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selection of aptamers for Shiga-like toxins of E. coli and determination of their affinity; Evaluation of aptamer libraries, based on data generated by sequencing; Application of bioinformatics tools
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working with diverse host organisms (e.g., E. coli, yeast, mammalian cells) is a significant plus. Deep expertise in advanced genome engineering tools (e.g., CRISPR/Cas systems, base editing, prime editing
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project management experience to: 1.expand the biosensors' E. coli based analyte detecting catalogue, 2.plan and implement one or more commercial biosensor trials 3.contribute technical input
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the Escherichia coli model bacterium. More specifically, he/she will study the role of small proteins and small RNAs in controlling the activity of two-component systems, focusing on one of these systems involved
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to: 1.expand the biosensors’ E. coli based analyte detecting catalogue, 2.plan and implement one or more commercial biosensor trials 3.contribute technical input to the project’s commercialisation
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Engineering or a related discipline is required. The successful candidate will: (i) utilize a mucin-on-chip system to identify the interactions between pathogenic E. coli and mucin using various E. coli strains
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secretion system of enteroaggregative E. coli, the type IV piliation machinery of Neisseria meningitidis, and rhoptry exocytosis signaling in Toxoplasma gondii. These protein complexes represent major targets
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Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences | Poland | about 2 months ago
surface.” In particular, the Assistant's responsibilities will include: protein production by overexpression in E. coli, protein purification using affinity chromatography and molecular filtration, studies
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(utilizing E. coli) , nucleic acid and protein purification. Preparation of proteins needed during RNA production, such nucleases, phosphatase, RNase inhibitors as well as RNA chaperones used