明党参内生菌的分离鉴定及其对金黄色葡萄球菌的抑制作用

研究郑州市栽培明党参内生菌资源状况,筛选出对金黄色葡萄球菌具有拮抗作用的内生菌。采用平板培养法从明党参中分离内生细菌,通过混菌法和牛津杯双层平板扩散法筛选出对金黄色葡萄球菌具有明显抑制作用的菌株,并通过培养特征、形态特征、生化特征、全自动微生物质谱检测、16S rDNA基因序列分析和系统进化树分析对菌株进行了分类学鉴定。在明党参中共分离到29株内生细菌,通过初筛和复筛后,筛选出对金黄色葡萄球菌具有明显抑制作用的4株菌株NMY1、NMJ10、NMG10、PMG3,其中NMJ10对金黄色葡萄球菌的抑菌圈直径达20.3 mm,经鉴定菌株NMJ10和菌株PMG3为芽胞杆菌属新菌种(Bacillus spp.),菌株NMY1为枯草芽胞杆菌(B.subtilis),菌株NMG10为假蕈状芽胞杆菌(B.pseudomycoides)。明党参内生菌具有多样性,其中芽胞杆菌属为优势菌株,有拮抗金黄色葡萄球菌活性高的菌株存在,其代谢产物对金黄色葡萄球菌有较高抑制作用,为抗菌药源成分的开发提供了新的来源。     

胞外ATP对AlCl3诱导的细胞死亡过程中胞内H2O2和Ca2+水平的影响及其生理机制分析

该实验以烟草悬浮细胞 BY 2 为材料,在烟草悬浮细胞中分别加入0.05、0.10、0.15、0.20 mmol·L^-1AlCl₃,以等体积去离子水处理的悬浮细胞液为对照,并依据前述实验结果选择0.15 mmol·L^-1 AlCl₃,分别添加5 mmol·L^-1 DMTU(H₂O₂ 抑制剂)、20 μmol·L^-1CaCl₂、15 μmol·L^-1 LaCl₃(Ca²⁺通道抑制剂)和50 μmol·L^-1 ATP设计多项处理,分析胞外ATP(eATP)对铝离子(Al³⁺)胁迫引起的植物细胞死亡及其胞内H₂O₂、Ca²⁺的影响,以揭示Al³⁺胁迫下植物调节细胞死亡的可能机制,进一步扩展对eATP功能的认知。结果显示：(1)随着 AlCl₃ 胁迫浓度的提高,细胞死亡水平和胞内H₂O₂水平上升,而胞内Ca²⁺和eATP水平则逐渐降低。(2)外援施加H₂O₂抑制剂 DMTU(二甲基硫脲)和Ca²⁺能够有效缓解AlCl₃诱导的细胞死亡水平的上升;而Ca²⁺通道抑制剂LaCl₃(三氯化镧)则加剧了AlCl₃胁迫下的细胞死亡。(3)在AlCl₃胁迫下对细胞添加外源ATP,能够缓解AlCl₃胁迫下胞内H₂O₂水平上升和Ca²⁺水平下降的同时,并显著降低AlCl₃胁迫导致的细胞死亡。研究表明, Al³⁺以剂量依赖的模式提升细胞死亡和细胞内H₂O₂的水平并降低胞内Ca²⁺和eATP水平,AlCl₃诱导的细胞死亡受到H₂O₂和Ca²⁺水平变化的调节,eATP可以通过调节H₂O₂与Ca²⁺水平缓解AlCl₃诱导的细胞死亡。推测Al³⁺胁迫可能通过抑制钙离子通道而破坏了细胞内H₂O₂和Ca²⁺之间的协同关系,外源ATP对Al³⁺诱导H₂O₂上升的缓解作用可能是由于其提升了细胞的抗氧化能力。     

铜绿假单胞菌一氧化氮还原酶编码基因norD的生物学功能研究

一氧化氮还原酶(Nitric oxide reductase,NOR)是反硝化过程中一个非常重要的催化酶,本文通过同源重组的方法敲除铜绿假单胞菌中norD基因,并研究该基因敲除后菌株ΔnorD在好氧条件下的表型变化。研究结果表明,与野生菌株和回补菌株相比,ΔnorD对BIT的抗性增强。同时在BIT作用下,ΔnorD泳动能力减弱、绿脓菌素的合成能力降低,但norD基因不是BIT唯一的作用位点。上述结果明确了好氧条件下norD基因的部分功能,为更好的利用反硝化过程奠定基础。     

嗜热链球菌胞外多糖EPS333对酸乳品质的影响

本研究以酸乳为基质,通过测试酸乳酸化速率曲线、脱水收缩敏感性、持水力、水分迁移、质构及流变特性等参数,研究了嗜热链球菌胞外多糖与市场常规应用多糖对酸乳品质的影响。研究结果表明:嗜热链球菌胞外多糖EPS333在酸乳凝胶过程中较其他几种多糖能明显减缓酸化趋势,后熟及储藏阶段减少"自由水"含量,降低流动性,改善其流变特性。     

