几种固氮菌突变种固氮酶的特性及晶体生长

一，缺失nifZ的棕色固氮菌突变种钼铁蛋白的晶体生长的研究进展 在一定的结晶条件下，缺失nifZ的棕色固氮菌突变种钼铁蛋白将从溶液中结晶出深棕色的短斜四棱柱晶体。PEG 8000、MgCl2、NaCl、Tris的浓度及缓冲液的pH对该蛋白的结晶及晶体生长影响的系统研究表明，它们的浓度和pH较低时，不出晶体;当pH高于8.0，随着前三种化合物浓度的逐渐提高，便在一周内出现大量小品体;再提高浓度后，便延长结晶时问但出质好、数少而个大的晶体;然后晶体随浓度的提高而又变小、变多、甚至晶质变差，直至不再出晶体。影响晶体生长的各因子的最适浓度随其它条件的改变而有所不同。当缓冲液的pH为8.2而PEG 8000，MgCl’、NaCI、蛋白质和Tris的浓度分别为1.86%、300 mmol/L、400 mmoUL、4.64g/L、53 mmo/L时，首次发现在一滴悬滴结晶液中只有一颗较大的优质晶体（最大两边线度均为0.16mm）。 二，从分别含Mn和Cr的培养基中生长的固氮菌突变种UW3中纯化的固氮酶的特性和结晶 缺失nifH基因的棕色固氮菌突变种UW3，在有钼环境中不能固氮生长，但能在无钼而含MnS01或Na2Cr01的无氮培养基中固氮生长。分别经超声破碎、加热除去部分杂蛋白、离子交换柱层析和Sephacryl S-200或S-300柱层析的分离纯化，分别得到二种固氮酶组分l蛋白。金属元素测定表明，这两种蛋白除含铁元素外还分别含有锰和铬元素。它们的吸收光谱、CD和AR谱互不完全相同，并都与OP-MoFe蛋白存在较大差异。含Mn固氮酶也能还原C2H2、质子和N2，对它们的还原的比活性都分别约为MoFe蛋白活性的50%。初步结果表明，这一突变种在这两种培养条件下都可能已表达了不同于已发现的三种固氮酶的新固氮酶组分l蛋白-MoFe、VFe和FeFe蛋白，分别为含Mn或Cr的固氮酶组分1蛋白，分别被称为uw3，-MnFe蛋白和UW3-CrFe蛋白。通过对PEG 8000、MgCI2、NaCI和缓冲液的种类和浓度等结晶条件的大量优化组合实验，首次获得uw3-MnFe蛋白和UW3-CrFe蛋白的的晶体。最大晶体为21.4×14.3×2.1μm。

异氰酸醋官能化乙丙共聚物的制备及其与尼龙6共混体系的研究

本工作合成了一种含异氰酸酷功能基团的不饱和单体，（3-异氰酸酯基-4-甲基）苯氨基甲酸-2-丙烯配（TAI）。以过氧化二异丙苯（OCP）为引发剂，该单体被用于乙烯丙烯共聚物（EPM）的自由基溶液接枝官能化。纯化后的接枝产物（EPM-g-TAI）的傅立叶变换红外光谱中存在2273cm-l异氰酸酷基团（-NCO），表明异氰酸醋单体已经接枝到乙丙共聚物上。接枝率采用化学滴定和红外光谱的方法确定。与EPM相比，EPM-g-TAl的分子量分布（MMO）变窄。采用旋转流变仪测定了EPM-g-TAl的流变行为。EPM-g-TAl的表观粘度高于EPM且随接枝率的增加而增加。采用接触角测定的表面分析表明，对于给定的的极性测定液体接枝产物的接触角随接枝率的增加而增大；我们同时得到接枝产物的表面自由能（75）以及表面自由能的色散分量（γs）和表面自由能的极性分量（γsρ），这些参数随接枝率提高而增大的趋势使我们可以定量估计接枝反应对改善极性的贡献。本工作研究了（3一异氰酸酯基-4-甲基）苯氨基甲酸-2-丙烯醋（TAl）官能化乙烯丙烯共聚物（EPM-g-TAI）与尼龙6（PA6）的反应共混。傅立叶变换红外光谱表明，由于EPM-g-TAl中的异氰酸醋基（-NCO）与尼龙6中的端胺基（-NH2）之间的化学反应：EPM-g-TAI／PA6谱图中3299cm-1处的阵日伸缩振动峰变窄变高，1640cm-1处阵日变形振动峰和1547cm-1处阵日弯曲振动峰变强。同时研究了共混体系的热性能、流变性能、机械性能和形态特征。OSC结果表明，在相同的共混组成下，EPM-g-TAI／PA6共混体系中尼龙6的结晶烩（△Hc）到氏于EPM／PA6共混体系中的尼龙6，这种差别随着共混物中乙烯丙烯共聚物含量的增加而增大，说明反应共混体系中尼龙6的结晶受到一定的限制；EPM-g-TAI／PA6共混体系的复数粘度和贮能模量高于相应的EPM／PA6共混体系；与相同组成的EPM／PA6相比，EPM-g-TAI／PA6中分散相的粒子尺寸更小，粒子分布更均匀，界面粘合更强；反应共混后的机械性能如拉伸强度、杨氏模量，弯曲强度和模量、缺口及非缺口冲击强度均随着接枝率的提高而增加。

