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Nuclear microenvironments support physiological control of gene expression.
Functional architecture of the nucleus: organizing the regulatory machinery for gene expression, replication and repair.
Combinatorial organization of the transcriptional regulatory machinery in biological control and cancer.
Nuclear microenvironments in biological control and cancer.
Subnuclear targeting of the Runx3 tumor suppressor and its epigenetic association with mitotic chromosomes.
Nuclear coactivator-62 kDa/Ski-interacting protein is a nuclear matrix-associated coactivator that may couple vitamin D receptor-mediated transcription and RNA splicing.
Temporal and spatial parameters of skeletal gene expression: targeting RUNX factors and their coregulatory proteins to subnuclear domains.
Nuclear microenvironments support assembly and organization of the transcriptional regulatory machinery for cell proliferation and differentiation.
Quantitative signature for architectural organization of regulatory factors using intranuclear informatics.
The dynamic organization of gene-regulatory machinery in nuclear microenvironments.
Organization of transcriptional regulatory machinery in osteoclast nuclei: compartmentalization of Runx1.
1alpha,25-dihydroxy vitamin D(3) induces nuclear matrix association of the 1alpha,25-dihydroxy vitamin D(3) receptor in osteoblasts independently of its ability to bind DNA.
Subnuclear localization and intranuclear trafficking of transcription factors.
Nuclear Matrix-Associated Proteins
Identifying Nuclear Matrix-Attached DNA Across the Genome.