We describe a method that integrates data derived from different mass spectrometry (MS)-based techniques with a modeling strategy for structural characterization of protein assemblies. We encoded structural data derived from native MS, bottom-up proteomics, ion mobility-MS and chemical cross-linking MS into modeling restraints to compute the most likely structure of a protein assembly. We used the method to generate near-native models for three known structures and characterized an assembly intermediate of the proteasomal base.publishe
Cross-linking in combination with mass spectrometry can be used as a tool for structural modeling of...
This thesis illustrates the current standing of mass spectrometry (MS) in molecular and structural b...
With the accumulation of next generation sequencing data, there is increasing interest in the study ...
We describe a method that integrates data derived from different mass spectrometry (MS)-based techni...
We describe a method that integrates data derived from different mass spectrometry (MS)-based techni...
Protein complexes are key catalysts and regulators for the majority of cellular processes. Unveiling...
Protein assemblies are critical for cellular function and understanding their physical organization ...
Over the past two decades, mass spectrometry (MS) has emerged as a bone fide approach for structural...
Knowledge of protein structure and protein–protein interactions is vital for appreciating the elabor...
SummaryStructure determination of macromolecular protein assemblies remains a challenge for well-est...
Native mass spectrometry and mass spectrometry in general, are powerful analytical tools for studyin...
Physical interactions between proteins and the formation of stable complexes form the basis of most ...
Current challenges in the field of structural genomics point to the need for new tools and technolog...
Nowadays, mass spectrometry plays an important role in structural biology. At one end it can be used...
Most cellular processes depend on a multitude of molecular machines, predominantly comprised of prot...
Cross-linking in combination with mass spectrometry can be used as a tool for structural modeling of...
This thesis illustrates the current standing of mass spectrometry (MS) in molecular and structural b...
With the accumulation of next generation sequencing data, there is increasing interest in the study ...
We describe a method that integrates data derived from different mass spectrometry (MS)-based techni...
We describe a method that integrates data derived from different mass spectrometry (MS)-based techni...
Protein complexes are key catalysts and regulators for the majority of cellular processes. Unveiling...
Protein assemblies are critical for cellular function and understanding their physical organization ...
Over the past two decades, mass spectrometry (MS) has emerged as a bone fide approach for structural...
Knowledge of protein structure and protein–protein interactions is vital for appreciating the elabor...
SummaryStructure determination of macromolecular protein assemblies remains a challenge for well-est...
Native mass spectrometry and mass spectrometry in general, are powerful analytical tools for studyin...
Physical interactions between proteins and the formation of stable complexes form the basis of most ...
Current challenges in the field of structural genomics point to the need for new tools and technolog...
Nowadays, mass spectrometry plays an important role in structural biology. At one end it can be used...
Most cellular processes depend on a multitude of molecular machines, predominantly comprised of prot...
Cross-linking in combination with mass spectrometry can be used as a tool for structural modeling of...
This thesis illustrates the current standing of mass spectrometry (MS) in molecular and structural b...
With the accumulation of next generation sequencing data, there is increasing interest in the study ...