人为调节荔枝果皮有机自由基及其与果皮变褐的可能关系

荔枝果实以10ppm的6-BA、NAA、GA_3 NAA或PVP(1%) NAA处理2min,1℃贮藏8天后再于室温放2天。EPR分析表明果皮的有机自由基(g因子2.0030)比对照低9%—22%,花色素苷含量高5%—46%。离体果皮小圆片经同法浸泡1h或16h,有机自由基反而比对照高。O_2~-的捕获剂Tiron和抗氧化剂PG CA处理果皮小圆片1h,有机自由基降低8%—11%,处理16h则自由基高于对照。邻苯二酚(pH 8.4)和H_2O_2加速果色变褐,有机自由基增高10%—370%。果皮离体后自由基的EPR波谱特征也发生变化,除了一个g因子2.0026—2.0027的主峰外,尚出现另一个小峰。结果表明荔枝果皮褐变的部分原因是有机自由基增高之故。     

心肌缺氧对大鼠心肌细胞内游离钙浓度的作用

本实验用ｆｕｒａ－２ 荧光技术研究离体鼠心缺氧期间心肌细胞内游离钙浓度（Ｃａ＾２＋）增加的机制。实验结果为：（１）Ｋｒｅｂｓ－Ｈｅｎｓｅｌｅｉｔ（Ｋ－Ｈ）液缺氧灌流离体鼠心脏引起（Ｃａ＾２＋）先慢后快地增国（２）无钙液氧灌流,仍能引起（Ｃａ蓿玻黾印＃ǎ常┖ǎǎ保薄粒保埃蓿担恚铮欤蹋┑模耍纫喝毖豕嗔鳎ǎ茫幔蓿玻┑谋浠嗨莆薷埔喝毖豕嗔鳎伊秸咭鸬模ǎ茫幔蓿玻┰黾樱飨缘陀?     

水分胁迫对棉花叶片中IAA从含量、IAA氧化酶和过氧化物酶活性的影响

整株干旱降低盐棉46号叶片中的IAA总量,叶龄愈小下降愈多。幼叶中IAA总量的下降主要是结合态IAA减少的结果。气干和-1.7MPa PEG溶液渗透胁迫处理也降低离体成熟叶片的IAA总量,其变化与叶片含水量呈直线相关(r=0.905)。整株干旱处理提高各叶片的过氧化物酶活性,叶龄愈小提高愈多,但IAA氧化酶活性无显著变化。离体和整株干旱时IAA总量的下降,可能是过氧化物酶活性增加所致。     

Impact of plant density and microbial composition on water quality from a free water surface constructed wetland

AIMS: To correlate microbial community composition and water quality changes within wetland cells containing varying plant densities and composition in a free water surface (FWS) constructed wetland. METHODS AND RESULTS: Water chemistry was monitored weekly for nitrate, orthophosphate, and suspended solids, at various sites throughout the wetland for 6 months. Treatment ponds with 50% plant cover had about a 96.3% nitrate removal. The average change between the influent and effluent was 50-60% nitrate removal and 40-50% orthophosphate removal. Community profile of total DNA, generated by using denaturing gradient gel electrophoresis (DGGE), was used to determine the major microbial composition associated with the wetland sediment, rhizosphere, and surface water. Bacterial cloned libraries were constructed, and 300 clones were analysed by amplified ribosomal DNA restriction analysis (ARDRA) and grouped into operational taxonomic units (OTUs). A total of 35, 31, and 36 different OTU were obtained from sediment, rhizosphere, and surface water, respectively. The bacterial members within the dominant group of our clone library belonged to unclassified taxa, while the second predominant group consisted of members of the phylum Proteobacteria. The dominant organisms within the class were in the gamma, beta, and delta classes. CONCLUSION: Microbial diversity as determined by Shannon-Weaver index (H) was higher in the wetland cells with 50% plant density than the 100%. This was in agreement with the most efficient wetland contaminant removal units. SIGNIFICANCE AND IMPACT OF THE STUDY: This study provides evidence that wetlands with 50% plant cover may promote the growth of diverse microbial communities that facilitate decomposition of chemical pollutants in surface water, and improve water quality.     

Localization of BiP to translating ribosomes increases soluble accumulation of secreted eukaryotic proteins in an Escherichia coli cell-free system

The endoplasmic reticulum (ER) resident Hsp70 chaperone, BiP, docks to the Sec translocon and interacts co-translationally with polypeptides entering the ER to encourage proper folding. In order to recreate this interaction in Escherichia coli cell-free protein synthesis (CFPS) reactions, a fusion protein was formed between the ribosome-binding portion of the E. coli protein trigger factor (TF) and BiP. The biophysical affinity to ribosomes as well as the characteristic Hsp70 ATPase activity were both verified for the fusion protein. When added to E. coli-based CFPS reactions, the TF-BiP fusion chaperone increased soluble yields of several protein fragments that are normally secreted through the ER and have poor solubility in typical CFPS reactions. For comparison, a fusion between TF and the native E. coli Hsp70, DnaK, was also constructed. This fusion was also biologically active and increased soluble yields of certain protein targets in CFPS. The TF-BiP fusion described in this study can be seen as a first step in reconstituting and better understanding ER folding pathways in the prokaryotic environment of E. coli CFPS.     

