Your search keyword '"Krassnigg, Andreas"' showing total 9 results

1. CavitOmiX Drug Discovery: Engineering Antivirals with Enhanced Spectrum and Reduced Side Effects for Arboviral Diseases.

Author

Parigger, Lena, Krassnigg, Andreas, Hetmann, Michael, Hofmann, Anna, Gruber, Karl, Steinkellner, Georg, and Gruber, Christian C.

Subjects

EMERGING infectious diseases, DRUG discovery, ZOONOSES, DRUG design, OFF-label use (Drugs), ARBOVIRUS diseases

Abstract

Advancing climate change increases the risk of future infectious disease outbreaks, particularly of zoonotic diseases, by affecting the abundance and spread of viral vectors. Concerningly, there are currently no approved drugs for some relevant diseases, such as the arboviral diseases chikungunya, dengue or zika. The development of novel inhibitors takes 10–15 years to reach the market and faces critical challenges in preclinical and clinical trials, with approximately 30% of trials failing due to side effects. As an early response to emerging infectious diseases, CavitOmiX allows for a rapid computational screening of databases containing 3D point-clouds representing binding sites of approved drugs to identify candidates for off-label use. This process, known as drug repurposing, reduces the time and cost of regulatory approval. Here, we present potential approved drug candidates for off-label use, targeting the ADP-ribose binding site of Alphavirus chikungunya non-structural protein 3. Additionally, we demonstrate a novel in silico drug design approach, considering potential side effects at the earliest stages of drug development. We use a genetic algorithm to iteratively refine potential inhibitors for (i) reduced off-target activity and (ii) improved binding to different viral variants or across related viral species, to provide broad-spectrum and safe antivirals for the future. [ABSTRACT FROM AUTHOR]

Published

2024

2. Folding the human proteome using BioNeMo: A fused dataset of structural models for machine learning purposes.

Author

Hetmann, Michael, Parigger, Lena, Sirelkhatim, Hassan, Stern, Abraham, Krassnigg, Andreas, Gruber, Karl, Steinkellner, Georg, Ruau, David, and Gruber, Christian C.

Subjects

STRUCTURAL models, PROTEIN structure, DRUG design, MACHINE learning, PROTEIN-protein interactions, PROTEIN engineering

Abstract

Human proteins are crucial players in both health and disease. Understanding their molecular landscape is a central topic in biological research. Here, we present an extensive dataset of predicted protein structures for 42,042 distinct human proteins, including splicing variants, derived from the UniProt reference proteome UP000005640. To ensure high quality and comparability, the dataset was generated by combining state-of-the-art modeling-tools AlphaFold 2, OpenFold, and ESMFold, provided within NVIDIA's BioNeMo platform, as well as homology modeling using Innophore's CavitomiX platform. Our dataset is offered in both unedited and edited formats for diverse research requirements. The unedited version contains structures as generated by the different prediction methods, whereas the edited version contains refinements, including a dataset of structures without low prediction-confidence regions and structures in complex with predicted ligands based on homologs in the PDB. We are confident that this dataset represents the most comprehensive collection of human protein structures available today, facilitating diverse applications such as structure-based drug design and the prediction of protein function and interactions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optimizing variant-specific therapeutic SARS-CoV-2 decoys using deep-learning-guided molecular dynamics simulations.

Author

Köchl, Katharina, Schopper, Tobias, Durmaz, Vedat, Parigger, Lena, Singh, Amit, Krassnigg, Andreas, Cespugli, Marco, Wu, Wei, Yang, Xiaoli, Zhang, Yanchong, Wang, Welson Wen-Shang, Selluski, Crystal, Zhao, Tiehan, Zhang, Xin, Bai, Caihong, Lin, Leon, Hu, Yuxiang, Xie, Zhiwei, Zhang, Zaihui, and Yan, Jun

Subjects

MOLECULAR dynamics, SARS-CoV-2, SARS-CoV-2 Omicron variant, CONVOLUTIONAL neural networks, COVID-19 treatment, CHO cell

Abstract

Treatment of COVID-19 with a soluble version of ACE2 that binds to SARS-CoV-2 virions before they enter host cells is a promising approach, however it needs to be optimized and adapted to emerging viral variants. The computational workflow presented here consists of molecular dynamics simulations for spike RBD-hACE2 binding affinity assessments of multiple spike RBD/hACE2 variants and a novel convolutional neural network architecture working on pairs of voxelized force-fields for efficient search-space reduction. We identified hACE2-Fc K31W and multi-mutation variants as high-affinity candidates, which we validated in vitro with virus neutralization assays. We evaluated binding affinities of these ACE2 variants with the RBDs of Omicron BA.3, Omicron BA.4/BA.5, and Omicron BA.2.75 in silico. In addition, candidates produced in Nicotiana benthamiana, an expression organism for potential large-scale production, showed a 4.6-fold reduction in half-maximal inhibitory concentration (IC50) compared with the same variant produced in CHO cells and an almost six-fold IC50 reduction compared with wild-type hACE2-Fc. [ABSTRACT FROM AUTHOR]

Published

2023

4. Structural bioinformatics analysis of SARS-CoV-2 variants reveals higher hACE2 receptor binding affinity for Omicron B.1.1.529 spike RBD compared to wild type reference.

