H3K27me3 conditions chemotolerance in triple-negative breast
H3K27me3 conditions chemotolerance in triple-negative breast
Differentiation-state plasticity is a targetable resistance
H3K27me3 conditions chemotolerance in triple-negative breast
The loss of B7-H4 expression in breast cancer cells escaping from T cell cytotoxicity contributes to epithelial-to-mesenchymal transition, Breast Cancer Research
Simulating cell-free chromatin using preclinical models for cancer-specific biomarker discovery
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Decoding gene regulatory circuitry underlying TNBC chemoresistance reveals biomarkers for therapy response and therapeutic targets
PDF) Triple-negative mouse breast cancer initiating cells show high expression of beta1 integrin and increased malignant features
Tellurium-driven maple leaf-shaped manganese nanotherapeutics
Decoding gene regulatory circuitry underlying TNBC chemoresistance
Tellurium-driven maple leaf-shaped manganese nanotherapeutics
Decoding gene regulatory circuitry underlying TNBC chemoresistance
H3K27me3 conditions chemotolerance in triple-negative breast
A low-input high resolution sequential chromatin
