案例教学法在护理本科专业组织学与胚胎学教学中的实施与体会

组织学与胚胎学为护理本科专业学生必修课.在教学过程中采取＂学生为主体、教师为主导＂的案例教学法,激发学生的主观能动性,注重学生创新能力培养.在案例教学过程中,也发现一些问题：学生素质不一、学习目标不明确以及教师教育理念滞后等.因此,在护理本科专业组织学与胚胎学实施案例教学过程中,引导学生确立学习目标,积极思考,注重团队合作,全面调动学生学习的积极性和主动性.教师在更新教学观念的同时,提倡奉献精神,注重自身素质的培养和提高.     

A study on early tolerance of Mactra chinensis philippi to salinity

In order to evaluate the early tolerance of Mactra chinensis to salinity, the treatments of salinity gradients and salinity gradual changes were set in this study, and the post growth and development of juveniles were analyzed in recovery experiment, respectively. The result showed that the optimum hatching of zygotes was found at a salinity from 24 to 32, which is narrower than that of larvae (20–32); a slight of low salinity (16–32) will benefit the early growth and development of M. chinensis; at planktonic and creeping stages, low salinity stress (20) was conducive to promoting the growth of juvenile M. chinensis philippi; 4, 48 was the ultimate salinity of M. chinensis; The range of early tolerance of larvae M. chinensis philippi to salinity can be widened through a short period of salinity acclimation.     

结核分枝杆菌硫醇乙酰基转移酶基因敲除株的构建及其生物学特性分析

为探索硫醇乙酰基转移酶(mycothiol acetyltransferase,MshD)在结核分枝杆菌中的生物学特性,本实验利用噬菌体为载体的同源重组技术,构建结核分枝杆菌mshD基因敲除株、mshD基因回补株,用实时定量聚合酶链反应(real time-quantitative polymerase chain reaction, RT-qPCR)对所构建的菌株进行验证。分别收集H37Ra野生株、mshD基因敲除株、mshD基因回补株对数生长期菌液各5 mL, 离心收集菌体并培养,以观察菌落形态、生物膜形成及生长曲线测定;用5 mmol/L H₂O₂、0.05% SDS,50 ℃热激及低氧条件下分别处理基因敲出菌株和野生菌株,将菌液进行10倍梯度稀释,培养4～6周后检测抗胁迫能力并计算存活率。结果显示, 与野生株H37Ra相比,mshD基因敲除株菌落褶皱减少且菌落偏小,生长趋势较为缓慢;生物膜形成所需时间增长且褶皱明显减少;抗逆能力下降,存活率略低于野生株和回补株。揭示了mshD基因对结核分枝杆菌的生长具有重要作用,为进一步揭示该基因的功能和作用机制奠定了基础。     

Dynamic Metabolic Profiles and Tissue-Specific Source Effects on the Metabolome of Developing Seeds of Brassica napus

Canola (Brassica napus) is one of several important oil-producing crops, and the physiological processes, enzymes, and genes involved in oil synthesis in canola seeds have been well characterized. However, relatively little is known about the dynamic metabolic changes that occur during oil accumulation in seeds, as well as the mechanistic origins of metabolic changes. To explore the metabolic changes that occur during oil accumulation, we isolated metabolites from both seed and silique wall and identified and characterized them by using gas chromatography coupled with mass spectrometry (GC-MS). The results showed that a total of 443 metabolites were identified from four developmental stages. Dozens of these metabolites were differentially expressed during seed ripening, including 20 known to be involved in seed development. To investigate the contribution of tissue-specific carbon sources to the biosynthesis of these metabolites, we examined the metabolic changes of silique walls and seeds under three treatments: leaf-detachment (Ld), phloem-peeling (Pe), and selective silique darkening (Sd). Our study demonstrated that the oil content was independent of leaf photosynthesis and phloem transport during oil accumulation, but required the metabolic influx from the silique wall. Notably, Sd treatment resulted in seed senescence, which eventually led to a severe reduction of the oil content. Sd treatment also caused a significant accumulation of fatty acids (FA), organic acids and amino acids. Furthermore, an unexpected accumulation of sugar derivatives and organic acid was observed in the Pe- and Sd-treated seeds. Consistent with this, the expression of a subset of genes involved in FA metabolism, sugar and oil storage was significantly altered in Pe and Sd treated seeds. Taken together, our studies suggest the metabolite profiles of canola seeds dynamically varied during the course of oil accumulation, which may provide a new insight into the mechanisms of the oil accumulation at the metabolite level.     

