Your search keyword '"Patel, Trushar R."' showing total 7 results

1. Determination of a molecular shape for netrin-4 from hydrodynamic and small angle X-ray scattering measurements.

Author

Patel TR, Reuten R, Xiong S, Meier M, Winzor DJ, Koch M, and Stetefeld J

Subjects

Animals, Computer Simulation, Macromolecular Substances chemistry, Mice, Models, Molecular, Netrins, Protein Conformation, Hydrodynamics, Nerve Growth Factors chemistry, Scattering, Small Angle, X-Ray Diffraction methods

Abstract

As part of a continuing investigation of netrins, an emerging class of extracellular matrix proteins that are involved in axon guidance activity, we have used dynamic light scattering (DLS) and small angle X-ray scattering to investigate the solution conformation of a truncated version of netrin-4 (Δnetrin-4) that lacks the C-terminal portion. The protein is characterized by a hydrodynamic (Stokes) radius (r(H)) of 4.60 (±0.20) nm, a radius of gyration (r(G)) of 4.42 (±0.20) nm and a maximum particle dimension (D(max)) of 16nm. More detailed ab initio modeling of the SAXS data indicates an extended rod like conformation for Δnetrin-4 in solution-a concept supported by the excellent agreement observed between experimental parameter estimates and those calculated for the ab initio models for Δnetrin-4 by the HYDROPRO program., (Copyright © 2011 International Society of Matrix Biology. All rights reserved.)

Published

2012

2. Impact of the structural integrity of the three-way junction of adenovirus VAI RNA on PKR inhibition.

Author

Dzananovic, Edis, Astha, null, Chojnowski, Grzegorz, Deo, Soumya, Booy, Evan P., Padilla-Meier, Pauline, McEleney, Kevin, Bujnicki, Janusz M., Patel, Trushar R., and McKenna, Sean A.

Subjects

VIRAL genomes, PROTEIN kinases, VIRUS diseases, EUKARYOTIC cells, RNA

Abstract

Highly structured RNA derived from viral genomes is a key cellular indicator of viral infection. In response, cells produce the interferon inducible RNA-dependent protein kinase (PKR) that, when bound to viral dsRNA, phosphorylates eukaryotic initiation factor 2α and attenuates viral protein translation. Adenovirus can evade this line of defence through transcription of a non-coding RNA, VAI, an inhibitor of PKR. VAI consists of three base-paired regions that meet at a three-way junction; an apical stem responsible for the interaction with PKR, a central stem required for inhibition, and a terminal stem. Recent studies have highlighted the potential importance of the tertiary structure of the three-way junction to PKR inhibition by enabling interaction between regions of the central and terminal stems. To further investigate the role of the three-way junction, we characterized the binding affinity and inhibitory potential of central stem mutants designed to introduce subtle alterations. These results were then correlated with small-angle X-ray scattering solution studies and computational tertiary structural models. Our results demonstrate that while mutations to the central stem have no observable effect on binding affinity to PKR, mutations that appear to disrupt the structure of the three-way junction prevent inhibition of PKR. Therefore, we propose that instead of simply sequestering PKR, a specific structural conformation of the PKR-VAI complex may be required for inhibition. [ABSTRACT FROM AUTHOR]

Published

2017

3. Structural studies of RNA-protein complexes: A hybrid approach involving hydrodynamics, scattering, and computational methods.

Author

Patel, Trushar R., Chojnowski, Grzegorz, Astha, null, Koul, Amit, McKenna, Sean A., and Bujnicki, Janusz M.

Subjects

*RNA-protein interactions, *HYDRODYNAMICS, *SCATTERING (Physics), *MACROMOLECULES, *X-ray crystallography, *NUCLEAR magnetic resonance

Abstract

The diverse functional cellular roles played by ribonucleic acids (RNA) have emphasized the need to develop rapid and accurate methodologies to elucidate the relationship between the structure and function of RNA. Structural biology tools such as X-ray crystallography and Nuclear Magnetic Resonance are highly useful methods to obtain atomic-level resolution models of macromolecules. However, both methods have sample, time, and technical limitations that prevent their application to a number of macromolecules of interest. An emerging alternative to high-resolution structural techniques is to employ a hybrid approach that combines low-resolution shape information about macromolecules and their complexes from experimental hydrodynamic ( e . g . analytical ultracentrifugation) and solution scattering measurements ( e . g ., solution X-ray or neutron scattering), with computational modeling to obtain atomic-level models. While promising, scattering methods rely on aggregation-free, monodispersed preparations and therefore the careful development of a quality control pipeline is fundamental to an unbiased and reliable structural determination. This review article describes hydrodynamic techniques that are highly valuable for homogeneity studies, scattering techniques useful to study the low-resolution shape, and strategies for computational modeling to obtain high-resolution 3D structural models of RNAs, proteins, and RNA-protein complexes. [ABSTRACT FROM AUTHOR]

Published

2017

4. Structural elucidation of full-length nidogen and the laminin–nidogen complex in solution.

Author

Patel, Trushar R., Bernards, Claudia, Meier, Markus, McEleney, Kevin, Winzor, Donald J., Koch, Manuel, and Stetefeld, Jörg

Subjects

*ENTACTIN, *BASAL lamina, *BIOLOGY, *MEDICAL sciences, *PROTEINS, *CONNECTIVE tissues

