Your search keyword '"Skiniotis, Georgios"' showing total 14 results

1. Structural flexibility of the Gαs α-helical domain in the β2-adrenoceptor Gs complex

Author

Westfield, Gerwin H., Rasmussen, Søren G. F., Su, Min, Dutta, Somnath, DeVree, Brian T., Chung, Ka Young, Calinski, Diane, Velez-Ruiz, Gisselle, Oleskie, Austin N., Pardon, Els, Chae, Pil Seok, Liu, Tong, Li, Sheng, Woods,, Virgil L., Steyaert, Jan, Kobilka, Brian K., Sunahara, Roger K., and Skiniotis, Georgios

Published

2011

2. Visualization and functional analysis of the oligomeric states of Escherichia coli heat shock protein 70 (Hsp70/DnaK)

Author

Thompson, Andrea D., Bernard, Steffen M., Skiniotis, Georgios, and Gestwicki, Jason E.

Published

2012

3. Single-particle cryo-electron microscopy of macromolecular complexes.

Author

Skiniotis, Georgios and Southworth, Daniel R.

Subjects

*ELECTRON microscopy, *MICROSCOPY, *MOLECULAR structure, *CHEMICAL structure, *ATOMS in molecules theory

Abstract

Recent technological breakthroughs in image acquisition have enabled single-particle cryoelectron microscopy (cryo-EM) to achieve near-atomic resolution structural information for biological complexes. The improvements in image quality coupled with powerful computational methods for sorting distinct particle populations now also allow the determination of compositional and conformational ensembles, thereby providing key insights into macromolecular function. However, the inherent instability and dynamic nature of biological assemblies remain a tremendous challenge that often requires tailored approaches for successful implementation of the methodology. Here, we briefly describe the fundamentals of single-particle cryo-EM with an emphasis on covering the breadth of techniques and approaches, including low- and high-resolution methods, aiming to illustrate specific steps that are crucial for obtaining structural information by this method. [ABSTRACT FROM AUTHOR]

Published

2016

4. Collective Variable Approaches for Single Molecule Flexible Fitting and Enhanced Sampling.

Author

Vashisth, Harish, Skiniotis, Georgios, and Brooks III, Charles Lee

Subjects

*SINGLE molecule detection, *MOLECULAR dynamics, *PROTEIN structure, *ELECTRON microscopy, *NUCLEIC acids

Abstract

The article discusses the use of single molecule detection technique such as normal-mode analysis (NMA) of protein structure based on molecular dynamics simulations. It mentions the applications of the NMA flexible fitting of protein structures into electron microscopy maps and the importance of enhanced sampling in bimolecular simulations. Also discussed is that the molecular simulation can be used for the testing of the validity of the single molecule methods on proteins and nucleic acids.

Published

2014

5. Enhanced Sampling and Overfitting Analyses in StructuralRefinement of Nucleic Acids into Electron Microscopy Maps.

Author

Vashisth, Harish, Skiniotis, Georgios, and Brooks, Charles L.

Subjects

*NUCLEIC acids, *STATISTICAL sampling, *ELECTRON microscopy, *MACROMOLECULAR dynamics, *STRUCTURAL analysis (Science), *CONFORMATIONAL analysis, *GLOBULAR proteins

Abstract

Flexible fitting computational algorithmsare often useful to interpretlow-resolution maps of many macromolecular complexes generated byelectron microscopy (EM) imaging. One such atomistic simulation techniqueis molecular dynamics flexible fitting (MDFF), which has been widelyapplied to generate structural models of large ribonucleoprotein assembliessuch as the ribosome. We have previously shown that MDFF simulationsof globular proteins are sensitive to the resolution of the targetEM map and the strength of restraints used to preserve the secondarystructure elements during fitting (Vashisth, H.; et al. Structure2012, 20, 1453−1462). Inthis work, we aim to systematically examine the quality of structuralmodels of various nucleic acids obtained via MDFF by varying the mapresolution and the strength of structural restraints. We also demonstratehow an enhanced conformational sampling technique for proteins, temperature-acceleratedmolecular dynamics (TAMD), can be combined with MDFF for the structuralrefinement of nucleic acids in EM maps. Finally, we also demonstrateapplication of TAMD-assisted MDFF (TAMDFF) on a RNA/protein complexand suggest that TAMDFF is a viable strategy for enhanced conformationalfitting in target maps of ribonucleoprotein complexes. [ABSTRACT FROM AUTHOR]

Published

2013

6. Using Enhanced Sampling and Structural Restraints to Refine Atomic Structures into Low-Resolution Electron Microscopy Maps

Author

Vashisth, Harish, Skiniotis, Georgios, and Brooks, Charles L.

