生长期间的光强度对小麦光谱特性的影响

在强光(20 klx)下生长的小麦,其叶片和叶绿体的低温(77K)荧光发射强度明显高于在弱光(2 klx)下生长的小麦。同时,前者的PSⅡ的相对荧光产量与PSⅠ的相对荧光产量的比值也高,表明增加光强度有利于PSⅡ的发育。此外。在强光下生长的小麦具有更高的PSⅡ活性和原初光能转化效率。在等量叶绿素的情况下,生长在弱光下的小麦,其叶绿体在吸收光谱上的两个特异吸收带都有较高的吸收值,表明它们比在强光下生长的小麦叶绿体含有较多的光合膜,从而有更大截获光能的面积。     

反胶束中单宁酶的光学行为和稳定性

为了测定反胶束系统中单宁酶的光学行为和增溶方式,采用紫外分光光度法和荧光扫描技术对AOT水／异辛烷组成的反胶束体系中单宁酶和水相中单宁酶的光学行为进行研究,同时研究了不同反应体系中单宁酶的稳定性,并对单宁酶在反胶束体系中的增溶方式进行探讨。结果表明：反胶束体系与水相中的单宁酶,其光学行为存在很大差别。反胶束体系有利于单宁酶的稳定,脂肪醇作为反应底物,其碳链的增长有利于单宁酶在反胶束中的稳定性。单宁酶是以嵌入反胶束膜或与反胶束内膜接触的方式增溶的。     

胶毒素与BSA的相互作用

应用荧光、圆二色和紫外—可见吸收等波谱法研究胶毒素与牛血清白蛋白(BSA)的相互作用。荧光光谱实验结果表明胶毒素主要靠疏水作用与BSA结合, 而对其内源荧光产生猝灭作用,其淬灭方式为静态猝灭, 胶毒素与BSA的结合常数为7.2×103 L/mol。圆二色光谱检测发现, 随着胶毒素浓度的增加, BSA的a-螺旋数量也增加, 当胶毒素浓度为BSA浓度的100倍时, BSA的a-螺旋增加40.1%, 表明胶毒素与BSA的结合改变了BSA的空间构象。     

印度犀牛角的化学成分分析

本文以印度犀牛角为主要研究对象,利用傅里叶变换红外光谱仪、X射线荧光光谱仪、全自动氨基酸分析仪分析其红外光谱、化学成分等特征,旨在为犀牛角替代品、人工合成品的研究提供部分基础数据。结果表明：红外光谱中氨基酸、磷脂酸、牛磺酸等相关的吸收峰明显;犀牛角主要的无机成分为CaO、Fe₂O₃、K₂O、ZnO、SiO₂等;氨基酸含量为481.01 mg/g,药用氨基酸含量丰富,氨基酸组成与标准蛋白的贴近度为0.74。结果表明犀牛角具有较高的营养价值。     

壳聚糖钴与牛血清白蛋白相互作用的研究

采用紫外-可见吸收和荧光光谱,研究了壳聚糖钴与牛血清白蛋白(BSA)的相互作用。结果发现:随壳聚糖钴浓度的增加,BSA的紫外-可见吸收光谱表现增色效应和较小的蓝移;壳聚糖钴可以猝灭BSA的内源荧光,其猝灭机理属于静态猝灭。在室温下,壳聚糖钴与BSA的的结合常数KA为2.40×106。     

鲜花的光学性质

本文采用反射光谱、荧光光谱、激发光谱研究了迎春花、紫红色芍药、大红月季和橙红月季的光生态。结果表明,不同的鲜花光生态有明显的差异,鲜花中的花青素和类胡萝卜素在紫外光、可见光的激发下发出荧光,使鲜花更加鲜艳靓丽。通过对鲜花光生态的讨论,揭示出阳光对花儿的影响与作用,为鲜花光生态膜的开发以及人工照明的应用提供一定的生态依据。     

FTIR and Raman Spectra Compared with Ab Initio Calculated Frequency Modes for 5-Aminouracil

