Liang Song
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View article: Supplementary Figure S4 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S4 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S4
View article: Supplementary Figure S5 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S5 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S5
View article: Supplementary Figure S1 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S1 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S1
View article: Supplementary Table S1-S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Table S1-S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Table S1-S3
View article: Supplementary Figure S5 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S5 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S5
View article: Supplementary Table S1-S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Table S1-S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Table S1-S3
View article: Supplementary Figure S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S3
View article: Supplementary Figure S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S3 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S3
View article: Supplementary Figure S2 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S2 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S2
View article: Supplementary Figure S7 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S7 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S7
View article: Supplementary Figure S4 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S4 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S4
View article: Data from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Data from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
NK cells can be rapidly activated in response to cytokines during host defense against malignant cells or viral infection. However, it remains unclear what mechanisms precisely and rapidly regulate the expression of a large number of genes…
View article: Supplementary Figure S7 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S7 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S7
View article: Supplementary Figure S2 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S2 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S2
View article: Data from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Data from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
NK cells can be rapidly activated in response to cytokines during host defense against malignant cells or viral infection. However, it remains unclear what mechanisms precisely and rapidly regulate the expression of a large number of genes…
View article: Supplementary Figure S6 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S6 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S6
View article: Supplementary Figure S1 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S1 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S1
View article: Supplementary Figure S6 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions
Supplementary Figure S6 from mTOR Signaling Promotes Rapid m<sup>6</sup>A mRNA Methylation to Regulate NK-Cell Activation and Effector Functions Open
Supplementary Figure S6
View article: Heritable Individual-Specific and Allele-Specific Chromatin Signatures in Humans
Heritable Individual-Specific and Allele-Specific Chromatin Signatures in Humans Open
The extent to which variation in chromatin structure and transcription factor binding may influence gene expression, and thus underlie or contribute to variation in phenotype, is unknown. To address this question, we cataloged both individ…
View article: Open chromatin defined by DNaseI and FAIRE identifies regulatory elements that shape cell-type identity
Open chromatin defined by DNaseI and FAIRE identifies regulatory elements that shape cell-type identity Open
The human body contains thousands of unique cell types, each with specialized functions. Cell identity is governed in large part by gene transcription programs, which are determined by regulatory elements encoded in DNA. To identify regula…