scholarly journals SESCA: Predicting Circular Dichroism Spectra from Protein Molecular Structures

2018 ◽  
Author(s):  
Gabor Nagy ◽  
Maxim Igaev ◽  
Søren V. Hoffmann ◽  
Nykola C. Jones ◽  
Helmut Grubmüller
Keyword(s):  
Circular Dichroism ◽  
Secondary Structure ◽  
Disordered Proteins ◽  
Basis Sets ◽  
Cd Spectra ◽  
Circular Dichroism Spectra ◽  
Essential Information ◽  
Intrinsically Disordered ◽  
Circular Dichroïsm ◽  
Secondary Structure Composition

AbstractCircular dichroism spectroscopy is a highly sensitive, but low-resolution technique to study the structure of proteins. Combined with molecular modelling or other complementary techniques, CD spectroscopy can provide essential information at higher resolution. To this end, we introduce a new computational method to calculate the electronic circular dichroism spectra of proteins from a structural model or ensemble using the average secondary structure composition and a pre-calculated set of basis spectra. We compared the predictive power of our method to existing algorithms – namely DichroCalc and PDB2CD – and found that it predicts CD spectra more accurately, with a 50% smaller average deviation from the measured CD spectra. Our results indicate that the derived basis sets are robust to experimental errors in the reference spectra and to the choice of the secondary structure classification algorithm. For over 80% of the globular reference proteins, our basis sets accurately predict the experimental spectrum solely from their secondary structure composition. For the remaining 20%, correcting for intensity normalization considerably improves the prediction power. Additionally, we show that the predictions for short peptides and intrinsically disordered proteins strongly benefit from accounting for side-chain contributions and structural flexibility.Table Of Content Graphics:

scholarly journals Implementation of a Bayesian Secondary Structure Estimation Method for the SESCA Circular Dichroism Analysis Package

2020 ◽  
Author(s):  
Gabor Nagy ◽  
Helmut Grubmüller
Keyword(s):  
Circular Dichroism ◽  
Secondary Structure ◽  
Estimation Method ◽  
Measured Spectrum ◽  
Circular Dichroism Spectra ◽  
Structure Estimation ◽  
Analysis Package ◽  
Spectrum Deconvolution ◽  
Circular Dichroïsm ◽  
Secondary Structure Composition

AbstractCircular dichroism spectroscopy is a structural biology technique frequently applied to determine the secondary structure composition of soluble proteins. Our recently introduced computational analysis package SESCA aids the interpretation of protein circular dichroism spectra and enables the validation of proposed corresponding structural models. To further these aims, we present the implementation and characterization of a new Bayesian secondary structure estimation method in SESCA, termed SESCA_bayes. SESCA_bayes samples possible secondary structures using a Monte Carlo scheme, driven by the likelihood of estimated scaling errors and non-secondary-structure contributions of the measured spectrum. SESCA_bayes provides an estimated secondary structure composition and separate uncertainties on the fraction of residues in each secondary structure class. It also assists efficient model validation by providing a posterior secondary structure probability distribution based on the measured spectrum. Our presented study indicates that SESCA_bayes estimates the secondary structure composition with a significantly smaller uncertainty than its predecessor, SESCA_deconv, which is based on spectrum deconvolution. Further, the mean accuracy of the two methods in our analysis is comparable, but SESCA_bayes provides more accurate estimates for circular dichroism spectra that contain considerable non-SS contributions.

scholarly journals BeStSel: From Secondary Structure Analysis to Protein Fold Prediction by Circular Dichroism Spectroscopy

2020 ◽  
pp. 175-189
Author(s):  
András Micsonai ◽  
Éva Bulyáki ◽  
József Kardos
Keyword(s):  
Circular Dichroism ◽  
Secondary Structure ◽  
Classical Method ◽  
Cd Spectroscopy ◽  
Protein Fold ◽  
Cd Spectra ◽  
Secondary Structure Analysis ◽  
Β Sheets ◽  
Α Helix ◽  
Circular Dichroïsm

Abstract Far-UV circular dichroism (CD) spectroscopy is a classical method for the study of the secondary structure of polypeptides in solution. It has been the general view that the α-helix content can be estimated accurately from the CD spectra. However, the technique was less reliable to estimate the β-sheet contents as a consequence of the structural variety of the β-sheets, which is reflected in a large spectral diversity of the CD spectra of proteins containing this secondary structure component. By taking into account the parallel or antiparallel orientation and the twist of the β-sheets, the Beta Structure Selection (BeStSel) method provides an improved β-structure determination and its performance is more accurate for any of the secondary structure types compared to previous CD spectrum analysis algorithms. Moreover, BeStSel provides extra information on the orientation and twist of the β-sheets which is sufficient for the prediction of the protein fold. The advantage of CD spectroscopy is that it is a fast and inexpensive technique with easy data processing which can be used in a wide protein concentration range and under various buffer conditions. It is especially useful when the atomic resolution structure is not available, such as the case of protein aggregates, membrane proteins or natively disordered chains, for studying conformational transitions, testing the effect of the environmental conditions on the protein structure, for verifying the correct fold of recombinant proteins in every scientific fields working on proteins from basic protein science to biotechnology and pharmaceutical industry. Here, we provide a brief step-by-step guide to record the CD spectra of proteins and their analysis with the BeStSel method.

Water-soluble lysine-containing polypeptides. IV. The synthesis, characterization,and circular dichroism spectra of sequential polypeptides formed from dipeptides of lysine and amino acids of increasing side chain size

1977 ◽  
Vol 55 (24) ◽  
pp. 4257-4266 ◽  
Author(s):  
Lewis A. Slotin ◽  
Denis R. Lauren ◽  
Ross E. Williams
Keyword(s):  
Amino Acids ◽  
Molecular Weight ◽  
Circular Dichroism ◽  
Secondary Structure ◽  
Gel Filtration ◽  
Circular Dichroism Spectroscopy ◽  
Water Soluble ◽  
Side Chain ◽  
Circular Dichroism Spectra ◽  
Circular Dichroïsm

Several polypeptides have been synthesized which contain the alternating sequence lysyl-X, where X = gly, L-ala, D-ala, L-val, L-leu, and L-phe. The polypeptides have been characterized by gel filtration (molecular weight) and by circular dichroism spectroscopy (secondary structure).

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