0000000000174206

AUTHOR

Reinhard Schuh

showing 2 related works from this author

Knockdown of Drosophila hemoglobin suggests a role in O2 homeostasis.

2016

Almost all insects are equipped with a tracheal system, which appears to be sufficient for O2 supply even in phases of high metabolic activity. Therefore, with the exception of a few species dwelling in hypoxic habitats, specialized respiratory proteins had been considered unnecessary in insects. The recent discovery and apparently universal presence of intracellular hemoglobins in insects has remained functionally unexplained. The fruitfly Drosophila melanogaster harbors three different globin genes (referred to as glob1-3). Glob1 is the most highly expressed globin and essentially occurs in the tracheal system and the fat body. To better understand the functions of insect globins, the lev…

0301 basic medicineMaleParaquatTransgenemedia_common.quotation_subjectInsectBiochemistry03 medical and health sciencesHemoglobinsRNA interferenceAnimalsDrosophila ProteinsHomeostasisGlobinMolecular Biologymedia_commonGeneticschemistry.chemical_classificationGene knockdownReactive oxygen speciesbiologyfungiGene Expression Regulation Developmentalbiology.organism_classificationCell biologyGlobinsOxygenOxidative Stress030104 developmental biologyDrosophila melanogasterchemistryInsect ScienceGene Knockdown TechniquesLarvaFemaleRNA InterferenceDrosophila melanogasterReactive Oxygen SpeciesHomeostasisInsect biochemistry and molecular biology
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Oxygen-induced changes in hemoglobin expression in Drosophila

2008

The hemoglobin gene 1 (dmeglob1) of the fruit fly Drosophila melanogaster is expressed in the tracheal system and fat body, and has been implicated in hypoxia resistance. Here we investigate the expression levels of dmeglob1 and lactate dehydrogenase (a positive control) in embryos, third instar larvae and adult flies under various regimes of hypoxia and hyperoxia. As expected, mRNA levels of lactate dehydrogenase increased under hypoxia. We show that expression levels of dmeglob1 are decreased under both short- and long-term hypoxia, compared with the normoxic (21% O2) control. By contrast, a hypoxia/reoxygenation regime applied to third instar larvae elevated the level of dmeglob1 mRNA. A…

chemistry.chemical_classificationHyperoxiamedicine.medical_specialtyReactive oxygen speciesMessenger RNAanimal structuresfungiCell BiologyAnatomyBiologyHypoxia (medical)BiochemistryEndocrinologychemistryInternal medicineRespirationmedicineStorage proteinHemoglobinGlobinmedicine.symptomMolecular BiologyFEBS Journal
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