Behavior of lysozyme adsorbed onto biological liquid crystal lipid monolayer at the air/water interface

The interaction between proteins and lipids is one of the basic problems of modern biochemistry and biophysics.The purpose of this study is to compare the penetration degree of lysozyme into 1,2-diapalmitoyl-sn-glycero-3-phosphocholine(DPPC) and 1,2-dipalmitoyl-sn-glycero-3-phosphoethano-lamine(DPPE) by analyzing the data of surface pressure–area(π–A) isotherms and surface pressure–time(π–T) curves.Lysozyme can penetrate into both DPPC and DPPE monolayers because of the increase of surface pressure at an initial pressure of 15 m N/m.However,the changes of DPPE are larger than DPPC,indicating stronger interaction of lysozyme with DPPE than DPPC.The reason may be due to the different head groups and phase state of DPPC and DPPE monolayers at the surface pressure of 15 m N/m.Atomic force microscopy reveals that lysozyme was absorbed by DPPC and DPPE monolayers,which leads to self-aggregation and self-assembly,forming irregular multimers and conical multimeric.Through analysis,we think that the process of polymer formation is similar to the aggregation mechanism of amyloid fibers.     

基于数据挖掘方法的开放骨架磷酸铝定向合成参数分析

开放骨架磷酸铝化合物是多孔晶体材料的一个重要家族。然而,这类材料的合成受到反应原料、凝胶组成、溶剂、模板剂、结晶温度和结晶时间等多个因素的影响。本文以吉林大学"无机制备与合成化学国家重点实验室"建立的开放骨架磷酸铝合成反应数据库为研究对象,采用最大权重最小冗余特征选择算法(Maximum weight and minimum redundancy,MWMR),在充分考虑合成参数自身的重要程度和合成参数之间的相关关系的前提下,分析了溶剂、模板剂等合成参数对于合成含有(8,6)元环结构开放骨架磷酸铝的影响。通过大量实验验证了该方法在开放骨架磷酸铝合成参数分析中的有效性,分析了合成参数对产物生成的影响。实验结果表明模板剂的几何参数、模板剂中C原子和N原子的个数比,溶剂的偶极距等参数可能对于该类结构的合成具有较为重要的影响。     

脉冲LD泵浦电光调Q深紫外激光器

研制了千赫兹213 nm深紫外全固态激光器。激光器采用脉冲LD侧面泵浦方式和电光调Q技术,实现了10瓦级基频光的稳定输出。利用多次倍频技术,实现了稳定的213 nm深紫外激光输出。当LD泵浦电流为80 A时,213 nm激光输出的最大平均功率达到了151 m W,激光器重复频率为1 k Hz,激光脉冲宽度为10ns,功率不稳定度为3%。同时,对激光在非线性晶体中的偏振匹配和不同重复频率条件下的激光器运转特性进行了分析。     

低能量激光联合压力对成骨细胞ALP活性和胞内Ca~(2+)浓度的影响

探讨低能量激光照射(1ow--level laser irradiation,LLLI)联合压力刺激对人成骨样细胞的碱性磷酸酶(alkaline phosphatase,ALP)活性和胞内Xa~(2+)浓度的变化规律的影响,揭示LLLI促进正畸牙齿压力侧骨改建的机制。将对数生长期的人成骨样细胞MG-63随机分为4组,对细胞施加压力采用Foreel四点弯曲体外细胞力学加载装置,用Ga-Al-As半导体激光器(808 nm,500 mW)进行照射。组Ⅰ(对照组):不加力,不进行激光照射。组Ⅱ(压力组):利用细胞加载装置对细胞加压力,加力板变形量为3 000 ustrain,加力时间1h。组Ⅲ(激光组):激光照射1 min,剂量3.75 J·cm。组Ⅳ(联合组):细胞加力(加力方式同组Ⅱ)后,激光照射(方式同组Ⅲ)。四组细胞均用分光光度计测量细胞内ALP活性。第二部分实验对胞内Ca~(2+)浓度变化进行测定,将MG-63细胞分为2组:压力组和激光张力组,2组细胞分别加力0,5,15,30,60 min,激光压力组再激光照射1 min后收取细胞。用荧光探针Fluo-3-AM测定成骨样细胞内Xa~(2+)浓度。结果显示第一部分实验与对照组相比,其余3组的ALP活性均明显增强(p0.05),但联合组的ALP活性分别低于压力组和激光组(p0.05)。第二部分实验显示:第1组压力引起胞内Ca~(2+)浓度随时间剧烈变化,第2组变化曲线平缓,但Xa~(2+)浓度水平两组无明显差异。由此得出结论适宜的压力和弱激光及联合应用均能增加成骨细胞的ALP活性,两者联合应用时较单独应用时成骨细胞的ALP活性稍有降低,压力组和激光压力组胞内Ca~(2+)浓度的变化曲线不同,说明在正畸牙齿的压力侧,低能量激光的应用可以降低由压力引起的成骨细胞活性增加,减少成骨,破骨相对增加,促进牙齿移动,LLLI极可能通过调节Xa~(2+)浓度的变化规律来调节成骨细胞活性。     

