面向低碳城市建设的建筑运行能耗驱动机理研究进展

城市快速扩张的同时,不断增大的建筑存量、建筑运行能耗及相应的碳排放成为制约城市可持续发展的重要因素。为实现节能降耗,有必要对建筑能耗碳排放的驱动机理进行深入探究。已有研究从不同角度对建筑运行能耗碳排放的影响要素和驱动机理进行了分析论证,但仍缺乏系统综述从而难以为建筑节能降耗提供全面指导。本文基于“社会-经济-自然”复合生态系统理论,对驱动建筑能耗碳排放的复合机理进行综合论述;在此基础上,从社会经济、建筑体特征、区域气候/微气候等视角,整合并剖析了不同单源要素的建筑能耗碳排放驱动机理;最后,总结了当前城市建筑能耗驱动机理研究领域存在的不足,并对未来发展进行了展望。本文对建筑能耗碳排放驱动机理的系统梳理和总结,对相关研究具有重要的参考价值,对低碳城市建设亦具有重要的科技支撑作用。     

莱菔子乙醇提取物对ApoE-/-小鼠血脂血糖及肝脂肪变性的影响*

目的:探讨莱菔子乙醇提取物(AERS)对ApoE^-/-小鼠血脂血糖及肝脂肪变性的影响及其机制。方法:随机将60只ApoE^-/-小鼠分为对照组(CG)、生理盐水组(NG)、罗格列酮组(RG)、AERS治疗组,后者再分成AERS低、中、高剂量组(AERS-L/M/H),每组10只。除CG常规饲料外,其他动物均以高脂高糖高盐饲料饲养9周,CG和NG分别每天以等容量NS灌胃1次,RG每天灌胃罗格列酮(1.33 mg·kg^-1,NS稀释成等容量溶液,每次0.2 ml·10 g^-1),AERS组动物每天分别予AERS灌胃(100、300和900 mg·kg^-1)9周后。肝病理学观察,检测FPG、FIns,计算胰岛素抵抗指数(IRI)和肝系数(LC)。检测血清ALT、AST、瘦素(LEP)、TNF-α及血脂水平(TC、FFA等)。Western blot检测肝脂质代谢相关蛋白表达(HMG-R、LDL-R、LEP-R)。结果:与CG相比,NG和RG肝脏外观(色泽、肿胀情况等)和病理学(脂肪变性、肝细胞坏死等)改变明显,而AERS-M/H与CG相似;与CG相比,血清FPG、Fins、IRI、ALT、AST、TNF-α、LC、TG、LDL-C、FFA、LEP等指标明显升高(P＜0.05);与NG相比,AERS呈现剂量依赖性降低(P＜0.05);与RG相比,AERS-H的FPG、Fins明显升高(P＜0.05),而IRI明显降低(P＜0.05);与NG和RG相比,AERS组的HMG-R和LEP-R蛋白表达呈剂量依赖性减少,而LDL-R蛋白表达呈剂量依赖性增加(P＜0.05)。结论:AERS能阻止高脂高糖饲料诱导ApoE^-/^-小鼠血脂血糖升高及肝脂肪变性,其机制与减少FFA和LEP的生成,抑制TNF-α、HMG-R、LEP-R蛋白表达和促进LDL-R的蛋白表达有关。     

草酸青霉YTY及其突变体解磷能力、pH和分泌有机酸的关系

本研究利用离子束-UV复合诱变草酸青霉YTY选育高效解磷突变体,分析了出发菌株YTY及其突变体解磷过程中的解磷能力、pH和有机酸的变化及其相关性,探讨草酸青霉的解磷机理。结果表明: 离子束-UV复合诱变选育获得5株高效解磷突变株P9-8、P9-9、P15-4、P15-6和P15-7,解磷能力均较YTY提高60%以上。解磷过程中突变株解磷能力及解磷速率均高于YTY,而pH显著低于YTY,同时,突变体分泌有机酸种类及含量发生了不同程度的变化,突变体和YTY均可分泌乳酸、乙酸和草酸,P9-8还产生了柠檬酸。皮尔逊相关分析显示,YTY及5株突变株的解磷能力和pH值呈显著负相关;YTY及其突变体(P15-4除外)的解磷能力与有机酸浓度和pH呈显著相关。分泌有机酸和降低环境pH值可能是草酸青霉解磷的内在机制,离子束-UV复合诱变可引起草酸青霉YTY有机酸分泌种类和分泌量的变化,还可能诱发YTY启动其他H⁺释放途径降低pH参与解磷。本研究为高效解磷青霉的开发及青霉解磷机理阐明提供了生物材料及理论依据。     

