任务驱动法在“微生物学实验”混合式教学中的实践

通过“微生物学实验”课程多年来的混合式教学实践发现,学生的主动性是学习效果的核心要素。鉴于在以往的教学实践中,无论采用何种教学手段,总有部分学生的学习主动性不能得到体现。我们近年来采用轮流组长责任制下的任务驱动教学法,极大地调动了所有学生的学习动力。每位学生在担任组长工作时从课前任务、课堂执行、课后总结等方面都发挥了重要作用,而不担任组长时也会积极主动地配合组长工作。最终,实验课程学习成绩优秀率占比、体现素质能力培养的成绩分项都显著提升。同时,课程教学也收获了良好的学生认可和反馈。     

Interactions between the toxicity of the heavy metals cadmium,copper, zinc in combinations and the detoxifying role of calcium in the brown algaCystoseira barbata

The toxicity of three heavy metals, Cd, Cu and Zn, and the detoxifying role of Ca have been studied for the brown algaCystoseira barbata formaaurentia after a 4-week laboratory culture. The experimental design was based upon a complete factorial design 2^k, which seems to be the first time it has been used in algal physiology. It was demonstrated that these three elements, applied jointly, act on weight-growth, chlorophyll a, c and carotenoid synthesis and Cd, Cu and Zn uptake. Cd and Zn act in synergy or in antagony, depending on their exogenous concentrations, on chlorophyll a and on carotenoid synthesis. Zn is antagonistic towards Cd and Cu on weight-growth in the combination Cd-Cu-Zn. From different element combinations, the protective role of Ca appears evident on weight-growth (Cd-Zn-Ca and Cu-Ca), chlorophyll a (Cd-Cu-Ca and Cu-Zn-Ca), chlorophyll c (Cd-Ca), carotenoid synthesis (Cd-Cu-Ca and Cu-Zn-Ca), Cd and Cu uptake (Cd-Cu-Ca) and Zn uptake (Cu-Zn-Ca). This role is confirmed by cytological investigations. This is apparently the first report concerning a Ca interaction with toxicity of heavy metals applied in combinations. However, the mechanisms of tolerance remain unknown.     

攀西高原不同轮作制度下土壤固氮微生物nifH基因多样性与群落结构特征

[背景]关于高原生境轮作制度对土壤固氮微生物群落组成及多样性的影响研究尚少。[目的]深入认识攀西高原不同轮作制度对农田土壤肥力及土壤固氮微生物nifH基因群落结构与多样性的影响,以期建立合理的轮作制度。[方法]以凉山州冕宁县不同作物轮作制度[包括光叶紫花苕-烤烟(分轮作15年和20年两种,分别为G1和G2)、苦荞-烤烟(KQ)、大麦-烤烟(DM)和撂荒(CK)]的土壤为研究对象,通过化学分析和Illumina MiSeq技术,对土壤理化性质、土壤固氮微生物nifH基因多样性及群落组成进行分析。[结果]撂荒土壤全氮、铵态氮、硝态氮、有机碳和含水量最显著(P<0.05)。KQ轮作下土壤有效磷和速效钾分别提高了43.0%和2.60%,而DM轮作下的土壤理化性质均下降。土壤固氮酶活以撂荒土壤最高,G2轮作最低。土壤固氮微生物nifH基因多样性以G1轮作最高、G2轮作最低,门水平上以变形菌门(Proteobacteria)是优势共有nifH基因类群,相对丰度占群落的63.0%-92.4%;属水平上,偶氮氢单胞菌属(Azohydromonas)是不同轮作制度下的优势物种,慢生根瘤属(Brad...     

