H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[PDF][PDF] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang… - Nucleic Acids …, 2018 - pdfs.semanticscholar.org
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor.
L Su, W Xia, T Shen, Q Liang, W Wang, H Li… - Nucleic Acids …, 2018 - europepmc.org
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[PDF][PDF] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang… - Nucleic Acids …, 2018 - academic.oup.com
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[引用][C] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang - 2018 - library.ioz.ac.cn
[PDF][PDF] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang… - Nucleic Acids …, 2018 - scholar.archive.org
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang… - Nucleic acids …, 2018 - pubmed.ncbi.nlm.nih.gov
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[HTML][HTML] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang, H Li… - Nucleic Acids …, 2018 - ncbi.nlm.nih.gov
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[PDF][PDF] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang - 2018 - ir.ioz.ac.cn
Astrocytes play crucial roles in the central nervous system, and defects in astrocyte function
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
are closely related to many neurological disorders. Studying the mechanism of gliogenesis …
[引用][C] H2A. Z. 1 crosstalk with H3K56-acetylation controls gliogenesis through the transcription of folate receptor
L Su, W Xia, T Shen, Q Liang, W Wang - 2018 - 159.226.67.71