Phenotypic pattern-based assay for dynamically monitoring host cellular responses to Salmonella infections

The interaction between mammalian host cells and bacteria is a dynamic process, and the underlying pathologic mechanisms are poorly characterized. Limited information describing the host-bacterial interaction is based mainly on studies using label-based endpoint assays that detect changes in cell behavior at a given time point, yielding incomplete information. In this paper, a novel, label-free, real-time cell-detection system based on electronic impedance sensor technology was adapted to dynamically monitor the entire process of intestinal epithelial cells response to Salmonella infection. Changes in cell morphology and attachment were quantitatively and continuously recorded following infection. The resulting impedance-based time-dependent cell response profiles (TCRPs) were compared to standard assays and showed good correlation and sensitivity. Biochemical assays further suggested that TCRPs were correlated with cytoskeleton-associated morphological dynamics, which can be largely attenuated by inhibitions of actin and microtubule polymerization. Collectively, our data indicate that cell-electrode impedance measurements not only provide a novel, real-time, label-free method for investigating bacterial infection but also help advance our understanding of host responses in a more physiological and continuous manner that is beyond the scope of current endpoint assays.     

Phylogenetic diversity and environment-specific distributions of glycosyl hydrolase family 10 xylanases in geographically distant soils

Background

Xylan is one of the most abundant biopolymers on Earth. Its degradation is mediated primarily by microbial xylanase in nature. To explore the diversity and distribution patterns of xylanase genes in soils, samples of five soil types with different physicochemical characters were analyzed.

Methodology/Principal Findings

Partial xylanase genes of glycoside hydrolase (GH) family 10 were recovered following direct DNA extraction from soil, PCR amplification and cloning. Combined with our previous study, a total of 1084 gene fragments were obtained, representing 366 OTUs. More than half of the OTUs were novel (identities of <65% with known xylanases) and had no close relatives based on phylogenetic analyses. Xylanase genes from all the soil environments were mainly distributed in Bacteroidetes, Proteobacteria, Acidobacteria, Firmicutes, Actinobacteria, Dictyoglomi and some fungi. Although identical sequences were found in several sites, habitat-specific patterns appeared to be important, and geochemical factors such as pH and oxygen content significantly influenced the compositions of xylan-degrading microbial communities.

Conclusion/Significance

These results provide insight into the GH 10 xylanases in various soil environments and reveal that xylan-degrading microbial communities are environment specific with diverse and abundant populations.     

An alkaline-active and alkali-stable pectate lyase from Streptomyces sp.?S27 with potential in textile industry

A pectate lyase gene (pl-str) was cloned from Streptomyces sp. S27 and expressed in Escherichia coli Rosetta. The full-length pl-str consists of 972 bp and encodes for a protein of 323 amino acids without signal peptide that belongs to family PF00544. The recombinant enzyme (r-PL-STR) was purified to electrophoretic homogeneity using Ni2?-NTA chromatography and showed apparent molecular mass of ~35 kDa. The pH optimum of r-PL-STR was found to be 10.0, and it exhibited >70% of the maximal activity at pH 12.0. After incubation at 37°C for 1 h without substrate, the enzyme retained more than 55% activity at pH 7.0-12.0. Compared with the commercial complex enzyme Scourzyme(@)301L from Novozymes, purified r-PL-STR showed similar efficacy in reducing the intrinsic viscosity of polygalacturonic acid (49.0 vs. 49.7%). When combined with cellulase and α-amylase, r-PL-STR had comparable performance in bioscouring of jute fabric (22.39 vs. 22.99%). Thus, r-PL-STR might represent a good candidate for use in alkaline industries such as textile.     

