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

Kopasz Anna Georgina and Pusztai Dávid and Karkas Réka and Hudoba Liza and Abdullah Khaldoon and Imre Gergely and Pankotai-Bodó Gabriella and Migh Ede and Nagy Andrea and Kriston András and Germán Péter and Drubi Andrea and Molnár Anna and Fekete Ildikó and Dani Virág Éva and Ocsovszki Imre and Puskás László and Horváth Péter and Sükösd Farkas and Mátés Lajos: A versatile transposon-based technology to generate loss- and gain-of-function phenotypes in the mouse liver.
BMC BIOLOGY, 20 (1). ISSN 1741-7007 (2022)

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Creators:
Kopasz Anna Georgina MTMT
Pusztai Dávid MTMT
Karkas Réka MTMT
Hudoba Liza MTMT
Abdullah Khaldoon MTMT
Imre Gergely MTMT
Pankotai-Bodó Gabriella MTMT
Migh Ede MTMT
Nagy Andrea MTMT
Kriston András MTMT
Germán Péter
Drubi Andrea MTMT
Molnár Anna MTMT
Fekete Ildikó
Dani Virág Éva MTMT
Ocsovszki Imre MTMT
Puskás László MTMT
Horváth Péter MTMT
Sükösd Farkas MTMT
Mátés Lajos MTMT
Item Type: Journal Article
Journal or Publication Title: BMC BIOLOGY
Date: 2022
Volume: 20
Number: 1
Number of Pages: 17
Publication identifier: 74
ISSN: 1741-7007
Faculty/Unit: Albert Szent-Györgyi Medical School
Institution: University of Szeged (2000-)
Language: English
MTMT rekordazonosító: 32773206
DOI azonosító: https://doi.org/10.1186/s12915-022-01262-x
Date Deposited: 2023. Nov. 28. 09:16
Last Modified: 2023. Nov. 28. 09:16
URI: http://publicatio.bibl.u-szeged.hu/id/eprint/28956
Web of Science® Times Cited: 1 View citing articles in Web of Science®

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