Infrared (IR) and Raman spectra of 5-aminouracil were recorded in the region 200–4,000 cm^− 1. Assuming under the C_s point group that the distribution of the normal mode of vibrations between the two species are planar (a′) and non-planar (a″), given by 25a′ + 11a″ of which 30 modes (21a′ + 9a″) correspond to the uracil moiety and six modes (4a′ + 2a″) correspond to the NH₂ group, with a comparison of theoretically ab initio calculated frequencies, the results are in reasonably good agreement with the experimental IR and Raman spectra. Consistent assignments have been made for the internal modes of the NH₂ group, especially for the anti-symmetric NH₂ stretching and bending modes. The non-equivalence of the two NH bonds of the NH₂ group suggests a difference in the strength of the two hydrogen bonds on the pyrimidine ring. Symmetry and anti-symmetry NH stretching modes of the NH₂ group show the invalidity of the empirical relationship. These two NH₂ stretching frequencies are distinctly separated from the CH/NH ring stretching frequencies. A strong and sharp IR band that acts at 3,380 cm^− 1 could be identified as the anti-symmetric NH₂ mode whereas the band at 3,290 cm^− 1 smaller density could be identified as the symmetric NH₂ stretching mode.     

水生生物粒径谱/生物量谱研究进展

介绍了水生生物粒径谱概念,粒径谱理论的提出背景及其发展历程。综述了浮游生物、底栖生物、微型生物和鱼类粒径谱的研究现状;并以粒径谱理论在鱼类潜在产量估算方面的应用为重点,介绍了粒径谱理论的应用。回顾了国内生物粒径谱研究现状;结合新陈代谢理论、宏生态学与粒径谱理论的联系,新的粒径测量手段的应用,传统分类方法与粒径方法的关系,以及粒径谱模型研究的特点,展望未来粒径谱研究的前景。认为粒径谱研究已经历了半个多世纪的发展和多个领域的应用,给人们以区别于传统物种分类的崭新视角,成为生态学研究,尤其是水生生态学研究的热点。目前水生生物包括浮游生物、底栖生物、微型生物和鱼类粒径谱/生物量谱的分析方法、模型和理论研究已取得了一些进展,但由于各类生物个体形态、结构呈现多样化,数据获取的难度以及其他各种因素影响,使得研究工作发展缓慢,海洋生物粒径谱研究尤其困难。随着海洋生物资源评估、利用与渔业生态系统管理的需要,应重视加强粒径谱/生物量谱的研究,包括不同类型生物的粒径分布曲线、捕食与被捕食之间的关系、新陈代谢特征、时空尺度变异、粒径谱模型的假设条件和新模型的建立,以及先进测量技术应用等,这将是今后粒径谱/生物量谱研究需要引起关注的重点内容。     

CHIH-DFT determination of the molecular structure and IR and UV spectra of solanidine

Solanidine is the steroidal aglycon of some potato glycoalkaloids and a very important precursor for the synthesis of hormones and some pharmacologically active compounds. In this work, we make use of a new chemistry model within Density Functional Theory, called CHIH-DFT, to calculate the molecular structure of solanidine, as well to predict its infrared and ultraviolet spectra. The calculated values are compared with the experimental data available for this molecule as a means of validation of our proposed chemistry model. Figure Molecular structure of solanidine calculated with the CHIH(small) model chemistry     

Use of Phase for the Detection of Hidden Periodicites

Standard tests for the detection of hidden periodicities in time series are largely ignored by applied workers. Various simple but inappropriate methods are used instead. Therefore a method is suggested which is both simple and appropriate but which requires the prior knowledge of certain characteristics of the suspected periodicity. For illustration, this method is applied to a set of data from a chronobiological study.     

蛋白质序列的特征周期研究

利用Fourier乘积谱(Fourier product spectrum,FPS)系统计算了76个蛋白质亚家族的疏水自由能(HΦ)序列、电子离子相互作用势(electron-ion interaction potential,EIIP)序列和结构拓扑指数(Balaban指数)序列的特征周期;讨论了特征周期的规律;并以时间周期谱(time periodicity spectrum,TPS)演示了如何定位特征周期在蛋白质序列上的热区.结果表明EIIP特征周期热区与蛋白质结合位点有较好的对应关系.     

Spectroscopic and magnetic properties of a Ni(II) complex with citric acid

The complex compound K₂[Ni(cit)(H₂O)₂]₂·4H₂O (cit = triionized citrate ion) seems to be a good model for the investigation of Ni(II)/citrate interactions that are of interest in relation to nickel metabolism and bioaccumulation. Its infrared and Raman spectra were recorded and analyzed on the basis of its structural peculiarities. The magnetic susceptibility, investigated in the temperature range between 1.9 and 300 K, shows the absence of magnetic interactions between the two metal centers present in this structure.     

