2种中草药对福寿螺的杀灭效果及对肝脏影响

【目的】有效控制福寿螺产生的危害,为实现中草药的资源化利用提供依据。【方法】以甘草、陈皮为植物源灭螺剂,进行不同浓度梯度(0、0.5、1.5、3.0、4.5、6.0 g·L^-1)提取液浸泡下的灭螺活性探究。【结果】甘草组、陈皮组处理下福寿螺死亡率随时间的增长在不同浓度下毒杀效果明显。对48 h时福寿螺死亡率数据进行概率单位法回归分析,发现甘草组(LC₂₅、LC₅₀、LC₇₅)<陈皮组(LC₂₅、LC₅₀、LC₇₅),说明福寿螺对甘草更敏感。为进一步探究福寿螺死亡原因,在前期研究的基础上深入探讨甘草、陈皮提取液对福寿螺的肝脏的影响,在亚致死浓度甘草0.511 g·L^-1 (LC₂₅)、0.940 g·L^-1 (LC₅₀)、1.727 g·L^-1 (LC₇₅)和陈皮3.892 g·L^-1 (LC₂₅)、4.863 g·L^-1 (LC₅₀)、6.076 g·L^-1 (LC₇₅)处理下对福寿螺肝脏进行扫描电镜观察,结果表明,相比对照组,处理组福寿螺肝脏组织表面干瘪,失去水分,受损严重时,质地松散,表面组织脱落。【结论】2种植物提取液均可以较好地灭杀福寿螺,且严重破坏福寿螺核心组织肝脏,甘草、陈皮可作为植物源灭螺剂进一步研究开发利用。     

Loci and candidate gene identification for soybean resistance to Phytophthora root rot race 1 in combination with association and linkage mapping

Molecular Breeding - Northern corn leaf blight (NCLB) is one of the main diseases of maize, which greatly reduces production and causes millions of dollars in losses worldwide annually....     

“新工科”背景下环境生物技术双语教学的改革策略与实践反思

“新工科”建设是以培养工程实践能力、创新能力和国际竞争力的高素质复合型人才为目标,双语课程已成为培养既懂专业又能进行国际交流的复合型人才的有效手段之一。然而,大多数双语课程教学效果不是很理想。本文在分析当前双语教学普遍存在问题的基础上,以环境生物技术双语课程为例,从教学模式构建、质控体系建立、教材选用和考核方式优化等方面探讨了改进的策略,从提高教师教学能力、学生学习热情和学校政策保障等方面总结了既往的经验和不足,以期为提高双语教学效果提供借鉴。     

我国福寿螺入侵现状和防控研究进展

福寿螺原分布于南美洲,20世纪80年代作为一种水生经济生物引入我国,后因食味不佳被弃于水生环境,因其具有繁殖力高、适应性强、食性杂等特点,在我国多个区域迅速扩散入侵,已给农业生产、生态系统、人类健康等造成了严重的危害。文章对福寿螺入侵现状进行了深入分析与系统总结,介绍了现有福寿螺防控技术手段,重点阐述环境友好型福寿螺防控技术并对其进行了研究展望。目前,针对福寿螺防控实施的多种物理、化学和生物措施,治理效果不一,植物源生物控制技术因具有更高效、更经济、对非靶细胞更安全等优点,成为防治福寿螺的研究热点。然而此类研究多数集中于简单的毒杀效果试验,较少涉及毒杀机理、生殖系统等。本文旨在为全面了解我国福寿螺入侵现状、防控研究进展提供理论指导,为进一步探究福寿螺防控技术提供对策与新的思路。     

Optimal Caliper Width for Propensity Score Matching of Three Treatment Groups: A Monte Carlo Study

