Elina Tjioe scite author profile

Most cellular processes are orchestrated by macromolecular complexes. However, structural elucidation of these endogenous complexes can be challenging because they frequently contain large numbers of proteins, are compositionally and morphologically heterogeneous, can be dynamic, and are often of low abundance in the cell. Here, we present a strategy for the structural characterization of such complexes that has at its center chemical crosslinking with mass spectrometric readout. In this strategy, we isolate the endogenous complexes using a highly optimized sample preparation protocol and generate a comprehensive, high-quality cross-linking dataset using two complementary cross-linking reagents. We then determine the structure of the complex using a refined integrative method that combines the cross-linking data with information generated from other sources, including electron microscopy, X-ray crystallography, and comparative protein structure modeling. We applied this integrative strategy to determine the structure of the native Nup84 complex, a stable hetero-heptameric assembly (ϳ600 kDa), 16 copies of which form the outer rings of the 50-MDa nuclear pore complex (NPC) in budding yeast. The unprecedented detail of the Nup84 complex structure reveals previously unseen features in its pentameric structural hub and provides information on the conformational flexibility of the assembly. These additional details further support and augment the protocoatomer hypothesis, which proposes an evolutionary relationship between vesicle coating complexes and the NPC, and indicates a conserved mechanism by which the NPC is anchored in the nuclear envelope. Molecular & Cellular Proteomics

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ORNL_SAS: software for calculation of small-angle scattering intensities of proteins and protein complexes

Tjioe

Heller

2007

J Appl Crystallogr

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The program ORNL_SAS calculates solution small-angle X-ray and neutron scattering intensity profiles from a wide variety of structures, including atomicresolution models of proteins and protein complexes, low-resolution models defined in any manner, or combinations of both. ORNL_SAS is capable of simultaneously generating multiple intensity profiles, such as a contrast-variation series, and evaluating the quality of the fit of the model profiles to experimental data in a single run of the program. The capabilities of the widely applicable approach make it possible to use ORNL_SAS as the intensity calculation engine of model-building applications for small-angle scattering data.

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Integrative Structure Modeling of Macromolecular Assemblies from Proteomics Data

Lasker

Phillips

Russel

et al. 2010

Molecular & Cellular Proteomics

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Elina Tjioe

Putting the Pieces Together: Integrative Modeling Platform Software for Structure Determination of Macromolecular Assemblies

Structural Characterization by Cross-linking Reveals the Detailed Architecture of a Coatomer-related Heptameric Module from the Nuclear Pore Complex

ORNL_SAS: software for calculation of small-angle scattering intensities of proteins and protein complexes

Integrative Structure Modeling of Macromolecular Assemblies from Proteomics Data

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