Gene cloning,expression, and biochemical characterization of an alkali-tolerant β-mannanase from <Emphasis Type="Italic">Humicola</Emphasis><Emphasis Type="Italic">insolens</Emphasis> Y1

In this article, we firstly report a highly alkali-tolerant fungal β-mannanase from Humicola insolens Y1. The full-length cDNA of the β-mannanase, designated as man5A, has an open reading frame of 1,233 bp that encodes a 411-amino acid polypeptide (Man5A) with a calculated molecular mass of 42.3 kDa. The deduced sequence of Man5A comprises a putative 20-residue signal peptide and a catalytic domain belonging to glycoside hydrolase family 5, and displays 61–85% identities with hypothetical proteins and 32–39% with experimentally verified fungal β-mannanases. Purified recombinant Man5A produced by Pichia pastoris has a specific activity of 1,122 U mg⁻¹ and exhibits optimal activity at pH 5.5 and 70°C. Distinct from other reported fungal β-mannanases, Man5A is highly alkali tolerant, exhibiting 45 and 36% of the maximal activity at pH 8.0 and 9.0, respectively, and more than 10% activity even at pH 10.0. Moreover, Man5A has excellent pH stability at pH 5.0–12.0 and is highly thermostable at 50°C. The higher frequency of alkaline amino acids (Arg and Lys), greater pKa values of the catalytic residues, and more positively charged residues on the surface of Man5A might be the causes. Man5A has strong resistance to various neutral and alkaline proteases, retaining more than 97% of the activity after proteolytic treatment for 1 h. The superior characteristics of Man5A make it more advantageous for the application in the kraft pulp industry.     

Effects of individually silenced N-glycosylation sites and non-synonymous single-nucleotide polymorphisms on the fusogenic function of human syncytin-2

ABSTRACT

The placental syncytiotrophoblast, which is formed by the fusion of cytotrophoblast cells, is indispensable for the establishment and maintenance of normal pregnancy. The human endogenous retrovirus envelope glycoprotein syncytin-2 is the most important player in mediating trophoblast cell-cell fusion as a fusogen. We constructed expression plasmids of wild-type and 21 single-amino-acid substitution mutants of syncytin-2, including 10 N-glycosylation sites individually silenced by mutagenizing N to Q, 1 naturally occurring single-nucleotide polymorphism (SNP) N118S that introduced an N-glycosylation site, and another 10 non-synonymous SNPs located within important functional domains. We observed that syncytin-2 was highly fusogenic and that the mutants had different capacities in merging 293T cells. Of the 21 mutants, N133Q, N312Q, N443Q, C46R (in the CXXC motif) and R417H (in the heptad repeat region and immunosuppressive domain) lost their fusogenicity, whereas N332Q, N118S, T367M (in the fusion peptide), V483I (in the transmembrane domain) and T522M (in the cytoplasmic domain) enhanced the fusogenic activity. We also proved that N133, N146, N177, N220, N241, N247, N312, N332 and N443 were all glycosylated in 293T cells. A co-immunoprecipitation assay showed compromised interaction between mutants N443Q, C46R, T367M, R417H and the receptor MFSD2A, whereas N118S was associated with more receptors. We also sequenced the coding sequence of syncytin-2 in 125 severe pre-eclamptic patients and 272 normal pregnant Chinese women. Surprisingly, only 1 non-synonymous SNP T522M was found and the frequencies of heterozygous carriers were not significantly different. Taken together, our results suggest that N-glycans at residues 133, 312, 332 and 443 of syncytin-2 are required for optimal fusion induction, and that SNPs C46R, N118S, T367M, R417H, V483I and T522M can alter the fusogenic function of syncytin-2.     

组学技术在核盘菌研究中的应用

核盘菌Sclerotinia sclerotiorum是一种典型的死体营养型植物病原真菌,全球分布且寄主范围广泛,严重危害多种植物,对农业生产造成严重损失。核盘菌研究主要集中在真菌生物学及病理学等方面。近年来,随着高通量分析技术的不断改进,多种组学技术为系统生物学研究提供了平台。文中主要综述利用多种组学研究方法在植物病原真菌核盘菌研究中的应用及研究进展,探讨开展植物病原物及病害发展的系统性研究思路,以期为核盘菌的分子生物学及致病机理等研究提供参考,同时也为其他植物病原物及病害系统研究提供理论依据。     

