Efficient single-copy HDR by 5' modified long dsDNA donors.

Jose Arturo Gutierrez-TrianaTinatini Tavhelidse-Suck Thomas ThumbergerIsabelle ThomasBeate WittbrodtTanja KellnerKerim AnlasErika Tsingos Joachim Wittbrodt

Published in: eLife (2018)

CRISPR/Cas9 efficiently induces targeted mutations via non-homologous-end-joining but for genome editing, precise, homology-directed repair (HDR) of endogenous DNA stretches is a prerequisite. To favor HDR, many approaches interfere with the repair machinery or manipulate Cas9 itself. Using Medaka we show that the modification of 5' ends of long dsDNA donors strongly enhances HDR, favors efficient single-copy integration by retaining a monomeric donor conformation thus facilitating successful gene replacement or tagging.

Keyphrases

crispr cas
genome editing
dna repair
genome wide
dna damage
circulating tumor
single molecule
copy number
drug delivery
transcription factor
genome wide identification
crystal structure