☆ 4.6 Article

Structural and Dynamics Characteristics of Acylphosphatase from Sulfolobus solfataricus in the Monomeric State and in the Initial Native-like Aggregates

JOURNAL OF BIOLOGICAL CHEMISTRY (2010)

期刊

JOURNAL OF BIOLOGICAL CHEMISTRY

卷 285, 期 19, 页码 14689-14700

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AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC

DOI: 10.1074/jbc.M109.082156

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Biochemistry & Molecular Biology

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MIUR [XY59ZJ, M3E2T2, RBNE03PX83, RBRN07BMCT]
European Union [LSHM-CT-2005-037525]
Accademia dei Lincei
Federation of the European Biochemical Societies

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摘要

It has previously been shown that the acylphosphatase from Sulfolobus solfataricus is capable of forming amyloid-like aggregates under conditions in which the native structure is maintained and via the transient formation of native-like aggregates. Based on the previously determined NMR structure of the native protein, showing a ferredoxin-like fold and the peculiar presence of an unstructured N-terminal segment, we show here, at a molecular level using NMR spectroscopy, that indeed S. solfataricus acylphosphatase remains in a native-like conformation when placed in aggregating conditions and that such a native-like structure persists when the protein forms the initial aggregates, at least within the low molecular weight species. The analysis carried out under different solution conditions, based on the measurement of the combined H-1 and N-15 chemical shifts and hydrogen/deuterium exchange rates, enabled the most significant conformational changes to be monitored upon transfer of the monomeric state into aggregating conditions and upon formation of the initial native-like aggregates. Important increases of the hydrogen/deuterium exchange rates throughout the native protein, accompanied by small and localized structural changes, in the monomeric protein were observed. The results also allow the identification of the intermolecular interaction regions within the native-like aggregates, that involve, in particular, the N-terminal unstructured segment, the apical region including strands S4 and S5 with the connecting loop, and the opposite active site.

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Structural Analysis of an Antigen Chemically Coupled on Virus-Like Particles in Vaccine Formulation

Kristaps Jaudzems, Anna Kirsteina, Tobias Schubeis, Gilles Casano, Olivier Ouari, Janis Bogans, Andris Kazaks, Kaspars Tars, Anne Lesage, Guido Pintacuda

Summary: MAS NMR technology can be used to assess the structure of the influenza virus hemagglutinin stalk antigen, providing a structural comparison between the free and coupled forms of the antigen, demonstrating the preservation of its native fold during bioconjugation.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Chemistry, Multidisciplinary

Symmetrical Diacetylenes Outfitted with Ionic Liquid-like Groups: Structural, Polymerization, and Carbonization Studies

Karim Fahsi, Xavier Dumail, Lydie Viau, Arie van der Lee, Nathalie Masquelez, Dominique Granier, Cyril Vaulot, Sylvain Georges Dutremez

Summary: Three symmetrical diacetylenes with tetraalkylammonium substituents were investigated for their polymerization and carbonization behaviors. It was found that the lack of suitable orientation hindered the formation of polydiacetylene under UV irradiation. Furthermore, the size of the cation and the anion played a crucial role in the microstructure of the resulting carbon material. The carbonized diacetylenes also exhibited potential for introducing doping elements into a graphite structure.

CRYSTAL GROWTH & DESIGN (2023)

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Article Biochemistry & Molecular Biology

Structural polymorphism of the low-complexity C-terminal domain of TDP-43 amyloid aggregates revealed by solid-state NMR

Jayakrishna Shenoy, Alons Lends, Melanie Berbon, Muhammed Bilal, Nadia El Mammeri, Mathilde Bertoni, Ahmad Saad, Estelle Morvan, Axelle Grelard, Sophie Lecomte, Francois-Xavier Theillet, Alexander K. Buell, Brice Kauffmann, Birgit Habenstein, Antoine Loquet

Summary: Aberrant aggregation of TDP-43 protein is linked to lethal neurodegenerative diseases. Using a combination of techniques, we found that different fragments of TDP-43 adopt distinct polymorphic structures in their amyloid fibrillar state. Our study reveals that removal of a small portion of the low-complexity sequence can lead to amyloid fibrils with similar macroscopic features but different local structural arrangements.

