The cost of surviving nitrogen excess: energy and protein demand in the lichen Cladonia portentosa as revealed by proteomic analysis
Munzi, Silvana; Sheppard, Lucy J.; Leith, Ian D.; Cruz, Cristina; Branquinho, Cristina; Bini, Luca; Gagliardi, Assunta; Cai, Giampiero; Parrotta, Luigi. 2017 The cost of surviving nitrogen excess: energy and protein demand in the lichen Cladonia portentosa as revealed by proteomic analysis. Planta, 245 (4). 819-833. 10.1007/s00425-017-2647-2
Full text not available from this repository.Abstract/Summary
Different nitrogen forms affect different metabolic pathways in lichens. In particular, the most relevant changes in protein expression were observed in the fungal partner, with NO3− mostly affecting the energetic metabolism and NH4+ affecting transport and regulation of proteins and the energetic metabolism much more than NO3− did. Excess deposition of reactive nitrogen is a well-known agent of stress for lichens, but which symbiont is most affected and how, remains a mystery. Using proteomics can expand our understanding of stress effects on lichens. We investigated the effects of different doses and forms of reactive nitrogen, with and without supplementary phosphorus and potassium, on the proteome of the lichen Cladonia portentosa growing in a ‘real-world’ simulation of nitrogen deposition. Protein expression changed with the nitrogen treatments but mostly in the fungal partner, with NO3− mainly affecting the energetic metabolism and NH4+ also affecting the protein synthesis machinery. The photobiont mainly responded overexpressing proteins involved in energy production. This suggests that in response to nitrogen stress, the photobiont mainly supports the defensive mechanisms initiated by the mycobiont with an increased energy production. Such surplus energy is then used by the cell to maintain functionality in the presence of NO3−, while a futile cycle of protein production can be hypothesized to be induced by NH4+ excess. External supply of potassium and phosphorus influenced differently the responses of particular enzymes, likely reflecting the many processes in which potassium exerts a regulatory function.
Item Type: | Publication - Article |
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Digital Object Identifier (DOI): | 10.1007/s00425-017-2647-2 |
UKCEH and CEH Sections/Science Areas: | UKCEH Fellows Dise |
ISSN: | 0032-0935 |
Additional Keywords: | ammonium, molecular mechanism, mycobiont, nitrate, photobiont, stress response |
NORA Subject Terms: | Ecology and Environment Botany |
Date made live: | 03 Apr 2017 15:26 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/516756 |
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