Intake of stigmasterol and β-sitosterol alters lipid metabolism and alleviates NAFLD in mice fed a high-fat western-style diet

Objective

To investigate and compare the effects of two common dietary phytosterols, stigmasterol and β-sitosterol, in altering lipid metabolism and attenuating nonalcoholic fatty liver disease (NAFLD).

Lipid droplet proteins and metabolic diseases

Lipid droplets (LDs) are ubiquitous cellular organelles for lipid storage which are composed of a neutral lipid core bounded by a protein decorated phospholipid monolayer. Although lipid storage is their most obvious function, LDs are far from inert as they participate in maintaining lipid homeostasis through lipid synthesis, metabolism, and transportation. Furthermore, they are involved in cell signaling and other molecular events closely associated with human disease such as dyslipidemia, obesity, lipodystrophy, diabetes, fatty liver, atherosclerosis, and others. The last decade has seen a great increase in the attention paid to LD biology. Regardless, many fundamental features of LD biology remain obscure. In this review, we will discuss key aspects of LD biology including their biogenesis, growth and regression. We will also summarize the current knowledge about the role LDs play in human disease, especially from the perspective of the dynamics of the associated proteins. This article is part of a Special issue entitled Cardiac adaptations to obesity, diabetes and insulin resistance, edited by Professors Jan F.C. Glatz, Jason R.B. Dyck and Christine Des Rosiers.     

红松越冬针叶的电子自旋共振（ESR）波谱

用ESR波谱仪在越冬红松针叶及叶绿体冻干粉中检出了g值分别为2.0044和2.0037的明确的单峰信号。针叶伤害愈重,信号愈强。此信号可被Vc或富含SOD等多种自由基清除剂的沙棘果汁所抑制。针叶受害愈重,沙棘果汁对信号的抑制作用愈强,Vc的抑制作用愈弱。据此认为红松苗越冬伤害和有机自由基的形成有关。在伤害发展的不同阶段,有机自由基的种类组成也不同。     

花粉管钙信号特性及其调控研究进展

花粉管在花柱中生长受多个信号分子的协同调控,钙离子在其中发挥着重要作用.钙是一种重要的第二信使,它将外界的多种生物或非生物信息转化为对细胞内基因表达以及细胞生理反应的调控.钙信号表达方式是胞内自由钙浓度的特异性变化.该文对国内外近年来有关花粉管生长中钙信号特性及其调控的研究进展,如花粉管尖端自由钙离子浓度梯度与胞内钙振荡、花粉管质膜钙转运体的鉴定及其调控特性、花粉管钙信号与微丝和ROP蛋白的关系以及花粉管钙信号与植物自交不亲和性反应的关系等进行综述,为深入开展相关研究提供参考.     

Role of receptor-attached phosphates in binding of visual and non-visual arrestins to G protein-coupled receptors

Arrestins are a small family of proteins that regulate G protein-coupled receptors (GPCRs). Arrestins specifically bind to phosphorylated active receptors, terminating G protein coupling, targeting receptors to endocytic vesicles, and initiating G protein-independent signaling. The interaction of rhodopsin-attached phosphates with Lys-14 and Lys-15 in β-strand I was shown to disrupt the interaction of α-helix I, β-strand I, and the C-tail of visual arrestin-1, facilitating its transition into an active receptor-binding state. Here we tested the role of conserved lysines in homologous positions of non-visual arrestins by generating K2A mutants in which both lysines were replaced with alanines. K2A mutations in arrestin-1, -2, and -3 significantly reduced their binding to active phosphorhodopsin in vitro. The interaction of arrestins with several GPCRs in intact cells was monitored by a bioluminescence resonance energy transfer (BRET)-based assay. BRET data confirmed the role of Lys-14 and Lys-15 in arrestin-1 binding to non-cognate receptors. However, this was not the case for non-visual arrestins in which the K2A mutations had little effect on net BRET(max) values for the M2 muscarinic acetylcholine (M2R), β(2)-adrenergic (β(2)AR), or D2 dopamine receptors. Moreover, a phosphorylation-deficient mutant of M2R interacted with wild type non-visual arrestins normally, whereas phosphorylation-deficient β(2)AR mutants bound arrestins at 20-50% of the level of wild type β(2)AR. Thus, the contribution of receptor-attached phosphates to arrestin binding varies depending on the receptor-arrestin pair. Although arrestin-1 always depends on receptor phosphorylation, its role in the recruitment of arrestin-2 and -3 is much greater in the case of β(2)AR than M2R and D2 dopamine receptor.