健胃益气汤对大鼠胃粘膜急性损伤的细胞保护作用

目的建立无水乙醇致大鼠胃粘膜损伤试验模型,研究预先给予健胃益气汤(GWYQT)对急性胃粘膜损伤的细胞保护作用。为临床推广应用该方治疗胃粘膜损伤提供科学理论和实验依据。方法①动物分组、建立动物模型。②取大鼠胃腺区组织制作切片并作HE及PAS染色,光学显微镜观察胃粘膜组织的病理变化。③用免疫组织化学ABC法对大鼠胃粘膜组织细胞凋亡相关蛋白Bcl-2、Bax等进行检测并通过图像分析对以上结果做定性、定位、定量分析及统计学处理。结果健胃益气汤预防用药能维护胃粘膜粘液含量及厚度,降低胃粘膜组织细胞Bax蛋白表达,增加Bcl-2蛋白表达,实验对照组与中药组比较,有显著性差异(P<0.01)。结论给予中药健胃益气汤可有效保护胃粘膜,减轻胃粘膜细胞损伤,抑制细胞凋亡。     

Evaluation of Cu in hepatocellular carcinoma by particle induced X-ray emission

copper, zinc, iron, and other nine trace elements (TEs) in 30 patients with hepatocellular carcinoma (HCC) were determined from the HCC itself and the surrounding liver parenchyma (SLP) using particle induced X-ray emission (PIXE). The result showed that the level of Zn, Fe, Co, Ca, Mn, Rb, and Cl in HCC significantly differed from that in the SLP (P<0.01), while no notable change has been observed in content of Cu (P=0.9). However, in relation to tumor size, an imbalance Cu distribution was observed. The content of Cu present in small HCC (<35 mm in average diameter) was greater than that in SLP (P<0.4), and when HCC progressed to large one (>35 mm in average diameter), hepatic Cu was no longer accumulated. Other elements such as Zn and Fe, showed no change in concentration relative to tumor size. The significance of the critical HCC size where a change from accumulation to loss in Cu contents is seen is also discussed.     

Phospholipase Dα1 and Phosphatidic Acid Regulate NADPH Oxidase Activity and Production of Reactive Oxygen Species in ABA-Mediated Stomatal Closure in Arabidopsis

We determined the role of Phospholipase Dα1 (PLDα1) and its lipid product phosphatidic acid (PA) in abscisic acid (ABA)-induced production of reactive oxygen species (ROS) in Arabidopsis thaliana guard cells. The pldα1 mutant failed to produce ROS in guard cells in response to ABA. ABA stimulated NADPH oxidase activity in wild-type guard cells but not in pldα1 cells, whereas PA stimulated NADPH oxidase activity in both genotypes. PA bound to recombinant Arabidopsis NADPH oxidase RbohD (respiratory burst oxidase homolog D) and RbohF. The PA binding motifs were identified, and mutation of the Arg residues 149, 150, 156, and 157 in RbohD resulted in the loss of PA binding and the loss of PA activation of RbohD. The rbohD mutant expressing non-PA-binding RbohD was compromised in ABA-mediated ROS production and stomatal closure. Furthermore, ABA-induced production of nitric oxide (NO) was impaired in pldα1 guard cells. Disruption of PA binding to ABI1 protein phosphatase 2C did not affect ABA-induced production of ROS or NO, but the PA–ABI1 interaction was required for stomatal closure induced by ABA, H₂O₂, or NO. Thus, PA is as a central lipid signaling molecule that links different components in the ABA signaling network in guard cells.     

不产氧光合细菌色素蛋白复合体研究进展

摘要: 色素蛋白复合体是光合生物进行光合作用维持生命活动最重要结构基础。目前不产氧光合细菌色素蛋白复合体仍是最具前沿研究领域。本文概述了不产氧光合细菌各种属色素蛋白复合体研究现状,着重对光反应中心色素蛋白复合体（reaction center,RC）和捕光色素蛋白复合体（light-harvesting complex,LH）,尤其是新型捕光色素蛋白复合体LH3和LH4的组成、精细结构、蛋白同源性和功能进行了述评,并就研究中存在的问题和发展趋势进行了讨论。