Interphase

Mitotic Occupancy and Lineage-Specific Transcriptional Control of RRNA Genes by Runx2

Pharmacology / Biochemistry / Bioinformatics / Evolutionary Biology / Genetics / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase

Mitotic Occupancy and Lineage-Specific Transcriptional Control of RRNA Genes by Runx2

Pharmacology / Biochemistry / Bioinformatics / Evolutionary Biology / Genetics / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase

Mitotic occupancy and lineage-specific transcriptional control of rRNA genes by Runx2

Pharmacology / Biochemistry / Bioinformatics / Evolutionary Biology / Genetics / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase / Marine Biology / Neuroscience / Environmental Science / Geophysics / Physics / Materials Science / Quantum Physics / Developmental Biology / Immunology / Climate Change / Molecular Biology / Structural Biology / Genomics / RNA / Computational Biology / Transcriptomics / Biotechnology / Systems Biology / Cancer / Biology / Metabolomics / Cell Cycle / Proteomics / Ecology / Drug Discovery / Evolution / Regulation / Nanotechnology / RNA polymerase / Astrophysics / Neurobiology / Medicine / Multidisciplinary / Palaeobiology / Functional Genomics / Nature / Protein synthesis / Cell Division / Signal Transduction / Transcription / Astronomy / DNA / RNA interference / Mitosis / Cell line / Cell Differentiation / Humans / Mice / Animals / Histone Modification / Cell Signalling / Medical Research / Transcription Factor / ribosomal RNA / Multienzyme complexes / RNA Polymerase I / Cell Proliferation / Base Sequence / Cell Fate / Earth Science / Interphase

MicroRNA188 suppresses G 1 /S transition by targeting multiple cyclin/CDK complexes

Genetics / Gene regulation / MicroRNA / Cell Cycle / Gene expression / Humans / Animals / microRNAs / Mouse Model / Neoplasms / Protein Expression / Cell Proliferation / Nasopharyngeal Carcinoma / Biochemistry and cell biology / Interphase / retinoblastoma protein (RB1). / Humans / Animals / microRNAs / Mouse Model / Neoplasms / Protein Expression / Cell Proliferation / Nasopharyngeal Carcinoma / Biochemistry and cell biology / Interphase / retinoblastoma protein (RB1).

RANTES Potentiates Antigen-Specific Mucosal Immune Responses

Immunology / Cytokines / Immunology of the Gut / Intestinal Mucosa / Mice / Female / Animals / The / Intranasal Administration / Epitopes / Nasal Mucosa / immunoglobulin G / Interleukin / Interphase / Female / Animals / The / Intranasal Administration / Epitopes / Nasal Mucosa / immunoglobulin G / Interleukin / Interphase

Comparative genomic hybridization in childhood acute lymphoblastic leukemia

Leukemia / Adolescent / In Situ Hybridization / Cancer Genetics / Humans / Child / Female / Male / Infant / Clinical Sciences / Sensitivity and Specificity / DNA Copy Number / Acute Lymphoblastic Leukemia / Interphase / Chromosome Banding / Child / Female / Male / Infant / Clinical Sciences / Sensitivity and Specificity / DNA Copy Number / Acute Lymphoblastic Leukemia / Interphase / Chromosome Banding

Comparative genomic hybridization in childhood acute lymphoblastic leukemia

Leukemia / Adolescent / In Situ Hybridization / Cancer Genetics / Humans / Child / Female / Male / Infant / Clinical Sciences / Sensitivity and Specificity / DNA Copy Number / Acute Lymphoblastic Leukemia / Interphase / Chromosome Banding / Child / Female / Male / Infant / Clinical Sciences / Sensitivity and Specificity / DNA Copy Number / Acute Lymphoblastic Leukemia / Interphase / Chromosome Banding

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