Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have mapped the position of the alpha-globin gene cluster in the 20- to 300-kilobase fragments of chromosomal DNA isolated from growing chicken HD3 erythroblastoid cells exposed to 4'-demethylepipodophyllotoxinthenylidene beta-D-glucoside. This epipodophyllotoxin traps functioning topoisomerase II molecules, the denaturation of which cleaves DNA and reveals their reaction sites. The DNA fragments, prepared by centrifugation in sucrose gradients, bind selectively to glass-fiber filters and are protected from lambda 5'-exonuclease, properties compatible with the presence of a topoisomerase II subunit bound to their 5' ends. Restriction enzyme cleavage of the fragments and hybridization with cloned alpha-globin-region probes reveal additional distinctive bands not seen in control DNA, allowing the localization of fragment ends near this gene cluster. The terminal regions of fragments from sucrose gradients or from field-inversion electrophoresis gels were also used to probe cloned regions of the gene cluster. Both approaches show that this cluster of three genes, which is not expressed in these cells, is located at a specific position in a approximately 20-kilobase DNA fragment. The upstream end of this fragment lies in a region that contains a site of DNA attachment to the nuclear matrix mapped by both in vivo and in vitro methods, and its downstream end is flanked by approximately 80% A + T sequences characteristic of matrix-attachment regions. These observations suggest that the DNA fragments are formed because topoisomerase II molecules can specifically and readily integrate into DNA at matrix-attachment regions and that the fragments represent entire DNA loops or domains.
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PMID:Precise localization of the alpha-globin gene cluster within one of the 20- to 300-kilobase DNA fragments released by cleavage of chicken chromosomal DNA at topoisomerase II sites in vivo: evidence that the fragments are DNA loops or domains. 165 47

Utilisation of glucose undergoes a marked decline during erythroblastic differentiation in the chicken. Concomitantly there is a reduction in the expression of glucose transporter proteins and in the expression of the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAD). GAD activity declines, after an initial rise, while the level of GAD mRNA decreases rapidly after induction of differentiation. We have employed the temperature-sensitive chicken erythroblast cell line HD3 that differentiates to the erythrocyte phenotype at 42 degrees C in the presence of inducers (hemin and butyric acid). The role of tyrosine and serine/threonine phosphorylation pathways were evaluated with the phosphatase inhibitors sodium vanadate and okadaic acid, respectively. In the presence of phosphatase inhibitors, HD3 cells underwent differentiation and increased their synthesis of hemoglobin which is a marker protein for red blood cells differentiation. The levels of both GAD mRNA and enzymatic activity were increased by phosphatase inhibitors. The role of cAMP in differentiation was also assessed. Differentiation of HD3 cells was associated with an increase in cAMP. However the phosphodiesterase inhibitor IBMX was not a good inducer of hemoglobin synthesis but did induce GAD mRNA and enzymatic activity. Together these results suggest that multiple pathways (including serine/threonine phosphorylation, tyrosine phosphorylation and elevated cAMP) are involved in the regulation of erythroblastic differentiation, hemoglobin synthesis, GAD gene expression and GAD activity in HD3 cells.
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PMID:Erythrocytic differentiation and glyceraldehyde-3-phosphate dehydrogenase expression are regulated by protein phosphorylation and cAMP in HD3 cells. 1078 56