The role of external carbonic anhydrase in photosynthesis during growth of the marine diatom Chaetoceros muelleri

Carbon dioxide concentrating mechanisms (CCMs) act to improve the supply of CO2 at the active site of ribulose‐1,5‐bisphosphate carboxylase/oxygenase. There is substantial evidence that in some microalgal species CCMs involve an external carbonic anhydrase (CAext) and that CAext activity is induced...

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Bibliographic Details
Published in:Journal of phycology 2017-12, Vol.53 (6), p.1159-1170
Main Authors: Smith‐Harding, Tamsyne Jade, Beardall, John, Mitchell, James Gordon, Kroth, P.
Format: Article
Language:English
Subjects:
Algal Proteins - metabolism
Blooms
Capacity
Carbon Dioxide
carbon dioxide‐concentrating mechanisms
Carbonic anhydrase
Carbonic anhydrases
Carbonic Anhydrases - metabolism
Chaetoceros muelleri
Chlorophyll
Chlorophylls
Diatoms
Diatoms - enzymology
Diatoms - growth & development
Electron transport
external carbonic anhydrase
Growth
Inorganic carbon
Microalgae - enzymology
Microalgae - growth & development
Oxygenase
pH effects
Photosynthesis
photosynthetic O2 evolution
Photosystem II
Phytoplankton
Ribulose-1,5-bisphosphate
Sampling
Saturation
Yields
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Summary:Carbon dioxide concentrating mechanisms (CCMs) act to improve the supply of CO2 at the active site of ribulose‐1,5‐bisphosphate carboxylase/oxygenase. There is substantial evidence that in some microalgal species CCMs involve an external carbonic anhydrase (CAext) and that CAext activity is induced by low CO2 concentrations in the growth medium. However, much of this work has been conducted on cells adapted to air‐equilibrium concentrations of CO2, rather than to changing CO2 conditions caused by growing microalgal populations. We investigated the role of CAext in inorganic carbon (Ci) acquisition and photosynthesis at three sampling points during the growth cycle of the cosmopolitan marine diatom Chaetoceros muelleri. We observed that CAext activity increased with decreasing Ci, particularly CO2, concentration, supporting the idea that CAext is modulated by external CO2 concentration. Additionally, we found that the contribution of CAext activity to carbon acquisition for photosynthesis varies over time, increasing between the first and second sampling points before decreasing at the last sampling point, where external pH was high. Lastly, decreases in maximum quantum yield of photosystem II (Fv/Fm), chlorophyll, maximum relative electron transport rate, light harvesting efficiency (α) and maximum rates of Ci‐ saturated photosynthesis (Vmax) were observed over time. Despite this decrease in photosynthetic capacity an up‐regulation of CCM activity, indicated by a decreasing half‐saturation constant for CO2 (K0.5CO2), occurred over time. The flexibility of the CCM during the course of growth in C. muelleri may contribute to the reported dominance and persistence of this species in phytoplankton blooms.
ISSN:0022-3646
1529-8817
DOI:10.1111/jpy.12572