Ca_xSi合金前驱物常压氮化制备Ca_(1-x)AlSiN_3∶xEu~(2+)红色荧光粉及发光性能研究

采用CaxSi合金前驱物和Eu B6常压氮化制备了Ca Al Si N3∶Eu2+氮化物红色荧光粉。研究了不同烧结温度、添加助熔剂及二次烧结对发光性能的影响。通过扫描电子显微镜(SEM)、X射线衍射(XRD)、荧光分光光度计对发光材料的形貌、晶体结构、发光性能与热稳定性进行了研究。分析结果表明:通过合金前驱物常压氮化法得到的氮化物荧光粉具有Ca Al Si N3结构,空间群为Cmc21。Ca Al Si N3∶Eu2+红色荧光粉的最佳烧结温度为1 550℃。添加质量分数为6%的Sr F2助熔剂后,荧光粉发光强度的提升效果最好。添加6%Sr F2助熔剂及二次烧结后得到的荧光粉的晶粒生长更加完整,颗粒度明显改善,发射光谱的相对强度也明显提高,比未加助熔剂单次烧结的荧光粉相对强度提高了近一倍。将发射峰位在640 nm的Ca0.98Al Si N3∶0.02Eu2+红色荧光粉应用在白光LED的封装中,获得了色温为3 109 K、显色指数为92.5以及色温为4 989K、显色指数为95.8的高显色白光LED,说明本文合成的氮化物红色荧光粉可以实现暖白光和正白光高显色的白LED发光器件。     

Influence of amphotericin B on liquid crystal state of the Cholesterol/Dipalmitoylphosphatidylcholine monolayer in the presence of different metal cations

Amphotericin B is a very effective antifungal drug,but it has an adverse reaction to the membrane of mammals' cells.The interaction between Am B and cholesterol(Chol) causes the formation of pores on the membrane to destroy its integrity.In particular,Am B has a significant effect on the permeability of membrane for K~+ions.It has been reported that Na+ions and Ca~(2+)ions may have some influence on the interaction between amphotericin B and lipid molecules.In this work,the effects of these metal cations on the physical state and intermolecular interaction of the Cholesterol/Dipalmitoylphosphatidylcholine(Chol/DPPC) monolayer with and without Am B have been investigated.The addition of Am B induces the change of physical state of the lipid monolayer from liquid-gel phase to liquid phase.Different metal cations could influence the phase transition of the Am B-lipid monolayer.The K~+ions and Ca2+ions make the obvious phase transition disappear.However,the presence of Na+ions has little influence on the phase transition of the Am B-lipid monolayer.The addition of Am B and the presence of different metal cations weaken the attractive force on the monolayers.After addition of Am B,the force between the molecules is the strongest in the environment of K+ions,thus is the weakest in the environment of Ca~(2+)ions,which may be due to the distribution of these metal cations inside and outside of cells.A large number of K+ions distribute inside of the cells,thus most of Na+and Ca~(2+)ions exist out of the cells.Hence,it may be possible that when Am B molecules are out of the cells,the reaction between the drug and lipid molecules is weaker than that inside the cells.These results may have a great reference value for further studying the toxicity mechanism of Am B and the influence of metal cations on the membrane.     

Random lasing in dye-doped polymer dispersed liquid crystal film

A dye-doped polymer-dispersed liquid crystal film was designed and fabricated,and random lasing action was studied.A mixture of laser dye,nematic liquid crystal,chiral dopant,and PVA was used to prepare the dye-doped polymer-dispersed liquid crystal film by means of microcapsules.Scanning electron microscopy analysis showed that most liquid crystal droplets in the polymer matrix ranged from 30 μm to 40 μm,the size of the liquid crystal droplets was small.Under frequency doubled 532 nm Nd:YAG laser-pumped optical excitation,a plurality of discrete and sharp random laser radiation peaks could be measured in the range of 575–590 nm.The line-width of the lasing peak was 0.2 nm and the threshold of the random lasing was 9 m J.Under heating,the emission peaks of random lasing disappeared.By detecting the emission light spot energy distribution,the mechanism of radiation was found to be random lasing.The random lasing radiation mechanism was then analyzed and discussed.Experimental results indicated that the size of the liquid crystal droplets is the decisive factor that influences the lasing mechanism.The surface anchor role can be ignored when the size of the liquid crystal droplets in the polymer matrix is small,which is beneficial to form multiple scattering.The transmission path of photons is similar to that in a ring cavity,providing feedback to obtain random lasing output.