Reducing batch effects in single cell chromatin accessibility measurements by pooled transposition with MULTI-ATAC. Read more about Reducing batch effects in single cell chromatin accessibility measurements by pooled transposition with MULTI-ATAC.
Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response. Read more about Coupled equilibria of dimerization and lipid binding modulate SARS Cov 2 Orf9b interactions and interferon response.
Coordinated macrophage and T cell interactions mediate response to checkpoint blockade in colorectal cancer. Read more about Coordinated macrophage and T cell interactions mediate response to checkpoint blockade in colorectal cancer.
Multimodal delineation of a layer of effector function among exhausted CD8 T cells in tumors. Read more about Multimodal delineation of a layer of effector function among exhausted CD8 T cells in tumors.
NF-κB dependent gene expression and plasma IL-1β, TNFα and GCSF drive transcriptomic diversity and CD4:CD8 ratio in people with HIV on ART. Read more about NF-κB dependent gene expression and plasma IL-1β, TNFα and GCSF drive transcriptomic diversity and CD4:CD8 ratio in people with HIV on ART.
Lineage plasticity of the integrated stress response is a hallmark of cancer evolution. Read more about Lineage plasticity of the integrated stress response is a hallmark of cancer evolution.
Mammalian oocytes receive maternal-effect RNAs from granulosa cells. Read more about Mammalian oocytes receive maternal-effect RNAs from granulosa cells.
A Massively Parallel CRISPR-Based Screening Platform for Modifiers of Neuronal Activity. Read more about A Massively Parallel CRISPR-Based Screening Platform for Modifiers of Neuronal Activity.
Somatic mutations distinguish melanocyte subpopulations in human skin. Read more about Somatic mutations distinguish melanocyte subpopulations in human skin.
Swirling motion of breast cancer cells radially aligns collagen fibers to enable collective invasion. Read more about Swirling motion of breast cancer cells radially aligns collagen fibers to enable collective invasion.