制药工程“微生物学实验”课程的项目化教学探索与实践

为了培养学生的自主学习能力和实践创新能力,按照工程教育专业认证要求基于成果导向教育(outcome based education, OBE)理念设计课程教学,将制药工程微生物学实验课实验教学项目设置成入门、进阶和自主3种项目等级。实验项目内容由浅入深、逐级递进、层层相关,教学过程以学生为中心,并结合线上教学手段和竞赛机制的支持。实践结果表明,经过项目化教学改革,在教师教学和学生学习成效两个方面均得到明显提升,学生在论文撰写能力、动手能力等方面也有了明显的进步,值得后续进一步总结和推广。     

台湾山柚属(山柚子科)的一个新组合

木文是对《甜菜树属(中国山柚子科新记录属)一新种》(载“云南植物研究”1989年11卷4期)一文的修订。将误定于甜菜树属(Mlelientha Pierre)下的长蕊甜菜树(M.longi-staminea)改隶于台湾山柚属(Champereia Griff.),重新组合为四数台湾山柚(Champereia)longistaminea。如果将长蕊甜菜树(Melientha longistaminea)置于甜菜树属(Melientha)中,则混淆了台湾山柚属(Champereia Pierre)与甜菜树属(Melientha Pierre)的区别界线。     

药用植物分子农场研究进展

植物分子农场可以利用植物生产具有药物用途的重组蛋白或者次生代谢化合物,应用广泛。随着对动植物中具有药物用途的代谢途径的深入解析,代谢途径中关键限速酶或调控蛋白的功能不断被明确,如何选择植物分子农场的底盘植物和遗传改造途径等问题,特别是如何协同提高植物制药产量与品质一直是植物分子农场体系建立中面临的关键科学问题。综述了药用的植物分子农场的最新研究进展,着重介绍了底盘植物的选择与药用植物分子农场的构建策略,以期为提高分子农场应用效果提供有力的科技支撑。     

Transmission of poly(dT60) single-stranded DNA through polycarbonate track-etched ultrafiltration membranes

The objective of this study was to examine membrane filtration of a single stranded DNA (ssDNA) with 60 thymine nucleotides, and to elucidate the variables controlling its transmission across track-etched porous membranes. Dead end filtration measurements were performed using different pore size membranes (10, 15, and 30 nm) at different transmembrane pressures in solutions with ionic strength ranging from 0 to 1000 mM NaCl. The diffusivity of the ssDNA was determined using fluorescence recovery after photobleaching, yielding hydrodynamic radii ranging from 1.6 to 2.8 nm, with values decreasing with increasing solution ionic strength. Despite the small ssDNA/membrane pore size, nearly 100% rejection was observed for measurements performed with the 10 and 15 nm pore size membranes under low-ionic strength conditions. These high rejections can be attributed to strong repulsive electrostatic ssDNA-membrane interactions. With increasing ionic strength, electrostatic interactions as well as the effective size of the ssDNA decreases and the flexibility of the ssDNA increases, leading to a reduction in ssDNA rejection. A design of experiments approach was used to plan filtration experiments that adequately covered the variable space with a manageable number of experiments. The results yielded an empirical expression relating ssDNA rejection to pore size, solution ionic strength and transmembrane pressure. There was evidence of flow induced elongation at high-transmembrane pressures in the 30 nm pore size membranes, but not in the smaller pore size membranes. These results are consistent with critical flux estimates developed using a free draining model for the ssDNA.     

Environmental conditions during glycerol bioconversion affect 3-hydroxypropionic acid bioproduction by Limosilactobacillus reuteri DSM 17938

