NO对Cd2+胁迫下绿豆幼苗DNA及光合作用的影响

以绿豆幼苗为材料,研究了外源一氧化氮(NO)处理对Cd~(2+)胁迫3天和8天时幼苗叶片和根系DNA含量、DNA链间交联程度以及叶片光合参数的影响。结果表明:单独Cd~(2+)胁迫导致叶片和根系DNA含量降低,DNA链间交联程度增加,叶片净光合速率、气孔导度和胞间隙CO2浓度降低,气孔限制值升高;与单独Cd~(2+)胁迫相比,NO和Cd~(2+)复合处理提高了叶片和根系DNA含量,降低了DNA链间交联程度,同时使叶片净光合速率和气孔导度升高,而使胞间隙CO2浓度和气孔限制值降低。结果说明,NO能缓解Cd~(2+)胁迫对绿豆幼苗DNA结构及其代谢的影响;Cd~(2+)胁迫抑制绿豆幼苗光合作用的主要原因是气孔因素,而NO主要通过提高幼苗叶片非气孔因素缓解了Cd~(2+)胁迫对幼苗光合作用的抑制。     

N-TiO2/PSF中空纤维复合膜光催化烟气脱硝研究

采用溶胶-凝胶法以聚砜(PSF)中空纤维膜为载体制备了N-Ti O2/PSF中空纤维复合膜催化剂,考察其光催化烟气脱硝性能.紫外光催化的NO去除效率可达63%,去除负荷可达213.6 g·m-3·h-1.采用紫外-可见光谱(UV-Vis)、X-射线光电子能谱(XPS)和傅里叶变换红外光谱(FTIR)表征了N-Ti O2/PSF中空纤维复合膜催化剂.UV-Vis光谱分析表明,掺杂N改性的Ti O2复合膜光催化层在紫外和可见光波段的吸收性能都有极大的改善.XPS证明了O—Ti—N键能的存在.N-Ti O2/PSF中空纤维膜光催化处理NO的作用机制为NO气体通过中空纤维膜传质到NTi O2催化膜,光催化产生羟基自由基和超氧负离子,NO气体被羟基自由基和超氧负离子氧化成易处理的NO2和HNO3.     

Characteristics of emissive spectrum and the removal of nitric oxide in N2/O2/NO plasma with argon additive

Although the approach using non-thermal plasma (NTP) for deNOx has been studied for over 15 years, how to achieve higher removal e ciency with lower cost is still a barrier for its industrial application. In order to investigate the impact of the argon additive on electron density, energy and nitric oxide reduction process in plasma, the spectrum of the dielectric barrier discharge at atmospheric pressure in a coaxial reactor was measured using the monochromater with high resolution. The comparative experiments for NO reduction were carried out simultaneously in N2/O2/NO plasma stream with and without argon, respectively. The nitrogen molecular spectrum which is attributed to the energy level transition (C3 u ! B3 g) was compared in the wavelength range 300–480 nm and the electron density and temperature were determined based on the relative intensities and Stark broadening width of spectral lines. The spectrum results indicated that the argon additive could enhance the intensity of emissive spectrum of plasma, thus the electron concentration as well as the energy was increased, and finally prompted the ionization rate to produce active N, O and O3. The results of NO reduction showed that NO conversion e ciency increased in the range of 10%–30% with 5% addition of argon in stream comparing with the condition without argon additive. This study will play a positive role in the industrial application of dielectric barrier discharge deNOx reactor.     

EDTA对生物转鼓的NO废气净化效率的影响

生物转鼓过滤器(Rotating Drum Biofilter,RDB)是一种能有效净化氮氧化物废气的新型生物反应器,但在之前的实验发现,由于NO在液相中的低溶解度降低了NO在RDB中的传质效果,从而影响其去除效率。改善气液传质速率是整个反硝化降解NO过程的关键步骤,实验用CuⅡ(EDTA)、ZnⅡ(EDTA)、MgⅡ(EDTA)和FeⅡ(EDTA)等络合剂添加到营养液中,利用NO能与络合剂结合的原理,使得NO能快速溶于液相,从而使NO去除效率由原来平均85%提高到98%。     

内源性气态SO2对血管的舒张作用及其机制Ⅲ：信号转导途径

为了从信号转导途径的角度探讨内源性气态SO2引起血管舒张的机制,采用将气态SO2或SO2生理盐水溶液加入孵育液的方法,使SO2分子直接作用于离体大鼠胸主动脉血管环,同时使用不同信号转导途径抑制剂,研究了内源性气态SO2诱发血管舒张的信号转导机制,并采用类比法研究了SO2对Krebs液pH的影响及其与血管舒张的关系.结果显示:1)内源性气态SO2对大鼠血管的舒张作用是SO2分子直接作用引起的,与SO2引起的pH值轻度降低无关;2)气态SO2在生理浓度和低浓度(<450μmol·L-1)引起的舒血管作用主要是通过NO/cGMP途径介导;3)很低浓度的气态SO(23μmol·L-1)和NO(3或5nmol·L-1)在引起血管舒张作用时有协同作用,二者在体内联合发挥对血管张力的调节作用.结论:1)SO2是血管组织的一种内源性气体舒张因子;2)SO2与NO可以协同调节血管张力,二者可能存在某种形式的交叉对话作用.     

