Correction to: Involvement of P2Y12 receptor of stellate ganglion in diabetic cardiovascular autonomic neuropathy

Purinergic Signalling - Due to the authors’ carelessness, we mistakenly used similar images between the Fig. 6b on the expression of IL-1β protein (upper) and Fig. 7c on the expression...     

模式动物果蝇的基因调控前沿技术

转基因调控技术在生命医学研究中扮演了重要的角色,是探究个体发育和致病机制的必备工具。常用的转基因调控技术包括基因突变、基因干扰和基因转录激活等。果蝇由于具有基因的保守性、遗传工具的多样性以及不受伦理限制等优势,成为生命科学研究中经典模式动物之一,并由此开发出了多种时间和组织特异性的基因调控工具。本文主要介绍了目前在果蝇中常用的基因调控技术,包括CRISPR/Cas9介导的基因突变系统、基于miRNA的新一代转基因干扰系统以及基于CRISPR/dCas9的转录激活(flySAM)系统,希望通过对这几种系统设计原理、操作过程、相关的技术工具及相关资源品系的介绍,提升人们对这些前沿的果蝇遗传学基因表达调控技术及构建的相关果蝇资源品系重要性认识,进而推动生命医学研究发展。     

广东省鸟类新记录及其与自然和社会经济因素的关联性

物种多样性的保护必须以充分了解地区物种资源的分布状况为前提。科研监测是传统而有效的数据获取手段, 但研究地点大多集中在自然保护区。公众观鸟记录活动扩大了物种数据收集的时空范围, 是科研监测的有益补充, 但观鸟活动开展的范围和强度受经济水平的影响明显, 呈现空间上的不均匀性。为明确自然保护地分布格局和地区经济水平对鸟类物种多样性记录的影响, 本研究以广东省为例, 对比了公众观鸟和科研监测所记录的鸟类物种分布地区差异。结果表明: 从2016年至2020年, 公众观鸟为广东省贡献了17种鸟类新分布记录和10种再确认记录, 但有100种历史科研监测记录的鸟类种类未记录到。线性回归分析结果显示: 广东各市地区生产总值(GDP)对于公众观鸟记录的鸟类物种丰富度具有最高的解释率(校正R² = 0.582), 而保护地面积则是科研监测记录的鸟类物种丰富度的主要解释因子。对于市级总体鸟类物种丰富度, GDP的解释率为保护地面积的4.2倍。研究结果反映了经济发展对公众观鸟活动的有力支撑, 促进了广东鸟类新记录的发现, 但也显示广东省目前的物种多样性地区分布信息存在一定偏差。建议根据各市经济发展水平和自然环境差异, 制定相应的物种多样性监测与保护措施, 并结合科研与公众力量各自的优势, 加强对物种多样性被低估地区的本底资源调查与监测。     

Prevalence,complete genome,and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral-killing sponge,Terpios hoshinota

Terpios hoshinota is an aggressive, space-competing sponge that kills various stony corals. Outbreaks of this species have led to intense damage to coral reefs in many locations. Here, the first large-scale 16S rRNA gene survey across three oceans revealed that bacteria related to the taxa Prochloron, Endozoicomonas, SAR116, Ruegeria, and unclassified Proteobacteria were prevalent in T. hoshinota. A Prochloron-related bacterium was the most dominant and prevalent cyanobacterium in T. hoshinota. The complete genome of this uncultivated cyanobacterium and pigment analysis demonstrated that it has phycobiliproteins and lacks chlorophyll b, which is inconsistent with the definition of Prochloron. Furthermore, the cyanobacterium was phylogenetically distinct from Prochloron, strongly suggesting that it should be a sister taxon to Prochloron. Therefore, we proposed this symbiotic cyanobacterium as a novel species under the new genus Candidatus Paraprochloron terpiosi. Comparative genomic analyses revealed that ‘Paraprochloron’ and Prochloron exhibit distinct genomic features and DNA replication machinery. We also characterized the metabolic potentials of ‘Paraprochloron terpiosi’ in carbon and nitrogen cycling and propose a model for interactions between it and T. hoshinota. This study builds a foundation for the study of the T. hoshinota microbiome and paves the way for better understanding of ecosystems involving this coral-killing sponge.     

