Understanding Photochirogenesis: Solvent Effects on Circular Dichroism and Anisotropy Spectroscopy

The basic units that constitute essential biopolymers (proteins and nucleic acids) are enantiomerically biased. Proteins are constructed from L‐amino acids and nucleic acids possess a backbone composed exclusively of D‐sugars. Photochirogenesis has been postulated to be the source of this homochirality of biomolecules: Asymmetric photochemical reactions were catalyzed by circularly polarized light (cpl) in interstellar environments and generated the first chiral prebiotic precursors. Enantiomers absorb cpl differently and this difference can dictate the kinetics of asymmetric photochemical reactions. These differences in absorption can be studied using circular dichroism (CD) and anisotropy spectroscopy. Rather than measuring the CD spectrum alone, the anisotropy factor g is recorded (CD divided by absorption). This factor g is directly related to the maximum achievable enantiomeric excess. We now report on the substantial influence of solvent and molecular surroundings on CD and anisotropy spectroscopy. This shows for the first time that CD and anisotropy signals depend just as much on the molecular surroundings of a molecule as on the nature of the molecule itself. CD and g spectra of amino acids in different solvents and in the solid state are presented here and the influence of these different surroundings on the spectra is discussed. Chirality 26:373–378, 2014. © 2014 Wiley Periodicals, Inc.     

DichroCalc: Improvements in Computing Protein Circular Dichroism Spectroscopy in the Near-Ultraviolet

A fully quantitative theory connecting protein conformation and optical spectroscopy would facilitate deeper insights into biophysical and simulation studies of protein dynamics and folding. The web server DichroCalc (http://comp.chem.nottingham.ac.uk/dichrocalc) allows one to compute from first principles the electronic circular dichroism spectrum of a (modeled or experimental) protein structure or ensemble of structures. The regular, repeating, chiral nature of secondary structure elements leads to intense bands in the far-ultraviolet (UV). The near-UV bands are much weaker and have been challenging to compute theoretically. We report some advances in the accuracy of calculations in the near-UV, realized through the consideration of the vibrational structure of the electronic transitions of aromatic side chains. The improvements have been assessed over a set of diverse proteins. We illustrate them using bovine pancreatic trypsin inhibitor and present a new, detailed analysis of the interactions which are most important in determining the near-UV circular dichroism spectrum.     

Structure Analysis of Proteins and Peptides by Difference Circular Dichroism Spectroscopy

The Protein Journal - Difference circular dichroism (CD) spectroscopy was used here to characterize changes in structure of flexible peptides upon altering their environments. Environmental changes...     

Calcium Binding Ability of Recombinant Buffalo Regucalcin: A Study Using Circular Dichroism Spectroscopy

Regucalcin is a calcium regulating multifunctional protein reported to have many important functions like calcium homeostasis, anti-oxidative, anti-apoptotic and anti-cancerous functions. Although it is demonstrated as a calcium regulating protein, the calcium binding ability of regucalcin is still a controversy. The main reason for the controversy is that it lacks a typical EF hand motif which is common to most of the calcium binding proteins. Even though many studies reported regucalcin as a calcium binding protein, there are some studies reporting regucalcin as non-calcium binding also. In the present study, we investigated the calcium binding ability of recombinant buffalo regucalcin by assessing the secondary structural changes of the protein using circular dichroism spectroscopy after adding Ca²⁺ to the protein solution. Two types of calcium binding studies were done, one with different concentration of calcium chloride (0.5 mM CaCl₂, 1 mM CaCl₂, 2 mM CaCl₂) and other at different time interval (no incubation and 10 min incubation) after addition of calcium chloride. Significant structural changes were observed in both studies which prove the calcium binding ability of recombinant regucalcin. A constant increase in the α-helix (1.1% with 0.5 mM CaCl₂, 1.4% with 1 mM CaCl₂, 3.5% with 2 mM CaCl₂) and a decrease in β-sheets (78.5% with 0.5 mM CaCl₂, 77.4% with 1 mM CaCl₂, 75.7% with 2 mM CaCl₂) were observed with the increase in calcium chloride concentration. There was a rapid increase in α-helix and decrease in β-sheets immediately after addition of calcium chloride, which subsides after 10 min incubation.     

