Identification of pathogens in culture-negative infective endocarditis cases by metagenomic analysis

Background

Pathogens identification is critical for the proper diagnosis and precise treatment of infective endocarditis (IE). Although blood and valve cultures are the gold standard for IE pathogens detection, many cases are culture-negative, especially in patients who had received long-term antibiotic treatment, and precise diagnosis has therefore become a major challenge in the clinic. Metagenomic sequencing can provide both information on the pathogenic strain and the antibiotic susceptibility profile of patient samples without culturing, offering a powerful method to deal with culture-negative cases.

Methods

To assess the feasibility of a metagenomic approach to detect the causative pathogens in resected valves from IE patients, we employed both next-generation sequencing and Oxford Nanopore Technologies MinION nanopore sequencing for pathogens and antimicrobial resistance detection in seven culture-negative IE patients. Using our in-house developed bioinformatics pipeline, we analyzed the sequencing results generated from both platforms for the direct identification of pathogens from the resected valves of seven clinically culture-negative IE patients according to the modified Duke criteria.

Results

Our results showed both metagenomics methods can be applied for the causative pathogen detection in all IE samples. Moreover, we were able to simultaneously characterize respective antimicrobial resistance features.

Conclusion

Metagenomic methods for IE detection can provide clinicians with valuable information to diagnose and treat IE patients after valve replacement surgery. However, more efforts should be made to optimize protocols for sample processing, sequencing and bioinformatics analysis.

     

低能离子束介导水稻遗传转化的研究进展

介绍了低能离子束介导遗传转化的原理,比较了离子束介导法与其他遗传转化方法的优缺点,重点对离子束介导水稻遗传转化的最新研究进展进行了评述,同时提出了问题和展望.     

杉楠混交与人工杉木林自养机制的恢复

自养机制的形成是人工林可持续经营的目标之一。本研究通过混交模拟杉木人工林不同恢复阶段林分,观察比较发现从退化的杉木林阶段到地带性树种比例较低的混交林、地带性树种比例较高的混交林和地带性树种纯林阶段凋落量、Ｎ、Ｐ、Ｋ、Ｃａ和Ｍｇ５种元素的归还量逐渐增加,特别是５种养分元素的循环速率也不断增大,其中Ｎ、Ｍｇ的循环速率由杉木纯林的０．１左右增大到火力楠纯林的０．５以上,与此同时林分土壤有机质含量和养分含     

Retrolinkin cooperates with endophilin A1 to mediate BDNF-TrkB early endocytic trafficking and signaling from early endosomes

Brain-derived neurotrophic factor (BDNF) binds to its cell surface receptor TrkB to regulate differentiation, development, synaptic plasticity, and functional maintenance of neuronal cells. Binding of BDNF triggers TrkB dimerization and autophosphorylation, which provides docking sites for adaptor proteins to recruit and activate downstream signaling molecules. The molecular mechanisms underlying BDNF-TrkB endocytic trafficking crucial for spatiotemporal control of signaling pathways remain to be elucidated. Here we show that retrolinkin, a transmembrane protein, interacts with endophilin A1 and mediates BDNF-activated TrkB (pTrk) trafficking and signaling in CNS neurons. We find that activated TrkB colocalizes and interacts with the early endosome marker APPL1. Both retrolinkin and endophilin A1 are required for BDNF-induced dendrite development and acute extracellular signal-regulated kinase activation from early endosomes. Suppression of retrolinkin expression not only blocks BDNF-triggered TrkB internalization, but also prevents recruitment of endophilin A1 to pTrk vesicles trafficking through APPL1-positive endosomes. These findings reveal a novel mechanism for BDNF-TrkB to regulate signaling both in time and space through a specific membrane trafficking pathway.     

湖南省双季稻生产系统碳效率

提高农作物生产系统的碳效率是实现低碳农业的重要途径之一.本文采用2004—2012年农作物产量、农田作物生产系统农资投入等统计数据,利用生命周期法和投入产出法,对湖南省双季稻生产系统碳排放、碳吸收和碳效率特征及其动态进行估算.结果表明:湖南省2004—2012年双季稻生产系统年均碳排放总量为656.4×107kg CE,其中化肥和农药生产运输碳排放占农资投入碳排放总量的大部分,分别约占70.0%和15.9%,碳排放总量年际间持续降低,年均降低率为2.4%,碳排放强度则表现为增长趋势;湖南双季稻生产系统2004—2012年年均碳吸收总量为1547.0×107kg C,也呈现逐年降低的趋势,年降低率为1.2%,单位面积稻田碳吸收强度则表现为增长趋势;碳生产效率呈现缓慢增加的趋势,碳经济效率随着年份递进增加幅度较大,年均增长率为9.9%,碳生态效率则表现为稳定且较低,保持在2.4kg C·kg-1CE左右.表明湖南近几年双季稻生产系统碳综合效率提高缓慢,降低肥料和农药的投入量,提高利用效率是提高双季稻生产系统碳效率的关键.     

