温度对旋链角毛藻(Chaetoceros curvisetus)和米氏凯伦藻(Karenia mikimotoi)生长及硝酸还原酶活力的影响

选用东海常见的两种赤潮肇事藻种:旋链角毛藻和米氏凯伦藻,采用一次性培养实验,研究了不同温度对两种赤潮藻生长及硝酸还原酶活力(NRA)的影响.研究结果表明,在10℃~30℃条件下旋链角毛藻均能正常生长,且生长曲线均符合S-logistic2种群增长模型;而米氏凯伦藻在10℃和30℃条件下不能正常生长,在其他温度条件下生长情况与旋链角毛藻相似.温度适宜时,两种藻的硝酸还原酶活力最大值(NRAmax)、最大生长速率(μmax)和终止生物量(Bf)随温度的变化趋势基本一致,说明温度的高低可通过影响细胞硝酸还原酶活力大小间接影响藻类的生长.旋链角毛藻单位体积的NRAmax和最大生长速率均大于米氏凯伦藻,说明旋链角毛藻能够更好地吸收利用硝酸盐.     

茶树硝酸还原酶基因克隆及表达分析

利用茶树全器官转录组文库中硝酸还原酶(NR)的EST,通过RACE技术扩增出NR基因的cDNA,并利用实时荧光定量PCR检测了NR基因在不同茶树品种中的表达。结果表明:NR基因cDNA全长2 927bp,开放阅读框2 652bp,编码一个有884个氨基酸蛋白质,GenBank登录号为JX987133。经BlastX比对,与GenBank中登录的烟草NR相似性达到74%。茶树NR蛋白属于亲水性蛋白,可能为胞质蛋白。25个茶树品种叶片中NR表达水平差异明显,最高值是最低值的22.75倍。因NR是植物氮代谢过程中的关键限速酶,推测25个茶树品种间氮吸收利用能力存在差异。     

Purification and Properties of a Type II-like Dipeptidyl Peptidase from the Ruminal Peptidolytic Bacterium,Prevotella albensis M384

A dipeptidyl peptidase which hydrolyses the synthetic dipeptidyl peptidase (DPP) substrate, Ala₂- p -nitroanilide, was purified 193-fold from the ruminal peptidolytic bacterium, Prevotella albensis M384. The enzyme was a homodimer of molecular mass 91 kDa. Its activity against Ala₂- p -nitroanilide had optimal pH and temperature of 7.2 and 40°C respectively. Enzyme activity was inhibited by the serine protease inhibitors, PMSF and dichloroisocoumarin, but not by inhibitors of other categories of proteases. Synthetic substrates for DPP-1 (GlyArg- p -nitroanilide, GlyArg-4-methoxy-naphthylamide), DPP-3 (ArgArg-4-methoxynaphthylamide) and DPP-4 (GlyPro-4-methoxynaphthylamide) or for leucine or alanine aminopeptidase were not hydrolysed, nor were di- or tripeptides. N-Acetyl-Ala₂- p -nitroanilide was not hydrolysed. Oligopeptides with Ala, Ile, Ser or Val adjacent to the N-terminal amino acid were all hydrolysed, while peptides with basic or acidic residues in the same position were not. The purified DPP from P. albensis is therefore most similar in its catalytic properties to mammalian DPP-2.     

硝酸盐对球形棕囊藻生长和硝酸还原酶活性的影响

以我国南海海域分离的赤潮原因种——球形棕囊藻(Phaeocystisglobosa)为材料,研究了不同硝酸盐浓度下藻细胞生长及硝酸还原酶活性的变化。当培养基中不含硝酸盐时,藻细胞内硝酸还原酶的活性保持在非常低的水平,藻细胞的生长受到限制,不能形成正常的生长曲线:当培养基中硝酸盐浓度为3.62μmol.L-1时,藻细胞的硝酸还原酶活性和比生长速率达到最大。在含有硝酸盐的培养基中,接种培养后第9天藻细胞硝酸还原酶活性达到最大值,并且在4种不同硝酸盐浓度下,藻细胞硝酸还原酶活性的差异性达到极显著水平(P<0.01)。在接种培养第16天藻细胞密度达到最大值,并且4种不同硝酸盐浓度培养的藻细胞密度之间的差异性也达到极显著水平(P<0.01)。实验结果表明,在培养基中添加不同浓度的硝酸盐,对球形棕囊藻细胞硝酸还原酶的活性和藻细胞的生长有极显著的影响,含有较高硝酸盐的富营养化海域有利于球形棕囊藻细胞的持续生长。     

