Pages that link to "Q35546921"

The following pages link to Cell-autonomous circadian clock of hepatocytes drives rhythms in transcription and polyamine synthesis (Q35546921):

Displaying 15 items.

• Dynamic circadian protein-protein interaction networks predict temporal organization of cellular functions (Q24337833) (← links)
• Brain-specific rescue of Clock reveals system-driven transcriptional rhythms in peripheral tissue (Q27332343) (← links)
• Cell type-specific functions of period genes revealed by novel adipocyte and hepatocyte circadian clock models (Q28541855) (← links)
• All-human microphysical model of metastasis therapy (Q33641654) (← links)
• Circadian redox and metabolic oscillations in mammalian systems (Q33687817) (← links)
• The interplay of cis-regulatory elements rules circadian rhythms in mouse liver (Q36373685) (← links)
• Monitoring cell-autonomous circadian clock rhythms of gene expression using luciferase bioluminescence reporters (Q36374997) (← links)
• Circadian oscillations of protein-coding and regulatory RNAs in a highly dynamic mammalian liver epigenome (Q36523534) (← links)
• Interactions between the circadian clock and metabolism: there are good times and bad times. (Q38069007) (← links)
• Circadian mRNA expression: insights from modeling and transcriptomics (Q38615111) (← links)
• Evaluation of five methods for genome-wide circadian gene identification (Q43737917) (← links)
• A PERK-miR-211 axis suppresses circadian regulators and protein synthesis to promote cancer cell survival. (Q46244712) (← links)
• Intrinsic muscle clock is necessary for musculoskeletal health. (Q48072193) (← links)
• Daily variation of gene expression in diverse rat tissues. (Q54963535) (← links)
• 12-h clock regulation of genetic information flow by XBP1s (Q92626367) (← links)