https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2024-10-10 12:20:062025-04-10 09:59:01When boundaries benefit science and society
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2024-10-10 12:18:552025-04-10 09:58:36Human developmental biology – a global perspective
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2024-03-05 09:13:582024-07-18 08:35:20Derivation of human primordial germ cell-like cells in an embryonic-like culture
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2023-11-07 09:52:502024-07-18 08:35:56Reconstituted ovaries self-assemble without an ovarian surface epithelium
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2023-10-05 13:48:152024-07-18 08:52:45Human embryo models made from pluripotent stem cells are not synthetic; they aren’t embryos, either
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2023-08-16 09:40:292024-07-18 08:53:21Single-cell analysis of the developing human ovary defines distinct insights into ovarian somatic and germline progenitors
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2023-07-14 13:37:192024-07-18 08:54:22Transposable elements in early human embryo development and embryo models
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2023-07-14 13:36:262024-07-18 08:55:18TET1 facilitates specification of early human lineages including germ cells
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2022-06-21 08:39:592023-01-20 11:12:25EED is required for mouse primordial germ cell differentiation in the embryonic gonad
https://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.png00santoniukhttps://sites.lifesci.ucla.edu/mcdb-home/wp-content/uploads/sites/192/2019/11/Bxd_Wht_MolecularCellDevBio_B.pngsantoniuk2022-06-14 15:48:422023-01-20 11:12:54FGFR3 is expressed by human primordial germ cells and is repressed after meiotic initiation to form primordial oocytes
