A versatile transposon-based technology to generate loss- and gain-of-function phenotypes in the mouse liver.

Anna Georgina KopaszDávid Zsolt PusztaiRéka KarkasLiza HudobaKhaldoon Sadiq Ahmed Abdullah Gergely ImreGabriella Pankotai-BodóEde MighAndrea NagyAndrás KristonPéter GermánAndrea Bakné DrubiAnna MolnárIldikó FeketeVirág Éva DaniImre OcsovszkiLászló Géza PuskásPéter HorváthFarkas SükösdLajos Mátés

Published in: BMC biology (2022)

We developed a versatile technology platform for in vivo somatic genome editing in the mouse liver, which meets multiple requirements for long-lasting high-level transgene expression. We believe that this technology will contribute to the development of a more accurate new generation of tools for gene function analysis in mice.

Keyphrases

genome editing
crispr cas
copy number
poor prognosis
genome wide
high throughput
type diabetes
adipose tissue
binding protein
transcription factor
insulin resistance
genome wide identification