3-Hydroxypropionic acid (3-HP) is a platform molecule whose biological production was carried out by the bacterium Limosilactobacillus reuteri according to a two-step process: first, a growth phase in batch mode on glucose, then a glycerol bioconversion into 3-HP in fed-batch mode. With the objective of improving 3-HP bioproduction, this study aimed at defining the operating conditions during the bioconversion phase that increases the bioproduction performance. A central composite rotatable design allowed testing various pH levels and specific glycerol feeding rates. By establishing response surfaces, optimal conditions have been identified that were different depending on the considered output variable (final 3-HP quantity, 3-HP production yield and production rate). Of them, 3-HP final quantity and 3-HP production yield were maximized at pH 6.0 and at specific glycerol feeding rates of 60 and 55 mg_gly g_CDW⁻¹ h⁻¹, respectively. The specific 3-HP production rate was the highest at the upper limit of the specific substrate feeding rate (80 mg_gly g_CDW⁻¹ h⁻¹) but was not affected by the pH. An additional experiment was carried out at pH 6.0 and a specific glycerol feeding rate of 80 mg_gly g_CDW⁻¹ h⁻¹ to validate the previous observations. In conclusion, the results showed a significant improvement of 3-HP concentration by 13%, of specific production rate by 34% and of 3-HP volumetric productivity by 39%, as compared to the initial values.     

In Silico Design of an Oseltamivir Derivative with Increased Affinity against Wild-Type and Mutant Variants of Neuraminidase and Hemagglutinin of Influenza A H1N1 Virus

Antiviral resistance has turned into a world concern nowadays. Influenza A H1N1 emerged as a problem at the world level due to the neuraminidase (NA) mutations. The NA mutants conferred resistance to oseltamivir and zanamivir. Several efforts were conducted to develop better anti-influenza A H1N1 drugs. Our research group combined in silico methods to create a compound derived from oseltamivir to be tested in vitro against influenza A H1N1. Here we show the results of a new compound derived from oseltamivir but with specific chemical modifications, with significant affinity either on NA (in silico and in vitro assays) or HA (in silico) from influenza A H1N1 strain. We include docking and molecular dynamics (MD) simulations of the oseltamivir derivative at the binding site onto NA and HA of influenza A H1N1. Additionally, the biological experimental results show that oseltamivir derivative decreases the lytic-plaque formation on viral susceptibility assays, and it does not show cytotoxicity. Finally, oseltamivir derivative assayed on viral NA showed a concentration-dependent inhibition behavior at nM, depicting a high affinity of the compound for the enzyme, corroborated with the MD simulations results, placing our designed oseltamivir derivative as a potential antiviral against influenza A H1N1.     

Comparisons of biomass,water use efficiency and water use strategies across five genomic groups of Populus and its hybrids

Genetic improvement and hybridization in the Populus genus have led to the development of genotypes exhibiting fast growth, high rooting ability and disease resistance. However, while large biomass production is important for bioenergy crops, efficient use of resources including water is also important in sites lacking irrigation and for maintaining ecosystem water availability. In addition, comparison of water use strategies across a range of growth rates and genetic variability can elucidate whether certain strategies are shared among the fastest growing and/or most water use efficient genotypes. We estimated tree water use throughout the second growing season via sapflow sensors of 48 genotypes from five Populus taxa; P. deltoides W. Bartram ex Marshall × P. deltoides (D × D), P. deltoides × P. maximowiczii A. Henry (D × M), P. deltoides × P. nigra L. (D × N), P. deltoides × P. trichocarpa Torr. & Gray (D × T) and P. trichocarpa × P. deltoides (T × D) and calculated average canopy stomatal conductance (G_S). We regressed G_S and atmospheric vapor pressure deficit (VPD) wherein the slope of the relationship represents stomatal sensitivity to VPD. At the end of the second growing season, trees were harvested, and their dry woody biomass was used to calculate whole tree water use efficiency (WUE_T). We found that D × D and D × M genotypes exhibited differing water use strategies with D × D genotypes exhibiting high stomatal sensitivity while retaining leaves while D × M genotypes lost leaf area throughout the growing season but exhibited low stomatal sensitivity. Across measured taxa, biomass growth was positively correlated with WUE_T, and genotypes representing each measured taxa except D × N and T × D had high 2-year dry biomass of above 6 kg/tree. Overall, these data can be used to select Populus genotypes that combine high biomass growth with stomatal sensitivity and WUE_T to limit the negative impacts of bioenergy plantations on ecosystem water resources.