exercise programs, informed by self-categorisation theory, to enhance psychological flourishing and reduce stigma consciousness among older adults. © 2020 The International Association of Applied Psychology.Antagonism of the CD154/CD40 pathway is a highly effective means of inducing long-term graft survival in preclinical models. Using a fully allogeneic murine transplant model, we found that CD154 blockade was more effective in prolonging graft survival than was CD40 blockade, raising the possibility that CD154 binds a second receptor. To test this, we queried the impact of CD154 antagonism in the absence of CD40. Data indicated that anti-CD154 functioned to reduce graft-infiltrating CD8+ T cells in both WT and CD40-/- hosts. Because it has recently been reported that CD154 can ligate CD11b, we addressed the impact of blocking CD154-CD11b interactions during transplantation. We utilized a specific peptide antagonist that prevents CD154 binding of CD11b but has no effect on CD154-CD40 interactions. CD154CD11b antagonism significantly increased the efficacy of anti-CD40 in prolonging allograft survival as compared to anti-CD40 plus control peptide. Mechanistically, CD154CD11b antagonism functioned to reduce the frequency of graft-infiltrating CD8+ T cells and innate immune cells. These data therefore demonstrate that blocking CD154 interactions with both CD40 and CD11b is required for optimal inhibition of alloimmunity and provide an explanation for why CD40 blockers may be less efficacious than anti-CD154 reagents for the inhibition of allograft rejection. © 2020 The American Society of Transplantation and the American Society of Transplant Surgeons.Promiscuous enzymes and spontaneous chemical reactions can convert normal cellular metabolites into noncanonical or damaged metabolites. These damaged metabolites can be a useless drain on metabolism and may be inhibitory and/or reactive, sometimes leading to toxicity. Thus, mechanisms to prevent metabolite damage from occurring (metabolite damage preemption) or to convert damaged metabolites back to physiological forms (metabolite repair) are essential for sustained operation of metabolic networks. Some iconic examples of metabolite damage and its repair or preemption are associated with the tricarboxylic acid (TCA) cycle, and other metabolite damage control systems are likely to exist here due to the inherent promiscuity of TCA cycle enzymes and reactivity of TCA cycle intermediates. Here, we review known metabolite damage reactions and metabolite damage control systems associated with the TCA cycle. This includes a previously unrecognized metabolite damage control system - an oxaloacetate (OAA) enol-keto tautomerase activity that is 'built-in' to the TCA cycle. This activity is required to remove the highly inhibitory enol form of OAA and is likely to be critical for TCA cycle operation. By cataloging these instances, we show that metabolite damage and its repair or preemption is a prevalent feature of the TCA cycle and suggest many more metabolite damage control systems are likely to exist. © 2020 Federation of European Biochemical Societies.OBJECTIVES Sodium zirconium cyclosilicate (SZC) is a novel, highly selective potassium binder currently approved in the United States and European Union for treatment of hyperkalemia. This pilot evaluation explored the efficacy of SZC with insulin and glucose as hyperkalemia treatment in the emergency department (ED). METHODS This exploratory, phase II, multicenter, randomized, double-blind, placebo-controlled study (NCT03337477) enrolled adult ED patients with blood potassium ≥ 5.8 mmol/L. Patients were randomized 11 to receive SZC 10 g or placebo, up to three times during a 10-hour period, with insulin and glucose. The primary efficacy outcome was the mean change in serum potassium (sK+ ) from baseline until 4 hours after start of dosing. RESULTS Overall, 70 patients were randomized (SZC n = 33, placebo n = 37), of whom 50.0% were male. Their mean (± standard deviation [±SD]) age was 59.0 (±13.8) years and mean initial sK+ was similar between groups (SZC 6.4 mmol/L, placebo 6.5 mmol/L). The least squares mean (±SD) sK+ change from baseline to 4 hours was -0.

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