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- Adrenal (1)
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- Embryos (1)
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- Rheb1 gene Expression pattern Immunohistochemistry X-gal staining Gene trap Embryos Adult mice (1)
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Articles 1 - 6 of 6
Full-Text Articles in Life Sciences
Rhebi Expression In Embryonic And Postnatal Mouse, Qi Tian, James L. Smart, Joachim H. Clement, Yingming Wang, Alex Derkatch, Harald Schubert, Michael V. Danilchik, Daniel L. Marks, Lev M. Fedorov
Rhebi Expression In Embryonic And Postnatal Mouse, Qi Tian, James L. Smart, Joachim H. Clement, Yingming Wang, Alex Derkatch, Harald Schubert, Michael V. Danilchik, Daniel L. Marks, Lev M. Fedorov
Faculty Publications - Department of Biological & Molecular Science
Ras homolog enriched in brain (RHEB1) is a member within the superfamily of GTP-binding proteins encoded by the RAS oncogenes. RHEB1 is located at the crossroad of several important pathways including the insulin-signaling pathways and thus plays an important role in different physiological processes. To understand better the physiological relevance of RHEB1 protein, the expres- sion pattern of RHEB1 was analyzed in both embryonic (at E3.5–E16.5) and adult (1-month old) mice. RHEB1 immu- nostaining and X-gal staining were used for wild-type and Rheb1 gene trap mutant mice, respectively. These inde- pendent methods revealed similar RHEB1 expression pat- terns during both …
Rheb1 Expression In Embryonic And Postnatal Mouse, Qi Tian, James L. Smart, Joachim H. Clement, Yingming Wang, Alex Derkatch, Harald Schubert, Michael V. Danilchik, Daniel L. Marks, Lev M. Federov
Rheb1 Expression In Embryonic And Postnatal Mouse, Qi Tian, James L. Smart, Joachim H. Clement, Yingming Wang, Alex Derkatch, Harald Schubert, Michael V. Danilchik, Daniel L. Marks, Lev M. Federov
Faculty Publications - Department of Biological & Molecular Science
Ras homolog enriched in brain (RHEB1) is a member within the superfamily of GTP-binding proteins encoded by the RAS oncogenes. RHEB1 is located at the crossroad of several important pathways including the insulin-signaling pathways and thus plays an important role in different physiological processes. To understand better the physiological relevance of RHEB1 protein, the expres-sion pattern of RHEB1 was analyzed in both embryonic (at E3.5–E16.5) and adult (1-month old) mice. RHEB1 immu-nostaining and X-gal staining were used for wild-type and Rheb1 gene trap mutant mice, respectively. These inde-pendent methods revealed similar RHEB1 expression pat-terns during both embryonic and postnatal developments. …
Glucocorticoids Exacerbate Obesity And Insulin Resistance In Neuron-Specific Proopiomelanocortin-Deficient Mice, James L. Smart, Virgine Tolle, Malcolm J. Low
Glucocorticoids Exacerbate Obesity And Insulin Resistance In Neuron-Specific Proopiomelanocortin-Deficient Mice, James L. Smart, Virgine Tolle, Malcolm J. Low
Faculty Publications - Department of Biological & Molecular Science
Null mutations of the proopiomelanocortin gene (Pomc–/–) cause obesity in humans and rodents, but the contributions of central versus pituitary POMC deficiency are not fully established. To elucidate these roles, we introduced a POMC transgene (Tg) that selectively restored peripheral melanocortin and corticosterone secretion in Pomc–/– mice. Rather than improving energy balance, the genetic replacement of pituitary POMC in Pomc–/–Tg+ mice aggravated their metabolic syndrome with increased caloric intake and feed efficiency, reduced oxygen consumption, increased subcutaneous, visceral, and hepatic fat, and severe insulin resistance. Pair-feeding of Pomc–/–Tg+ mice to the daily intake of lean controls normalized their rate of …
Identification Of Neuronal Enhancers Of The Proopiomelanocortin Gene By Transgenic Mouse Analysis And Phylogenetic Footprinting, Flavio S. J. De Souza, Andrea M. Santangelo, Viviana Bumaschny, Marıa Elena Avale, James L. Smart, Malcolm J. Low, Marcelo Rubinstein
Identification Of Neuronal Enhancers Of The Proopiomelanocortin Gene By Transgenic Mouse Analysis And Phylogenetic Footprinting, Flavio S. J. De Souza, Andrea M. Santangelo, Viviana Bumaschny, Marıa Elena Avale, James L. Smart, Malcolm J. Low, Marcelo Rubinstein
Faculty Publications - Department of Biological & Molecular Science
The proopiomelanocortin (POMC) gene is expressed in the pituitary and arcuate neurons of the hypothalamus. POMC arcuate neurons play a central role in the control of energy homeostasis, and rare loss of function mutations in POMC cause obesity. Moreover, POMC is the prime candidate gene within a highly significant quantitative trait locus on chromosome 2 associated with obesity traits in several human populations. Here, we identify two phylogenetically conserved neuronal POMC enhancers designated nPE1 (600 bp) and nPE2 (150 bp) located approximately 10 to 12 kb upstream of mammalian POMC transcriptional units. We show that mouse or human genomic regions …
A Transgenic Marker For Newly Born Granule Cells In Dentate Gyrus, Linda S. Overstreet, Shane T. Hentges, Viviana F. Bumaschny, Flavio S.J. De Souza, James L. Smart, Andrea M. Santangelo, Malcolm J. Low, Gary L. Westbrook, Marcelo Rubinstein
A Transgenic Marker For Newly Born Granule Cells In Dentate Gyrus, Linda S. Overstreet, Shane T. Hentges, Viviana F. Bumaschny, Flavio S.J. De Souza, James L. Smart, Andrea M. Santangelo, Malcolm J. Low, Gary L. Westbrook, Marcelo Rubinstein
Faculty Publications - Department of Biological & Molecular Science
Neurogenesis in the dentate gyrus continues into adulthood, yet little is known about the function of newly born neurons or how they integrate into an existing network of mature neurons. We made transgenic mice that selectively and transiently express enhanced green fluorescent protein (EGFP) in newly born granule cells of the dentate gyrus under the transcriptional control of proopiomelanocortin (POMC) genomic sequences. Analysis of transgenic pedigrees with truncation or deletion mutations indicated that EGFP expression in the dentate gyrus required cryptic POMC promoter regions dispensable for arcuate hypothalamic or pituitary expression. Unlike arcuate neurons, dentate granule cells did not express …
Lack Of Proopiomelanocortin Peptides Results In Obesity And Defective Adrenal Function But Normal Melanocyte Pigmentation In The Murine C57bl/6 Genetic Background, James L. Smart, Malcolm J. Low
Lack Of Proopiomelanocortin Peptides Results In Obesity And Defective Adrenal Function But Normal Melanocyte Pigmentation In The Murine C57bl/6 Genetic Background, James L. Smart, Malcolm J. Low
Faculty Publications - Department of Biological & Molecular Science
No abstract provided.