氮素营养对苗期菘蓝叶中硝酸还原酶活性与矿质元素吸收的影响

采用正交试验设计,研究铵态氮、硝态氮和酰胺态氮3种氮素形态及其不同浓度配比对苗期菘蓝的单株干重、叶内的硝酸还原酶活性及矿质元素吸收的影响。结果显示:(1)影响苗期菘蓝单株干重的氮素形态依次为酰胺态氮>铵态氮>硝态氮。(2)不同氮素形态对叶片硝酸还原酶活性影响有差异,铵态氮影响最大,其次是硝态氮和酰胺态氮。(3)不同形态氮素配合施用后均能促进P、K、Ca、Mg、Cd、Mn、Cr、Sr 8种元素的吸收,但不利于Ni和Fe的吸收;元素吸收受铵态氮影响最大的矿质元素有K、Ba、Se、Ni、B、Si、Fe 7种元素,受硝态氮影响最大的元素有P、Cd、Ti、Al、Cu 5种元素,受酰胺态氮影响最大的元素有Na、Ca、Mg、Zn、Mo、Mn、Cr、Sr 8种元素。研究表明,不同形态氮素对苗期菘蓝吸收矿质元素的影响存在很大的差异,应注重酰胺态氮与无机的铵态氮、硝态氮的配合施用;适宜氮素形态及其配比能提高叶中硝酸还原酶的活性并促进矿质元素的吸收,从而有效地促进菘蓝的生长。     

硝酸盐对硝酸还原酶活性的诱导及硝酸还原酶基因的克隆

硝酸盐在植物体内的积累过多已成为影响蔬菜品质并影响人类健康的重要因素。硝酸还原酶（NR）是硝酸盐代谢中的关键酶,提高其活性有利于硝酸盐的降解。为了解植物不同组织中NR的活性,用活体测定法检测了经50mmol/L的KNO₃诱导不同时间后的油菜、豌豆和番茄幼苗根茎叶中NR活性,同时为了明确外源诱导剂浓度与植物体内NR活性的关系,检测了经不同浓度KNO₃诱导2h后的矮脚黄、抗热605、小白菜和番茄叶片中的NRA。结果表明,不同植物组织NR活性有很大差异,叶中NR活性较高,根其次,茎最低;不同植物的NR活性随诱导时间呈不同的变化趋势,相同植物不同组织的NR活性变化趋势相似;不同植物叶片NRA为最高时KNO₃浓度不同。用30mmol/L的KNO3诱导番茄苗2h后,从番茄根和叶中提取总RNA,用RT-PCR方法获得NR cDNA,全长2736bp,编码911个氨基酸。为进一步利用该基因提高植物对硝酸盐的降解能力打下基础。     

Characterization of Molybdenum-Free Nitrate Reductase from Haloalkalophilic Bacterium Halomonas sp. Strain AGJ 1-3

Nitrate reductase from the haloalkalophilic denitrifying bacterium Halomonas sp. strain AGJ 1-3 was isolated and purified to homogeneity. The isolated enzyme belongs to a novel family of molybdenum-free nitrate reductases. It presents as a 130-140 kD monomeric protein with specific activity of 250 micromol/min per mg protein. The enzyme reduces not only nitrate, but also other anions, thus showing polyoxoanion reductase activity. Enzyme activity was maximal at pH 7.0 and 70-80 degrees C.     