中亚热带森林转换对土壤可溶性有机质数量与光谱学特征的影响

选取中亚热带福建三明格氏栲天然林及其转换而成的木荷、锥栗及福建柏等3种人工林表层土壤(0—10 cm)可溶性有机质(DOM)为对象,对其数量和光谱学特征进行了研究,以探讨森林转换对土壤DOM的影响。结果表明,天然林转换成上述3种人工林后,0—5 cm土壤可溶性有机碳(DOC)浓度显著降低(P0.05),降低程度分别为66.1%,69.9%及29.4%,可溶性有机氮(DON)浓度也有所下降;除福建柏外,其余两种人工林5—10 cm土壤DOC及DON浓度均低于天然林。各林分0—5 cm土壤DOC及DON浓度均高于5—10 cm土层。两个土层中,天然林土壤DOM的芳香化及腐殖化程度均显著高于人工林(P0.05),但荧光效率值低于人工林;荧光光谱图显示,天然林土壤DOM在芳香性脂肪族及木质素类复杂结构荧光基团处的吸收大于人工林;各林分土壤DOM傅里叶红外光谱出现吸收谱带的位置相似,其中吸收强度最大的为形成氢键的—OH的伸缩振动,此外还有芳香性CC伸缩振动、有机羧酸盐COO-反对称伸缩振动、碳水化合物中烷氧基C—O的振动等,人工林土壤DOM中碳水化合物的比例增加是其结构简单的主要原因。土壤DOM中结构复杂、分子量大的组分不易向下迁移;天然林与人工林间土壤DOM数量及光谱学特征的差异主要与凋落物输入及营林措施的干扰有关;本研究所涉及的3种人工林中,福建柏更有利于土壤养分的累积。     

马槟榔甜味蛋白的圆二色谱和激光拉曼光谱

测定了自马槟榔(Capparis masaikai Levl.)种子分离的二种甜味蛋白MaⅠ和MaⅡ的远紫外区域圆二色谱,并按Yang和Chen的方法用最小二乘法计算了它们的构象单元含量,结果表明α螺旋含量最多:对MaⅠf_H=0.43、f_β=0.24、f_R=0.33;对MaⅡ,f_H=0.37、f_β=0.33、f_R=0.30;其相关系数均为0.9876;计算所得理论曲线与实验曲钱其本吻合。二种甜蛋白的激光拉曼光谱测定结果也表明其主要构象单元为α螺旋,此外,均无SH谱带:MaⅠ的Tyr残基暴露于分子表面;与MaⅡ相比,MaⅠ有明显的545cm~(-1)和1101cm~(-1)谱带,这可能从构象上说明MaⅠ与MaⅡ对热和变性剂处理表现不同的原因。     

Comparative Mössbauer and infrared analysis of iron-containing melanins

A Mössbauer study was carried out on some types of melanin. ⁵⁷Fe³⁺ was bound to melanin from sepia ink and to that obtained by autooxidation of l-DOPA and dopamine. Mössbauer spectra, performed in parallel with infrared measurements, indicated that paracrystalline subunits are present, showing a superparamagnetic behaviour. The preferential binding sites for iron are different in melanins having l-DOPA as precursor from those obtained starting from dopamine. In particular, the linkage to carboxylic groups in predominant in the former, and linkage to phenolic, aminic and/or indolic groups can be observed in the latter. The results also confirm the close similarity between natural sepia melanin and that obtained from an l-DOPA precursor.     

Tween 80解除乙醇对内切葡聚糖酶(Cx)的抑制作用

通过还原糖量的测定,可知Cx酶在乙醇存在下活力降低。当该体系中加入一定浓度的Tween 80时,Cx酶抗乙醇抑制的能力增强。由紫外光谱及圆二色谱可见,乙醇使Cx酶中α-螺旋含量增加,Tween 80使Cx酶中α-螺旋含量减少,结构变得松散。适量的Tween 80能使Cx酶在乙醇中保持一种具有较高活力的构象。     

