[HTML][HTML] Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons.
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell Stem …, 2023 - europepmc.org
Human induced pluripotent stem cell (iPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell stem …, 2023 - scholars.northwestern.edu
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
[PDF][PDF] Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell stem …, 2023 - drive.google.com
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
[HTML][HTML] Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell Stem Cell, 2023 - Elsevier
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
[HTML][HTML] Artificial Extracellular Matrix Scaffolds of Mobile Molecules Enhance Maturation of Human Stem Cell-Derived Neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell stem cell - ncbi.nlm.nih.gov
Human induced pluripotent stem cell (iPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - … , vol. 30, num. 2, p. 219 …, 2023 - diposit.ub.edu
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell stem …, 2023 - pubmed.ncbi.nlm.nih.gov
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …
Artificial extracellular matrix scaffolds of mobile molecules enhance maturation of human stem cell-derived neurons.
Z Álvarez, JA Ortega, K Sato, IR Sasselli… - Cell Stem …, 2023 - europepmc.org
Human induced pluripotent stem cell (hiPSC) technologies offer a unique resource for
modeling neurological diseases. However, iPSC models are fraught with technical …
modeling neurological diseases. However, iPSC models are fraught with technical …