Strategies for rapid assessment of fungal diversity

The problems of estimating fungal diversity are considerable, due especially to the large numbers of species even in small study sites, only a small proportion of which are adequately characterized, and the lack of trained staff and appropriate identification manuals. These difficulties are multiplied in the tropics. Strategies for providing preliminary assessments of fungal diversity which can be carried out within short time-frames are discussed, which will allow initial site valuations to be made for conservation purposes. The necessity of identifying all species discovered is considered, and the need emphasized for strictly defined sampling protocols which allow proper comparison between sites. The advantages and disadvantages of preliminary diversity analyses involving different taxonomic and ecological groups, fungus/plant associations, spatial sampling, soil and litter analysis, molecular methods and indirect assessment are considered.     

Architecture and function of metallopeptidase catalytic domains

The cleavage of peptide bonds by metallopeptidases (MPs) is essential for life. These ubiquitous enzymes participate in all major physiological processes, and so their deregulation leads to diseases ranging from cancer and metastasis, inflammation, and microbial infection to neurological insults and cardiovascular disorders. MPs cleave their substrates without a covalent intermediate in a single‐step reaction involving a solvent molecule, a general base/acid, and a mono‐ or dinuclear catalytic metal site. Most monometallic MPs comprise a short metal‐binding motif (HEXXH), which includes two metal‐binding histidines and a general base/acid glutamate, and they are grouped into the zincin tribe of MPs. The latter divides mainly into the gluzincin and metzincin clans. Metzincins consist of globular ～130–270‐residue catalytic domains, which are usually preceded by N‐terminal pro‐segments, typically required for folding and latency maintenance. The catalytic domains are often followed by C‐terminal domains for substrate recognition and other protein–protein interactions, anchoring to membranes, oligomerization, and compartmentalization. Metzincin catalytic domains consist of a structurally conserved N‐terminal subdomain spanning a five‐stranded β‐sheet, a backing helix, and an active‐site helix. The latter contains most of the metal‐binding motif, which is here characteristically extended to HEXXHXXGXX(H,D). Downstream C‐terminal subdomains are generally shorter, differ more among metzincins, and mainly share a conserved loop—the Met‐turn—and a C‐terminal helix. The accumulated structural data from more than 300 deposited structures of the 12 currently characterized metzincin families reviewed here provide detailed knowledge of the molecular features of their catalytic domains, help in our understanding of their working mechanisms, and form the basis for the design of novel drugs.     

Combinatorial optimization of cyanobacterial 2,3-butanediol production

A vital goal of renewable technology is the capture and re-energizing of exhausted CO₂ into usable carbon products. Cyanobacteria fix CO₂ more efficiently than plants, and can be engineered to produce carbon feedstocks useful for making plastics, solvents, and medicines. However, fitness of this technology in the economy is threatened by low yields in engineered strains. Robust engineering of photosynthetic microorganisms is lagging behind model microorganisms that rely on energetic carbon, such as Escherichia coli, due in part to slower growth rates and increased metabolic complexity. In this work we show that protein expression from characterized parts is unpredictable in Synechococcus elongatus sp. strain PCC 7942, and may contribute to slow development. To overcome this, we apply a combinatorial approach and show that modulation of the 5'-untranslated region (UTR) can produce a range of protein expression sufficient to optimize chemical feedstock production from CO₂.     

Interaction of Subtilisin BPN′ and Recombinant Fungal Protease Inhibitor F from Silkworm with Substituted P1 Site Residues

Fungal protease inhibitor F (FPI-F) from silkworm inhibits subtilisin and fungal proteases. FPI-F mutants P₁ residues of which, Thr²⁹, were replaced with Glu, Phe, Gly, Leu, Met, and Arg, were prepared. The inhibitory activities of mutated FPI-F against subtilisin and other mammalian proteases indicated that FPI-F might be a specific inhibitor toward subtilisin-type protease.     

Modeling of substrate and inhibitor binding to phospholipase A2.

Molecular graphics and molecular mechanics techniques have been used to study the mode of ligand binding and mechanism of action of the enzyme phospholipase A2. A substrate-enzyme complex was constructed based on the crystal structure of the apoenzyme. The complex was minimized to relieve initial strain, and the structural and energetic features of the resultant complex analyzed in detail, at the molecular and residue level. The minimized complex was then used as a basis for examining the action of the enzyme on modified substrates, binding of inhibitors to the enzyme, and possible reaction intermediate complexes. The model is compatible with the suggested mechanism of hydrolysis and with experimental data about stereoselectivity, efficiency of hydrolysis of modified substrates, and inhibitor potency. In conclusion, the model can be used as a tool in evaluating new ligands as possible substrates and in the rational design of inhibitors, for the therapeutic treatment of diseases such as rheumatoid arthritis, atherosclerosis, and asthma.     

