Computational Biology/Bioinformatics Project Scientist to Join the Superti-Furga Lab (m/f/d)
Job title:
Computational Biology/Bioinformatics Project Scientist to Join the Superti-Furga Lab (m/f/d)
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Job description
Offer Description
Computational Biology/Bioinformatics Project Scientist to Join the Superti-Furga Lab (m/f/d)
CeMM – Research Center for Molecular Medicine of the Austrian Academy of Sciences
Vienna, Austria
Do you want to be part of an interdisciplinary project, bringing together protein-protein interaction data of transmembrane proteins with the knowledge from protein structures and genetic variants using artificial intelligence and machine learning?
We are looking for a computational biology/bioinformatics scientist to mine, evaluate and analyze protein-protein interaction data on human membrane transporters as well as implement experimental structure data and AlphaFold models for predicting biomedical effects of genetic variants in human membrane transporters.
You will work in the Giulio Superti-Furga group (CeMM, Vienna) on the project “mlDIAMANT: machine learning decodes interaction archetypes of membrane proteins to predict the effect of genetic variants”. mlDIAMANT is a collaboration project with the Peter Sykacek group at BOKU, Vienna. You will be working closely with the two group leaders and postdoctoral and PhD student colleagues who will join the project, at CeMM and BOKU respectively.
Together we want to manifest the biomedical impact of human transporter research coupling stateof-the-art computational and experimental approaches.
Your profile
- PhD in bioinformatics, proteomics, structural biology or similar experience;
- Experience in computational structural biology;
- Knowledge of computational modelling and analysis of protein structures (e.g.: AlphaFold multimer models);
- Understanding of structural-evolutionary relationships (is beneficial);
- Solid understanding of basic statistics;
- Interest in the structural principles of protein-protein interactions;
- Interest to work in a multidisciplinary team at the interface of protein structural modelling, interaction proteomics and machine learning;
- Strong data visualization skills is an asset;
- Knowledge on advanced statistical approaches is an advantage;
- Ability to work in a team and pursue goals in a focused way;
- Excellent written/oral communication skills in English.
The mlDIAMANT collaboration project
Starting in summer 2024 the mlDIAMANT collaboration project is supported by the WWTF (Vienna Science and Technology Fund) through the life science program “Understanding Biology with AI/ML”. The aim of this project is to understand how proteins cooperate and how they interact, with a focus on transmembrane proteins or membrane transporters. Living cells depend crucially on protein interactions. The underlying mechanisms can be understood as a series of locks and keys: to function properly, different entities must match in structure and be in contact at the right interface. This information is not only crucial to understand biology but also for developing cures for diseases. mlDIAMANT will use new experimental data (i.e. a very large dataset on the affinity-purification mass spectrometry-derived interactome of membrane transporters) coming from the two large Solute Carrier (SLC) membrane transporter-focused Innovative Medicines Initiative consortia, RESOLUTE and REsolution ( ) which were coordinated by the Superti-Furga laboratory, and through artificial intelligence and machine learning establish an inventory of structure motifs of protein-protein interactions interfaces. Machine learning can empower scientific advances in areas of biology which are of fundamental importance, yet difficult to achieve with standard approaches. Even though proteins need to interact with other proteins to achieve biologically meaningful function, the “code” determining their interactions, has not been fully deciphered. As a first integral contribution in cracking this code, we propose to use machine learning to break down the problem into a manageable number of interaction types, which we call “archetypes”. Our goal is to build a structural catalog of protein-protein interaction (PPI) archetypes and use it to predict the effect of human genetic variation. We will build structural models of PPIs and machine learning to classify modes of interactions based on sequence and structure features. Many disease-associated genetic variants affect membrane proteins and are thought to affect PPIs. Consequently, we aim to gain mechanistic understanding of how proteins, in particular interaction partners of membrane transporters, interact and to explain how mutations can lead to disease by disrupting these protein interactions.
The Superti-Furga Lab
The Superti-Furga group ( ) is composed of an international team of 20 scientists working together on understanding drug function at the molecular level. The laboratory investigates how cells and biological systems in general manage access to the environment through cellular transport. In particular how access to nutrients and energy source is tuned to metabolism and need of individual cell types. Moreover, the lab has pioneered approaches for functional precision medicine. The laboratory operates on a truly multidisciplinary basis and involves functional genomics and proteomics, structural analysis, chemical biology, high-content imaging, bioinformatics and physiology, reflecting the blend of expertise of the laboratory members.
The Sykacek Lab
The Sykacek group brings key and deep expertise in computational biology and machine learning. Peter Sykacek is group leader for analytical methods development at the Institute of Computational Biology at BOKU, the University of Natural Resources and Life Sciences. The focus of the work is on devising and implementing probabilistic machine learning and Bayesian methods for applications in computational biology and medical informatics. A PhD student under his supervision will lead the machine learning part of the project, developing, optimizing and quality controlling the modelling pipelines.
CeMM Research Center for Molecular Medicine
CeMM is an international research institute of the Austrian Academy of Sciences and a founding member of EU-LIFE. The mission of CeMM, the Research Center for Molecular Medicine of the Austrian Academy of Sciences is to achieve maximum scientific innovation in molecular medicine to improve healthcare. At CeMM, an international and creative team of scientists and medical doctors pursue free-minded basic life science research in a large and vibrant hospital environment of outstanding medical tradition and practice. CeMM’s research is based on post-genomic technologies and focuses on societally important diseases, such as immune disorders and infections, cancer, aging and metabolic disorders. CeMM operates in a unique mode of super-cooperation, connecting biology with medicine, experiments with computation, discovery with translation, and science with society and the arts. CeMM discovers and develops technologies to explore human biology with the purpose of defeating disease at its roots. Because Science is our Medicine! CeMM is a proud recipient of the HR Excellence in Research Award (HRS4R). This award indicates that CeMM takes care of the well-being of its employees, that the recruitment process is open, fair, and transparent, and that CeMM offers professional appraisals and career development procedures. More than 150 people from 49 nationalities are working at CeMM. The institute promotes equal opportunity and harbors a mix of different talents, backgrounds, competences, and interests .
BOKU University of Natural Resources and Life Sciences
The BOKU ( ), located in Vienna, is a university focusing on natural resources. The university is dedicated to conducting research and teaching that enhances sustainability on all levels, appreciating the complexities of these challenges, pinpointing key issues, and formulating innovative solutions for today’s world. The aim is to proactively address and resolve real-world issues, with a strong commitment to international perspectives and interdisciplinary approaches. The university consists of 15 departments and three scientific centers. It has several core facilities, including a core facility for bioinformatics which allows for computationally-heavy projects, and supports researchers with everything from large-scale analyses to common processing and analysis steps that require programming expertise….
Requirements
Additional Information
Work Location(s)
Number of offers available 1 Company/Institute CeMM – Research Center for Molecular Medicine of the Austrian Academy of Sciences Country Austria City Vienna Geofield
Where to apply Website
Contact City
Vienna E-Mail
STATUS: EXPIRED
Expected salary
Location
Wien
Job date
Sun, 10 Mar 2024 04:04:51 GMT
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