Reactive oxygen species production and discontinuous gas exchange in insects

Reactive oxygen species production and discontinuous gas exchange in insects

While biochemical mechanisms are typically used by animals to reduce oxidative damage, insects are suspected to employ a higher organizational level, discontinuous gas exchange mechanism to do so. Using a combination of real-time, flow-through respirometry and live-cell fluorescence microscopy, we s...

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Veröffentlicht in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2012-03, Vol.279 (1730), p.893-901
Hauptverfasser: Boardman, Leigh, Terblanche, John S, Hetz, Stefan K, Marais, Elrike, Chown, Steven L
Format: Artikel
Sprache:eng
Schlagworte:
Adaptation
Animals
Anoxia
biochemical mechanisms
Carbon Dioxide - metabolism
Discontinuous Gas Exchange
Experimentation
fluorescence microscopy
Gas exchange
Hyperoxia
Hypoxia
Infestation
Insect biochemistry
insects
Metabolism
Microscopy, Fluorescence
Moths - metabolism
Oxidative Damage
Oxidative Stress
Oxygen
Oxygen - metabolism
Periodic Ventilation
Pupa - metabolism
Pupae
Reactive oxygen species
Reactive Oxygen Species - metabolism
Samia cynthia
Spiracles
Trachea
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Zusammenfassung:While biochemical mechanisms are typically used by animals to reduce oxidative damage, insects are suspected to employ a higher organizational level, discontinuous gas exchange mechanism to do so. Using a combination of real-time, flow-through respirometry and live-cell fluorescence microscopy, we show that spiracular control associated with the discontinuous gas exchange cycle (DGC) in Samia cynthia pupae is related to reactive oxygen species (ROS). Hyperoxia fails to increase mean ROS production, although minima are elevated above normoxic levels. Furthermore, a negative relationship between mean Formula and mean ROS production indicates that higher ROS production is generally associated with lower Formula . Our results, therefore, suggest a possible signalling role for ROS in DGC, rather than supporting the idea that DGC acts to reduce oxidative damage by regulating ROS production.
ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2011.1243