Low temperature photo-oxidation of chloroperoxidase Compound II

Oxidation of the heme-thiolate enzyme chloroperoxidase (CPO) from Caldariomyces fumago with peroxynitrite (PN) gave the Compound II intermediate, which was photo-oxidized with 365 nm light to give a reactive oxidizing species. Cryo-solvents at pH ≈ 6 were employed, and reactions were conducted at temperatures as low as − 50 °C. The activity of CPO as evaluated by the chlorodimedone assay was unaltered by treatment with PN or by production of the oxidizing transient and subsequent reaction with styrene. EPR spectra at 77 K gave the amount of ferric protein at each stage in the reaction sequence. The PN oxidation step gave a 6:1 mixture of Compound II and ferric CPO, the photolysis step gave an approximate 1:1 mixture of active oxidant and ferric CPO, and the final mixture after reaction with excess styrene contained ferric CPO in 80% yield. In single turnover reactions at − 50 °C, styrene was oxidized to styrene oxide in high yield. Kinetic studies of styrene oxidation at − 50 °C displayed saturation kinetics with an equilibrium constant for formation of the complex of K_bind = 3.8 × 10⁴ M^− 1 and an oxidation rate constant of k_ox = 0.30 s^− 1. UV-Visible spectra of mixtures formed in the photo-oxidation sequence at ca. − 50 °C did not contain the signature Q-band absorbance at 690 nm ascribed to CPO Compound I prepared by chemical oxidation of the enzyme, indicating that different species were formed in the chemical oxidation and the photo-oxidation sequence.     

Protochlorophyll(ide) accumulation and degradation in the dark and photoconversion to chlorophyll in the light in pigment mutant C-2A' of Scenedesmus obliquus

Pigment mutant C-2A' of Scenedesmus obliquus accumulates only traces of chlorophyll, when grown heterotrophically in the dark. Immediately upon transfer of cells into fresh medium protochlorophyllide and protochlorophyll are formed, which accumulate to their maximum concentrations within 8 to 12 h. Subsequently, this protochlorophyll(ide) is degraded in the dark, but not transformed into chlorophyll. After 6–8 days of dark growth no protochlorophyll(ide) can be detected any more. The protochlorophyll(ide) pool of cultures, which contain reduced concentrations, can be reestablished either by addition of glucose or illumination with blue light; both increase the rate of respiration.
By low temperature spectroscopy in vivo and by absorption and fluorescence emission spectroscopy of pigment extracts it is shown that the protochlorophyllide accumulated in freshly inoculated cultures can be converted to chlorophyll in light.
From the action spectrum for chlorophyll formation after addition of glucose it can be seen that protochlorophyllide 636 and 649 are present and are photoconvertible in this mutant.     

Further Physicochemical Characterization of the Novel Human Brain Protein h3

Recently we reported the isolation and partial biochemical characterization of the novel polypeptide h3 from human brain and liver. In this report, the physicochemical characterization is further established by the use of several analytical methods. The following results were obtained: the ultraviolet absorption spectrum is not influenced by pH, and the circular dichroism (CD) spectrum reveals that this protein has no alpha-helices, whereas approximately 25% of the polypeptide chain is found to be folded as a beta-pleated sheet structure. Neither the conformation of h3 as assessed by CD nor the titration kinetics of sulfhydryl groups with Ellman's reagent are affected by the presence of the ions K+, Na+, Ca2+, and Mg2+. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) in a beta-mercaptoethanol gradient and Cleveland sequential SDS-PAGE showed that the frequent formation of h3 polymers and doublets, as observed earlier, is almost exclusively due to disulfide bonding.     

Spectroscopic characterization of reaction centers of the (M)Y210W mutant of the photosynthetic bacterium Rhodobacter sphaeroides

The tyrosine-(M)210 of the reaction center of Rhodobacter sphaeroides 2.4.1 has been changed to a tryptophan using site-directed mutagenesis. The reaction center of this mutant has been characterized by low-temperature absorption and fluorescence spectroscopy, time-resolved sub-picosecond spectroscopy, and magnetic resonance spectroscopy. The charge separation process showed bi-exponential kinetics at room temperature, with a main time constant of 36 ps and an additional fast time constant of 5.1 ps. Temperature dependent fluorescence measurements predict that the lifetime of P^* becomes 4–5 times slower at cryogenic temperatures. From EPR and absorbance-detected magnetic resonance (ADMR, LD-ADMR) we conclude that the dimeric structure of P is not significantly changed upon mutation. In contrast, the interaction of the accessory bacteriochlorophyll B_A with its environment appears to be altered, possibly because of a change in its position.Abbreviations ADMR - absorbance-detected magnetic resonance - LDAO - N, N dimethyl dodecyl amine-N-oxide - RC - reaction center - LD-ADMR - linear-dichroic absorbance-detected magnetic resonance - P - primary donor - B - accessory bacteriochlorophyll - - bacteriopheophytin