温度和流速对洛氏鱥呼吸代谢的影响

采用实验生态学的方法研究了不同温度和流速对两个年龄组洛氏鱥呼吸代谢的影响。结果表明,1龄和2龄洛氏鱥在4℃水体中基本不摄食生长十分缓慢,随着水体温度升高,鱼类摄食和生长情况出现好转。在温度4℃增高至28℃的过程中,除流速16cm/s和18cm/s条件下水温由24℃升28℃时耗氧率出现降低外,其余流速下洛氏鱥耗氧率均随着温度升高而增加,呈典型的指数增长趋势Y=aebx,R2值均高于0.90;在流速由8cm/s增至18cm/s的过程中,虽然1龄组在低于20℃和2龄组低于24℃水体中耗氧率随流速增加而增加,但1龄组在温度24、28℃和2龄组在28℃的水体中当流速增至16cm/s时耗氧率达到最大值,1龄组持续30min和2龄组持续1h后出现鱼体紧贴栏鱼网的现象。通过分析得出,洛氏鱥的呼吸代谢受到温度、水流和个体大小等因素的相互影响,个体较大的2龄洛氏鱥对水环境的适应范围明显强大于1龄鱼,流速为12—14cm/s温度为16—24℃和流速为16cm/s温度为16—20℃是1龄洛氏鱥理想养殖条件,流速12—16cm/s温度8—24℃是2龄洛氏鱥理想养殖条件。     

Separation and identification of mouse brain tissue microproteins using top‐down method with high resolution nanocapillary liquid chromatography mass spectrometry

Microproteins and endogenous peptides in the brain contain important substances that have critical roles in diverse biological processes, contributing to signal transduction and intercellular signaling. However, variability in their physical or chemical characteristics, such as molecule size, hydrophobicity, and charge states, complicate the simultaneous analysis of these compounds, although this would be highly beneficial for the field of neuroscience research. Here, we present a top‐down analytical method for simultaneous analysis of microproteins and endogenous peptides using high‐resolution nanocapillary LC‐MS/MS. This method is detergent‐free and digestion‐free, which allows for extracting and preserving intact microproteins and peptides for direct LC‐MS analysis. Both higher energy collision dissociation and electron‐transfer dissociation fragmentations were used in the LC‐MS analysis to increase the identification rate, and bioinformatics tools ProteinGoggle and PEAKS Studio software were utilized for database search. In total, we identified 471 microproteins containing 736 proteoforms, including brain‐derived neurotrophic factor and a number of fibroblast growth factors. In addition, we identified 599 peptides containing 151 known or potential neuropeptides such as somatostatin‐28 and neuropeptide Y. Our approach bridges the gap for the characterization of brain microproteins and peptides, which permits quantification of a diversity of signaling molecules for biomarker discovery or therapy diagnosis in the future.     

Fine genetic mapping and physical delimitation of the lesion mimic gene <Emphasis Type="Italic">spotted leaf 5</Emphasis> (<Emphasis Type="Italic">spl5</Emphasis>) in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Spotted leaf 5 (spl5), a lesion mimic mutant, was first identified in rice (Oryza sativa L.) japonica cv. Norin8 in 1978. This mutant exhibits spontaneous disease-like lesions in the absence of any pathogens and resistance to rice blast and bacterial blight; however, the target gene has not yet been isolated. In the present study, we employed a map-based cloning strategy to finely map the spl5 gene. In an initial mapping with 100 F₂ individuals (spl5/spl5) derived from a cross between the spl5 mutant and indica cv. 93-11, the spl5 gene was located in a 3.3-cM region on chromosome 7 using six simple sequence repeat (SSR) markers. In a high-resolution genetic mapping, two F₂ populations with 3,149 individuals (spl5/spl5) were derived from two crosses between spl5 mutant and two indica cvs. 93-11 and Zhefu802 and six sequence-tagged site (STS) markers were newly developed. Finally, the spl5 gene was mapped to a region of 0.048 cM between two markers SSR7 and RM7121. One BAC/PAC contig map covering these markers’ loci and the spl5 gene was constructed through Pairwise BLAST analysis. Our bioinformatics analysis shows that the spl5 gene is located in the 80-kb region between two markers SSR7 and RM7121 with a high average ratio of physical to genetic distance (1.67 Mb/cM) and eighteen candidate genes. The analysis of these candidate genes indicates that the spl5 gene represents a novel class of regulators controlling cell death and resistance response in plants.     

Salinity induced differences in growth,ion distribution and partitioning in barley between the cultivar Maythorpe and its derived mutant Golden Promise

Dry matter changes and ion partitioning in two near isogenic barley cultivars Maythorpe (relatively salt sensitive) and Golden Promise (relatively salt tolerant) were studied in response to increasing salinity. Although the growth of both cultivars was significantly reduced by exposure to NaCl, the effect was greater in Maythorpe, whilst Golden Promise maintained an increased ratio of young to old leaf blade. Golden Promise maintained significantly lower Na⁺ concentrations in young expanding tissues compared with Maythorpe. Partitioning of Cl^– was evident in that both varieties maintained lower Cl^– concentrations in mesophyll than in epidermal cells. Golden Promise maintained higher K⁺/Na⁺ and Ca²⁺/Na⁺ ratios in young leaf blade and young sheath tissues than Maythorpe when exposed to salt. Differences in ion partitioning and the maintenance of higher K⁺ and Ca²⁺ to Na⁺ ratios, especially in young growing and recently expanded tissues, would appear to be important mechanisms contributing to the improved salt tolerance of Golden Promise.