Abstract
APOBEC3 proteins are double-edged swords. They deaminate cytosine to uracil in single-stranded DNA and provide protection, as part of our innate immune system, against viruses and retrotransposons, but they are also involved in cancer evolution and development of drug resistance. We report a solution-state model of APOBEC3A interaction with its single-stranded DNA substrate obtained with the 'method of small changes'. This method compares pairwise the 2D 15N-1H NMR spectra of APOBEC3A bearing a deactivating mutation E72A in the presence of 36 slightly different DNA substrates. From changes in chemical shifts of peptide N-H moieties, the positions of each nucleotide relative to the protein can be identified. This provided distance restraints for molecular-dynamic simulations to derive a 3-D molecular model of the APOBEC3A-ssDNA complex. The model reveals that loops 1 and 7 of APOBEC3A move to accommodate substrate binding, indicating an important role for protein-DNA dynamics. Overall, our method may prove useful to study other DNA-protein complexes where crystallographic techniques or full NMR structure calculations are hindered by weak binding or other problems. Subsequent to submission, an APOBEC3A structure with a bound DNA oligomer was published and coordinates released, which has provided an unbiased validation of the 'method of small changes'.
PMID: 28369637 [PubMed - as supplied by publisher]
[NMR paper] Single-Molecule Force Spectroscopy Trajectories of a Single Protein and Its Polyproteins Are Equivalent: A Direct Experimental Validation Based on A Small Protein NuG2
Single-Molecule Force Spectroscopy Trajectories of a Single Protein and Its Polyproteins Are Equivalent: A Direct Experimental Validation Based on A Small Protein NuG2
Single-molecule force spectroscopy (SMFS) has become a powerful tool in investigating the mechanical unfolding/folding of proteins at the single-molecule level. Polyproteins made of tandem identical repeats have been widely used in atomic force microscopy (AFM)-based SMFS studies, where polyproteins not only serve as fingerprints to identify single-molecule stretching events, but may also improve statistics of data...
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Researchers uncover how small heat shock protein interacts with other proteins - News-Medical.net
Researchers uncover how small heat shock protein interacts with other proteins - News-Medical.net
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Researchers uncover how small heat shock protein interacts with other proteins
News-Medical.net
... in uncovering precisely this mechanism. Using a refined procedure of solid-state nuclear magnetic resonance spectroscopy (solid-state NMR), they managed, for the first time ever, to identify the sites in the alpha-B-crystallin that attach to the ...
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Screening protein – single stranded RNA complexes by NMR spectroscopy for structure determination
Screening protein – single stranded RNA complexes by NMR spectroscopy for structure determination
Publication date: Available online 1 October 2013
Source:Methods</br>
Author(s): Jaelle N. Foot , Mikael Feracci , Cyril Dominguez</br>
In the past few years, RNA molecules have been revealed to be at the center of numerous biological processes. Long considered as passive molecules transferring genetic information from DNA to proteins, it is now well established that RNA molecules play important regulatory roles. Associated with that, the number of identified RNA...
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10-01-2013 11:15 PM
[NMR paper] NMR structure of human restriction factor APOBEC3A reveals substrate binding and enzyme specificity.
NMR structure of human restriction factor APOBEC3A reveals substrate binding and enzyme specificity.
Related Articles NMR structure of human restriction factor APOBEC3A reveals substrate binding and enzyme specificity.
Nat Commun. 2013;4:1890
Authors: Byeon IJ, Ahn J, Mitra M, Byeon CH, Hercík K, Hritz J, Charlton LM, Levin JG, Gronenborn AM
Abstract
Human APOBEC3A is a single-stranded DNA cytidine deaminase that restricts viral pathogens and endogenous retrotransposons, and has a role in the innate immune response. Furthermore, its...
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05-23-2013 06:54 PM
A new method for the determination of free L: -carnitine in serum samples based on high field single quantum coherence filtering (1)H-NMR spectroscopy.
A new method for the determination of free L: -carnitine in serum samples based on high field single quantum coherence filtering (1)H-NMR spectroscopy.
A new method for the determination of free L: -carnitine in serum samples based on high field single quantum coherence filtering (1)H-NMR spectroscopy.
Anal Bioanal Chem. 2011 Jan 11;
Authors: Tsiafoulis CG, Exarchou V, Tziova PP, Bairaktari E, Gerothanassis IP, Troganis AN
The rapid and accurate determination of specific metabolites present in biofluids is a very demanding task which is essential...
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01-12-2011 11:11 AM
[NMR paper] Comparison of Pf1 and Fd gene 5 proteins and their single-stranded DNA complexes by N
Comparison of Pf1 and Fd gene 5 proteins and their single-stranded DNA complexes by NMR spectroscopy and differential scanning calorimetry.
Related Articles Comparison of Pf1 and Fd gene 5 proteins and their single-stranded DNA complexes by NMR spectroscopy and differential scanning calorimetry.
Biochemistry. 1995 Jan 10;34(1):148-54
Authors: Davis KG, Plyte SE, Robertson SR, Cooper A, Kneale GG
The Pf1 gene 5 protein forms a large helical nucleoprotein complex (Mr = 3.1 x 10(7)) with single-stranded viral DNA, from which a 32 amino acid...
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[NMR paper] Secondary structure of the single-stranded DNA binding protein encoded by filamentous
Secondary structure of the single-stranded DNA binding protein encoded by filamentous phage Pf3 as determined by NMR.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www3.interscience.wiley.com-aboutus-images-wiley_interscience_pubmed_logo_FREE_120x27.gif Related Articles Secondary structure of the single-stranded DNA binding protein encoded by filamentous phage Pf3 as determined by NMR.
Eur J Biochem. 1994 Sep 1;224(2):663-76
Authors: Folmer RH, Folkers PJ, Kaan A, Jonker AJ, Aelen JM, Konings RN, Hilbers CW
Nuclear magnetic resonance...
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[NMR paper] Identification of the single-stranded DNA binding surface of the transcriptional coac
Identification of the single-stranded DNA binding surface of the transcriptional coactivator PC4 by NMR.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--highwire.stanford.edu-icons-externalservices-pubmed-standard-jbc_full_free.gif Related Articles Identification of the single-stranded DNA binding surface of the transcriptional coactivator PC4 by NMR.
J Biol Chem. 1999 Feb 5;274(6):3693-9
Authors: Werten S, Wechselberger R, Boelens R, van der Vliet PC, Kaptein R
The C-terminal domain of the eukaryotic transcriptional cofactor PC4...
NMR-based method of small changes reveals how DNA mutator APOBEC3A interacts with its single-stranded DNA substrate.
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