褪黑素对盐胁迫下普通菜豆芽期核酸修复的调控机制

普通菜豆(Phaseolus vulgaris)是重要的食用豆作物, 然而其极易受盐胁迫危害, 导致产量下降。褪黑素能提高植物耐盐能力。为探明外源褪黑素调控普通菜豆耐盐能力的机制, 以普通菜豆品种奶花芸豆(GZ-YD014)为实验材料, 设置水(W, 对照)、盐胁迫(S)和盐胁迫+100 µmol∙L^-1褪黑素(M+S) 3个处理。结果发现, 盐胁迫抑制了普通菜豆胚根的生长, 使其长度、表面积、体积以及直径显著降低, 外源褪黑素可缓解盐胁迫对普通菜豆胚根生长的抑制。外施褪黑素显著降低盐胁迫下活性氧积累和丙二醛(MDA)含量, 提高保护酶(过氧化物酶、超氧化物歧化酶、过氧化氢酶以及抗坏血酸过氧化物酶)活性, 增加渗透调节物质(可溶性糖和可溶性蛋白)以及生长素(IAA)、赤霉素(GA)和玉米素(ZT)的含量, 降低脱落酸(ABA)含量。通过转录组分析挖掘出217个差异表达基因(DEGs), DEGs在GO富集中显著(P-value<0.05)富集到核酸相关条目上, 在KEGG富集中显著(P-value<0.05)富集到核酸损伤修复(包括碱基切除修复、错配修复以及核苷酸切除修复)通路。qRT-PCR以及RAPD分析结果表明, 核酸损伤修复通路为外源褪黑素调控普通菜豆耐盐能力的一种机制。该研究揭示了外源褪黑素对普通菜豆芽期耐盐能力的调控机制, 可为褪黑素应用于盐胁迫下普通菜豆增产提供理论依据。     

生物成矿作用与生物矿化作用

列举５５种生物矿物，其中包括氧化物，含氧盐，水化物，羟基化物，钙化合物，指出它们通常经历非晶质、过渡、成熟和石化等４个相阶段。根据生物矿物体的元素丰度顺序与岩石圈和生物圈对比，将生矿元素分为６类。提出生矿元素保留于生物体内８种形式，即可溶无机化合物、有机络合物、生矿粒、生矿簇、骨针、骨片、骨壳和骨骼，并以磷为例阐明了生矿元素的富集过程。按照生物作用型式，建议划分生物矿床为堆积、粘结、吸附和储集４种成因类型，分别讨论它们成矿的生物、矿物和矿床，分析形成的环境、过程和阶段，并介绍中国某些著名生物矿床实例。最后总结了生物矿床的地史演化趋向：金属硫化物矿床→条带状硅铁（锰）粘结矿床→叠层状白云岩粘结矿床→磷酸盐和碳酸锰粘结矿床→铅锌和油气储集矿床→煤和油气。     

应用FIA型微生物传感器测定谷氨酸含量的研究

目前应用酶或微生物细胞作为分子识别元件构建生物传感器测定谷氨酸含量的研究引起了广泛的兴趣,并陆续有实例报道。在这些报道中人们依据不同的酶催反应选择相应的离子选择性电极,如CO₂电极、NH₄⁺电极等,而测量对象有直接的测定谷氨酸,也有测定谷氨酸单钠的间接测定法。本文选用了可固定大量细胞的固定化细胞柱与流动注入法相结合的测量方法,并根据细胞柱的动力学模型分析动态响应曲线,计算测量结果,提高了测量精度,扩大了测量范围。     

Modulation of membrane dynamics and cell motility by membrane tension

The plasma membrane of most cells is drawn tightly over the cytoskeleton of the cell, resulting in a significant tension being developed in the membrane. The tension in the membrane can be calculated from the force required to separate it from the cytoskeleton; and the force itself can be measured rapidly by using laser tweezers. Recent observations indicate that decreasing membrane tension stimulates endocytosis and increasing tension stimulates secretion. Thus, membrane tension provides a simple physical mechanism to control the area of the plasma membrane. Here, we speculate that tension is a global parameter that the cell uses to control physically plasma membrane dynamics, cell shape and cell motility.     

动物细胞在鼓泡式生物反应器中的死亡速率

通过实验测定,证明生物反应器中细胞死亡速率与气体鼓泡速率成正比而与反应器体积成反比。实验发现气泡大小对细胞死亡速率具有两种作用,一种作用在于影响气泡表面积生成速率;另一种作用则在于影响细胞在气泡表面的吸附程度,其最佳直径为5mm左右。血清和Pluronic F68能显著降低细胞死亡速率,当Pluronic F68浓度达到0．1％时,kd趋于零。所有这些实验结果均与前文提出的生物反应器设计模型具有很好的一致性。     

C4 Photosynthesis (The Effects of Leaf Development on the CO2-Concentrating Mechanism and Photorespiration in Maize)

The effect of O2 on photosynthesis was determined in maize (Zea mays) leaves at different developmental stages. The optimum level of O2 for maximum photosynthetic rates was lower in young and senescing tissues (2-5 kPa) than in mature tissue (9 kPa). Inhibition of photosynthesis by suboptimal levels of O2 may be due to a requirement for functional mitochondria or to cyclic/pseudocyclic photophosphorylation in chloroplasts; inhibition by supraoptimal levels of O2 is considered to be due to photorespiration. Analysis of a range of developmental stages (along the leaf blade and at different leaf ages and positions) showed that the degree of inhibition of photosynthesis by supraoptimal levels of O2 increased rapidly once the ribulose-1,5-bisphosphate carboxylase/oxygenase and chlorophyll contents were below a critical level and was similar to that of C3 plants. Tissue having a high sensitivity of photosynthesis to O2 may be less effective in concentrating CO2 in the bundle sheath cells due either to limited function of the C4 cycle or to higher bundle sheath conductance to CO2. An analysis based on the kinetic properties of ribulose-1,5-bisphosphate carboxylase/oxygenase was used to predict the maximum CO2 level concentrated in bundle sheath cells at a given degree of inhibition of photosynthesis by supraoptimal levels of O2.     

常用食品防腐剂抗菌作用的研究

采用杯碟法和琼脂平板点种法分别测定２０种常用食品防腐剂对３０株菌的抑菌圈直径和最低抑菌浓度,借此判断药剂抗菌力的大小。实验结果表明,在所测２０种防腐剂中,对细菌抑制力最强者是乙酸,对霉菌和酵母菌抑制力最强者是富马酸二甲酯。