miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui… - Journal of cell …, 2012 - pubmed.ncbi.nlm.nih.gov
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
[PDF][PDF] miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang, X Zhang… - 2012 - Citeseer
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
[PDF][PDF] miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang… - Journal of Cell … - researchgate.net
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang, X Zhang… - 2012 - journals.biologists.com
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression.
D Yang, T Li, Y Wang, Y Tang, H Cui, X Zhang… - Journal of Cell …, 2012 - europepmc.org
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang… - Journal of Cell …, 2012 - cir.nii.ac.jp
抄録< jats: p> Although it is well established that embryonic stem (ES) cells have the
potential to differentiate into dopamine neurons, the molecular basis of this process …
potential to differentiate into dopamine neurons, the molecular basis of this process …
[PDF][PDF] miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang… - Journal of Cell … - researchgate.net
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
[PDF][PDF] miR-132 regulates the differentiation of dopamine neurons by directly targeting Nurr1 expression
D Yang, T Li, Y Wang, Y Tang, H Cui, Y Tang, X Zhang… - Journal of Cell Science - Citeseer
Although it is well established that embryonic stem (ES) cells have the potential to
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …
differentiate into dopamine neurons, the molecular basis of this process, particularly the role …