斑马鱼中囊胚过渡调控机制

斑马鱼中囊胚过渡(MBT)始于受精卵的第10次卵裂,此时亦伴有细胞周期延长,分裂同步性丧失,合子型基因开始转录活化,胚胎细胞开始具备运动迁移能力等现象。斑马鱼MBT。的发生依赖于胚胎细胞的核质比,胚胎细胞周期中的G1时相则只有在合子型基因组开始被转录活化后才能出现。细胞周期检验点的激活可能也是受转录调控的,但中期检验点对DNA复制抑制状态的响应不仅在MBT前后、甚至在MBT前的不同阶段也可能有具体作用途径的差异。活化的P38蛋白在胚胎中的不对称分布是维持卵裂阶段细胞分裂同步性的关键因素。尽管大规模的合子型基因的表达发生在MBT开始后,也有少数与胚层分化有关的合子型基因是在MBT。前表达的,还有一些既有母型表达也有合子型表达的基因在MBT前后分别参与不同的信号途径来调控胚胎的发育与分化。     

Response of rice (Oryza sativa) with root surface iron plaque under aluminium stress

BACKGROUND AND AIMS: Rice (Oryza sativa) is an aquatic plant with a characteristic of forming iron plaque on its root surfaces. It is considered to be the most Al-tolerant species among the cereal crops. The objective of this study was to determine the effects of root surface iron plaque on Al translocation, accumulation and the change of physiological responses under Al stress in rice in the presence of iron plaque. METHODS: The japonica variety rice, Koshihikari, was used in this study and was grown hydroponically in a growth chamber. Iron plaque was induced by exposing the rice roots to 30 mg L(-1) ferrous iron either as Fe(II)-EDTA in nutrient solution (6 d, Method I) or as FeSO(4) in water solution (12 h, Method II). Organic acid in root exudates was retained in the anion-exchange resin and eluted with 2 m HCl, then analysed by high-performance liquid chromatography (HPLC) after proper pre-treatment. Fe and Al in iron plaque were extracted with DCB (dithionite-citrate-bicarbonate) solution. KEY RESULTS AND CONCLUSIONS: Both methods (I and II) could induce the formation of iron plaque on rice root surfaces. The amounts of DCB-extractable Fe and Al on root surfaces were much higher in the presence of iron plaque than in the absence of iron plaque. Al contents in root tips were significantly decreased with iron plaque; translocation of Al from roots to shoots was significantly reduced with iron plaque. Al-induced secretion of citrate was observed and iron plaque could greatly depress this citrate secretion. These results suggested that iron plaque on rice root surfaces can be a sink to sequester Al onto the root surfaces and Fe ions can pre-saturate Al-binding sites in root tips, which protects the rice root tips from suffering Al stress to a certain extent.     

Oligomeric Aβ-Induced Microglial Activation is Possibly Mediated by NADPH Oxidase

Recent studies have shown that oligomeric amyloid-β (oAβ) peptide can potentially activate microglia in addition to inducing more potent neurotoxicity compared with fibrillar Aβ (fAβ); however, its mechanisms of action remain unclear. This study was designed to investigate the possible mechanisms involved in the microglial activation induced by oAβ in BV-2 microglial cells. The results showed that oAβ induced activated properties of microglia, including higher proliferative capacity as well as increased production of reactive oxygen species, nitric oxide (NO), tumor necrosis factor-α (TNF-α), and interleukin-1β (IL-1β). NADPH oxidase inhibitors [diphenylene iodonium (DPI) and apocynin (4-hydroxy-3-methoxy-acetophenone)] prevented the microglial activation induced by oAβ, suggesting that NADPH oxidase activation was involved in microglial activation. In addition, TNF-α and IL-1β, which are massively released by activated microglia, significantly induced the activation of microglia, thereby resulting in the production of NO and proliferation of microglia, respectively. These effects could be inhibited by diphenylene iodonium and apocynin, indicating a self-cycle regulated by NADPH oxidase in microglial activation in response to oAβ. In conclusion, microglial activation induced by oAβ is possibly mediated by NADPH oxidase, suggesting that oAβ, which is normally considered a neurotoxin, may also lead to indirect neuronal damage through the pro-inflammation activation of microglia in Alzheimer’s disease and that NADPH oxidase could be a potential target to prevent oAβ-induced inflammatory neurodegeneration.     

Chaperone-Like Activity of <Emphasis Type="Italic">Mycobacterium tuberculosis</Emphasis> Hsp16.3 Does Not Require Its Intact (Native) Structures

Small heat shock proteins (sHsps) were found to exhibit efficient chaperone-like activities under stress conditions although their native structures are severely disturbed. Here, using an alternative approach (site-directed mutagenesis), we obtained two structurally and functionally distinct Mycobacterium tuberculosis Hsp16.3 single-site mutant proteins. The G59W mutant protein (with Gly59 substituted by Trp) is capable of exhibiting efficient chaperone-like activity even under non-stress conditions although its secondary, tertiary, and quaternary structures are very different from that of the wild type protein. By contrast, the G59A mutant protein (with Gly59 substituted by Ala) resembles with the wild type protein in structure and function. These observations suggest that the Gly59 of the Hsp16.3 protein is critical for its folding and assembly. In particular, we propose that the exhibition of chaperone-like activity for Hsp16.3 does not require its intact (native) structures but requires the disturbance of its native structures (i.e., the native structure-disturbed Hsp16.3 retains its chaperone-like activity or even becomes more active). In addition, the behavior of such an active mutant protein (G59W) also strongly supports our previous suggestion that Hsp16.3 exhibits chaperone-like activity via oligomeric dissociation.