烷基苯磺酸盐的电喷雾离子化质谱和碰撞活化解离质谱-质谱分析

用正、负电喷雾电离 (ESI)并结合碰撞活化解离 (CAD)质谱法对烷基苯磺酸盐(ABS)进行鉴定。无论正、负离子化过程中均不出现快原子轰击质谱常见的碎片峰 ,由于没有复杂碎片峰的干扰 ,ESI -MS对分析ABS试样大为有利。正离子ESI -MS对支化ABS鉴定的灵敏度远低于负离子ESI-MS。用CAD -MS -MS对ESI -MS谱各主要峰进行了归属。线型与支化ABS相对含量可以用负离子ESI-MS求出。负离子化ESI-MS是快速。

六铝酸镧LaNiAl_(11)O_(19)上CH_4的活化及CO_2重整反应机理研究

本文通过脉冲反应,在还原态六铝酸镧LaNiAl11O19催化剂表面,考察了CH4和CO2的活化及CO2重整过程,提出了甲烷CO2重整制合成气的反应机理.研究表明,在还原态六铝酸镧LaNiAl11O19催化剂上,Ni0是CH4和CO2活化解离的活性中心.在CO2重整过程中,六铝酸镧LaNiAl11O19对甲烷裂解积炭和二氧化碳消炭反应都有很高的催化活性,二氧化碳的消炭作用促进了甲烷的活化裂解,同时甲烷裂解积炭提高了二氧化碳消炭及活化解离生成CO,两个反应相互促进.

糖蛋白糖基化位点及糖型的多重质谱分析

以糖蛋白核糖核酸酶B(RNase B)为研究对象,采用基质辅助激光解吸电离-串联飞行时间质谱(MALDI-TOF/TOF-MS)、傅里叶变换离子回旋共振质谱(FT-ICR-MS)的碰撞活化解离(CAD)和电子转移解离(ECD)多种质谱技术对RNase B的糖肽的完整信息进行解析。通过多种质谱相互验证,确定了RNase B的糖肽组分的氨基酸序列为SRNLTK、糖链结构为(Hex NAc)2(Hex)5-(Hex NAc)2(Hex)9及糖基化位点为第34位氨基酸残基。本方法为糖蛋白结构的全面解析提供了一种快速、有效、全面的研究思路。

不同电荷态泛素蛋白离子的193 nm紫外光解离质谱

将193 nm激光与傅里叶变换离子回旋共振(FT-ICR)质谱仪结合,研究了不同价态的泛素蛋白离子的紫外光解离质谱.结果表明,在光解离过程中向分析池内引入适量的碰撞气,不仅能增加母体离子的裂解率,也能提高碎片离子的捕获效率.相对于碰撞辅助解离(CAD)中产生的b和y离子,紫外光解离(UVPD)方法能够产生更为丰富的不同种类碎片离子.其中,对于+11价泛素离子,蛋白质序列的覆盖率接近80%,远高于对应的CAD实验结果.与已往报道不同的是,裂解覆盖率呈现出较强的电荷相关性.因此,如何进一步提高较低电荷态的蛋白离子的解离效率和序列覆盖率还需深入研究.

钠离子化和质子化环肽类似物的碰撞裂解途径比较

近年来,环肽因其生物学功能和结构多样性受到广泛关注,但它们的结构鉴定比线性肽更困难。碰撞活化解离(CAD)质谱技术是分析环肽结构的重要手段。本工作通过电喷雾电离技术产生4种环肽类似物的钠离子化和质子化离子,并采用串联质谱进行研究。钠离子化和质子化离子的CAD谱图表现出较大差异,其中钠离子化复合物在测序方面优于质子化复合物。对于钠离子化复合物来说,钠离子与环内的主链羰基氧原子配位,其CAD谱图易于解析;而质子化复合物的CAD谱图存在多个平行的解离通道,比较复杂,并且这种复杂性与环肽类似物的官能团密切相关。结合2种复合物的CAD谱图,可以提供环肽类似物的互补信息,使其结构鉴定更加可靠。

Synthesis of one-dimensional carbon nanostructures and their application as anode materials in lithium ion batteries

An efficient synthesis of carbon nanofibers by pyrolysis of as-prepared polypyrrole nanowires was reported. Under the subsequent KOH activation, a significant morphology variation was detected and the obtained sample took on a ribbon-like structure. The morphology and structure of the carbon nanofibers and carbon nanoribbons were characterized. When the as-prepared one-dimensional carbon nanostructures were used as anode materials in lithium ion batteries, both of them exhibited superior cyclical stability and good rate properties. After 50 cycles, the reversible capacity of carbon nanofibers electrode maintained 530 mA·h/g. Concerning carbon nanoribbons, the reversible capacity is always larger than 850 mA·h/g and the reversible capacity retention after 23 cycles is 86%.

甲烷在O／Ni（100）表面上的反应动力学研究

甲烷在Ｏ／Ｎｉ（１００）表面上的反应动力学研究俞华根，程极源（中国科学院成都有机化学研究所，成都６１００１５）关键词甲烷，活化解离，预吸附氧，Ｎｉ（１００）表面，分子动力学，势能面甲烷在金属催化剂表面活化解离是重要的催化反应，受到了高度重视．近年来，...

Purification and Characterization of Flammulin,a Basic Protein with Anti-tumor Activities from Flammulina velutipes

Aim To purify and characterize flammulin, a basic protein with anti-tumoractivities. Methods Ammonium sulfate, ethanol fractionation and column chromatography were used forseparation and purification. Electrophoretic analysis, amino acid analysis, and MS of flammulin werecarried out. Results Flammulin was purified to electrophoretic homogeneity and crystallized. With amolecular mass of 19891.13 Da, pI 8.9, λ_(max) = 276 - 278 nm, λ_(min) = 250 nm, flammulin wascharacterized by its lack of methionine. Fingerprint mapping of flammulin was determined by MALDI-MSfollowing in-gel protease digestion; no close matches were identified. Conclusion Flammulin waspurified to electrophoretic homogeneity, and its characteristics are discussed for the first time.