Description and genome analysis of Microvirga antarctica sp. nov., a novel pink-pigmented psychrotolerant bacterium isolated from Antarctic soil

Antonie van Leeuwenhoek - A novel pink-pigmented bacterium, designated strain 3D7T, was isolated during an investigation of potential psychrotolerant species from Antarctic soil. Cells of the...     

高血压的分类、症状及并发症与公众认知

高血压(hypertension,high blood pressure)是动脉血压持续偏高的慢性疾病,是人类社会最为常见的慢性医学问题.80％以上的高血压患者了解他们自身的血压状况,其中70％以上的患者服用治疗高血压药物.然而,这些认识到自身高血压状况的人中,只有48％的患者的高血压得到了充分的控制.本文系统地阐述了高血压的类型、诊断标准及治疗或控制策略,以期提高公众对高血压的认知,有利于患者对高血压的控制和管理.     

过表达SmERF1提高了丹参耐盐性

ERF(ethylene-responsive factor)蛋白是植物中一大类转录因子家族,在植物的生长发育及逆境胁迫中发挥着重要作用.为研究丹参中新的转录因子SmERF1的功能,本研究对其编码序列、表达模式进行分析,并在丹参中进行过表达,检测过表达后转基因植株耐盐性、次生代谢物和激素的变化.研究结果表明,SmERF1含有一个AP2结构域,是典型的ERF转录因子.SmERF1受到MeJA和酵母诱导子(YE)的诱导表达.在盐胁迫下,过表达SmERF1的丹参株系中脯氨酸含量、SOD和POD活性较野生型丹参植株高,MDA含量降低,说明转基因株系的抗盐特性增强.而且过表达SmERF1的丹参株系中ABA含量升高,GA含量降低;过表达SmERF1对丹参酮、丹酚酸等代谢物的合成调控效果不强.综合以上结果,表明SmERF1可能通过调节ABA的合成,提高了丹参耐盐性.     

Long noncoding RNA AANCR modulates innate antiviral responses by blocking miR-210-dependent MITA downregulation in teleost fish,Miichthys miiuy

Viral infection induces the initiation of antiviral effectors and cytokines which are critical mediators of innate antiviral responses.The critical molecular determinants are responsible for triggering an appropriate immune response. Long noncoding RNAs(lncRNAs) have emerged as new gene modulators involved in various biological processes, while how lncRNAs operate in lower vertebrates are still unknown. Here, we discover a long noncoding RNA, termed antiviral-associated long noncoding RNA(AANCR), as a novel regulator for innate antiviral responses in teleost fish. The results indicate that fish MITA plays an essential role in host antiviral responses and inhibition of Siniperca chuatsi rhabdovirus(SCRV) production. miR-210 reduces MITA expression and suppress MITA-mediated antiviral responses, which may help viruses evade host antiviral responses. Further,AANCR functions as a competing endogenous RNA(ceRNA) for miR-210 to control protein abundance of MITA, thereby inhibiting SCRV replication and promoting antiviral responses. Our data not only shed new light on understanding the function role of lncRNA in biological processes in teleost fish, but confirmed the hypothesis that ceRNA networks exist widely in vertebrates.     

Drought stress and plant ecotype drive microbiome recruitment in switchgrass rhizosheath

The rhizosheath, a layer of soil grains that adheres firmly to roots, is beneficial for plant growth and adaptation to drought environments. Switchgrass is a perennial C4 grass which can form contact rhizosheath under drought conditions. In this study, we characterized the microbiomes of four different rhizocompartments of two switchgrass ecotypes (Alamo and Kanlow) grown under drought or well-watered conditions via 16S ribosomal RNA amplicon sequencing. These four rhizocompartments, the bulk soil, rhizosheath soil, rhizoplane, and root endosphere, harbored both distinct and overlapping microbial communities. The root compartments (rhizoplane and root endosphere) displayed low-complexity communities dominated by Proteobacteria and Firmicutes. Compared to bulk soil, Cyanobacteria and Bacteroidetes were selectively enriched, while Proteobacteria and Firmicutes were selectively depleted, in rhizosheath soil. Taxa from Proteobacteria or Firmicutes were specifically selected in Alamo or Kanlow rhizosheath soil. Following drought stress, Citrobacter and Acinetobacter were further enriched in rhizosheath soil, suggesting that rhizosheath microbiome assembly is driven by drought stress. Additionally, the ecotype-specific recruitment of rhizosheath microbiome reveals their differences in drought stress responses. Collectively, these results shed light on rhizosheath microbiome recruitment in switchgrass and lay the foundation for the improvement of drought tolerance in switchgrass by regulating the rhizosheath microbiome.     

