[HTML][HTML] CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem cell research, 2015 - Elsevier
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - 2015 - agris.fao.org
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
[PDF][PDF] CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - core.ac.uk
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem cell research, 2015 - pubmed.ncbi.nlm.nih.gov
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
[PDF][PDF] CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - cyberleninka.org
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - infona.pl
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell–cell adhesion are critical for stem cell lineage specification. In this review, we focus …
CDH2 and CDH11 act as regulators of stem cell fate decisions.
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - europepmc.org
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
[引用][C] CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - cir.nii.ac.jp
[HTML][HTML] CDH2 and CDH11 as Regulators of Stem Cell Fate Decisions
S Alimperti, ST Andreadis - Stem cell research, 2015 - ncbi.nlm.nih.gov
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
CDH2 and CDH11 act as regulators of stem cell fate decisions.
S Alimperti, ST Andreadis - Stem Cell Research, 2015 - europepmc.org
Accumulating evidence suggests that the mechanical and biochemical signals originating
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …
from cell-cell adhesion are critical for stem cell lineage specification. In this review, we focus …