Propensity score matching is a method to reduce bias in non-randomized and observational studies. Propensity score matching is mainly applied to two treatment groups rather than multiple treatment groups, because some key issues affecting its application to multiple treatment groups remain unsolved, such as the matching distance, the assessment of balance in baseline variables, and the choice of optimal caliper width. The primary objective of this study was to compare propensity score matching methods using different calipers and to choose the optimal caliper width for use with three treatment groups. The authors used caliper widths from 0.1 to 0.8 of the pooled standard deviation of the logit of the propensity score, in increments of 0.1. The balance in baseline variables was assessed by standardized difference. The matching ratio, relative bias, and mean squared error (MSE) of the estimate between groups in different propensity score-matched samples were also reported. The results of Monte Carlo simulations indicate that matching using a caliper width of 0.2 of the pooled standard deviation of the logit of the propensity score affords superior performance in the estimation of treatment effects. This study provides practical solutions for the application of propensity score matching of three treatment groups.     

大熊猫精液和包皮菌群组成及潜在致病菌调查

[目的] 大熊猫是我国国家一级保护动物,其种群面临着传染病和栖息地破碎化等持续威胁,其中生殖系统的细菌感染和菌群失衡会影响大熊猫生殖健康,严重者可导致流产,是引起大熊猫繁殖障碍的原因之一。本研究对精液与包皮分泌物样本的菌群组成情况及分离培养潜在致病菌开展研究。[方法] 通过采集13份大熊猫包皮分泌物和12份精液样本,采用16S rRNA扩增子测序技术、细菌培养及PCR鉴定的方法,确定样本中的细菌种类。[结果] 菌群组成分析结果显示,在门水平上,厚壁菌门（Firmicutes）的细菌丰度在大熊猫包皮与精液中均为最高;在属水平上,不同时期的雄性大熊猫包皮的菌群可能会发生改变,棒状杆菌属（Corynebacterium）和Dolosicoccus是Ⅰ期包皮样本中最丰富的微生物菌群,相对丰度分别为15.45%和12.40%;链球菌属（Streptococcus）和埃希氏菌属（Escherichia）是Ⅱ期包皮样本中最丰富的微生物菌群,相对分度分别为37.94%和9.68%;拟杆菌属（Bacteroides）和普雷沃氏菌属（Prevotella）是精液样本中最丰富的微生物菌群,相对丰度分别为14.40%和12.88%。菌群多样性分析结果显示,精液样品高于Ⅰ期包皮样品和Ⅱ期包皮样品,Ⅰ期包皮样品和Ⅱ期包皮样品之间无显著差异。通过细菌分离培养得到肺炎克雷伯菌（Klebsiella pneumonia）在内的多种潜在性致病菌。[结论] 本研究分析了大熊猫精液和不同时期包皮分泌物的菌群组成,其优势菌属存在差异,大熊猫包皮与精液中存在潜在性致病菌,这可能对大熊猫的生殖系统健康带来威胁,其致病性有待进一步研究。     

Minor contribution of leaf litter to N nutrition of beech (Fagus sylvatica) seedlings in a mountainous beech forest of Southern Germany

Aims

Our aims were to characterize the fate of leaf-litter-derived nitrogen in the plant-soil-microbe system of a temperate beech forest of Southern Germany and to identify its importance for N nutrition of beech seedlings.

Methods

¹⁵N-labelled leaf litter was traced in situ into abiotic and biotic N pools in mineral soil as well as into beech seedlings and mycorrhizal root tips over three growing seasons.

Results

There was a rapid transfer of ¹⁵N into the mineral soil already 21 days after tracer application with soil microbial biomass initially representing the dominant litter-N sink. However, ¹⁵N recovery in non-extractable soil N pools strongly increased over time and subsequently became the dominant ¹⁵N sink. Recovery in plant biomass accounted for only 0.025 % of ¹⁵N excess after 876 days. After three growing seasons, ¹⁵N excess recovery was characterized by the following sequence: non-extractable soil N?>>?extractable soil N including microbial biomass?>>?plant biomass?>?ectomycorrhizal root tips.