Subjects

*ATOMIC structure, *ELECTRON microscopy, *MOLECULAR structure, *IMAGE quality analysis, *MOLECULAR dynamics, *SIMULATION methods & models

Abstract

Summary: For a variety of problems in structural biology, low-resolution maps generated by electron microscopy imaging are often interpreted with the help of various flexible-fitting computational algorithms. In this work, we systematically analyze the quality of final models of various proteins obtained via molecular dynamics flexible fitting (MDFF) by varying the map-resolution, strength of structural restraints, and the steering forces. We find that MDFF can be extended to understand conformational changes in lower-resolution maps if larger structural restraints and lower steering forces are used to prevent overfitting. We further show that the capabilities of MDFF can be extended by combining it with an enhanced conformational sampling method, temperature-accelerated molecular dynamics (TAMD). Specifically, either TAMD can be used to generate better starting configurations for MDFF fitting or TAMD-assisted MDFF (TAMDFF) can be performed to accelerate conformational search in atomistic simulations. [ABSTRACT FROM AUTHOR]

Published

2012

7. Structural flexibility of the Gαs α-helical domain in the β2-adrenoceptor Gs complex.

Author

Westheld, Gerwin H., Rasmussen, S&3x00F8;ren G. F., Su, Min, Dutta, Somnath, DeVree, Brian T., Ka Young Chung, Calinski, Diane, Velez-Ruiz, Gisselle, Oleskie, Austin N., Pardon, Els, Pil Seok Chae, Tong Liu, Sheng Li, Virgil L. Woods Jr., Steyaert, Jan, Kobilka, Brian K., Sunahara, Roger K., and Skiniotis, Georgios

Subjects

G proteins, NEUROTRANSMITTERS, ELECTRON microscopy, NUCLEOTIDES, PYROPHOSPHATES, RAS proteins

Abstract

The active-state complex between an agonist-bound receptor and a guanine nucleotide-free G protein represents the fundamental signaling assembly for the majority of hormone and neurotransmitter signaling. We applied single-particle electron microscopy (EM) analysis to examine the architecture of agonist-occupied β2 adrenoceptor (β2AR) in complex with the heterotrimeric G protein Gs (Gαsβγ). EM 2D averages and 3D reconstructions of the detergent-solubilized complex reveal an overall architecture that is in very good agreement with the crystal structure of the active-state ternary complex. Strikingly however, the α-helical domain of Gαs appears highly flexible in the absence of nucleotide. In contrast, the presence of the pyrophosphate mimic foscarnet (phosphonoformate), and also the presence of GDP, favor the stabilization of the α-helical domain on the Ras-like domain of Gαs. Molecular modeling of the a-helical domain in the 3D EM maps suggests that in its stabilized form it assumes a conformation reminiscent to the one observed in the crystal structure of Gαs-GTPγS. These data argue that the α-helical domain undergoes a nucleotidedependent transition from a flexible to a conformationally stabilized state. [ABSTRACT FROM AUTHOR]

Published

2011

8. Structural Snapshots of Full-Length Jak1, a Transmembrane gp130/IL-6/IL-6Rα Cytokine Receptor Complex, and the Receptor-Jak1 Holocomplex

Author

Lupardus, Patrick J., Skiniotis, Georgios, Rice, Amanda J., Thomas, Christoph, Fischer, Suzanne, Walz, Thomas, and Garcia, K. Christopher

Subjects

*CYTOKINES, *RECEPTOR-ligand complexes, *INTERLEUKIN-6, *ELECTRON microscopy, *CELL membranes, *PROTEIN-tyrosine kinases

Abstract

Summary: The shared cytokine receptor gp130 signals as a homodimer or heterodimer through activation of Janus kinases (Jaks) associated with the receptor intracellular domains. Here, we reconstitute, in parts and whole, the full-length gp130 homodimer in complex with the cytokine interleukin-6 (IL-6), its alpha receptor (IL-6Rα) and Jak1, for electron microscopy imaging. We find that the full-length gp130 homodimer complex has intimate interactions between the trans- and juxtamembrane segments of the two receptors, appearing to form a continuous connection between the extra- and intracellular regions. 2D averages and 3D reconstructions of full-length Jak1 reveal a three lobed structure comprising FERM-SH2, pseudokinase, and kinase modules possessing extensive intersegmental flexibility that likely facilitates allosteric activation. Single-particle imaging of the gp130/IL-6/IL-6Rα/Jak1 holocomplex shows Jak1 associated with the membrane proximal intracellular regions of gp130, abutting the would-be inner leaflet of the cell membrane. Jak1 association with gp130 is enhanced by the presence of a membrane environment. [ABSTRACT FROM AUTHOR]