Inhibition of Wheat Nitrate Reductase Activity by Zinc

The effect of Zn^2- on nitrate reductase (NR, EC 1.6.6.1) activity was studied in botá wheat (Triticum aestivum cv. Oasis) leaves and in the NR enzyme partially purified from wheat leaves. Leaf segments were floated on 0 to 5 mM ZnSO₄ solutions (pH 6.0) for 24 h under continuous light. Zn^2- at 250 M decreased NR activity and increased membrane permeability. However, parameters of cellular oxidative damage were scarcely affected by Zn^2- treatments. Accordingly, the decrease of NR activity induced by Zn^2- was not prevented by benzoate (a scavenger of oxygen radicals). The effect of Zn^2- was dependent on leaf age: it decreased NR activity in mature but not in young leaves. Zn² inhibited the partially purified NR. This inhibition was not reversed by either co- or post-incubation with cysteine, and the amount of -SH groups of the purified NR was not affected by Zn²⁺ indicating that Zn^2- inhibition does not involve key -SH groups of the enzyme. However, o-phenantroline both prevented and reversed Zn²⁺-induced NR inhibition. We concluded that the effect of Zn²⁺ on NR activity in vivo is not associated with an increase in active oxygen generation and involves a direct and reversible inhibition of the enzyme.     

盐胁迫对盐芥生长及硝酸还原酶活性的影响

盐胁迫处理导致盐芥植株鲜重、干重、含水量、肉质化程度和根冠比都下降;根中有机物含量上升,而无机物含量下降,叶的变化与根的相反;渗透调节能力、Na 含量和根系活力上升;硝酸还原酶活性显著增加;超氧阴离子(O2-)含量先降低后升高.表面扫描电镜图像显示:盐芥叶片表面没有盐腺或盐囊泡,所以它不是泌盐盐生植物.盐芥生长状况、Na 含量和Na X-ray微区分析结果表明:盐芥也不是拒盐盐生植物,而很可能是稀盐盐生植物.     

重金属对绿球藻硝酸还原酶活性的影响

研究4种重金属离子(Cu2 、Cd2 、Zn2 、Pb2 )对绿球藻硝酸还原酶(NR)活性的影响。4种重金属离子的实验浓度分别为0.01、0.1、1、10、50、100、200 mg/L;0.1、1、5、10、50、100、200 mg/L;0.1、1、5、10、50、100、200 mg/L;0.1、1、10、50、100、200、400 mg/L,BG11培养基作对照。研究结果表明:Cu2 、Cd2 分别在低浓度0.01、0.1 mg/L时,便开始抑制硝酸还原酶活性,随着Cu2 、Cd2 浓度增加,抑制作用增强,酶活性逐渐降低;当Cu2 、Cd2 ≥10 mg/L时,NR活性检测不到。当Zn2 、Pb2 浓度分别低于0.1 mg/L和50 mg/L时,NR活性随着培养基中Zn2 、Pb2 浓度的增大逐渐增强;当Zn2 、Pb2 浓度分别大于0.1 mg/L和50 mg/L时,NR活性逐渐降低。结果提示:从4种重金属离子对NR活性的影响看,绿球藻对Zn2 、Pb2 耐受力高,特别是Pb2 ,而对Cu2 、Cd2 的耐受能力要低些。     

Effects of Sulfur and 6-Benzvladeine on the Nitrate Reductase Activity in Rice Seedlings

The effects of sulfur and 6-Benzyladeine on the nitrate reductase activity in rice seedlings were studied by the water culture method. The activity of nitrate reductase was decreased, when plants were grown in sulfur deficient solution. Both sulfur deficient plant and the control were treated in nutrient solution with 6-Benzyladenine concentration of 0.01, 0.1 or 1ppm. It was found that the nitrate reductase activity of former plant was increased, while the activity of the latter one was decreased. When the plants were treated in untrient solution with 6-Benzyladenine concentration of 1 ppm, the transformation of inorganic sulfur to organic compounds was markedly increased in the sulfur deficient plant. However it was decreased in control plant.     