Abstract

Abstract: Nidogen-1 is a key basement membrane protein that is required for many biological activities. It is one of the central elements in organizing basal laminae including those in the skin, muscle, and the nervous system. The self-assembling extracellular matrix that also incorporates fibulins, fibronectin and integrins is clamped together by networks formed between nidogen, perlecan, laminin and collagen IV. To date, the full-length version of nidogen-1 has not been studied in detail in terms of its solution conformation and shape because of its susceptibility to proteolysis. In the current study, we have expressed and purified full-length nidogen-1 and have investigated its solution behavior using size-exclusion chromatography (SEC), dynamic light scattering (DLS) and small angle X-ray scattering (SAXS). The ab initio shape reconstruction of the complex between nidogen-1 and the laminin γ-1 short arm confirms that the interaction is mediated solely by the C-terminal domains: the rest of the domains of both proteins do not participate in complex formation. [Copyright &y& Elsevier]

Published

2014

5. Solution conformation of adenovirus virus associated RNA-I and its interaction with PKR.

Author

Dzananovic, Edis, Patel, Trushar R., Chojnowski, Grzegorz, Boniecki, Michal J., Deo, Soumya, McEleney, Kevin, Harding, Stephen E., Bujnicki, Janusz M., and McKenna, Sean A.

Subjects

*CONFORMATIONAL analysis, *ADENOVIRUSES, *RNA, *PROTEIN kinases, *INTERFERONS, *COMPARATIVE studies, *HYDRODYNAMICS

Abstract

Abstract: Adenovirus virus-associated RNA (VAI) provides protection against the host antiviral response in part by inhibiting the interferon-induced double stranded RNA-activated protein kinase (PKR). VAI consists of three base-paired regions; the apical stem responsible for the interaction with double-stranded RNA binding motifs (dsRBMs) of PKR, the central stem required for inhibition, and the terminal stem. The solution conformation of VAI and VAI lacking the terminal stem were determined using SAXS that suggested extended conformations that are in agreement with their secondary structures. Solution conformations of VAI lacking the terminal stem in complex with the dsRBMs of PKR indicated that the apical stem interacts with both dsRNA-binding motifs whereas the central stem does not. Hydrodynamic properties calculated from ab initio models were compared to experimentally determined parameters for model validation. Furthermore, SAXS envelopes were used as a constraint for the in silico modeling of tertiary structure for RNA and RNA–protein complex. Finally, full-length PKR was also studied, but concentration-dependent changes in hydrodynamic parameters prevented ab initio shape determination. Taken together, results provide an improved structural framework that further our understanding of the role VAI plays in evading host innate immune responses. [Copyright &y& Elsevier]

Published

2014

6. Evidence for Self-Association of a Miniaturized Version of Agrin from Hydrodynamic and Small-Angle X-ray Scattering Measurements.

Author

Patel, Trushar R., Besong, Tabot M. D., Patel, Nehal, Meier, Markus, Harding, Stephen E., Winzor, Donald J., and Stetefeld, Jörg

Subjects

*AGRIN, *HYDRODYNAMICS, *X-ray scattering, *MOLAR mass, *RECOMBINANT proteins, *AMINO acid sequence

Abstract

Hydrodynamic studies of miniagrin indicate a molar mass that is 20% larger than the value calculated from the sequence of this genetically engineered protein. Consistent with this finding is the negative sign and also the magnitude of the second virial coefficient obtained from small-angle X-ray scattering measurements. The inference that miniagrin reversibly self-associates is confirmed by a sedimentation equilibrium study that yields an equilibrium constant of 0.24 L/g for a putative monomer–dimer interaction. Finally, Guinier analysis of the small-angle X-ray scattering (SAXS) results yields concentration-dependent values for the radius of gyration that may be described by the monomer–dimer model and respective Rgvalues of 40 and 105 Å for the monomeric and dimeric miniagrin species. Although intermolecular protein interactions are endemic in the events leading to acetylcholine receptor aggregation by agrin, the matrix proteoglycan of which miniagrin is a miniaturized model, this investigation raises the possibility that agrin may itself self-associate. [ABSTRACT FROM AUTHOR]

Published

2011

7. Global hydrodynamic analysis of the molecular flexibility of galactomannans

Author

Morris, Gordon A., Patel, Trushar R., Picout, David R., Ross-Murphy, Simon B., Ortega, Alvaro, Garcia de la Torre, Jose, and Harding, Stephen E.

Subjects

*VISCOSITY, *HYDRODYNAMICS, *GUAR, *MOLECULAR weights, *SPEED

Abstract

Abstract: In the past, intrinsic viscosity and sedimentation velocity analyses have been used separately to assess the conformation and flexibility of guar and locust bean gum galactomannans based on worm-like chain and semi-flexible coil models. Publication of a new global method combining data sets of both intrinsic viscosity and sedimentation coefficient with molecular weight, and minimising a target (error) function now permits a more robust analysis. Using this approach, values for the persistence length of (10±2)nm for guar and (7±1)nm for locust bean gum are returned if the mass per unit length M L is floated as a variable. Using a fixed mass per unit length based on the known compositional data of each galactomannan yields a similar value for L p in both cases, (8±1)nm for guar and (9±1)nm for locust bean gum, with combined set of data yielding (9±1)nm: within experimental error the flexibilities of both galactomannans are very similar. [Copyright &y& Elsevier]

Published

2008