Author

Durmaz, Vedat, Köchl, Katharina, Krassnigg, Andreas, Parigger, Lena, Hetmann, Michael, Singh, Amit, Nutz, Daniel, Korsunsky, Alexander, Kahler, Ursula, König, Centina, Chang, Lee, Krebs, Marius, Bassetto, Riccardo, Pavkov-Keller, Tea, Resch, Verena, Gruber, Karl, Steinkellner, Georg, and Gruber, Christian C.

Subjects

SARS-CoV-2, SARS-CoV-2 Omicron variant, STRUCTURAL bioinformatics, MOLECULAR dynamics, COVID-19 pandemic

Abstract

To date, more than 263 million people have been infected with SARS-CoV-2 during the COVID-19 pandemic. In many countries, the global spread occurred in multiple pandemic waves characterized by the emergence of new SARS-CoV-2 variants. Here we report a sequence and structural-bioinformatics analysis to estimate the effects of amino acid substitutions on the affinity of the SARS-CoV-2 spike receptor binding domain (RBD) to the human receptor hACE2. This is done through qualitative electrostatics and hydrophobicity analysis as well as molecular dynamics simulations used to develop a high-precision empirical scoring function (ESF) closely related to the linear interaction energy method and calibrated on a large set of experimental binding energies. For the latest variant of concern (VOC), B.1.1.529 Omicron, our Halo difference point cloud studies reveal the largest impact on the RBD binding interface compared to all other VOC. Moreover, according to our ESF model, Omicron achieves a much higher ACE2 binding affinity than the wild type and, in particular, the highest among all VOCs except Alpha and thus requires special attention and monitoring. [ABSTRACT FROM AUTHOR]

Published

2022

5. Global Dyson-Schwinger-Bethe-Salpeter Approach to Mesons with Open Flavour.

Author

Bruno, G.E., Chiodini, G., Creanza, D.M., Colangelo, P., Corianò, C., De Fazio, F., Nappi, E., Hilger, Thomas, Gómez-Rocha, María, Krassnigg, Andreas, and Lucha, Wolfgang

Subjects

MESONS, QUARK models, QUANTUM field theory, QUANTUM chromodynamics, NONRELATIVISTIC quantum mechanics

Abstract

Exploiting an interplay of the Bethe-Salpeter equation enabling us to regard mesons as bound states of quark and antiquark and the Dyson-Schwinger equation controlling the dressed quark propagator, we amend existing studies of quarkonia by a comprehensive description of open-flavour mesons composed of all conceivable combinations of quark flavour. Employing throughout a fixed set of model parameters, we predict some basic characteristics of these mesons, i.e., their masses, leptonic decay constants and corresponding in-hadron condensates entering in a generalized formulation of the Gell-Mann-Oakes-Renner relation. [ABSTRACT FROM AUTHOR]

Published

2018

6. Charming quasi-exotic open-flavor mesons.

Author

Hilger, Thomas and Krassnigg, Andreas

Subjects

MESON detection, QUARKS, QUASI bound states, COVARIANT field theories, DECAY rates (Radioactivity), MATHEMATICAL decomposition

Abstract

We discuss charmed mesons in the covariant Dyson-Schwinger-Bethe-Salpeterequation approach. In particular we computed masses, leptonic decay constants, and an orbital-angular-momentum decomposition for a basic set of states. We also report an eficient way to treat the two coupled quark propagator dressing functions via a single function. [ABSTRACT FROM AUTHOR]

Published

2017

7. On a New Approach to Meson Phenomenology with the Bethe-Salpeter Equation.

Author

Popovici, Carina, Hilger, Thomas, Gómez-Rocha, María, and Krassnigg, Andreas

Subjects

MESONS, BETHE-Salpeter equation, QUANTUM field theory, PHENOMENOLOGY, MATHEMATICAL models

Abstract

We investigate capabilities of the effective interaction in a rainbow-ladder truncated meson model of QCD within a covariant Landau-gauge Bethe-Salpeter-equation approach. Based upon past success for the light- as well as heavy-quark domains, we discuss the range of applicability and features of an effort with comprehensive phenomenological claim and goals. [ABSTRACT FROM AUTHOR]

Published

2015

8. First Look at Heavy-Light Mesons with a Dressed Quark-Gluon Vertex.

Author

Gómez-Rocha, María, Hilger, Thomas, and Krassnigg, Andreas

Subjects

MESONS, GLUONS, BETHE-Salpeter equation, PHOTON-meson interactions, MESON detection

Abstract

Following up on earlier work, we investigate possible effects of a dressed quark-gluon vertex in heavy-light mesons. In particular, we study corrections to the popular rainbow-ladder truncation of the Dyson-Schwinger-Bethe-Salpeter equation system. We adopt a simple interaction kernel which reduces the resulting set of coupled integral equations to a set of coupled algebraic equations, which are solved numerically. In this way, we extend previous studies to quark-antiquark systems with unequal current-quark masses, at first for the pseudoscalar case, and investigate the resulting set of problems and solutions. We attempt to find patterns in-as well as to quantify corrections to-the rainbow-ladder truncation. In addition, we open this approach to phenomenological predictions of the heavy quark symmetry. [ABSTRACT FROM AUTHOR]

Published

2015

9. Preface.

Author

Alkofer, Reinhard, Krassnigg, Andreas, and Schweiger, Wolfgang

Published

2007