BackgroundRetinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the function of other nuclear receptors. Using chromatin immunoprecipitation sequencing and mRNA profiling data generated from wild type and RXRα-null mouse livers, the current study identifies the bona-fide hepatic RXRα targets and biological pathways. In addition, based on binding and motif analysis, the molecular mechanism by which RXRα regulates hepatic genes is elucidated in a high-throughput manner.Principal findingsClose to 80% of hepatic expressed genes were bound by RXRα, while 16% were expressed in an RXRα-dependent manner. Motif analysis predicted direct repeat with a spacer of one nucleotide as the most prevalent RXRα binding site. M...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Glucose metabolism is balanced by glycolysis and gluconeogenesis with precise control in the liver. ...
BackgroundRetinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the...
BACKGROUND: Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for t...
Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the function ...
Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the function ...
Background Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for...
Background Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for...
Background: Retinoid x receptor a (RXRa) is abundantly expressed in the liver and is essential for t...
The liver X receptors (LXRs) are nuclear receptors that form permissive heterodimers with retinoid X...
Many hepatic functions including lipid metabolism, drug metabolism, and inflammatory responses are r...
<div><p>Many hepatic functions including lipid metabolism, drug metabolism, and inflammatory respons...
Retinoic acid (RA) has diverse biological effects. The liver stores vitamin A, generates RA, and exp...
Abstract Background The eyes and skin are obvious retinoid target organs. Vitamin A deficiency cause...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Glucose metabolism is balanced by glycolysis and gluconeogenesis with precise control in the liver. ...
BackgroundRetinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the...
BACKGROUND: Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for t...
Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the function ...
Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for the function ...
Background Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for...
Background Retinoid x receptor α (RXRα) is abundantly expressed in the liver and is essential for...
Background: Retinoid x receptor a (RXRa) is abundantly expressed in the liver and is essential for t...
The liver X receptors (LXRs) are nuclear receptors that form permissive heterodimers with retinoid X...
Many hepatic functions including lipid metabolism, drug metabolism, and inflammatory responses are r...
<div><p>Many hepatic functions including lipid metabolism, drug metabolism, and inflammatory respons...
Retinoic acid (RA) has diverse biological effects. The liver stores vitamin A, generates RA, and exp...
Abstract Background The eyes and skin are obvious retinoid target organs. Vitamin A deficiency cause...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Background: The eyes and skin are obvious retinoid target organs. Vitamin A deficiency causes night...
Glucose metabolism is balanced by glycolysis and gluconeogenesis with precise control in the liver. ...
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