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Traditional carbon materials have demonstrated immense potential in perovskite solar cells (PSCs) owing to their superior electrical properties and environmental stability. Graphdiyne (GDY), as an emerging carbon allotrope, features uniformly distributed pores, endless design flexibility, and unique electronic character compared with traditional carbon materials. Herein, graphdiyne is introduced into the upper part of the perovskite (CH3 NH3 PbI3 ) layer by utilizing a GDY-containing antisolvent during the one-step synthesis of perovskite. Intriguingly, GDY plays an essential role in hole accumulation and transportation because of its higher Fermi level than perovskite. As a result, the automatic separation of photogenerated carriers inside the perovskite film is achieved. Furthermore, the Schottky barrier formed on the interface between perovskite and GDY guarantees the unidirectional hole transport from perovskite to GDY, thereby benefiting further extraction to the hole transport layer. Consequently, GDY-modified perovskite-based planar PSCs exhibit a boosted Jsc of 24.21 mA cm-2 and up to 19.6% power conversion efficiency owing to the increased efficient light utilization and charge extraction. The device with GDY modification exhibits less than 10% shrinkage after a month in ambience. Overall, this work demonstrates an easy method for the utilization of GDY to boost the charge extraction and environmental stability in PSCs. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The aim of this study is to find out the practice patterns, awareness, and knowledge about psychodermatology in Albanian dermatologists. A survey questionnaire was sent to Albanian dermatologists by mail and distributed during a regional dermatology conference. The dermatologists were requested to provide information on demographic variables, level of training, referral patterns, degree of comfort in managing psychocutaneous disorders, awareness of community resources, and interest in continuing medical educational activities. A total of 75 surveys were mailed in and 41 were returned for analysis. Only 13.2% of dermatologists reported clear understanding of psychodermatology and 41.5% reported being somewhat comfortable in diagnosing and treating psychocutaneous disorders, however requiring further help. Psoriasis, prurigo, and acne were the most common diagnoses associated with psychiatric involvement. The most common diagnoses referred by dermatologists to psychiatrists were psoriasis, prurigo, acne, and trichotillomania. Almost all 98% of dermatologists were not aware of any community resources. About 70% of dermatologists expressed interest in attending continuing medical educational activities. Albanian dermatologist have significant gap in the knowledge, training, awareness, and in treating psychocutaneous disease. © 2020 Wiley Periodicals, Inc.Colletotrichum graminicola is a hemibiotrophic fungus that causes anthracnose leaf blight (ALB) and anthracnose stalk rot (ASR) in maize. Despite substantial economic losses caused by these diseases, the defence mechanisms against this pathogen remain poorly understood. Several hormones are suggested to aid in defence against C. graminicola, such as jasmonic acid (JA) and salicylic acid (SA), but supporting genetic evidence was not reported. Green leaf volatiles (GLVs) are a group of well-characterized volatiles that induce JA biosynthesis in maize and are known to function in defence against necrotrophic pathogens. Information regarding the role of GLVs and JA in interactions with (hemi)biotrophic pathogens remains limited. To functionally elucidate GLVs and JA in defence against a hemibiotrophic pathogen, we tested GLV- and JA-deficient mutants, lox10 and opr7 opr8, respectively, for resistance to ASR and ALB and profiled jasmonates and SA in their stalks and leaves throughout infection. selleck products Both mutants were resistant and generally displayed elevated levels of SA and low amounts of jasmonates, especially at early stages of infection. Pretreatment with GLVs restored susceptibility of lox10 mutants, but not opr7 opr8 mutants, which coincided with complete rescue of JA levels. Exogenous methyl jasmonate restored susceptibility in both mutants when applied before inoculation, whereas methyl salicylate did not induce further resistance in either of the mutants, but did induce mutant-like resistance in the wild type. Collectively, this study reveals that GLVs and JA contribute to maize susceptibility to C. graminicola due to suppression of SA-related defences. © 2020 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.Urea amidolyase (UA), a bifunctional enzyme that is widely distributed in bacteria, fungi, algae, and plants, plays a pivotal role in the recycling of nitrogen in the biosphere. Its substrate urea is ultimately converted to ammonium, via successive catalysis at the C-terminal urea carboxylase (UC) domain and followed by the N-terminal allophanate hydrolyse (AH) domain. Although our previous studies have shown that Kluyveromyces lactis UA (KlUA) functions efficiently as a homodimer, the architecture of the full-length enzyme remains unresolved. Thus how the biotin carboxyl carrier protein (BCCP) domain is transferred within the UC domain remains unclear. Here we report the structures of full-length KlUA in its homodimer form in three different functional states by negatively-stained single-particle electron microscopy. We report here that the ADP-bound structure with or without urea shows two possible locations of BCCP with preferred asymmetry, and that when BCCP is attached to the carboxyl transferase