增强UV-B辐射下一氧化氮对小球藻氮素代谢和类囊体的保护作用

由于到达地球表面的紫外线B辐射不断加强,生物生长受到了威胁.UV-B的增强改变了生物体赖以生存的环境,影响了藻类生物生长,抑制了其光合作用.以BG11为培养基,在室内培养的条件是光照强度为60 μmol·m-2s-1(昼夜比为12 h:12 h),温度为26℃,研究了一氧化氮(NO)在增强uv-B(强度为0.2J·m-2s-1)辐射下的对小球藻的作用.测定了小球藻的硝酸还原酶(NR,nitrate reductase)、亚硝酸还原酶(NiR,nitrite reductase)、谷胱甘肽还原酶(GS,glutamine synthetase)、谷氨酸一草酰乙酸转氨酶(GOT,Glutamine aminotransferase)的活性变化,并对小球球藻进行了显微结构观察.结果显示:在增加UV-B辐射下,一氧化氮能够提高其氮素代谢酶类活性,保护内囊体膜避免UV-B的损伤.结论是UV-B辐射下一氧化氮对小球藻具有保护作用.     

催化氧化法去除烟气中NOx的研究进展

针对烟气中NOx的特点,从催化机理、催化活性和抗硫性能等角度分析了分子筛、活性炭、金属氧化物和贵金属等不同类型催化剂催化氧化NO的特点及存在的问题,指出：在保证NOx氧化度为50%~60%的前提下,降低催化反应的反应温度（低于200℃）和提高催化剂的抗硫性及抗水中毒性仍是今后研究的主攻方向;在活性组分方面应将Mn,Co,Cu,Cr,V等过渡金属氧化物作为研究重点,应选择酸性较强的或不易硫酸盐化的T iO2,S iO2等作为催化剂载体。     

Mechanism of NO reduction with non-thermal plasma

Non-thermal plasma has been proved to be an effective and competitive technology for removing NO in flue gas since 1970. In this paper, the NO reduction mechanism of the non-thermal plasma reaction in NO/N2/O2 system was investigated using the method of spectral analysis and quantum chemistry. By the establishment of NO reduction and gas discharge plasma emission spectrum measuring system, the NO reduction results, gas discharge emission spectra of NO/N2/O2 and pure N2 were obtained, and then the model of molecular orbit of N2 either in ground state or its excited state was worked out using the method of molecular orbit Ab initio in SelfConsistent Field(SCF). It was found that NO reduction in NO/N2 gas discharge plasma was achieved mainly through a series of fast elementary reactions and the N(E6) at excited state was the base for NO reduction.     

外源NO对Cu胁迫下番茄幼苗L-精氨酸代谢的影响

一氧化氮(nitric oxide,NO)作为生物活性分子,广泛参与各种生物和非生物胁迫。采用营养液培养,研究Cu胁迫下番茄体内L-精氨酸、NO、多胺代谢对外源NO的响应机制,以期为铜污染区域蔬菜种植提供科学依据和技术支持。结果表明,Cu胁迫下添加外源SNP(硝普钠,外源NO供体)能够调节番茄根系和叶片中精氨酸脱羧酶(Arginine Decarboxylase,ADC)、鸟氨酸脱羧酶(Ornithine Decarboxylase,ODC)及一氧化氮合酶(Nitric Oxide Synthase,NOS)活性。根系中,外源SNP能够上调NOS活性,L-精氨酸代谢向着NO合成方向进行;叶片中,外源SNP能够同时上调ADC、ODC、NOS活性,PA、NO的合成同时进行;此外,Cu胁迫下添加外源SNP能够增加根系和叶片L-精氨酸含量,而作为PA、NO的合成前体,精氨酸含量升高无疑会间接促进PA、NO的合成,从而提高番茄对Cu胁迫的抵抗能力。     

六铝酸盐负载CuO催化还原NO性能

采用共沉淀法制备了LaAl12O19六铝酸盐载体,采用等体积浸渍法制备了不同负载量的CuO/LaAl12O19催化剂,并对其进行了XRD、H2-TPR和BET表征,考察了催化剂对CH4选择催化还原NO的性能.结果表明,CuO的负载并未改变六铝酸盐载体的结构,Cu在载体上以Cu2+的形式存在,活性组分CuO与载体LaAl12O19之间存在协同作用;CuO/LaAl12O19催化剂对CH4选择催化还原NO表现出良好活性,所制备的催化剂均能使NO的转化率达到99%;其中负载量为1.0 wt%的CuO/LaAl12O19催化剂的活性最好,完全反应温度T99%为560℃,且在80 h稳定性试验中表现出了良好的高温活性和热稳定性.