Towards the Limits of Vibrational Circular Dichroism Spectroscopy: VCD Spectra of Some Alkyl Vinylethers

Three alkyl vinylethers from our collection of chiral samples were investigated through VCD spectroscopy, in combination with Density Functional Theory (DFT) calculations. Despite the simplicity of the compounds, reproducing all the spectral features is an involved task, since the many significantly populated conformers contribute to the total VCD spectrum with bands which often have opposite signatures. Nevertheless, we show that certain bands can be satisfactorily reproduced by calculation and therefore they may be employed for the determination of absolute configuration in these and similar compounds, for which no simple alternative method is available. Chirality 28:143–146, 2016. © 2015 Wiley Periodicals, Inc.     

Structure and Circular Dichroism of DNA in Concentrated Polymer Solutions

DNA driven into a compact state by excluded volume interactions undergoes a spontaneous rearrangement to an ordered tertiary structure characterized by a circular dichroism spectrum greatly differing from that of DNA in solution.     

Circular Dichroism Studies of the Structure of DNA Complex with Berberine

Abstract

The binding of the benzodioxolo-benzoquinolizine alkaloid, berberine chloride to natural and synthetic DNAs has been studied by intrinsic and extrinsic circular dichroic measurements. Binding of berberine causes changes in the circular dichroism spectrum of DNA as shown by the increase of molar ellipticity of the 270nm band, but with very little change of the 240nm band. The molar ellipticity at the saturation depends strongly on the base composition of DNA and also on salt concentration, but always larger for the AT rich DNA than the GC rich DNA The features in the circular dichroic spectral changes of berberine-synthetic DNA complexes were similar to that of native DNA but depends on the sequence of base pairs.

On binding to DNA and polynucleotides, the alkaloid becomes optically active. The extrinsic circular dichroism developed in the visible absorption region (300–500nm) for the berberine-DNA complexes shows two broad spectral bands in the regions 425–440nm and 340–360nm with the maximum varying depending on base composition and sequence of DNA While the 425nm band shows less variation on the binding ratio, the 360nm band is remarkably dependent on the DNA/alkaloid ratio. The generation of the alkaloid associated extrinsic circular dichroic bands is not dependent on the base composition or sequence of base pairs, but the nature and magnitude of the bands are very much dependent on these two factors and also on the salt concentration. The interpretation of the results with respect to the modes of the alkaloid binding to DNA are presented.     

金属硫蛋白及其结构域突变体的紫外和圆二色光谱学研究

采用 p GEX- 4T- 1融合表达载体高效表达所得的金属硫蛋白及其结构域突变体 ,包括 α结构域 ,β结构域 ,α- KKS- α和 β- KKS- β( KKS为金属硫蛋白结构域之间的天然连接区氨基酸 ) ,经纯化和纯度鉴定后 ,利用紫外和圆二色光谱进行结构研究 .在脱金属的上述蛋白中 ,固定 p H为中性 ,改变加入 Cd2 + 的比例 ,或固定 Cd2 + 浓度 ,逐渐调节 p H至中性 ,观察紫外和圆二色光谱中镉硫金属簇吸收峰的形成 .研究结果表明 :镉硫金属簇的形成依赖于加入金属的比例和 p H值 ,所有蛋白均于p H3.1 5以上开始形成明显的吸收峰 .紫外图谱中的吸收峰位于 2 54nm附近 ,但在圆二色图谱中不同蛋白形成的峰的位置不同 ,MT,α结构域和 α- KKS- α在 2 2 5nm和 2 58nm处有吸收 ,β结构域在 2 60 nm处有吸收 ,而 β- KKS- β在 2 4 5nm处有吸收 ;向 α结构域 ,β结构域 ,MT,α- KKS- α和 β-KKS- β中分别加入 4eq,3eq,7eq,8eq和 6eq( eq:equivalent,当量 )的 Cd2 +时 ,吸收峰可达到最大值 .同时发现 α结构域的吸收峰强于 β结构域 ,而且双结构域突变体的镉硫金属簇则明显强于相应的单结构域突变体 ,这表明吸收峰的强弱与金属结合力的大小相关 ,而且结构域之间存在相互作用 ,从而影响与金属的结合 .     

Selective Recognition of Triplex and Duplex Melting in Triple-Helical Nucleic Acids by Circular Dichroism Spectroscopy

Abstract

Here we present a method based on CD spectroscopy to evaluate duplex and triplex melting independent from each other in cases where UV melting curves show only one transition.     

