E. Belotti Et Al. , "H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles," NUCLEIC ACIDS RESEARCH , vol.48, no.9, pp.4601-4613, 2020
Belotti, E. Et Al. 2020. H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles. NUCLEIC ACIDS RESEARCH , vol.48, no.9 , 4601-4613.
Belotti, E., Lacoste, N., Simonet, T., Papin, C., Padmanabhan, K., Scionti, I., ... Gangloff, Y.(2020). H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles. NUCLEIC ACIDS RESEARCH , vol.48, no.9, 4601-4613.
Belotti, Edwige Et Al. "H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles," NUCLEIC ACIDS RESEARCH , vol.48, no.9, 4601-4613, 2020
Belotti, Edwige Et Al. "H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles." NUCLEIC ACIDS RESEARCH , vol.48, no.9, pp.4601-4613, 2020
Belotti, E. Et Al. (2020) . "H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles." NUCLEIC ACIDS RESEARCH , vol.48, no.9, pp.4601-4613.
@article{article, author={Edwige Belotti Et Al. }, title={H2A.Z is dispensable for both basal and activated transcription in post-mitotic mouse muscles}, journal={NUCLEIC ACIDS RESEARCH}, year=2020, pages={4601-4613} }