MTMDAT-HADDOCK: High-throughput, protein complex structure modeling based on limited proteolysis and mass spectrometry

Hennig, Janosch; Vries, Sjoerd J. de; Hennig, Klaus Dm; Randles, Leah; Walters, Kylie J.; Sunnerhagen, Maria; Bonvin, Alexandre M. J. J.

doi:10.1186/1472-6807-12-29

Cited by 12 publications

(10 citation statements)

References 44 publications

(46 reference statements)

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“…The fusion of proteomics with computational analysis and informatics has led to software which can couple interactome networks to the three-dimensional structure of the interacting proteins. [87][88][89][90][91][92][93] When this is coupled to software that can analyse the affinities and on/off rates of PPI, then we will have more valuable 3D interactome networks which will be able to accurately predict in silico the physiological effects of disease-related protein defects and the results of pharmaco-proteomic changes upon cellular homoeostasis. Five years from now, the combined software capabilities and MS hardware sophistication should be in place to link modified structure and function of proteins in SS erythrocytes and leukocytes to changes in their 3D interactome network that leads to the pathophysiology of SCD including the cellular interactions that lead to vasoocclusion.…”

Section: Future Directionsmentioning

confidence: 99%

The proteomics and interactomics of human erythrocytes

Goodman

Daescu

Kakhniashvili

et al. 2013

Exp Biol Med (Maywood)

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In this minireview, we focus on advances in our knowledge of the human erythrocyte proteome and interactome that have occurred since our seminal review on the topic published in 2007. As will be explained, the number of unique proteins has grown from 751 in 2007 to 2289 as of today. We describe how proteomics and interactomics tools have been used to probe critical protein changes in disorders impacting the blood. The primary example used is the work done on sickle cell disease where biomarkers of severity have been identified, protein changes in the erythrocyte membranes identified, pharmacoproteomic impact of hydroxyurea studied and interactomics used to identify erythrocyte protein changes that are predicted to have the greatest impact on protein interaction networks.

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Section: Future Directionsmentioning

confidence: 99%

The proteomics and interactomics of human erythrocytes

Goodman

Daescu

Kakhniashvili

et al. 2013

Exp Biol Med (Maywood)

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“…The emergence of different integrative platforms using more and more MS-based data is another sign of the increasing importance of these methods in structural biology. The HADDOCK (High-Ambiguity-Driven DOCKing) server can, for instance, incorporate data coming from IM-MS [159], cross-linking, limited proteolysis [160], and, more recently, HDX experiments [161]. Other molecular modeling suites that are available online include the Integrative Modeling Platform [162] and ROSETTA [163].…”

Section: Discussionmentioning

confidence: 99%

Towards integrative structural mass spectrometry: Benefits from hybrid approaches

Marcoux

Cianférani

2015

Methods

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“…This high-resolution information can be achieved by a combination of the outcome of a limited proteolysis experiment with, for example, the static picture of the protein obtained with protein X-ray crystallography. The combination of partial digestion and other structuredetermination methods allowed one to monitor conformational transitions upon substrate, cofactor, or inhibitor binding (McCulloch & Fitzpatrick, 1999;Kang, Wilson, & Kermode, 2008;Crain & Broderick, 2013;Diestel et al, 2013;), and during protein-protein interactions (Dhungana et al, 2009;Grote et al, 2010;Hennig et al, 2012;O'Neill et al, 2012;Feng et al, 2014).…”

Section: Limited Proteolysismentioning

confidence: 99%

Resolution of protein structure by mass spectrometry

Vandermarliere¹,

Stes²,

Gevaert³

et al. 2014

Mass Spectrometry Reviews

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Typically, mass spectrometry is used to identify the peptides present in a complex peptide mixture and subsequently the precursor proteins. As such, mass spectrometry focuses mainly on the primary structure, the (modified) amino acid sequence of peptides and proteins. In contrast, the three-dimensional structure of a protein is typically determined with protein X-ray crystallography or NMR. Despite the close relationship between these two aspects of protein studies (sequence and structure), mass spectrometry and structure determination are not frequently combined. Nevertheless, this combination of approaches, dubbed conformational proteomics, can offer insight into the function, working mechanism, and conformational status of a protein. In this review, we will discuss the developments at the intersection of mass spectrometry-based proteomics and protein structure determination and start from a brief overview of the classic approaches to identify protein structure along with their advantages and disadvantages. We will subsequently discuss the ability of mass spectrometry to overcome some of the hurdles of these classic methods. Finally, we will provide an outlook on the interplay of mass spectrometry and protein structure determination, and highlight several recent experiments in which mass spectrometry was successfully used to either aid or complement structure elucidation. © 2014 Wiley Periodicals, Inc. Mass Spec Rev 35:653-665, 2016.

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MTMDAT-HADDOCK: High-throughput, protein complex structure modeling based on limited proteolysis and mass spectrometry

Cited by 12 publications

References 44 publications

The proteomics and interactomics of human erythrocytes

The proteomics and interactomics of human erythrocytes

Towards integrative structural mass spectrometry: Benefits from hybrid approaches

Resolution of protein structure by mass spectrometry

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