domain of one monomer, it is attached to the biotin carboxylase domain in the second domain. Based on this observation, we propose a BCCP-swinging model for biotin-dependent carboxylation mechanism of this enzyme. © 2020 The Protein Society.AIMS Chronic kidney disease (CKD) is associated with an increased risk of cardiovascular disease (CVD). We examined the characteristics, management and outcomes of patients with CKD in the All New Zealand Acute Coronary Syndrome Quality Improvement (ANZACS-QI) national registry. METHODS The cohort comprised New Zealand (NZ) patients with an acute coronary syndrome undergoing coronary angiography between January 2013 and December 2016. Patients were categorized according to their stage of CKD. Outcomes included all-cause and cause-specific mortality and hospitalization with myocardial infarction (MI), stroke and major bleeding. RESULTS Of the 20 604 patients, 20.3% had normal renal function, with 53.3%, 23.3%, 1.7% and 1.4% having CKD stages 2, 3, 4 and 5 CKD, respectively. Patients with severe CKD were more likely to be Māori or Pacific and live in an area with greater socioeconomic deprivation. Death, recurrent MI or stroke, and major bleeding all increased incrementally with each worsening stage of CKD severity. Compared with those with normal renal function, patients with stage 5 CKD had a much higher all-cause (hazard ratio [HR] 16.41, 95% CI 13.06-20.61), cardiovascular (HR 16.38, 95% CI 12.17-22.04) and non-cardiovascular mortality (HR 13.66 9, 95% CI.56-19.51). In addition, patients with stage 5 CKD were at a higher risk of recurrent MI or stroke (HR 4.73, 95% CI 3.86-5.80) and bleeding (HR 5.84, 95% CI 4.39-7.76). CONCLUSION CKD was associated with increased mortality and a high incidence of morbidity in patients undergoing coronary angiography in New Zealand. Initiatives to understand and improve outcomes in this group of patients are urgently needed. © 2020 Asian Pacific Society of Nephrology.Semiconductor nanowires have been playing a crucial role in the development of nanoscale devices for the realization of spin qubits, Majorana fermions, single photon emitters, nanoprocessors, etc. The monolithic growth of site-controlled nanowires is a prerequisite toward the next generation of devices that will require addressability and scalability. Here, combining top-down nanofabrication and bottom-up self-assembly, the growth of Ge wires on prepatterned Si (001) substrates with controllable position, distance, length, and structure is reported. This is achieved by a novel growth process that uses a SiGe strain-relaxation template and can be potentially generalized to other material combinations. Transport measurements show an electrically tunable spin-orbit coupling, with a spin-orbit length similar to that of III-V materials. Also, charge sensing between quantum dots in closely spaced wires is observed, which underlines their potential for the realization of advanced quantum devices. The reported results open a path toward scalable qubit devices using nanowires on silicon. © 2020 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The complex tumor microenvironment constitutes a variety of barriers to prevent nanoparticles (NPs) delivery and results in extremely low accumulation of nanomedicines in solid tumors. Here, a newly developed size-changeable collagenase-modified polymer micelle is employed to enhance the penetration and retention of nanomedicine in deep tumor tissue. The TCPPB micelle is first formed by self-assembly of maleimide-terminated poly(ethylene glycol)-block-poly(β-amino ester) (MAL-PEG-PBAE) and succinic anhydride-modified cisplatin-conjugated poly(ε-caprolactone)-block-poly(ethylene oxide)-triphenylphosphonium (CDDP-PCL-PEO-TPP). Next, Col-TCPPB NPs are prepared through a "click" chemical combination of thiolated collagenase and maleimide groups on TCPPB micelle. Finally, biocompatible chondroitin sulfate (CS) is coated to obtain CS/Col-TCPPB NPs for avoiding collagenase inactivation in blood circulation. In tumor acidic microenvironment, the hydrophobic PBAE segments of the resultant micelles become hydrophilic, leading to a dissociation and subsequent dissolution of partial collagenase-containing components (Col-PEG-PBAE) from NPs. The dissolved Col-PEG-PBAE promotes the digestion of collagen fibers in tumor tissue like a scavenger, which enhances the NPs penetration. Simultaneously, the increased hydrophilicity of residual Col-PEG-PBAE in the micellar matrix causes an expansion of the NPs, resulting in an enhanced intratumoral retention. In tumor cells, the NPs target to release the cisplatin drugs into mitochondria, achieving an excellent anticancer efficacy. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The modern β-adrenergic agonists (β-blockers) possess one or more than one chiral center in their structure. Two enantiomers exhibit distinct pharmacodynamic and pharmacokinetic behaviors. Current progress in drug designing has resulted in the ability to understand the role of chirality in modern therapeutics. Furthermore, with a greater understanding of the molecular structure of precise drug targets, development of new drugs is directed towards the pure enantiomers instead of its racemates. The present review deals with a discussion on the stereochemical facets of chiral clinical β-blockers. This review provides details of stereo-selectivity in the pharmacological behavior of some of β-blockers and their metabolites. An effort has been made on highlighting the distinction between the therapeutic behavior of the racemic mixtures and pure enantiomers. © 2020 Wiley Periodicals, Inc.

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