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1
Content available remote Identification and tissue distribution of a novel rat glucocorticoid receptor splice variant
100%
Ju H. , Wang X. , Liu Z. , Liu P. , Zhao Y. , Xiong R. , Zhou Y. , Chen X.
Acta Biochimica Polonica
|
2009
|
tom 56
|
nr 1
109-113
EN
Glucocorticoid receptor (GR) is a steroid hormone receptor that has been shown to play important roles in diverse cellular and physiological processes. More and more evidence has revealed that the effects of glucocorticoids are mediated by the glucocorticoid receptor through genomic or nongenomic mechanisms. A growing number of glucocorticoid receptor splice variants have been identified in human tissues, but few are known in rat tissues. In this work, a novel rGR cDNA, called rGRβ, was cloned from Sprague Dawlay (SD) rat liver. Sequence analysis revealed that the rGRβ mRNA was 39 base pairs (bp) shorter than the rGR mRNA reported earlier. The deleted segment is located in exon 1 and encodes 13 repeated glutamine residues. Both the rGR and rGRβ mRNAs were quantitated by Northern blot hybridization using non-homologous glucocorticoid cDNA probes. Results showed that the rGR and rGRβ mRNAs were most abundant in the lung, the least abundant in the heart, and there were more rGR and rGRβ mRNAs in the kidney than in the liver. The identification of rGRβ may contribute to the understanding of the genomic or nongenomic effects of glucocorticoids.
2
Decreased expression of survivin 2B in human pituitary adenomas. A preliminary study
75%
Waligorska-Stachura J. , Sawicka-Gutaj N. , Zabel M. , Liebert W. , Gut P. , Czarnywojtek A. , Ruchala M.
Folia Histochemica et Cytobiologica
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2017
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tom 55
|
nr 1
3
Identification and tissue distribution of a novel rat glucocorticoid receptor splice variant
63%
Ju H. , Wang X. , Liu Z. , Liu P. , Zhao Y. , Xiong R. , Zhou Y. , Chen X.
Acta Biochimica Polonica
|
2009
|
tom 56
|
nr 1
109-113
EN
 Glucocorticoid receptor (GR) is a steroid hormone receptor that has been shown to play important roles in diverse cellular and physiological processes. More and more evidence has revealed that the effects of glucocorticoids are mediated by the glucocorticoid receptor through genomic or nongenomic mechanisms. A growing number of glucocorticoid receptor splice variants have been identified in human tissues, but few are known in rat tissues. In this work, a novel rGR cDNA, called rGRβ, was cloned from Sprague Dawlay (SD) rat liver. Sequence analysis revealed that the rGRβ mRNA was 39 base pairs (bp) shorter than the rGR mRNA reported earlier. The deleted segment is located in exon 1 and encodes 13 repeated glutamine residues. Both the rGR and rGRβ mRNAs were quantitated by Northern blot hybridization using non-homologous glucocorticoid cDNA probes. Results showed that the rGR and rGRβ mRNAs were most abundant in the lung, the least abundant in the heart, and there were more rGR and rGRβ mRNAs in the kidney than in the liver. The identification of rGRβ may contribute to the understanding of the genomic or nongenomic effects of glucocorticoids.
4
Cloning and expression of a new inositol 1,4,5-trisphosphate receptor type 1 splice variant in adult rat atrial myocytes
51%
Subedi K. P. , Singh T. D. , Kim J.-C. , Woo S.-H.
Cellular and Molecular Biology Letters
|
2012
|
tom 17
|
nr 1
EN
Inositol 1,4,5-trisphosphate receptor type 1 (IP3R1) is already known to be highly expressed in the brain, and is found in many other tissues, including the atrium of the heart. Although the complete primary structure of IP3R1 in the rat brain has been reported, the complete sequence of an IP3R1 clone from atrial myocytes has not been reported. We isolated an IP3R1 complementary DNA (cDNA) clone from isolated adult rat atrial myocytes, and found a new splice variant of IP3R1 that was different from a previously reported IP3R1 cDNA clone obtained from a rat brain (NCBI GenBank accession number: NM_001007235). Our clone had 99% similarity with the rat brain IP3R1 sequence; the exceptions were 39 amino acid deletions at the position of 1693–1731, and the deletion of phenylalanine at position 1372 that lay in the regulatory region. Compared with the rat brain IP3R1, in our clone proline was replaced with serine at residue 2439, and alanine was substituted for valine at residue 2445. These changes lie adjacent to or within the fifth transmembrane domain (2440–2462). Although such changes in the amino acid sequences were different from the rat brain IP3R1 clone, they were conserved in human or mouse IP3R1. We produced a plasmid construct expressing the atrial IP3R1 together with green fluorescent protein (GFP), and successfully overexpressed the atrial IP3R1 in the adult atrial cell line HL-1. Further investigation is needed on the physiological significance of the new splice variant in atrial cell function.
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