ssDNA recombineering boosts in vivo evolution of nanobodies displayed on bacterial surfaces

Yamal Al-ramahi et al. describe an accelerated laboratory evolution method that applies ssDNA recombineering and bacterial surface display to engineer nanobody epitope recognition. As a proof-of-concept, they evolved TD4 recognition to bind the translocated intimin receptor (TirM) of EPEC pathogens,...

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Autores principales: Yamal Al-ramahi, Akos Nyerges, Yago Margolles, Lidia Cerdán, Gyorgyi Ferenc, Csaba Pál, Luis Ángel Fernández, Víctor de Lorenzo
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/7cfb63c37a134a1381dcf213cbee4ff5
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Sumario:Yamal Al-ramahi et al. describe an accelerated laboratory evolution method that applies ssDNA recombineering and bacterial surface display to engineer nanobody epitope recognition. As a proof-of-concept, they evolved TD4 recognition to bind the translocated intimin receptor (TirM) of EPEC pathogens, with this method bypassing the need for laborious cloning and mutagenesis procedures.