Polyglutamine- and Temperature-Dependent Conformational Rigidity in Mutant Huntingtin Revealed by Immunoassays and Circular Dichroism Spectroscopy

Background

In Huntington''s disease, expansion of a CAG triplet repeat occurs in exon 1 of the huntingtin gene (HTT), resulting in a protein bearing>35 polyglutamine residues whose N-terminal fragments display a high propensity to misfold and aggregate. Recent data demonstrate that polyglutamine expansion results in conformational changes in the huntingtin protein (HTT), which likely influence its biological and biophysical properties. Developing assays to characterize and measure these conformational changes in isolated proteins and biological samples would advance the testing of novel therapeutic approaches aimed at correcting mutant HTT misfolding. Time-resolved Förster energy transfer (TR-FRET)-based assays represent high-throughput, homogeneous, sensitive immunoassays widely employed for the quantification of proteins of interest. TR-FRET is extremely sensitive to small distances and can therefore provide conformational information based on detection of exposure and relative position of epitopes present on the target protein as recognized by selective antibodies. We have previously reported TR-FRET assays to quantify HTT proteins based on the use of antibodies specific for different amino-terminal HTT epitopes. Here, we investigate the possibility of interrogating HTT protein conformation using these assays.

Methodology/Principal Findings

By performing TR-FRET measurements on the same samples (purified recombinant proteins or lysates from cells expressing HTT fragments or full length protein) at different temperatures, we have discovered a temperature-dependent, reversible, polyglutamine-dependent conformational change of wild type and expanded mutant HTT proteins. Circular dichroism spectroscopy confirms the temperature and polyglutamine-dependent change in HTT structure, revealing an effect of polyglutamine length and of temperature on the alpha-helical content of the protein.

Conclusions/Significance

The temperature- and polyglutamine-dependent effects observed with TR-FRET on HTT proteins represent a simple, scalable, quantitative and sensitive assay to identify genetic and pharmacological modulators of mutant HTT conformation, and potentially to assess the relevance of conformational changes during onset and progression of Huntington''s disease.     

Vortex-Induced Formation of Insulin Amyloid Superstructures Probed by Time-Lapse Atomic Force Microscopy and Circular Dichroism Spectroscopy

Misfolding and aggregation of proteins are multipathway processes that result in polymorphism of amyloid fibrils. While agitation is one of the most common means of inducing structural variants of fibrils (the so-called ‘amyloid strains’), there is as yet no mechanistic explanation for this effect. In this study, time-lapse atomic force microscopy has been employed to probe insulin fibrillation upon intensive agitation. At 60 °C, the initial stages of aggregation in agitated samples are similar to those in quiescent solutions; however, in vortexed samples, an abrupt and highly cooperative collapse of early filaments occurs, yielding twisted and laterally aligned aggregates with defined chiroptical properties. In the absence of any detectable birefringence and linear dichroism, the observed strong Cotton effect is attributed to twisted chiral amyloid superstructures. Early fibrils formed in agitated samples, but transferred to quiescent conditions before the collapse event, do not form the superstructures. On the other hand, mature insulin fibrils grown in quiescent samples and later subjected to rapid vortexing transform into clumps of finely broken fibers lacking the superstructural chirality and chiroptical properties of the continuously agitated samples. A generalized mechanism of inducing structural variants of amyloid fibrils by hydrodynamic forces favoring secondary nucleation events over elongation of fibrils is put forward. We propose that competition between low-aspect-ratio and high-aspect-ratio amyloidogenic pathways driven by fluid dynamics may play an important role in promoting distinct amyloid strains.     

Circular Dichroism Spectral Data and Metadata in the Protein Circular Dichroism Data Bank (PCDDB): A Tutorial Guide to Accession and Deposition

The Protein Circular Dichroism Data Bank (PCDDB) is a web-based resource containing circular dichroism (CD) and synchrotron radiation circular dichroism spectral and associated metadata located at http://pcddb.cryst.bbk.ac.uk. This resource provides a freely available, user-friendly means of accessing validated CD spectra and their associated experimental details and metadata, thereby enabling broad usage of this material and new developments across the structural biology, chemistry, and bioinformatics communities. The resource also enables researchers utilizing CD as an experimental technique to have a means of storing their data at a secure site from which it is easily retrievable, thereby making their results publicly accessible, a current requirement of many grant-funding agencies world-wide, as well as meeting the data-sharing requirements for journal publications. This tutorial provides extensive information on searching, accessing, and downloading procedures for those who wish to utilize the data available in the data bank, and detailed information on deposition procedures for creating and validating entries, including comprehensive explanations of their contents and formats, for those who wish to include their data in the data bank. Chirality 24:751-763, 2012. ? 2012 Wiley Periodicals, Inc.     

