CRISPR screens in iPSC-derived neurons reveal principles of tau proteostasis. Read more about CRISPR screens in iPSC-derived neurons reveal principles of tau proteostasis.
Automated segmentation of soft X-ray tomography: native cellular structure with sub-micron resolution at high throughput for whole-cell quantitative imaging in yeast. Read more about Automated segmentation of soft X-ray tomography: native cellular structure with sub-micron resolution at high throughput for whole-cell quantitative imaging in yeast.
Human GM-CSF/IL-3 enhance tumor immune infiltration in humanized HCC patient-derived xenografts. Read more about Human GM-CSF/IL-3 enhance tumor immune infiltration in humanized HCC patient-derived xenografts.
Phenotypic landscape of a fungal meningitis pathogen reveals its unique biology. Read more about Phenotypic landscape of a fungal meningitis pathogen reveals its unique biology.
A multi-subunit autophagic capture complex facilitates degradation of ER stalled MHC-I in pancreatic cancer. Read more about A multi-subunit autophagic capture complex facilitates degradation of ER stalled MHC-I in pancreatic cancer.
APOBEC3A drives metastasis of high-grade serous ovarian cancer by altering epithelial-to-mesenchymal transition. Read more about APOBEC3A drives metastasis of high-grade serous ovarian cancer by altering epithelial-to-mesenchymal transition.
Combinatorial effector targeting (COMET) for transcriptional modulation and locus-specific biochemistry. Read more about Combinatorial effector targeting (COMET) for transcriptional modulation and locus-specific biochemistry.
Comprehensive structure-function analysis reveals gain- and loss-of-function mechanisms impacting oncogenic KRAS activity. Read more about Comprehensive structure-function analysis reveals gain- and loss-of-function mechanisms impacting oncogenic KRAS activity.
Endogenous neuronal DNA double-strand breaks are not sufficient to drive brain aging and neurodegeneration. Read more about Endogenous neuronal DNA double-strand breaks are not sufficient to drive brain aging and neurodegeneration.
Microglia regulate GABAergic neurogenesis in prenatal human brain through IGF1. Read more about Microglia regulate GABAergic neurogenesis in prenatal human brain through IGF1.