影响沼气甲基产孢弧菌生长及其甲烷单加氧酶活性的若干因素研究

本文叙述了影响甲烷氧化细菌沼气甲基产孢弧菌81Z菌株生长和甲烷单加氧酶(MMO)活性的若干因素。沼气甲基产孢弧菌81Z菌株细胞生长被高浓度PO43-(>8mM),NH4+([NH4cl]>500mg/l)抑制；[CuSO4·5H2O]在0～4mg/l范围内。生长随[Cu2+]升高而加强，低[Cu2+](0.1mg/l CuSO4·5H2O)培养基中，添加Cocl2·6H2O(0.238mg/l)；促进菌体细胞生长。发酵罐分批培养过程中，生长延迟期过后，沼气甲基产孢弧菌81Z菌株细胞MMO比活很快达到最高，并稳定至对数生长中后期，随即急剧下降至初始水平。发现沼气甲基产孢弧菌81Z细胞中存在一种MMO活性，它不同于已报道过的两种MMO,MMOL最适PH6.2～6.4，4℃相对稳定，其产生不受培养基中[Cu2+]调控能与甲醇-甲醇脱氢酶系统相偶联，在无细胞抽提液中其活性被400μM[Cu2+]抑制。在低[Cu2+]发酵罐培养条件下，沼气甲基产孢弧菌81Z菌株产生可溶性MMC，其最适PH7.0，4℃不稳定，可被DE-52分离为三组分：A、B、C。为了获得沼气甲基产孢弧菌81Z细胞MMO的最佳催化活性，①采用高[Cu2+]培养基进行发酵罐培养，收集对数生长中期的细胞；②选择反应缓冲液PH6.3；③反应体系中添加5mM甲醇或甲酸是有效的方法。在本研究所采取过的最佳条件下，测得MMO活性为15.9nmol/min·mg干细胞，是以前报道的该菌株活性0.97nmol/min·mg干细胞的十六倍。Some factors which influence growth and MMO activity of Methylosporovibrio methanica 81Z were described. The growth of Methylosporovibrio methanica 81Z is inhibited by high concentration of PO43-(8mM)or NH4+(500mg/lNH4cl). The growth of Methylosporovibrio methanica 81Z increased with rising of copper concentration up to 4mg/l CuSO4·5H2O. At low copper concentration(0.1mg/lCuSO4·5H2O),adding Cocl2·6H2O(0.238mg/l)could enhance the growth of Methylosporovibrio methanica 81Z.With batch culture of Methylosporovibrio methanica 81Z in a fermentor, after lag phase, the activity of MMO reached the highest level rapidly and steady until later log phase, then falled to initial level.MMOL activity differenct from that of two types of MMO reported before was found from Methylosporovibrio methanica 81Z with optimum PH value from 6.2 to 6.4 and relative stabilty at 4℃. Synthsis of the MMOL was not regulated by copper concentaration in medium. Its activity could couple with methane-l-methanoldehydrogenase system, and in cell-free extract, were inhibited by 400μm copper ion. At low copper concentration(0.1mg/lCuSO4·5H2O) and in a fermentor, Methylosporovibrio methanica 81Z could syntheis soluble MMO similar to solble MMO reported before by Palton and Patel. Its optimum PH value was 7.0. It was unstable at 4℃. It could be resoluted into three components: A, B, and C. It was effentive for obtaining the maxtmum MMO with Methylosporovibrio methanica 81Z that (1) to keep high copper concentration(4mg/lCuSO4·5H2O) in a fermentor and harvest cell at middlel lag phase;(2) to choose 6.3 as the PH value of reaction buffer;(3)and to add 5mM methanol or formate into reaction system. In this dy, the MMO activity of cells of Methylosporovibrio methanica 81Z was reached 15.9 nmol/min.mg, dry weight, sixteen times as high as the value(0.97nmol/min.mg, dry weight) reported with the same strain.