Three‐dimensional reconstruction and comparison of vacuolar membranes in response to viral infection

The vacuole is a unique plant organelle that plays an important role in maintaining cellular homeostasis under various environmental stress conditions. However, the effects of biotic stress on vacuole structure has not been examined using three‐dimensional (3D) visualization. Here, we performed 3D electron tomography to compare the ultrastructural changes in the vacuole during infection with different viruses. The 3D models revealed that vacuoles are remodeled in cells infected with cucumber mosaic virus (CMV) or tobacco necrosis virus A Chinese isolate (TNV‐A^C), resulting in the formation of spherules at the periphery of the vacuole. These spherules contain neck‐like channels that connect their interior with the cytosol. Confocal microscopy of CMV replication proteins 1a and 2a and TNV‐A^C auxiliary replication protein p23 showed that all of these proteins localize to the tonoplast. Electron microscopy revealed that the expression of these replication proteins alone is sufficient to induce spherule formation on the tonoplast, suggesting that these proteins play prominent roles in inducing vacuolar membrane remodeling. This is the first report of the 3D structures of viral replication factories built on the tonoplasts. These findings contribute to our understanding of vacuole biogenesis under normal conditions and during assembly of plant (+) RNA virus replication complexes.     

牦牛miR-383的靶基因预测及生物信息学分析

MicroRNAs (miRNAs)是一类非编码的小分子单链RNA,通过与靶基因的mRNA结合,抑制mRNA的翻译,参与多种生物学过程.本实验室前期通过高通量测序发现90日龄牦牛胚胎的背最长肌中miR-383的表达量显著高于成年牦牛.为探究miR-383在牦牛骨骼肌发育中的分子功能和机制,本研究对miR-383的靶基因进行预测,并进行生物信息学分析.通过TargetScan、miRDB和miRanda 3个软件预测了miR-383的靶基因,然后合并miRTarbase数据库中已被证实的靶基因作为基因集,分别用DAVID和KOBAS3.0在线软件对基因集进行功能注释(GO分析)和Pathway信号通路富集分析.结果 表明,牦牛miR-383序列在各物种间高度保守,靶基因功能富集于CD8阳性T细胞增殖的调控、核糖核蛋白复合物定位和负调控T细胞分化等生物学过程.信号通路分析发现靶基因的信号通路显著富集于PI3K-Ak、AMPK、FoxO和Focal adhesion等与肌肉发育相关的信号通路中.该研究结果将为miR-383功能及调控机制的深入研究提供参考依据,也为解析牦牛肌肉发育的分子机制提供新的研究方向.     

Secondary Structural Transformation of Bovine Lactoferricin Affects Its Antibacterial Activity

Probiotics and Antimicrobial Proteins - Lactoferricin (Lfcin) is a potent antibacterial peptide derived from lactoferrin by pepsin hydrolysis. It was hypothesized that structural transformation of...     

Analysis of the impact of ancient city walls on urban landscape patterns by remote sensing

As the most important construction features of ancient Chinese cities, the city walls nowadays have lost their function of enemy defense and turned to affect the urban structure and development. To clarify the impact of ancient city walls on modern urban development, this work was conducted to measure the differences of landscape types and levels between the inner and outer walls of three typical ancient Chinese cities with the help of geoinformatics materials and landscape ecology indices. The results of this research proved that city walls have great impact on landscape pattern. Specifically, the aggregation, fragmentation, diversity and evenness of landscape were strongly affected by well-preserved ancient city walls. By sorting out and consulting historical documents and China's “City Walls Protection Regulations”, we also found that city walls help the old city to retain its original style and design characteristics. The findings of this quantitative-analysis-based historical study can provide a theoretical basis for the protection of historical heritage and landscape design.