Search results for "Locusta migratoria"

showing 3 items of 3 documents

Long-term effects of the trehalase inhibitor trehazolin on trehalase activity in locust flight muscle.

2010

SUMMARY Trehalase (EC 3.2.1.28) hydrolyzes the main haemolymph sugar of insects, trehalose, into the essential cellular substrate glucose. Trehalase in locust flight muscle is bound to membranes that appear in the microsomal fraction upon tissue fractionation, but the exact location in vivo has remained elusive. Trehalase has been proposed to be regulated by a novel type of activity control that is based on the reversible transformation of a latent (inactive) form into an overt (active) form. Most trehalase activity from saline-injected controls was membrane-bound (95%) and comprised an overt form (∼25%) and a latent form (75%). Latent trehalase could be assayed only after the integrity of …

MalePhysiologyTrehalase activityLocusta migratoriaAquatic ScienceDisaccharideschemistry.chemical_compoundIn vivoHemolymphExtracellularAnimalsTrehalaseTrehalaseEnzyme InhibitorsMuscle SkeletalMolecular BiologyEcology Evolution Behavior and SystematicsbiologyBehavior Animalbiology.organism_classificationTrehalosechemistryBiochemistryInsect ScienceFlight AnimalMicrosomeAnimal Science and ZoologyLocustThe Journal of experimental biology
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Fate and effects of the trehalase inhibitor trehazolin in the migratory locust (Locusta migratoria).

2009

Abstract Trehalose is the main haemolymph sugar in many insect species. To be utilized trehalose must be hydrolysed into its glucose units by trehalase (EC 3.2.1.28). Inhibitors of trehalase have attracted interest as possible pesticides and tools for studying the regulation of trehalose metabolism in insects. To make full use of these inhibitors requires knowledge of their fate and effects in vivo. To this end we have measured trehazolin in locusts using a method based on the specific inhibition of a trehalase preparation. After injection of 20 μg, trehazolin decreased in haemolymph with a half-life of 2.6 days and after 10 days almost 95% had disappeared. Trehazolin did not reach the intr…

Maleanimal structuresPhysiologyTrehalase activityLocusta migratoriaDisaccharideschemistry.chemical_compoundEatingFecesHemolymphHemolymphAnimalsTrehalaseTrehalasechemistry.chemical_classificationbiologyMusclesMetabolismMigratory locustbiology.organism_classificationTrehaloseKineticsEnzymechemistryBiochemistryInsect ScienceLocustHalf-LifeJournal of insect physiology
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Apoptosis of male germ-line stem cells after laser ablation of their niche.

2007

AbstractMale germ-line stem cells (GSCs) and their niche-the apical cells or hub cells-display a unique feature at the apices of insect testicular follicles. In the locust, Locusta migratoria, the niche consists of only one large apical cell surrounded by about 60 GSCs. The apical cell can be readily identified in the intact follicle. Using laser ablation it is feasible to destroy the apical cell exclusively without injuring neighboring GSCs or any other cells. The most immediate effect on GSCs is the loss of their structural polarity. Beginning about 3 h after laser treatment chromatin starts to clump and condense in individual GSCs, and some show the first signs of cellular breakdown. The…

Maleendocrine systemLocusta migratoriaMitosisApoptosisApical cellBiologyGermlineFollicleAnimalsStem Cell NicheMitosisMedicine(all)TUNEL assayStem CellsfungiCell PolarityGeneral MedicineAnatomyCell BiologyChromatinCell biologyGerm CellsApoptosisLaser TherapyStem cellDevelopmental BiologyStem cell research
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