FRONTIERS IN MOLECULAR BIOSCIENCES (2023)

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Article Chemistry, Inorganic & Nuclear

Hydrogen-bonded linear chain assemblies of palladium(ii)-selenoether complexes: solid state aggregates as templates for nano-structural Pd17Se15 leading to efficient electrocatalytic activity

Liladhar B. Kumbhare, Anu Prathap M. Udayan, Hardik Singla, Shilpa N. Sawant, Priyanka Ruz, Amey Wadawale, Jitendra Bahadur

Summary: A series of 2-(3,5-dimethylpyrazol-1-yl)phenyl substituted selenoether complexes of palladium were synthesized and their molecular structures and aggregation were analyzed. These complexes were converted to capping free palladium selenide nanoparticles and evaluated for electrocatalytic activity in alkaline medium.

DALTON TRANSACTIONS (2023)

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Article Biochemistry & Molecular Biology

Structural and Dynamical Properties of Elastin-Like Peptides near Their Lower Critical Solution Temperature

Tatiana I. Morozova, Nicolas A. Garcia, Olga Matsarskaia, Felix Roosen-Runge, Jean-Louis Barrat

Summary: Elastin-like peptides (ELPs) mimic the protein elastin and exhibit lower critical solution temperature (LCST) behavior. Through molecular dynamics simulations, we studied the interactions and behavior of ELPs at different temperatures and peptide concentrations. We found that the peptides undergo a hydrophobic collapse and exhibit LCST-like behavior. Additionally, the formation of dynamic aggregates and the slowing down of peptide motion were observed.

BIOMACROMOLECULES (2023)

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Article Chemistry, Physical

The corona of protein-gold nanoparticle systems: the role of ionic strength

Cristina Cantarutti, Yamanappa Hunashal, Carmelo La Rosa, Marcello Condorelli, Sofia Giorgetti, Vittorio Bellotti, Federico Fogolari, Gennaro Esposito

Summary: It has been discovered that changing the ionic strength of the medium can adjust the form and strength of the interaction between nanoparticles and proteins, thus impacting the mechanism of nanomaterials on proteins.

PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2022)

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Review Biochemistry & Molecular Biology

Amyloid Formation by Globular Proteins: The Need to Narrow the Gap Between in Vitro and in Vivo Mechanisms

Giulia Faravelli, Valentina Mondani, P. Patrizia Mangione, Sara Raimondi, Loredana Marchese, Francesca Lavatelli, Monica Stoppini, Alessandra Corazza, Diana Canetti, Guglielmo Verona, Laura Obici, Graham W. Taylor, Julian D. Gillmore, Sofia Giorgetti, Vittorio Bellotti

Summary: The transition of proteins from globular to fibrillar state is a key event in the development of amyloid diseases. The complex process of protein metamorphism is an ideal metaphor for studying protein folding and investigating folding dynamics. However, there is still a major gap between in vivo and in vitro models of fibrillogenesis, and studying the transformation of globular proteins in systems of increasing complexity may help bridge this gap.

FRONTIERS IN MOLECULAR BIOSCIENCES (2022)

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Article Chemistry, Medicinal

The Transthyretin/Oleuropein Aglycone Complex: A New Tool against TTR Amyloidosis

Francesco Bemporad, Manuela Leri, Matteo Ramazzotti, Massimo Stefani, Monica Bucciantini

Summary: This study investigated the interaction between oleuropein derivative OleA and TTR protein. The results showed that OleA could stabilize TTR, prevent its dissociation into monomers, and subsequent misfolding. This finding suggests the potential use of OleA in preventing degenerative diseases associated with TTR misfolding.