Conclusions

After quick vertical dislocation and cycling through microbial N pools, there was a rapid stabilization of leaf-litter-derived N in non-extractable N pools of the mineral soil. Very low ¹⁵N recovery in beech seedlings suggests a high importance of other N sources such as root litter for N nutrition of beech understorey.     

Preferential use of root litter compared to leaf litter by beech seedlings and soil microorganisms

Background and aims

Litter decomposition is regulated by e.g. substrate quality and environmental factors, particularly water availability. The partitioning of nutrients released from litter between vegetation and soil microorganisms may, therefore, be affected by changing climate. This study aimed to elucidate the impact of litter type and drought on the fate of litter-derived N in beech seedlings and soil microbes.

Methods

We quantified ¹⁵N recovery rates in plant and soil N pools by adding ¹⁵N-labelled leaf and/or root litter under controlled conditions.

Results

Root litter was favoured over leaf litter for N acquisition by beech seedlings and soil microorganisms. Drought reduced ¹⁵N recovery from litter in seedlings thereby affecting root N nutrition. ¹⁵N accumulated in seedlings in different sinks depending on litter type.

Conclusions

Root turnover appears to influence (a) N availability in the soil for plants and soil microbes and (b) N acquisition and retention despite a presumably extremely dynamic turnover of microbial biomass. Compared to soil microorganisms, beech seedlings represent a very minor short-term N sink, despite a potentially high N residence time. Furthermore, soil microbes constitute a significant N pool that can be released in the long term and, thus, may become available for N nutrition of plants.     

Reducing AsA Leads to Leaf Lesion and Defence Response in Knock-Down of the AsA Biosynthetic Enzyme GDP-D-Mannose Pyrophosphorylase Gene in Tomato Plant

As a vital antioxidant, L-ascorbic acid (AsA) affects diverse biological processes in higher plants. Lack of AsA in cell impairs plant development. In the present study, we manipulated a gene of GDP-mannose pyrophosphorylase which catalyzes the conversion of D-mannose-1-P to GDP-D-mannose in AsA biosynthetic pathway and found out the phenotype alteration of tomato. In the tomato genome, there are four members of GMP gene family and they constitutively expressed in various tissues in distinct expression patterns. As expected, over-expression of SlGMP3 increased total AsA contents and enhanced the tolerance to oxidative stress in tomato. On the contrary, knock-down of SlGMP3 significantly decreased AsA contents below the threshold level and altered the phenotype of tomato plants with lesions and further senescence. Further analysis indicated the causes for this symptom could result from failing to instantly deplete the reactive oxygen species (ROS) as decline of free radical scavenging activity. More ROS accumulated in the leaves and then triggered expressions of defence-related genes and mimic symptom occurred on the leaves similar to hypersensitive responses against pathogens. Consequently, the photosynthesis of leaves was dramatically fallen. These results suggested the vital roles of AsA as an antioxidant in leaf function and defence response of tomato.     

炭疽水肿因子在大肠杆菌中高效表达及一步法纯化

【目的】本研究旨在建立一种简单快捷的炭疽水肿因子(EF)重组表达及纯化方法。【方法】构建GST-EF融合表达载体,基于EF基因的密码子使用偏好,选择菌株Escherichia coli BL21-Codon Plus(DE3)-RIL为表达宿主,对EF进行诱导表达;细胞透性技术分离粗蛋白,进而利用亲和层析一步法纯化EF;Native-PAGE、竞争性抑制实验及c AMP浓度分析用于鉴定EF的生物活性。【结果】实现了EF可溶性高效表达,透性化处理可有效抽提可溶性重组蛋白;利用亲和层析一步法纯化得到了纯度达96%的EF;EF可与保护性抗原(PA)结合形成水肿毒素,该毒素能够急剧提高CHO-K1细胞中c AMP的浓度。【结论】本研究建立了一种高效快速制备具有生物活性的炭疽水肿因子的方法,为炭疽相关研究工作提供了新的选择。