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to work on a recently awarded BBSRC Engineering Biology Mission Award. The aim of the project is to engineer Escherichia coli strains to express different high-value inner membrane proteins and determine
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on a recently awarded BBSRC Engineering Biology Mission Award. The aim of the project is to engineer Escherichia coli strains to express different high-value inner membrane proteins and determine the
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to work on a recently awarded BBSRC Engineering Biology Mission Award. The project aims to engineer extracellular vesicles (EVs) naturally present in milk into the next-generation oral nucleic acid
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recently awarded BBSRC Engineering Biology Mission Award. The aim of the project is to engineer Escherichia coli strains to express different high value inner membrane proteins and determine the best
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membrane biology, including characterizing polymer-lipid nanoparticles for drug delivery, membrane protein expression and purification, and mammalian cell culture. The techniques involved will mainly focus
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England (E3) Programme and will synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive
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synergistically combine world-leading expertise in membrane biology and novel polymer chemistries to establish a first-of-its-kind institute, expanding our distinctive excellence in computational membrane science