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with biomolecular design methods including production and verification. Experience with relevant structural biology techniques such as cryo-EM or cryo-ET. Experience with relevant screening methods
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with biomolecular design methods including production and verification. Experience with relevant structural biology techniques such as cryo-EM or cryo-ET. Experience with relevant screening methods
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with biomolecular design methods including production and verification. Experience with relevant structural biology techniques such as cryo-EM or cryo-ET. Experience with relevant screening methods
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experimental verification of several RNA systems that can regulate gene expression, control enzyme proximity, sense product yields, and do molecular computations for feedback control. The successful candidate
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origami robots that can sense, compute and actuate [2]. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami robots for cell factories (yeast
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origami robots that can sense, compute and actuate [2]. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami robots for cell factories (yeast
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, high-throughput screening, and state-of-the-art carbohydrate analysis, to validate computational designs and generate data that advances our knowledge of enzymatic carbohydrate synthesis towards