Details

Autor(en) / Beteiligte

• Fanello, Diego Darío
• Bartoli, Carlos Guillermo
• Guiamet, Juan José

Titel

Qualitative and quantitative modifications of root mitochondria during senescence of above-ground parts of Arabidopis thaliana

Ist Teil von

• Plant science (Limerick), 2017-05, Vol.258, p.112-121

Ort / Verlag

Ireland: Elsevier B.V

Erscheinungsjahr

2017

Quelle

MEDLINE

Beschreibungen/Notizen

• •Root maintained their specific respiratory activity even after rosette senescence.•In plants under darkness, roots maintained their respiratory activity up to 10 days.•There is a pool of mitochondria in a “standby mode” during prolonged darkness.•The smallest mitochondria may account for most of respiratory activity.•Sugar starvation is partly the cause of decreased respiratory activity. This work studied modifications experienced by root mitochondria during whole plant senescence or under light deprivation, using Arabidopsis thaliana plants with YFP tagged to mitochondria. During post-bolting development, root respiratory activity started to decline after aboveground organs (i.e., rosette leaves) had senesced. This suggests that carbohydrate starvation may induce root senescence. Similarly, darkening the whole plant induced a decrease in respiration of roots. This was partially due to a decrease in the number of total mitochondria (YFP-labelled mitochondria) and most probably to a decrease in the quantity of mitochondria with a developed inner membrane potential (ΔΨm, i.e., Mitotracker red- labelled mitochondria). Also, the lower amount of mitochondria with ΔΨm compared to YFP-labelled mitochondria at 10d of whole darkened plant, suggests the presence of mitochondria in a “standby state”. The experiments also suggest that small mitochondria made the main contribution to the respiratory activity that was lost during root senescence. Sugar supplementation partially restored the respiration of mitochondria after 10d of whole plant dark treatment. These results suggest that root senescence is triggered by carbohydrate starvation, with loss of ΔΨm mitochondria and changes in mitochondrial size distribution.