A green fluorescent protein-based whole-cell bioreporter for the detection of phenylacetic acid

Phenylacetic acid (PAA) is produced by many bacteria as an antifungal agent and also appears to be an environmentally toxic chemical. The object of this study was to detect PAA using Pseudomonas putida harboring a reporter plasmid that has a PAA-inducible promoter fused to a green fluorescent protein (GFP) gene. Pseudomonas putida KT2440 was used to construct a green fluorescent protein-based reporter fusion using the paaA promoter region to detect the presence of PAA. The reporter strain exhibited a high level of gfp expression in minimal medium containing PAA; however, the level of GFP expression diminished when glucose was added to the medium, whereas other carbon sources, such as succinate and pyruvate, showed no catabolic repression. Interestingly, overexpression of a paaF gene encoding PAACoA ligase minimized catabolic repression. The reporter strain could also successfully detect PAA produced by other PAA-producing bacteria. This GFP-based bioreporter provides a useful tool for detecting bacteria producing PAA.     

Molecular characterization of fprB (ferredoxin-NADP+ reductase) in Pseudomonas putida KT2440

The fpr gene, which encodes a ferredoxin-NADP+ reductase, is known to participate in the reversible redox reactions between NADP+/NADPH and electron carriers, such as ferredoxin or flavodoxin. The role of Fpr and its regulatory protein, FinR, in Pseudomonas putida KT2440 on the oxidative and osmotic stress responses has already been characterized [Lee at al. (2006). Biochem. Biophys. Res. Commun. 339, 1246-1254]. In the genome of P. putida KT2440, another Fpr homolog (FprB) has a 35.3% amino acid identity with Fpr. The fprB gene was cloned and expressed in Escherichia coli. The diaphorase activity assay was conducted using purified FprB to identify the function of FprB. In contrast to the fpr gene, the induction of fprB was not affected by oxidative stress agents, such as paraquat, menadione, H2O2 and t-butyl hydroperoxide. However, a higher level of fprB induction was observed under osmotic stress. Targeted disruption of fprB by homologous recombination resulted in a growth defect under high osmotic conditions. Recovery of oxidatively damaged aconitase activity was faster for the fprB mutant than for the fpr mutant, yet still slower than that for the wild type. Therefore, these data suggest that the catalytic function of FprB may have evolved to augment the function of Fpr in P. putida KT2440.     

Induction of protective immunity in swine by recombinant bamboo mosaic virus expressing foot-and-mouth disease virus epitopes

Background

Plants are increasingly being examined as alternative recombinant protein expression systems. Recombinant protein expression levels in plants from Tobacco mosaic virus (TMV)-based vectors are much higher than those possible from plant promoters. However the common TMV expression vectors are costly, and at times technically challenging, to work with. Therefore it was a goal to develop TMV expression vectors that express high levels of recombinant protein and are easier, more reliable, and more cost-effective to use.

Results

We have constructed a Cauliflower mosaic virus (CaMV) 35S promoter-driven TMV expression vector that can be delivered as a T-DNA to plant cells by Agrobacterium tumefaciens. Co-introduction (by agroinfiltration) of this T-DNA along with a 35S promoter driven gene for the RNA silencing suppressor P19, from Tomato bushy stunt virus (TBSV) resulted in essentially complete infection of the infiltrated plant tissue with the TMV vector by 4 days post infiltration (DPI). The TMV vector produced between 600 and 1200 micrograms of recombinant protein per gram of infiltrated tissue by 6 DPI. Similar levels of recombinant protein were detected in systemically infected plant tissue 10–14 DPI. These expression levels were 10 to 25 times higher than the most efficient 35S promoter driven transient expression systems described to date.

Conclusion

These modifications to the TMV-based expression vector system have made TMV vectors an easier, more reliable and more cost-effective way to produce recombinant proteins in plants. These improvements should facilitate the production of recombinant proteins in plants for both research and product development purposes. The vector should be especially useful in high-throughput experiments.     

Expression of HSV-1 ICP0 antigen peptide in prokaryotic cells and preparation of specific antibody

As an immediate-early protein of herpes simplex virus, infected-cell polypeptide 0 (ICP0) exhibits complicated interactions with host cells, and its regulatory function on gene expression is of great importance. Since the ICP0 encoding sequence contains many rare codons which are absent in E.coli, and ICP0 is highly unstable in prokaryotic cells, expression of entire ICP0 in prokaryotic cells has never been reported. In order to further investigate the function of ICP0, a recombinant plasmid was constructed by subcloning a cDNA fragment encoding an amino-terminal of 105 residues of the ICP0 protein into pGEX-5x-1 vector. The resulting GST-105 fusion antigen peptide was expressed with high efficiency in E.coli. Antibodies prepared after the immunization of mice with purified fusion protein can recognize not only the denatured ICP0 protein, but also the native ICP0 protein with normal biological conformation. Foundation items: National natural science foundation items (30570081 and 30670094)