Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Differential developmental regulation of pancreas-specific genes has not been reported for the human fetal pancreas. We have therefore undertaken a systematic, quantitative analysis of the transcriptional levels of various genes in the human pancreas at different stages of fetal and postnatal development. Using sensitive ribonuclease protection assays, in situ hybridization, and the polymerase chain reaction, our results indicate the following: 1) Transcriptional levels of insulin and amylin remain lower in the fetal than in the adult pancreas, whereas glucagon and somatostatin mRNA levels are consistently greater after 14 wk gestation than postnatally. These results are in agreement with previous immunohistochemical studies of these gene products. 2) The reg gene exhibits a 20-fold increase in mRNA levels after 16 wk gestation. The gene is expressed exclusively in the acinar cells and does not colocalize with insulin. This restricted exocrine expression does not indicate a direct role for the reg gene in islet development. 3) Glucose transporter 2 and glucokinase mRNA are detectable as early as 13 wk gestation and remain low throughout development. Glucose transporter 1 reaches adult transcriptional levels by 18 wk gestation. The early detection of glucose transporter 2 and glucokinase implies that lack of expression of these "glucose sensor" genes does not account for the known insensitivity of the fetal beta-cells to glucose.
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PMID:Developmental gene expression in the human fetal pancreas. 752 96

To examine the mechanisms responsible for tissue-specific, nutritional, and metabolic regulation of the GLUT4/muscle-adipose specific glucose transporter, we isolated and characterized the properties of the rat GLUT4 gene. Examination of the sequenced 2.5-kilobase flanking DNA revealed substantial identity with that of the mouse and human GLUT4 genes, with the greatest degree of sequence identity within the proximal 1000 basepairs up-stream of the GLUT4 open reading frame. Primer extension analysis identified a unique single transcription initiation site 176 basepairs up-stream from the start of translation. However, ribonuclease mapping revealed the presence of a previously undescribed alternatively spliced form of GLUT4 messenger RNA. Approximately 75% of the GLUT4 transcripts consisted of a fully spliced messenger RNA, and 25% was expressed as an unspliced intron-containing species. The ratios of 5' spliced and unspliced messages were invariant in adipose, cardiac, and skeletal muscle tissues. In vitro translation of reporter constructs containing both the spliced and unspliced leader demonstrated a functional difference between these two transcripts, with the unspliced form translated approximately 5-fold more than the fully spliced species. These data demonstrate the presence of 5'-heterogeneity of the GLUT4 transcripts, which underlies differences in translational efficiency in vitro.
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PMID:Characterization of 5'-heterogeneity of the rat GLUT4/muscle-adipose glucose transporter gene product. 772 Jun 44

Previous studies have indicated that insulin secretion in response to glucose diminishes with age but insulin synthesis and gene transcription do not. To determine whether expression of genes other than those that encode insulin are subject to age-related changes that could alter pancreatic islet function, mRNAs for insulins I and II, amylin, glucose transporter 2 (GluT2), glucagon, and glucokinase were quantified in 2-, 6-, 12-, and 24-month-old Fischer 344 rats using species-specific ribonuclease (RNase) protection assays. There was only a modest (1.2- to 1.3-fold) increase in insulin I and insulin II mRNAs between ages 2 and 12 months. There were no statistically significant changes in levels of glucokinase mRNA with age. In contrast, the abundances of amylin, GluT2, and glucagon mRNAs all doubled during the same period. Variance in values from 24-month-old rats was too great to allow conclusions, except that the ratio of insulin II mRNA to insulin I mRNA increased with age. This change was not related to islet mass or total insulin mRNA abundance because it persisted at age 24 months, when total mRNA abundance had decreased. These results indicate that aging is associated with significant alterations in the relative proportion of expression of pancreatic islet cell genes implicated in insulin secretion and in intraislet glucose metabolism.
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PMID:Age-related changes in pancreatic islet cell gene expression. 788 76

A 246-bp fragment of porcine glucose transporter 4 (GLUT4) cDNA was cloned by polymerase chain reaction (PCR) from porcine adipose tissue RNA. Nucleotide sequences 1-138 and 139-246 of the GLUT4 cDNA share 78% sequence identity with exon 4a and 91% sequence identity with exon 4b of the human GLUT4 gene, respectively. The GLUT4 cDNA fragment was subcloned into pGEM-4Z vector to synthesize a highly specific riboprobe that hybridized only to human GLUT4 cDNA but not to human glucose transporter 1 (GLUT1) cDNA. Northern blot analysis of total RNA revealed the presence of a single transcript of 2.8 kb in porcine adipose tissue. Cloning a fragment of the GLUT4 cDNA enabled us to develop a ribonuclease protection assay for detecting porcine GLUT4 mRNA. The ribonuclease (RNase) protection assay is highly reproducible and retains a sensitivity level to as little as 2 pg of GLUT4 mRNA. The standard curve was linear between 2 and 128 pg of sense-strand GLUT4 RNA (r = .994). The ability to detect small quantities of GLUT4 mRNA is important when the abundance of GLUT4 mRNA is low and the quantity of tissue is limiting (e.g., when RNA is extracted from cultured adipose tissue). When porcine adipose tissue explants were cultured in the presence of insulin (10 ng/mL), GLUT4 mRNA abundance was increased. Development of a sensitive assay to quantify GLUT4 mRNA in porcine adipose tissue will enable us to conduct studies to increase our understanding of the molecular mechanisms by which porcine somatotropin (pST) regulates GLUT4 gene expression.
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PMID:Cloning of a pig glucose transporter 4 cDNA fragment: use in developing a sensitive ribonuclease protection assay for quantifying low-abundance glucose transporter 4 mRNA in porcine adipose tissue. 805 64