一种新奇的甲烷氧化细菌——能兼性营养和厌氧生长的沼气甲基弯菌

经过细心的条件选择实现了无甲烷条件下甲烷氧化菌沼气甲基弯菌81Z(methylosinus methanica 81Z)利用C2化合物的生长，同时 发现二碳代谢中间产物甘氨酸的胞外积累及对生长的抑制作用。又在此基础上从81Z原种中富集得到一株菌81Z-A，兼性生长能力大 幅度提高，而且除乙酸外又能利用丙酮酸、苹果酸、柠檬酸、葡萄糖而生长。对细胞氧化各种有机底物时氧吸收的测定及酶分析结 果发现了在其它甲烷氧化细菌中未曾发现的异柠檬酸裂解酶和苹果酸酶的存在，表明81Z除了具有通常II型菌的碳代谢途径外，具 有特殊的补偿代谢途径——乙醛酸支路以及从乙酸生糖的回补途径。因此推证其兼性生长的能力是固有的，从而说明了甲烷氧化菌 的专一性概念没有普遍意义。说明了81Z还能在含有二碳的培养基中厌氧生长，包括细胞的分裂和增值行为。虽然这种厌氧生长还 很弱，但至少可以说明它不是严格好氧的，这对于传统的关于甲烷氧化菌的严格好氧的概念是一个冲击。81Z正常条件下是利用甲 烷而生长的，当供给它乙酸、乙醛酸和丝氨酸时能促进含C-C键有机物氧化的活性，而对甲烷单加氧酶和其它C2化合物的氧化有抑 制或阻遏作用，对碳同化的丝氨酸途径的关键酶羟基丙酮酸还原酶有阻抑作用。同时也证明了81Z的甲烷单加氧酶和甲醇氧化活性 可被甲烷、甲醇所诱导，而因甲酸而降低。The growth of Methylosinus methanica 81Z on C2-compounds without methane was realized by selecting suitable conditions. The intermediate product Gly from its C2 metabolism was found to accumulate out cells and inhibit its growth. 81Z-A, which was obtained from 81Z by richening, could grow on C2- compounds rapidly. It can even grow on pyruvate, malate, citrate and glucose. The results of measurements of oxygen consumption by cell suspensions in the presence of various organic compounds and the results of enzyme assays of detected activities of isocitrate lyaze and malic enzyme in cell extracts which were not found in other methantrophs showed that 81Z possesses not only the regular carbon metabalic pathways but also some peculiar anaplerotic pathways--the glyoxylate cycle and the gluconeogenic pathway from acetate. As a consequence of these studies, its ability of facultative growth is inherent. Therefore, the concept of obligate dependence on C2- compounds of methanotrophs is not of universal significance. The ability of 81Z's growth(including desintegration and proliferation behaviour) on C2-compounds anaerobically was also demonstrated. Despite of the weakness of this growth, at least it could be said that 81Z is not strictly aerobic. This is a strike to the traditonal concept about the strictly aerobic action of methanotrophs. Regularly, 81Z grows on methane. The presence of acetate, glyoxylate and serine could increaze its ability of oxidizing the organic coumpounds containing C-C ponds. In contrast, they could inhibit the activities of MMO and other C2-compounds oxidation, they also repressed the key enzyme hydroxypyruvate reductase of the serine-pathway for carbon assimilation. At the some time, it was testified that the activities of MMO and methanol oxidation were inducible by methane or methanol and were lower in the presence of formate.

高温高压和不同氧逸度下上地幔矿物岩石电导率的实验研究

借助于YJ-3000t六面顶高压设备和Solartron-1260阻抗/增益相位分析仪，在1.0~4.0 GPa和1073~1473 K及NNO (Ni+NiO)、IM (Fe+Fe3O4)、IW (Fe+FeO) 和MMO (Mo+MoO2) 4种固态氧缓冲剂控制氧分压条件下就位测量了单晶辉石、辉石岩、单晶橄榄石和二辉橄榄岩的电导率。取得如下结果： 1、在实验选择的频率范围10-1~107 Hz，无论从阻抗谱的Nyquist图还是Bode图均可以看出，电导率对频率具有很强的依赖性； 2、随着温度升高，电导率增大，Lg σ与1/T之间符合Arrhenius线性关系式； 3、在 IM和NNO固态氧缓冲约束条件下，随着压力升高，电导率降低，获得了一系列表征样品体系载流子特征的指前因子、活化能、活化焓和活化体积等Arrhenius参数； 4、在给定压力和不同氧缓冲剂控制下，按照NNO、IM、IW和MMO氧逸度降低的顺序，电导率减小； 5、在2.0 GPa和NNO控制下，按照 (001)、(100)、(010) 的顺序，透辉石的电导率和指前因子减小，活化焓增大，电学性质在不同晶面方向上存在各向异性； 6、样品中的小极化子导电机制可为电导率、指前因子、活化焓和活化体积等随温度、压力及氧逸度的变化规律提供合理解释。