Table of Contents
Transcriptional Regulation
- TRANSCRIPTIONAL REGULATIONIdentification of Farnesoid X Receptor β as a Novel Mammalian Nuclear Receptor Sensing Lanosterol
- TRANSCRIPTIONAL REGULATIONTranscriptional Activities of the Zinc Finger Protein Zac Are Differentially Controlled by DNA Binding
- TRANSCRIPTIONAL REGULATIONTranscriptional Coactivation of Bone-Specific Transcription Factor Cbfa1 by TAZ
- TRANSCRIPTIONAL REGULATIONInhibition of IκB Kinase by a New Class of Retinoid-Related Anticancer Agents That Induce Apoptosis
Cell Growth and Development
- CELL GROWTH AND DEVELOPMENTProtein Kinase C Phosphorylates Ribosomal Protein S6 Kinase βII and Regulates Its Subcellular Localization
- CELL GROWTH AND DEVELOPMENTLive-Cell Fluorescence Imaging Reveals the Dynamics of Protein Kinase CK2 Individual Subunits
- CELL GROWTH AND DEVELOPMENTConditional Mutation of Rb Causes Cell Cycle Defects without Apoptosis in the Central Nervous System
Dna Dynamics and Chromosome Structure
- DNA DYNAMICS AND CHROMOSOME STRUCTURECritical Role for Mouse Hus1 in an S-Phase DNA Damage Cell Cycle Checkpoint
- DNA DYNAMICS AND CHROMOSOME STRUCTUREThe Dihydrofolate Reductase Origin of Replication Does Not Contain Any Nonredundant Genetic Elements Required for Origin Activity
Mammalian Genetic Models With Minimal Or Complex Phenotypes
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESGranulocyte Function in Grancalcin-Deficient Mice
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESDisruption of the Regulatory β Subunit of Protein Kinase CK2 in Mice Leads to a Cell-Autonomous Defect and Early Embryonic Lethality
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESThe Absence of Mitochondrial Thioredoxin 2 Causes Massive Apoptosis, Exencephaly, and Early Embryonic Lethality in Homozygous Mice
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESLiver-Specific Reactivation of the Inactivated Hnf-1α Gene: Elimination of Liver Dysfunction To Establish a Mouse MODY3 Model
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESLoss of S100A9 (MRP14) Results in Reduced Interleukin-8-Induced CD11b Surface Expression, a Polarized Microfilament System, and Diminished Responsiveness to Chemoattractants In Vitro
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESTargeted Disruption of the Mouse Mel1b Melatonin Receptor
- MAMMALIAN GENETIC MODELS WITH MINIMAL OR COMPLEX PHENOTYPESEssential Role for NFI-C/CTF Transcription-Replication Factor in Tooth Root Development
Gene Expression
- GENE EXPRESSIONInteraction of Histone Acetylases and Deacetylases In Vivo
Nucleocytoplasmic Communication
- NUCLEOCYTOPLASMIC COMMUNICATIONThe Carboxy Terminus of Prospero Regulates Its Subcellular Localization