Study of Interaction of GM2 Activator Protein with GM2 Using Circular Dichroism and Fluorescence Spectroscopy

GM2 activator protein (GM2AP) is a cofactor for stimulating the enzymatic hydrolysis of the glycolipid GM2 by -hexosaminidase A to produce GM3. We have examined the conformation of GM2AP before and after its interaction with GM2, GM3, and GA2 using circular dichroism and fluorescence spectroscopy techniques. In the presence of GM2, a blue shift of the fluorescence emission maximum and a strong decrease of molar ellipticity values in circular dichroism spectra were observed only at pH 4.5 and at GM2/GM2AP molar ratio higher than 10:1 (up to 50:1). These results suggest that GM2AP assumed a more organized -helical conformation with the tryptophan residues moving from the polar medium toward the hydrophobic environment of the protein. The conformation of GM2AP in the presence of the downstream reaction product, GM3, or a less favorable substrate, GA2, clearly differed from that in the presence of GM2. The relationships between spectroscopic changes and enzymatic activity, herein discussed, strongly suggest that the specific conformation exhibited by GM2AP in the presence of GM2 is functional to serve as an activator for the enzymatic hydrolysis of GM2.     

Peptide Adsorption to Lipid Bilayers: Slow Processes Revealed by Linear Dichroism Spectroscopy

The adsorption and insertion kinetics for the association of two 34-residue cyclic peptides with phosphocholine membranes have been studied using circular and linear dichroism approaches. The two peptides studied are identical with the exception of two residues, which are both tyrosine in one of the peptides and tryptophan in the other. Both peptides adopt random coil conformations in solution in the absence of membranes and do not aggregate at concentrations below 20 μM. After addition to liposome dispersions, circular dichroism spectroscopy indicated that both peptides undergo an extremely rapid transformation to a β-conformation that remains unchanged throughout the remainder of the experiment. Linear dichroism (LD) spectroscopy was used to study the kinetics of membrane adsorption and insertion. The data were analyzed by nonlinear least squares approaches, leading to identification of a number of bound states and their corresponding LD spectra. Two pseudo-first order processes could be identified that were common to both peptides. The first occurred with a time constant of the order of 1 min and led to a bound state characterized by weak LD signals, with significant bands corresponding to the transitions of aromatic side chains. The second process occurred with an unusually long time constant of between 75 and 100 min, forming a state with considerably stronger positive LD absorbance in the far-ultraviolet region of the spectrum. For the tyrosine-substituted peptide, a third slow process with a long time constant (76 min) could also be delineated and was attributed to rearrangements of the peptide within the membrane.     

Conformations of DNA Duplexes Containing 8-Oxoguanine

Abstract

As a step towards elucidating the mechanisms of mutagenesis induced by irradiation and oxidation, we study the incorporation of 8-oxoguanine (OG) into duplex DNA. Molecular modelling is used to reveal changes in DNA conformational parameters due to mispairs within the sequences d(A₅XA₅) · d(T₅YT₅) and d(G₅XG₅) · d(C₅YC₅) where one of the bases of the bases of the central X:Y pair is OG and the other A T, G or C. The G:C to OG:C replacements in DNA duplexes produce only minor conformational changes, similar to normal base sequence effects. The calculations suggest that both OG(syn): G and OG(syn): A mispairs can also be introduced without drastic distortion of sugar-phosphate backbone. The distortions produced by OG-containing mispairs are also found to be sequence dependent Overall these calculations suggest that the G→OG conversion could be an important factor in the irradiative or oxidative damage of DNA.     

Absolute Configuration Assignment of a Paraconic Acid Derivative via Vibrational Circular Dichroism Spectroscopy and Density Functional Theory Calculation

Density functional theory calculation of the vibrational circular dichroism spectrum was used to assign the absolute configuration of an all‐carbon quaternary β‐stereocenter of a γ‐butyrolactone recently synthesized through an asymmetric organocatalytic tandem aldol/lactonization sequence. Comparison with the experimental spectrum is satisfactory, on account of the fact that spectroscopic features are weak due to the presence of multiple conformers. As a result, the (R) absolute configuration was assigned to the (+) optical isomer. Chirality 28:110–115, 2016. © 2015 Wiley Periodicals, Inc.