Honest signals and sexual conflict: Female lizards carry undesirable indicators of quality

Sex differences in animal coloration often result from sex‐dependent regulatory mechanisms. Still, some species exhibit incomplete sexual dimorphism as females carry a rudimentary version of a costly male trait, leading to intralocus sexual conflict. The underlying physiology and condition dependence of these traits can inform why such conflicts remain unresolved. In eastern fence lizards (Sceloporus undulatus), blue iridophore badges are found in males and females, but melanin pigmentation underneath and surrounding badges is male‐exclusive. We track color saturation and area of badges across sexual maturity, and their relationship to individual quality (body condition and immunocompetence) and relevant hormones (testosterone and corticosterone). Saturation and testosterone were positively correlated in both sexes, but hormone and trait had little overlap between males and females. Saturation was correlated with body condition and immunocompetence in males but not in females. Co‐regulation by androgens may have released females from resource allocation costs of color saturation, even when in high condition. Badge area was independent of testosterone, but associated with low corticosterone in females, indicating that a nonsex hormone underlies incomplete sexual dimorphism. Given the evidence in this species for female reproductive costs associated with ornamentation, this sex‐nonspecific regulation of an honest signal may underlie intralocus sexual conflict.     

The role of the active site Zn in the catalytic mechanism of the GH38 Golgi α-mannosidase II: Implications from noeuromycin inhibition

Golgi α-mannosidase II (GMII) is a Family 38 glycosyl hydrolase involved in the eukaryotic N-glycosylation pathway in protein synthesis. Understanding of its catalytic mechanism has been of interest for the development of specific inhibitors that could lead to novel anti-metastatic or anti-inflammatory compounds. The active site of GMII has been characterized by structural studies of the Drosophila homologue (dGMII) and unusually contains a Zn atom which forms contacts with substrate analogues, stabilized catalytic intermediates, and other inhibitors observed in the active site. In this contribution, we analyze the structure of the sugar mimetic compound noeuromycin complexed with dGMII. Distortions of the conformation of this inhibitor, together with similar observations from other complexes, have permitted us to propose specific roles for the Zn atom in the chemical mechanism of catalysis of Family 38 glycosidase. Such insights have relevance to efforts to formulate novel, specific inhibitors of GMII.     

Structural and Functional Comparison of Polysaccharide-Degrading Enzymes

Sugar molecules as well as enzymes degrading them are ubiquitously present in physiological systems, especially for vertebrates. Polysaccharides have at least two aspects to their function, one due to their mechanical properties and the second one involves multiple regulatory processes or interactions between molecules, cells, or extracellular space. Various bacteria exert exogenous pressures on their host organism to diversity glycans and their structures in order for the host organism to evade the destructive function of such microbes. Many bacterial organism produce glycan-degrading enzymes in order to facilitate their invasion of host tissues. Such polysaccharide degrading enzymes utilize mainly two modes of polysaccharide-degradation, a hydrolysis and a β-elimination process. The three-dimensional structures of several of these enzymes have been elucidated recently using X-ray crystallography. There are many common structural motifs among these enzymes, mainly the presence of an elongated cleft transversing these molecules which functions as a polysaccharide substrate binding site as well as the catalytic site for these enzymes. The detailed structural information obtained about these enzymes allowed formulation of proposed mechanisms of their action. The polysaccharide lyases utilize a proton acceptance and donation mechanism (PAD), whereas polysaccharide hydrolases use a direct double displacement (DD) mechanism to degrade their substrates.     

Cell signaling,receptors, electrical effects and therapy in circadian rhythm

Abstract

Circadian rhythm has been the object of much attention. This review addresses the aspects of cell signaling, receptors, therapy and electrical effects in a multifaceted fashion. The pineal gland, which produces the important hormones melatonin and serotonin, exerts a prominent influence, in addition to the supraschiasmatic nucleus. Many aspects involve free radicals which have played a widespread role in biochemistry.     