Published

2011

9. Surface-decoration of Microtubules by Human Tau

Author

Santarella, Rachel A., Skiniotis, Georgios, Goldie, Kenneth N., Tittmann, Peter, Gross, Heinz, Mandelkow, Eva-Maria, Mandelkow, E., and Hoenger, Andreas

Subjects

*GREEN fluorescent protein, *ELECTRON microscopy, *TUBULINS, *PROTEINS

Abstract

Tau is a neuronal, microtubule-associated protein that stabilizes microtubules and promotes neurite outgrowth. Tau is largely unfolded in solution and presumably forms mostly random coil. Because of its hydrophilic nature and flexible structure, tau complexed to microtubules is largely invisible by standard electron microscopy methods. We applied a combination of high-resolution metal-shadowing and cryo-electron microscopy to study the interactions between tau and microtubules. We used recombinant tau variants with different domain compositions, (1) full length tau, (2) the repeat domain that mediates microtubule binding (K19), and (3) two GFP-tau fusion proteins that contain a globular marker (GFP) attached to full-length tau at either end. All of these constructs bind exclusively to the outside of microtubules. Most of the tau-related mass appears randomly distributed, creating a “halo” of low-density mass spread across the microtubule surface. Only a small fraction of tau creates a periodic signal at an 8 nm interval, centered on α-tubulin subunits. Our data suggest that tau retains most of its disordered structure even when bound to the microtubule surface. Hence, it binds along, as well as across protofilaments. Nevertheless, even minute concentrations of tau have a strong stabilizing effect and effectively scavenge unpolymerized tubulin. [Copyright &y& Elsevier]

Published

2004

10. Structure of a VEGF–VEGF receptor complex determined by electron microscopy.

Author

Ruch, Claudia, Skiniotis, Georgios, Steinmetz, Michel O., Walz, Thomas, and Ballmer-Hofer, Kurt

Subjects

*VASCULAR endothelial growth factors, *PROTEIN kinases, *ELECTRON microscopy, *PROTEIN binding, *TYROSINE, *RECEPTOR-ligand complexes

Abstract

Receptor tyrosine kinases are activated upon ligand-induced dimerization. Here we show that the monomeric extracellular domain of vascular endothelial growth factor (VEGF) receptor-2 (VEGFR-2) has a flexible structure. Binding of VEGF to membrane-distal immunoglobulin-like domains causes receptor dimerization and promotes further interaction between receptor monomers through the membrane-proximal immunoglobulin-like domain 7. By this mechanism, ligand-induced dimerization of VEGFR-2 can be communicated across the membrane, activating the intracellular tyrosine kinase domains. [ABSTRACT FROM AUTHOR]

Published

2007

11. Isolation and structure-function characterization of a signaling-active rhodopsin-G protein complex.

Author

Yang Gao, Westfield, Gerwin, Erickson, Jon W., Cerione, Richard A., Skiniotis, Georgios, and Ramachandran, Sekar

Subjects

*METARHODOPSINS, *MEMBRANE proteins, *RHODOPSIN, *G protein coupled receptors, *ELECTRON microscopy

Abstract

The visual photo-transduction cascade is a prototypical G protein-coupled receptor (GPCR) signaling system, in which light-activated rhodopsin (Rho8 ) is the GPCR catalyzing the exchange of GDP for GTP on the heterotrimeric G protein transducin (GT). This results in the dissociation of GT into its component βT-GTP and β1γ1 subunit complex. Structural information for the Rho8-GT complex will be essential for understanding the molecular mechanism of visual photo-transduction. Moreover, it will shed light on how GPCRs selectively couple to and activate their G protein signaling partners. Here, we report on the preparation of a stable detergent-solubilized complex between Rho8 and a heterotrimer (GT8 ) comprising a GβT/Gβi1 chimera (βT8 ) and β1γ1. The complex was formed on native rod outer segment membranes upon light activation, solubilized in lauryl maltose neopentyl glycol and purified with a combination of affinity and size-exclusion chromatography.We found that the complex is fully functional and that the stoichiometry of Rho8 toGβT8 is 1:1. The molecular weight of the complex was calculated from small-angle X-ray scattering data and was in good agreement with a model consisting of one Rho8 and one GT8 . The complex was visualized by negative-stain electron microscopy, which revealed an architecture similar to that of the β2-adrenergic receptor-GS complex, including a flexible βT8 helical domain. The stability and high yield of the purified complex should allow for further efforts toward obtaining a highresolution structure of this important signaling complex. [ABSTRACT FROM AUTHOR]