硝酸还原酶抑制剂钨酸钠对油菜硝态氮积累的影响

采用溶液培养方法,选取硝酸盐积累差异明显的两个油菜品种（低硝态氮积累品种‘红油3号’和高硝态氮积累品种‘中双6号’,研究苗期根系硝酸还原酶（NR）活性被抑制以后两个油菜品种叶片、叶柄和根系中NR活性和硝态氮含量的变化。结果表明：1.0mmol.L-1的NR活性抑制剂Na2WO4对两个油菜品种的根系NR活性抑制效果最佳;根系NR活性被抑制以后,两个油菜品种的根系NR活性、硝态氮吸收速率均显著下降,而硝态氮含量却显著上升;且Na2WO4对‘中双6号’硝态氮吸收的抑制程度强于其对‘红油3号’的抑制。叶片和叶柄的NR活性变化不显著,但叶柄硝态氮含量显著下降,叶片硝态氮含量稳定,且这一趋势在低积累品种‘红油3号’中表现得更为明显。     

Morganella morganii J-8羰基不对称还原酶的分离纯化及性质研究

由本实验室筛选得到的摩尔摩根氏菌J-8菌株可将底物1-苯基-2-甲氨基丙酮专一性地转化为d-伪麻黄碱。以M. morganii J-8为出发菌株,菌体超声破碎后,经硫酸铵沉淀、Phenyl Superose疏水柱层析、DEAD阴离子柱层析和非变性凝胶电泳四步纯化获得电泳纯羰基不对称还原酶。亚基分子质量为42.5 kD,高效液相色谱分析酶的分子质量约为84.1 kD,初步认为该酶为二聚体蛋白。对所得到的部分纯化酶的酶学性质做了初步研究,纯酶进行基质辅助激光解析电离-飞行质谱分析,比对结果显示为与亮氨酸脱氢酶蛋白有很高相似性。     

氰酸钾对Chlamydomonas reinhardii硝酸还原酶的诱导

单胞绿藻和高等植物一样通过硝酸还原酶(NAD(P)H-NR,EC 1,6.6.2)和亚硝酸还原酶(EC 1.7.7.1)同化硝酸盐(Florencio和Vega1982)。一般来说,硝酸盐是诱导NR活力所必需的。在某些情况下,6-RA等激素、NO_2~-、氯霉素、低pH、某些有机酸和含氮化合物和氮饥饿也     

Morganella morganii J-8羰基不对称还原酶的分离纯化及性质研究

由本实验室筛选得到的摩尔摩根氏菌J-8菌株可将底物1-苯基-2-甲氨基丙酮专一性地转化为d-伪麻黄碱。以M. morganii J-8为出发菌株,菌体超声破碎后,经硫酸铵沉淀、Phenyl Superose疏水柱层析、DEAD阴离子柱层析和非变性凝胶电泳四步纯化获得电泳纯羰基不对称还原酶。亚基分子质量为42.5 kD,高效液相色谱分析酶的分子质量约为84.1 kD,初步认为该酶为二聚体蛋白。对所得到的部分纯化酶的酶学性质做了初步研究,纯酶进行基质辅助激光解析电离-飞行质谱分析,比对结果显示为与亮氨酸脱氢酶蛋白有很高相似性。     

