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Field
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bacteria coevolve with their viruses (phages). Recent studies discovered an impressive number of new “anti-phage” defence systems in bacterial genomes. These defence genes are thought to be very mobile, as
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discovery of inhibitors of bacterial protein-tyrosine kinases, which will be tested for their capacity to hinder bacterial biofilm formation and virulence. The aim of the project is to generate knowledge
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position in the Gozzi Lab at the Rowland Institute at Harvard (https://www.rowland.harvard.edu/). Our lab’s primary focus is on bacterial-encoded domesticated viruses, known as gene transfer agents
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-free synthesis, but also bacterial expression. S/he will analyze them by solid-state NMR, potentially complemented by other biophysical approaches and solution NMR. The candidate will work closely with
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address questions on bacterial responses to antibiotics, the implications of horizontal gene transfer in community dynamics and evolution, predictive assembly of complex microbial communities, and
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12 Months, Fixed Term Full-Time Post Position Summary The successful candidate will be involved in bacterial cultivation, genome/transcriptome sequencing & analyses, microbiological, biochemical
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aims to uncover survival strategies that sustain life. We are currently seeking a postdoctoral researcher to study the spatiotemporal dynamics of bacterial cells in biomimetic environments using
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) Frontiers for the Future Programme. The project aims to include the expansion of the GlycoShape 3D glycan structure database (https://glycoshape.org ) and use molecular simulations to characterise recognition
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24 Months, Fixed Term Full-Time Post Position Summary The successful candidate will be involved in bacterial cultivation, genome/transcriptome sequencing & analyses, microbiological, biochemical
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bacterial culture, metabolite extraction, LC-MS/MS, HPLC purification, and functional bioassays. Experience with microbial genomics, heterologous expression, or high-throughput screening is highly desirable