Changes in redox states of respiratory pigments recorded from the eyes of live blowflies exposed to light stimuli and hypoxia

Time courses of mitochondrial responses to illumination-induced physiological loads and to hypoxia, were recorded optically from eyes of blowflies Calliphora vicina chalky. We isolated changes in redox states of haems a₃, a, c, and b. Two types of responses to light stimulation were observed. Haems...

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Bibliographic Details
Published in:Journal of Comparative Physiology 2011-03, Vol.197 (3), p.301-310
Main Authors: Meglic, Andrej, Zupancic, Gregor
Format: Article
Language:English
Subjects:
Animal Physiology
Animals
Biomedical and Life Sciences
Calliphora vicina
Calliphoridae
Cell Respiration - physiology
Compound Eye, Arthropod - cytology
Compound Eye, Arthropod - metabolism
Compound Eye, Arthropod - radiation effects
Diptera
Electron transport
Heme - metabolism
Heme - radiation effects
Hypoxia
Hypoxia - metabolism
Life Sciences
Light
Light effects
Male
Membrane potential
Mitochondria
Mitochondria - metabolism
Mitochondria - radiation effects
Neurosciences
Original Paper
Oxidation
Oxidation-Reduction
Photic Stimulation - methods
Photoreceptor Cells, Invertebrate - cytology
Photoreceptor Cells, Invertebrate - metabolism
Photoreceptor Cells, Invertebrate - radiation effects
Redox properties
Respiratory pigments
Zoology
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Summary:Time courses of mitochondrial responses to illumination-induced physiological loads and to hypoxia, were recorded optically from eyes of blowflies Calliphora vicina chalky. We isolated changes in redox states of haems a₃, a, c, and b. Two types of responses to light stimulation were observed. Haems b and a₃ responded with transient oxidation and haems a and c with reduction. The same two groups emerged in response to anoxic exposure. The onset of reduction of haems a and c had virtually no latency, while haems a₃ and b exhibited a transient oxidation followed by reduction only after 10-20 s. The dependence of the steady-state reduction level on [graphic removed] produced the same groups. Haems a and c were significantly reduced at [graphic removed] levels around 10 kPa while with haems b and a₃ load-induced oxidation was only replaced by reduction below 2 kPa. We propose haems respond to physiological loads in accordance with their steady-state reduction, which in turn depends largely on barriers for electron transport imposed by the mitochondrial membrane potential. We also propose it may be possible to assess the values of tissue [graphic removed] and O₂ consumption by monitoring haems that are highly oxidized at rest such as haem a.
ISSN:0340-7594
1432-1351
DOI:10.1007/s00359-010-0612-7