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, antibiotic resistance, and microbial interactions using experimental evolution, microbial ecology, and bioinformatics approaches. The lab works closely with national infrastructures such as SciLifeLab and
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. Project description The project involves using and developing bioinformatic tools for analysis of microbial genome sequences. A particular focus is on further development of our FlaGs tool, the web server
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trends and produce meaningful data visualisations, as well as experience of working with different bioinformatics tools and statistical methods. The applicant is expected to leverage multi-modal data
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National Bioinformatics Infrastructure Sweden (NBIS), which constitutes the Bioinformatics Platform at Science for Life Laboratory (SciLifeLab) – Sweden’s hub for molecular life sciences. Together
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organized into seven research programs, each focusing on distinct areas within cell and molecular biology i.e. computational biology and bioinformatics, microbiology and immunology, molecular biology
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computational chemistry if the applicant has: Master of Science in Computational chemistry, Bioinformatics, Machine Learning, Computer Science, Mathematics, Statistics, Physics, or related discipline. Additional
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provide high-quality bioinformatics support in collaborative validation studies, ensuring that SciLifeLab’s proteomics infrastructure remains a cornerstone in precision medicine. Qualifications Requirements
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biology, microbiology, bioinformatics, programming, or similar. You should have experience of having worked in project form with laboratory work and be able to work structured and independently towards
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biology and bioinformatics, microbiology and immunology, molecular biology, molecular biophysics, molecular evolution, molecular systems biology, and structural biology. While the foundation of our research
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these attacks, bacteria employ a wide variety of anti-phage defence systems, the most well-known being CRISPR–Cas. In our laboratory, we discover new systems using bioinformatics, validate them through