Published

2017

12. Visualization of an N-terminal fragment of von Willebrand factor in complex with factor VIII.

Author

Andrew Yee, Oleskie, Austin N., Dosey, Anne M., Kretz, Colin A., Gildersleeve, Robert D., Dutta, Somnath, Min Su, Ginsburg, David, and Skiniotis, Georgios

Subjects

*BLOOD coagulation factors, *VON Willebrand factor, *BLOOD circulation, *ELECTRON microscopy, *HOMEOSTASIS

Abstract

Binding to the von Willebrand factor (VWF) D'D3 domains protects factor VIII (FVIII) from rapid clearance. We performed single-particle electron microscopy (EM) analysis of negatively stained specimens to examine the architecture of D'D3 alone and in complex with FVIII. The D'D3 dimer ([D'D3]2) comprises 2 antiparallel D3 monomers with flexibly attached protrusions of D'. FVIII-VWF association is primarily established between the FVIII C1 domain and the VWF D' domain, whereas weaker interactions appear to be mediated between both FVIII C domains and the VWF D3 core. Modeling the FVIII structure into the three-dimensional EM reconstructions of [D'D3]2-FVIII ternary and quaternary complexes indicates conformational rearrangements of the FVIII C domains compared with their disposition in the unbound state. These results illustrate the cooperative plasticity between VWF and FVIII that coordinate their high-affinity interaction. [ABSTRACT FROM AUTHOR]

Published

2015

13. Ligand-Induced Architecture of the Leptin Receptor Signaling Complex

Author

Mancour, Liliya V., Daghestani, Hikmat N., Dutta, Somnath, Westfield, Gerwin H., Schilling, Justin, Oleskie, Austin N., Herbstman, Jeffrey F., Chou, Steven Z., and Skiniotis, Georgios

Subjects

*RECEPTOR-ligand complexes, *LEPTIN receptors, *CELLULAR signal transduction, *ELECTRON microscopy, *HOMOLOGY (Biology), *EXTRACELLULAR matrix proteins

Abstract

Summary: Despite the crucial impact of leptin signaling on metabolism and body weight, little is known about the structure of the liganded leptin receptor (LEP-R) complex. Here, we applied single-particle electron microscopy (EM) to characterize the architecture of the extracellular region of LEP-R alone and in complex with leptin. We show that unliganded LEP-R displays significant flexibility in a hinge region within the cytokine homology region 2 (CHR2) that is connected to rigid membrane-proximal FnIII domains. Leptin binds to CHR2 in order to restrict the flexible hinge and the disposition of the FnIII “legs.” Through a separate interaction, leptin engages the Ig-like domain of a second liganded LEP-R, resulting in the formation of a quaternary signaling complex. We propose that the membrane proximal domain rigidification in the context of a liganded cytokine receptor dimer is a key mechanism for the transactivation of Janus kinases (Jaks) bound at the intracellular receptor region. [Copyright &y& Elsevier]

Published

2012

14. Ribosome Assembly Factors Prevent Premature Translation Initiation by 40S Assembly Intermediates.

Author

Strunk, Bethany S., Loucks, Cherisse R., Su, Min, Vashisth, Harish, Cheng, Shanshan, Schilling, Justin, Brooks III, Charles L., Karbstein, Katrin, and Skiniotis, Georgios

Subjects

*GENETIC translation, *EUKARYOTIC cells, *RIBOSOME structure, *SACCHAROMYCES cerevisiae, *CRYOMICROSCOPY, *ELECTRON microscopy, *INTERMEDIATES (Chemistry), *BINDING sites

Abstract

Ribosome assembly in eukaryotes requires approximately 200 essential assembly factors (AFs) and occurs through ordered events that initiate in the nucleolus and culminate in the cytoplasm. Here, we present the electron cryo-microscopy (cryo-EM) structure of a late cytoplasmic 405 ribosome assembly intermediate from Saccharomyces cerevisiae at 18 angstrom resolution. We obtained cryo-EM reconstructions of preribosomal complexes lacking individual components to define the positions of all seven AFs bound to this intermediate. These late-binding AFs are positioned to prevent each step in the translation initiation pathway. Together, they obstruct the binding sites for initiation factors, prevent the opening of the messenger RNA channel, block 60S subunit joining, and disrupt the decoding site. These redundant mechanisms probably ensure that pre-40S particles do not enter the translation pathway, which would result in their rapid degradation. [ABSTRACT FROM AUTHOR]

Published

2011