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Contrasting effects of copper limitation on the photosynthetic apparatus in two strains of the open ocean diatom Thalassiosira oceanica
- Source :
- PLoS ONE, PLoS ONE, Vol 12, Iss 8, p e0181753 (2017)
- Publication Year :
- 2017
- Publisher :
- Public Library of Science (PLoS), 2017.
-
Abstract
- There is an intricate interaction between iron (Fe) and copper (Cu) physiology in diatoms. However, strategies to cope with low Cu are largely unknown. This study unveils the comprehensive restructuring of the photosynthetic apparatus in the diatom Thalassiosira oceanica (CCMP1003) in response to low Cu, at the physiological and proteomic level. The restructuring results in a shift from light harvesting for photochemistry-and ultimately for carbon fixation-to photoprotection, reducing carbon fixation and oxygen evolution. The observed decreases in the physiological parameters Fv/Fm, carbon fixation, and oxygen evolution, concomitant with increases in the antennae absorption cross section (σPSII), non-photochemical quenching (NPQ) and the conversion factor (φe:C/ηPSII) are in agreement with well documented cellular responses to low Fe. However, the underlying proteomic changes due to low Cu are very different from those elicited by low Fe. Low Cu induces a significant four-fold reduction in the Cu-containing photosynthetic electron carrier plastocyanin. The decrease in plastocyanin causes a bottleneck within the photosynthetic electron transport chain (ETC), ultimately leading to substantial stoichiometric changes. Namely, 2-fold reduction in both cytochrome b6f complex (cytb6f) and photosystem II (PSII), no change in the Fe-rich PSI and a 40- and 2-fold increase in proteins potentially involved in detoxification of reactive oxygen species (ferredoxin and ferredoxin:NADP+ reductase, respectively). Furthermore, we identify 48 light harvesting complex (LHC) proteins in the publicly available genome of T. oceanica and provide proteomic evidence for 33 of these. The change in the LHC composition within the antennae in response to low Cu underlines the shift from photochemistry to photoprotection in T. oceanica (CCMP1003). Interestingly, we also reveal very significant intra-specific strain differences. Another strain of T. oceanica (CCMP 1005) requires significantly higher Cu concentrations to sustain both its maximal and minimal growth rate compared to CCMP 1003. Under low Cu, CCMP 1005 decreases its growth rate, cell size, Chla and total protein per cell. We argue that the reduction in protein per cell is the main strategy to decrease its cellular Cu requirement, as none of the other parameters tested are affected. Differences between the two strains, as well as differences between the well documented responses to low Fe and those presented here in response to low Cu are discussed.
- Subjects :
- Proteomics
0301 basic medicine
Proteome
Photosystem II
lcsh:Medicine
Marine and Aquatic Sciences
Plant Science
Biochemistry
Light-harvesting complex
Database and Informatics Methods
Tandem Mass Spectrometry
Oceans
Carbon Radioisotopes
Photosynthesis
lcsh:Science
Plastocyanin
Phylogeny
Ferredoxin
Plant Proteins
Expressed Sequence Tags
Multidisciplinary
Plant Biochemistry
Proteomic Databases
Chemistry
Cytochrome b6f complex
Genomics
Plants
Plankton
Genomic Databases
Physical Sciences
Sequence Analysis
Research Article
Chemical Elements
Algae
Bioinformatics
Sequence Databases
Marine Biology
Bioenergetics
Research and Analysis Methods
Fluorescence
Electron Transport
03 medical and health sciences
Botany
Genetics
Animals
Amino Acid Sequence
14. Life underwater
Diatoms
Sequence Homology, Amino Acid
Electron Transport Chain
lcsh:R
Organisms
Biology and Life Sciences
Computational Biology
Bodies of Water
Genome Analysis
Invertebrates
Electron transport chain
Oxygen
Biological Databases
030104 developmental biology
Photoprotection
Phytoplankton
Earth Sciences
Biophysics
lcsh:Q
Transcriptome
Copper
Chromatography, Liquid
Subjects
Details
- ISSN :
- 19326203
- Volume :
- 12
- Database :
- OpenAIRE
- Journal :
- PLOS ONE
- Accession number :
- edsair.doi.dedup.....b84919d5847b400a0580d9ba8c3f50b6
- Full Text :
- https://doi.org/10.1371/journal.pone.0181753