PHARMACEUTICALS (2022)

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Article Biochemistry & Molecular Biology

Conversion of the Native N-Terminal Domain of TDP-43 into a Monomeric Alternative Fold with Lower Aggregation Propensity

Matteo Moretti, Isabella Marzi, Cristina Cantarutti, Mirella Vivoli Vega, Walter Mandaliti, Maria Chiara Mimmi, Francesco Bemporad, Alessandra Corazza, Fabrizio Chiti

Summary: TAR DNA-binding protein 43 (TDP-43) has been associated with amyotrophic lateral sclerosis and frontotemporal lobar degeneration. The N-terminal domain (NTD) of TDP-43 plays a crucial role in its function and the formation of intraneuronal inclusions. The study identified an alternative conformation of NTD in the presence of SB3-10, which led to a more α-helical structure. The results also showed that the aggregation of TDP-43 was slower when pre-incubated with SB3-10, indicating the disruption of oligomeric seeds by the alternative conformation conditions. These findings provide insights into the plasticity of TDP-43 NTD and suggest strategies for monomerising TDP-43 NTD for various applications.

MOLECULES (2022)

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Article Chemistry, Multidisciplinary

Photo-Induced Microfluidic Production of Ultrasmall Glyco Gold Nanoparticles

Patricia Perez Schmidt, Katiuscia Pagano, Cristina Lenardi, Marta Penconi, Ruth Mateu Ferrando, Claudio Evangelisti, Luigi Lay, Laura Ragona, Marcello Marelli, Laura Polito

Summary: This study presents a simple photo-induced synthesis method for the production of Glyco-UAuNPs using a reliable microfluidic approach at room temperature. The method eliminates the need for chemical reductants, templating agents, or co-solvents and demonstrates good feasibility and stability. Using nuclear magnetic resonance spectroscopy, the study shows a linear correlation between the exposed thiol ligands on the UAuNPs and the ligand concentration in the initial mixture, providing a precise design method for engineered UAuNPs or smart hybrid nano-systems.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2023)

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Article Biochemistry & Molecular Biology

Inhibition of FGFR Signaling by Targeting FGF/FGFR Extracellular Interactions: Towards the Comprehension of the Molecular Mechanism through NMR Approaches

Katiuscia Pagano, Elisa Longhi, Henriette Molinari, Giulia Taraboletti, Laura Ragona

Summary: NMR-based approaches are crucial for understanding molecular recognition mechanisms and identifying potential inhibitors of protein-protein interactions. This study focuses on the interaction between FGF2 and FGFR and explores the inhibitory mechanisms using a small library of natural and synthetic molecules. The results provide valuable insights into the destabilization of the FGF2/FGFR complex and inhibition of FGF2-induced cell proliferation.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2022)

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Article Computer Science, Interdisciplinary Applications

Molecular electrostatics and pKa shifts calculations with the Generalized Born model. A tutorial through examples with Bluues2

Miguel Angel Soler, Ozge Ozkilinc, Yamanappa Hunashal, Paolo Giannozzi, Gennaro Esposito, Federico Fogolari

Summary: Biomolecular electrostatics plays a crucial role in biological function and recognition. The Poisson-Boltzmann equation and the Generalized Born model are commonly used methods to study biomolecular electrostatics. This work presents a tutorial on the program Bluues, which can efficiently calculate various properties related to electrostatic effects and pH dependence.

COMPUTER PHYSICS COMMUNICATIONS (2023)

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Article Biochemical Research Methods

A Comparison of Mutual Information, Linear Models and Deep Learning Networks for Protein Secondary Structure Prediction

Saida Saad Mohamed Mahmoud, Beatrice Portelli, Giovanni D'Agostino, Gianluca Pollastri, Giuseppe Serra, Federico Fogolari

Summary: This study aims to analyze the influence of surrounding residues on the single-sequence secondary structure prediction of a protein. Different prediction methods are compared, and the results show that mutual information and linear models quantify direct effects, while DeepLIFT applied on deep learning networks quantifies both direct and indirect effects. The best results are obtained using the BERT architecture.

CURRENT BIOINFORMATICS (2023)

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Article Biochemistry & Molecular Biology

Amyloid Aggregation Is Potently Slowed Down by Osmolytes Due to Compaction of Partially Folded State

Tommaso Garfagnini, Francesco Bemporad, Daniel Harries, Fabrizio Chiti, Assaf Friedler

Summary: Hydrophobicity is a key driving force for amyloid aggregation, and the presence of osmolytes in the cellular environment has a significant impact on this process. Hydrophobic mutations can increase the aggregation rate, but osmolytes can slow down the kinetics, especially when the mutation site is closer to the center of the protein sequence.

