from REPROCELL USA Inc.

NP892-01 Specifications Sheet Takayama K. et al. , " Laminin 411 and 511 promote the cholangiocyte differentiation of human induced pluripotent stem cells". Biochemical and Biophysical Research Commun. 474 (1): 91-96 (2016). Nishimura K. et al. , "Estradial facilitates functional integration of iPSC-derived dopaminergic neurons into striatal neuronal circuits via activation of integrin a5b1". Stem Cell Reports 6 (4): 511-524 (2016). Matsuno K. et al. , "Redefining definitive endoderm subtypes by robust induction of human induced pluripotent stem cells". Differentiation 2016.04.002. Hayashi R. et al. , " Co-ordinated ocular development from human iPS cells and recovery of corneal function" . Nature 531, 368-80 (2016), Sasaki K. et al. , "Robust i n vitro induction of human germ cell fate from pluripotent stem cells". Cell Stem Cell 17 (2):178-194 (2015). Okumura N. et al. , "Laminin-511 and -521 enable efficient in vitro expansion of human corneal endothelial cells". Invest Ophthalmal Vis Sci. 56 (5), 2933-42 (2015). Nakagawa M. et al. , " A novel efficient feeder-free culture system for the derivation of human induced pluripotent stem cells". Scientific Reports 4: 3594 (2014). Miyazaki T. et al. "Laminin E8 fragments support efficient adhesion and expansion of dissociated human pluripotent stem cells." Nature Communications 3: 1236 (2012). Taniguchi Y. et al. , " The C-terminal region of laminin β-chains modulates the integrin-binding affinities of laminins." J. Biol. Chem. 284 (12): 7820-31 (2009). Ido H. et al. , "The requirement of the glutamic acid residue at the third position from the carboxyl termini of the laminin gamma-chains in integrin-binding by laminins." J. Biol. Chem. 282 (15): 11144-54 (2017). Additional Publications