Brachet, A. C.R. Hebd. Seances Acad. Sci. 155, 1191–1193 (1912).
Amadei, G. et al. Nature 610, 143–153 (2022).
Tarazi, S. et al. Cell 185, 3290–3306 (2022).
Harrison, S. E., Sozen, B., Christodoulou, N., Kyprianou, C. & Zernicka-Goetz, M. Science 356, eaal1810 (2017).
Amadei, G. et al. Dev. Cell 56, 366–382 (2021).
Aguilera-Castrejon, A. et al. Nature 593, 119–124 (2021).
Martin, G. R. Proc. Natl Acad. Sci. USA 78, 7634–7638 (1981).
Evans, M. J. & Kaufman, M. H. Nature 292, 154–156 (1981).
Birey, F. et al. Nature 545, 54–59 (2017).
Stoykova, A., Fritsch, R., Walther, C. & Gruss, P. Development 122, 3453–3465 (1996).
Ueda, Y. et al. Cell Rep. 31, 107637 (2020).
Nagamatsu, G., Shimamoto, S., Hamazaki, N., Nishimura, Y. & Hayashi, K. Sci. Adv. 5, eaav9960 (2019).
Clark, A. T. et al. Stem Cell Rep. 16, 1416–1424 (2021).
Paşca, P. et al. Nature 609, 907–910 (2022).
More News
How I fled bombed Aleppo to continue my career in science
Powerful ‘nanopore’ DNA sequencing method tackles proteins too
US funders to tighten oversight of controversial ‘gain-of-function’ research