JOURNAL OF MOLECULAR BIOLOGY (2023)

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Review Chemistry, Multidisciplinary

The kth nearest neighbor method for estimation of entropy changes from molecular ensembles

Federico Fogolari, Roberto Borelli, Agostino Dovier, Gennaro Esposito

Summary: The article introduces the application and advantages of the kth nearest neighbor method in entropy estimation, as well as the relevant variables, metrics, and applications associated with this method. By combining this method with mutual information, high-dimensional problems can be addressed.

WILEY INTERDISCIPLINARY REVIEWS-COMPUTATIONAL MOLECULAR SCIENCE (2023)

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Review Biochemistry & Molecular Biology

Cyclophilin D in Mitochondrial Dysfunction: A Key Player in Neurodegeneration?

Gabriele Coluccino, Valentina Pia Muraca, Alessandra Corazza, Giovanna Lippe

Summary: Mitochondrial dysfunction is crucial in many complex diseases. Understanding the role of the mitochondrial matrix protein CyPD in regulating cell death and its involvement in neurodegenerative disorders, particularly Alzheimer's Disease and Parkinson's Disease, can provide new therapeutic targets. CyPD is involved in regulating the permeability transition pore in the inner mitochondrial membrane, and its dysregulated opening can lead to cell death. Additionally, CyPD interacts with various biochemical pathways. Exploring the post-translational modifications of CyPD can enhance our understanding. Development of CyPD-specific inhibitors holds promise for the treatment of these complex diseases.

BIOMOLECULES (2023)

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Meeting Abstract Biochemistry & Molecular Biology

Using the AlphaFold system to the interpretation of variants of uncertain significance

Alessandra Franzoni, Daniela Driul, Nadia Passon, Dora Fabbro, Federica Baldan, Paola Cogo, Federico Fogolari, Giuseppe Damante

EUROPEAN JOURNAL OF HUMAN GENETICS (2023)

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Article Chemistry, Applied

Reactive natural deep eutectic solvents increase selectivity and efficiency of lipase catalyzed esterification of carbohydrate polyols

Alina Ramona Buzatu, Miguel Angel Soler, Sara Fortuna, Ozge Ozkilinc, Diana Maria Dreava, Ioan Bitcan, Valentin Badea, Paolo Giannozzi, Federico Fogolari, Lucia Gardossi, Francisc Peter, Anamaria Todea, Carmen Gabriela Boeriu

Summary: In this study, a novel approach using reactive natural deep eutectic solvents as reaction medium was developed for the enzymatic esterification of carbohydrate polyols with fatty acids. The study successfully synthesized high-purity polyol esters under optimized reaction conditions.

CATALYSIS TODAY (2024)

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Article Endocrinology & Metabolism

Novel IGFALS mutations with predicted pathogenetic effects by the analysis of AlphaFold structure

Alessandra Franzoni, Federica Baldan, Nadia Passon, Catia Mio, Daniela Driul, Paola Cogo, Federico Fogolari, Federica D'Aurizio, Giuseppe Damante

Summary: This study used the AlphaFold artificial intelligence algorithm to predict the pathogenicity of IGFALS gene mutations, initially classified as variants of uncertain significance (VUS). This has potential implications for interpreting VUS results in genetic testing.

ENDOCRINE (2023)

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Article Engineering, Environmental

Mechanism and thermodynamics of adsorption of diclofenac on graphene-based nanomaterials

Daniele Veclani, Marilena Tolazzi, Federico Fogolari, Andrea Melchior

Summary: This study utilized molecular dynamics simulations to investigate the adsorption of the anti-inflammatory diclofenac (DCF) by carbon nanomaterials with various functional groups. The results showed different types of interactions between DCF and the materials, with surface desolvation playing a major role in determining the thermodynamic affinity order for DCF adsorption.

JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING (2022)

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