Virtual screening of LPXTG competitive SrtA inhibitors targeting signal transduction mechanism in Bacillus anthracis: a combined experimental and theoretical study

Abstract

Members of the sortase enzyme super family decorate the surfaces of Bacillus anthracis cell wall with proteins that play key roles in microbial pathogenesis and its biofilm formation. Bacillus anthracis Sortase-A (Ba-SrtA) is a potential target for new therapeutics as it is required for B. anthracis survival and replication within macrophages. An understanding of the binding site pocket and substrate recognition mechanism by SrtA enzymes may serve to be beneficial in the rational development of sortase inhibitors. Here, the LPXTG signal peptide-based competitive inhibitors are screened against the Ba-SrtA and compounds with reasonable inhibition, specificity, and mechanisms of inactivation of SrtA have been covered. The screened compounds are experimentally validated against the phylogenetically similar Gram-positive pathogen B. cereus. In situ microscopic visualizations suggest that these screened compounds showed the microbial and biofilm inhibitory activity against B. cereus. It facilitates the further development of these molecules into useful anti-infective agents to treat infections caused by B. anthracis and other Gram-positive pathogens. These results provide insight into basic design principles for generating new clinically relevant lead molecules. It also provides an alternative strategy where a screened ligand molecule can be used in combination to battle increasingly against the Gram-positive pathogens.     

Kinetic Formulations for the Reduction of Ketomalonate by Lactate Dehydrogenase

Abstract

Initial rate kinetic studies of lactate dehydrogenase with ketomalonate and NADH as substrates suggest that this enzymatic system is adapted to a rapid equilibrium ordered bi-bi ternary complex mechanism. The application of the reaction product inhibition method reveals the existence of the enzyme-NADH-hydroxy-malonate and enzyme-NAD⁺-ketomalonate abortive complexes. This kinetic behaviour is confirmed by the differential inhibition induced by several alternate products on the pyruvate-lactate dehydrogenase-NADH and ketomalonate-lactate dehydrogenase-NADH systems.     

A large-scale inventory of liana diversity in tropical forests of South Eastern Ghats,India

Among the plant life-forms, lianas, the wood climbers still remain less studied than trees. The forests of Eastern Ghats of India are also relatively under studied compared with the Western Ghats biodiversity hotspot. We conducted a large-scale, landscape-level investigation of liana diversity in six hill complexes of the South Eastern Ghats, which covers 4297 km². We divided the study area into 6.25 km × 6.25 km grids and within each grid a 0.5 ha (5 m × 1000 m) transect was established and all lianas ≥1.5 cm diameter at breast height (dbh) were inventoried in 110 transects totalling a 55-ha area. Liana diversity totalled 143 species in 83 genera and 37 families in the 55 ha sampled. Of these 20 species (28.6%) were endemic to peninsular India and 7 (10%) species belonged to the rare and endangered category. Liana species richness ranged from 8–35 species and density 95–544 individuals per transect. A total of 32 033 liana individuals were enumerated in the 55 ha and the mean abundance was 291 individuals per transect. Across sites, liana abundance varied significantly, but not species richness and basal area. Asclepiadaceae (13 species, 9%) and Apocynaceae (11 species, 8%) constituted the most diverse liana families, followed by Papilionaceae, Vitaceae (10 each, 7%), Convolvulaceae, Mimosaceae, Oleaceae (8 each, 6%), Capparaceae, Rhamnaceae (7 each, 5%) and Menispermaceae (5 species, 3%). In liana stem size distribution, the lowest diameter class (1.5–3 cm dbh) accounted for greatest species richness (137 species, 96%), abundance (27 358 individuals, 85%) and basal area (13.5 m², 36%). The stem twiners were the predominant climber type in terms of species richness (61 species, 42.65%), whereas the armed scramblers were abundant due to stem density (21 571 individuals, 67.34%). The dispersal modes of lianas, assessed by fruit types, revealed zoochory as the prevalent mode (85 species, 59%) indicating the faunal dependence of lianas in the Eastern Ghats landscape. Liana diversity of the Eastern Ghats was compared with inventories made across the tropics. With these baseline data generated on lianas, the importance of biodiversity conservation of the already fragmented South Eastern Ghats region is underlined and potential areas of further research on liana ecology are suggested.