Predicting pKa for proteins using COSMO-RS

Predicting pKa for proteins using COSMO-RS

We have used the COSMO-RS implicit solvation method to calculate the equilibrium constants, pKa, for deprotonation of the acidic residues of the ovomucoid inhibitor protein, OMTKY3. The root mean square error for comparison with experimental data is only 0.5 pH units and the maximum error 0.8 pH uni...

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Bibliographic Details
Main Authors: Martin Peter Andersson, Jan Halborg Jensen, Susan Louise Svane Stipp
Format: Article
Language:English
Published: PeerJ Inc. 2013-10-01
Series:PeerJ
Subjects:
Proteins
pKa
COSMO-RS
OMTKY3
Quantum mechanics
Implicit solvent
Online Access:https://peerj.com/articles/198.pdf
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spelling doaj-db7bc9632365481092d411d81d2fb4ed2020-11-24T23:19:37ZengPeerJ Inc.PeerJ2167-83592013-10-011e19810.7717/peerj.198198Predicting pKa for proteins using COSMO-RSMartin Peter Andersson0Jan Halborg Jensen1Susan Louise Svane Stipp2Nano-Science Center, Department of Chemistry, University of Copenhagen, Copenhagen, DK-2100, DenmarkDepartment of Chemistry, University of Copenhagen, Copenhagen, DK-2100, DenmarkNano-Science Center, Department of Chemistry, University of Copenhagen, Copenhagen, DK-2100, DenmarkWe have used the COSMO-RS implicit solvation method to calculate the equilibrium constants, pKa, for deprotonation of the acidic residues of the ovomucoid inhibitor protein, OMTKY3. The root mean square error for comparison with experimental data is only 0.5 pH units and the maximum error 0.8 pH units. The results show that the accuracy of pKa prediction using COSMO-RS is as good for large biomolecules as it is for smaller inorganic and organic acids and that the method compares very well to previous pKa predictions of the OMTKY3 protein using Quantum Mechanics/Molecular Mechanics. Our approach works well for systems of about 1000 atoms or less, which makes it useful for small proteins as well as for investigating portions of larger proteins such as active sites in enzymes.https://peerj.com/articles/198.pdfProteinspKaCOSMO-RSOMTKY3Quantum mechanicsImplicit solvent
collection DOAJ
language English
format Article
sources DOAJ
author Martin Peter Andersson
Jan Halborg Jensen
Susan Louise Svane Stipp
spellingShingle Martin Peter Andersson
Jan Halborg Jensen
Susan Louise Svane Stipp
Predicting pKa for proteins using COSMO-RS
PeerJ
Proteins
pKa
COSMO-RS
OMTKY3
Quantum mechanics
Implicit solvent
author_facet Martin Peter Andersson
Jan Halborg Jensen
Susan Louise Svane Stipp
author_sort Martin Peter Andersson
title Predicting pKa for proteins using COSMO-RS
title_short Predicting pKa for proteins using COSMO-RS
title_full Predicting pKa for proteins using COSMO-RS
title_fullStr Predicting pKa for proteins using COSMO-RS
title_full_unstemmed Predicting pKa for proteins using COSMO-RS
title_sort predicting pka for proteins using cosmo-rs
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2013-10-01
description We have used the COSMO-RS implicit solvation method to calculate the equilibrium constants, pKa, for deprotonation of the acidic residues of the ovomucoid inhibitor protein, OMTKY3. The root mean square error for comparison with experimental data is only 0.5 pH units and the maximum error 0.8 pH units. The results show that the accuracy of pKa prediction using COSMO-RS is as good for large biomolecules as it is for smaller inorganic and organic acids and that the method compares very well to previous pKa predictions of the OMTKY3 protein using Quantum Mechanics/Molecular Mechanics. Our approach works well for systems of about 1000 atoms or less, which makes it useful for small proteins as well as for investigating portions of larger proteins such as active sites in enzymes.
topic Proteins
pKa
COSMO-RS
OMTKY3
Quantum mechanics
Implicit solvent
url https://peerj.com/articles/198.pdf
work_keys_str_mv AT martinpeterandersson predictingpkaforproteinsusingcosmors
AT janhalborgjensen predictingpkaforproteinsusingcosmors
AT susanlouisesvanestipp predictingpkaforproteinsusingcosmors
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