[HTML][HTML] Substrate stiffness directs diverging vascular fates
Embryonic stem cells (ESC) are excellent cell culture systems for elucidating developmental
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
[PDF][PDF] Substrate stiffness directs diverging vascular fates.
L Wong, A Kumar, B Gabela-Zuniga - 2019 - scholar.archive.org
abstract Embryonic stem cells (ESC) are excellent cell culture systems for elucidating
developmental signals that may be part of the stem cell niche. Although stem cells are …
developmental signals that may be part of the stem cell niche. Although stem cells are …
Substrate stiffness directs diverging vascular fates.
L Wong, A Kumar, B Gabela-Zuniga, J Chua, G Singh… - 2019 - escholarship.org
Embryonic stem cells (ESC) are excellent cell culture systems for elucidating developmental
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
Substrate stiffness directs diverging vascular fates
L Wong, A Kumar, B Gabela-Zuniga… - Acta …, 2019 - pubmed.ncbi.nlm.nih.gov
Embryonic stem cells (ESC) are excellent cell culture systems for elucidating developmental
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
Substrate stiffness directs diverging vascular fates.
L Wong, A Kumar, B Gabela-Zuniga, J Chua… - Acta …, 2019 - europepmc.org
Embryonic stem cells (ESC) are excellent cell culture systems for elucidating developmental
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
signals that may be part of the stem cell niche. Although stem cells are traditionally induced …
[PDF][PDF] Substrate stiffness directs diverging vascular fates.
L Wong, A Kumar, B Gabela-Zuniga - 2019 - academia.edu
abstract Embryonic stem cells (ESC) are excellent cell culture systems for elucidating
developmental signals that may be part of the stem cell niche. Although stem cells are …
developmental signals that may be part of the stem cell niche. Although stem cells are …
[引用][C] Substrate stiffness directs diverging vascular fates
L Wong, A Kumar, B Gabela-Zuniga, J Chua… - Acta …, 2019 - cir.nii.ac.jp