Landscape structure influences tree density patterns in fragmented woodlands in semi‐arid eastern Australia

Landscape and local‐scale influences are important drivers of plant community structure. However, their relative contribution and the degree to which they interact remain unclear. We quantified the extent to which landscape structure, within‐patch habitat and their confounding effects determine post‐clearing tree densities and composition in agricultural landscapes in eastern subtropical Australia. Landscape structure (incorporating habitat fragmentation and loss) and within‐patch (site) features were quantified for 60 remnant patches of Eucalyptus populnea (Myrtaceae) woodland. Tree density and species for three ecological maturity classes (regeneration, early maturity, late maturity) and local site features were assessed in one 100 × 10 m plot per patch. All but one landscape characteristic was determined within a 1.3‐km radius of plots; Euclidean nearest neighbour distance was measured inside a 5‐km radius. Variation in tree density and composition for each maturity class was partitioned into independent landscape, independent site and joint effects of landscape and site features using redundancy analysis. Independent site effects explained more variation in regeneration density and composition than pure landscape effects; significant predictors were the proportion of early and late maturity trees at a site, rainfall and the associated interaction. Conversely, landscape structure explained greater variation in early and late maturity tree density and composition than site predictors. Area of remnant native vegetation within a landscape and patch characteristics (area, shape, edge contrast) were significant predictors of early maturity tree density. However, 31% of the explained variation in early mature tree differences represented confounding influences of landscape and local variables. We suggest that within‐patch characteristics are important in influencing semi‐arid woodland tree regeneration. However, independent and confounding effects of landscape structure resulting from previous vegetation clearing may have exerted a greater historical influence on older cohorts and should be accounted for when examining woodland dynamics across a broader range of environments.     

Engineering Local Coordination Environments of Atomically Dispersed and Heteroatom‐Coordinated Single Metal Site Electrocatalysts for Clean Energy‐Conversion

Carbon‐based heteroatom‐coordinated single‐atom catalysts (SACs) are promising candidates for energy‐related electrocatalysts because of their low‐cost, tunable catalytic activity/selectivity, and relatively homogeneous morphologies. Unique interactions between single metal sites and their surrounding coordination environments play a significant role in modulating the electronic structure of the metal centers, leading to unusual scaling relationships, new reaction mechanisms, and improved catalytic performance. This review summarizes recent advancements in engineering of the local coordination environment of SACs for improved electrocatalytic performance for several crucial energy‐convention electrochemical reactions: oxygen reduction reaction, hydrogen evolution reaction, oxygen evolution reaction, CO₂ reduction reaction, and nitrogen reduction reaction. Various engineering strategies including heteroatom‐doping, changing the location of SACs on their support, introducing external ligands, and constructing dual metal sites are comprehensively discussed. The controllable synthetic methods and the activity enhancement mechanism of state‐of‐the‐art SACs are also highlighted. Recent achievements in the electronic modification of SACs will provide an understanding of the structure–activity relationship for the rational design of advanced electrocatalysts.     

白血病融合基因EVI1的多态性与白血病发生风险的相关性

目的:探讨白血病融合基因亲嗜性病毒整合位点1(ecotropic viral integration site-1,EVI1)的多态性与白血病发生风险的相关性。方法:选取本院2017年2月～2019年2月收治的骨刺患儿90例作为研究组,同期选择健康人群83例作为对照组。清晨空腹抽取两组入选者的外周静脉血2 mL,采用PCR方法检测两组入选者EVI1的多态性情况,调查一般资料并进行相关性分析。结果:EVI1 rs17561基因共有CC、CA、AA三种基因型,两组入选者的EVI1 rs17561基因分布均符合Hardy-Weinberg平衡定律,研究对象具有群体代表性。两组入选者EVI1 rs17561基因型分布差异具有统计学意义(P0.05),研究组的EVI1 rs17561基因CC基因型显著高于对照组(90.0%vs. 75.9%, P0.05),研究组的等位基因C频率(显著高于对照组(96.7%vs. 80.7%, P0.05)。在90例骨刺患儿中,6例患儿确诊为白血病,检出率为6.7%,均为CC基因型。研究组患儿EVI1 rs17561基因的CC基因型与血小板计数、危险度分层、诊断分型显著相关(P0.05)。多元Logistic回归分析显示血小板计数、危险度分层、诊断分型为影响EVI1rs17561CC基因型的主要因素(P0.05)。结论:白血病患儿融合基因EVI1多态性比较常见,多表现为rs17561CC等位基因,此等位基因可能与白血病患者的血小板计数、危险度分层、诊断分型显著相关,其中血小板计数、危险度分层、诊断分型为影响EVI1rs17561CC基因型的主要因素。     

不同术前皮肤准备方案与手术切口感染的关系研究

目的:研究不同术前皮肤准备方案与手术切口感染(SSI)的关系,为降低临床SSI发生率提供参考。方法:选择自2015年1月～2019年12月在医院行手术治疗的患者1810例为本次研究对象。根据析因设计表,将因素A:是否剃毛(1不剃毛;2剃毛),B:清洁方式(1清水清洁;2肥皂水清洁),C:术前备皮时间(1术前1 d;2术前2 h)配对分为8个组:A1B1C1组226例,A1B2C1组229例,A1B1C2组216例,A1B2C2组232例,A2B1C1组221例,A2B2C1组241例,A2B1C2组221例,A2B2C2组224例,比较各组手术部位及切口类型分布、术后SSI发生率,并采用析因分析法分析术前皮肤准备后各组菌落计数的相关性及交互作用。结果:各组患者的手术部位及切口类型之间的差异不存在统计学意义(P0.05)。A1B1C1组及A2B1C1组的SSI发生率较高,分别为12.83%和14.48%。A1水平的SSI发生率是8.75%,与A2水平的8.27%相比,差异不存在统计学意义(P0.05)。B1、C1水平的SSI发生率分别是11.31%、10.03%,明显高于B2、C2水平的5.83%、6.94%,差异均存在统计学意义(P0.05)。各组术前皮肤准备后的菌落计数差异存在统计学意义(P0.05),析因分析结果显示,B、C单因素分析差异存在统计学意义(P0.05),且A与C,B与C间具有交互作用,而A、B、C间具有二级交互作用(P0.05)。结论:术前皮肤准备对降低SSI发生具有重要作用,实际操作时,建议在较短的时间内利用肥皂水或其他消毒水进行皮肤清洗并完成备皮。