野油菜黄单胞菌中烯脂酰ACP还原酶的功能鉴定

烯脂酰ACP还原酶是细菌脂肪酸合成的关键酶之一.本研究通过生物信息学分析发现,野油菜黄单胞菌Xanthomonas campestris(Xcc)8004基因组中XC_0119(Xccfab V)注释为反-2-烯脂酰Co A还原酶基因.但其编码产物与铜绿假单胞菌的烯脂酰ACP还原酶Fab V具有较高的同源性,并含有相同的催化活性中心Tyr-(Xaa)8-Lys序列.用携带Xccfab V的质粒载体互补大肠杆菌fab I温度敏感突变株JP1111,转化子能在42℃生长,表明Xccfab V能遗传互补大肠杆菌fab I突变.体外重建脂肪酸合成反应表明,Xcc Fab V能催化不同链长的烯脂酰ACP还原为脂酰ACP,且催化活性不受三氯森抑制.遗传学研究表明,Xccfab V是必需基因,不能获得Xccfab V基因敲除突变株.将携带大肠杆菌fab I的外源质粒导入野生菌后,可敲除染色体上的fab V基因,获得的替换突变株生长特性和脂肪酸组成未发生显著变化,但替换突变株对三氯森敏感.上述结果证实,野油菜黄单胞菌fab V是必需基因,编码烯脂酰ACP还原酶,参与脂肪酸从头合成反应,且Fab V是Xcc对三氯森耐受的根本原因.     

Primary Analysis of Components in Different Soybean Nodulating Mutants and their Effects on Nitrate Reductase Activity and Nodulation

The water extracts of leaves and roots from supernodulating soybean (Glycine max (L.) Merr. ) nts 382 and nonnodulating soybean Nod 49 have been chromatographed using filtering method through the column (25 cm × 2 cm) Sephadex G25 and 4 fractions, namly, nts 382 (Nod 49) F1, nts 382 (Nod 49) F2, nts 382 (Nod 49) F3, and nts 382 (Nod 49) F4 could be distinguished according to nitrate reductase (NR) activities inhibited by the eluate. The inhibition of NR activity by the noninoculated nts 382 F2 and the nts 382 F4 in vitro were much stronger than that by the inoculated nts 382 F2 and nts 382 F4. On the contrary, the obvious inhibition of NR activity in vitro by the noninoculated Nod 49 F2 and Nod 49 F4 were substantialy strengthed again by the innoculated Nod 49 F2 and Nod 49 F4. The facts indicated that the quantity of NR inhibitors in the leaf cells of soybean nts 382 reduced after the inoculation but was that in the inoculated Nod 49 leaf cells further more accumulated. Both nodulations assays, the nodulation of soybean "Bragg " injected with inoculated nts 382 Fl, nts 382 F2, nts 382 F3 and nts 382 F4 from leaves and roots and the nodulation of soybean nts 382 injected with inoculated Nod 49 F2, Nod 49 F3 and Nod 49 F4 from leaves only showed that nts 382 Fl and nts 382 F2 increased nodules of soybean "Bragg" by 1 to 3 times but nts 382 F3 and nts 382 F4 did not. Inhibition of soybeannts 382 nodulation by inoculated Nod 49 F2 Nod 49 F3 and Nod 49 F4 expressed that the Nod 49 F4 only inhibited the nodulation strongly by one time in the experiments with nts 382 plants with leaves, and by 15 times in the experiments with nts 382 plants without leaves at 10 d of inoculation and injection and this inhibition was nonreversible even after stopping injection from the 11th day to the 15th day after inoculation.     

流产布氏杆菌烯脂酰ACP还原酶的鉴定

烯脂酰ACP还原酶是细菌脂肪酸合成的关键酶之一．流产布氏杆菌基因组有2个注释为烯脂酰ACP还原酶基因fabI的同源基因：fabI1和fabI2．由这2个fabI同源基因编码的蛋白质分别与大肠杆菌FabI有50%和51%的同源性,且都拥有与大肠杆菌FabI一样的催化中心Tyr-(Xaa)₆-Lys序列．分别用携带这2个同源基因的质粒载体转化大肠杆菌fabI温度敏感突变菌株JP1111．转化子能在42℃生长,表明这2个基因均能遗传互补大肠杆菌fabI突变,并使此菌株恢复脂肪酸的合成．另外,体外酶学分析显示,由这2个同源基因编码的蛋白质都拥有烯脂酰ACP还原酶活性,均能参与细菌脂肪酸合成．上述结果证实,流产布氏杆菌同时拥有2个同种类型的烯脂酰ACP还原酶,是一种新的烯脂酰ACP多样性的表现．