细虫草胞外多糖对小鼠腹腔巨噬细胞免疫功能研究

本实验在体外条件下,以人工发酵培养的细虫草胞外多糖OgE、OgE-F1和OgE-F2作用于小鼠腹腔巨噬细胞RAW264.7,通过测定其对巨噬细胞的增殖率、代谢MTT活力、NO分泌和吞噬能力的影响,评价细虫草胞外多糖的免疫调节活性。结果表明,细虫草多糖对巨噬细胞无细胞毒性,且能促进巨噬细胞代谢MTT活力;在0.2mg/mL^1.0mg/mL浓度范围内,多糖呈剂量依赖性的促进巨噬细胞分泌NO水平和吞噬能力。本研究表明,细虫草多糖能有效地增强小鼠巨噬细胞的活性,潜在地可改善小鼠的先天性免疫调节。     

芽胞杆菌属产α-淀粉酶的研究进展

α-淀粉酶是一种重要的淀粉水解酶,可以从动物、植物或微生物中获得。但应用于工业生产的α-淀粉酶绝大多数来自芽胞杆菌。自α-淀粉酶工业化生产以来,研究人员针对其生产菌株芽胞杆菌进行了一系列的诱变选育和基因工程等分子生物学育种,使得菌种的产酶能力不断得到提高。另外,优化芽胞杆菌发酵培养基及发酵参数也是提高α-淀粉酶工业化生产产量的重要方法。     

莼菜休眠芽解除休眠及生根的研究

莼菜为世界著名珍稀水生蔬菜,具有很高的食用和药用价值。已有研究显示,可通过冬芽实现莼菜复壮,找出休眠解除的最佳方法是复壮的基本前提。本实验以莼菜冬季型休眠芽（冬芽）为实验材料,通过光照、温度等处理探求莼菜冬芽的休眠解除方法。莼菜冬芽生根率随着光照强度的增加,其生根率由全黑暗0%显著增长至（16.0±1.3）%;温度和处理时间对莼菜冬芽生根率、根长、生根根数和含水量有显著性影响。其中,35 °C水浴处理6 h后各项指标均到达较大值,上述指标分别为（96.1±2.8）%、（7.2±0.2） cm、74.5±6.0和（83.6±0.3）%;40 °C（6 h）、45 °C（1、3和6 h）和50 °C（10、20和30 min）水浴处理后莼菜冬芽绝大部分失绿变黄;随着培养时间的延长,其冬芽全部腐烂。光照能够促进莼菜冬芽生根;土培生根效果较为显著;适度水浴加热处理能有效解除莼菜冬芽的休眠,35 °C水浴处理6 h为最佳处理方案。     

Astaxanthin Accumulation in the Green Alga Haematococcus pluvialis： Effects of Cultivation Parameters

The green alga, Haematococcus pluvlalis Flotow is used as a source of the ketocarotenoid astaxanthin for application in fish aquaculture, pharmaceutical and cosmetic industries. Ceils of the green alga were induced by the application of different light and starvation conditions to evaluate the effect in astaxanthin accumulate. The conditions used for the Induction were high light intensity （170 μmol·m^-2·s^-1）, iron starvation, sulfur starvation and phosphate starvation. The results show that stresses applied in culture, which interfere with cell division, trigger the accumulation of astaxanthin. Notably, sulfur starvation results in a massive accumulation of this commercially important carotenoid.     

Purification and characterization of cytosolic glyceraldehyde-3-phosphate dehydrogenase from the dromedary camel

Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (EC 1.2.1.12),a key enzyme ofcarbon metabolism,was purified and characterized to homogeneity from skeletal muscle of Camelusdromedarius.The protein was purified approximately 26.8 folds by conventional ammonium sulphatefractionation followed by Blue Sepharose CL-6B chromatography,and its physical and kinetic propertieswere investigated.The native protein is a homotetramer with an apparent molecular weight of approximately146 kDa.Isoelectric focusing analysis showed the presence of only one GAPDH isoform with an isoelectricpoint of 7.2.The optimum pH of the purified enzyme was 7.8.Studies on the effect of temperature onenzyme activity revealed an optimal value of approximately 28-32 ℃ with activation energy of 4.9 kcal/mol.The apparent K_m values for NAD~ and DL-glyceraldehyde-3-phophate were estimated to be 0.025±0.040mM and 0.21±0.08 mM, respectively. The V_(max) of the purified protein was estimated to be 52.7±5.9 U/mg.These kinetic parameter values were different from those described previously, reflecting protein differencesbetween species.     

Alterations of RNA Editing for the Mitochondrial ATP9 Gene in a New orf220-type Cytoplasmic Male-sterile Line of Stem Mustard （Brassica juncea var. tumida）

RNA editing for the mitochondrlal ATP9 gene of encoding regions has been observed in both cytoplasmic malesterile and maintainer lines of stem mustard, where its editing capacity varied spatially and temporally in the cytoplasmic male sterility （CMS） line. There were four RNA editing sites for the mitochondrial ATP9 gene according to Its normal editing sites in mustard, of which three sites occurred as C-to-U changes and one as a U-to-C change. As a result, the hydrophobicity of deduced ATP9 protein was reduced due to the conversions at its 17th, 45th and 64th positions. Meanwhile, the conservation of deduced ATP9 protein was enhanced by changes at the 56th position. Loss of a specific editing site for ATP9 was observed in juvenile roots, senile roots, senile leaves and floret buds of the CMS line. Comparatively, complete RNA editing for ATP9 gene was retained in juvenile roots, juvenile leaves and floret buds of its maintainer line; however, the loss of a specific editing site for ATP9 gene occurred at senile roots and senile leaves in its maintainer line. These observations allow us to produce a hypothesis that the dysfunction of a specific mitochondrial gene arising from RNA editing could probably be a factor triggering CMS and organ senescence through unknown cross-talk pathways during development.