TY - JOUR
T1 - In vivo bicarbonate requirement for water oxidation by Photosystem II in the hypercarbonate-requiring cyanobacterium Arthrospira maxima
AU - Carrieri, Damian
AU - Ananyev, Gennady
AU - Brown, Tyler
AU - Dismukes, G. Charles
N1 - Funding Information:
This work was supported by the Human Frontiers Science Program (RGP 29/2002) the National Institute of Health (GM-39932) the National Science Foundation (DBI-0138012) and the Air Force Office of Scientific Research (MURI Grant FA9550-05-1-0365) and is gratefully acknowledged. The authors thank Derrick Kolling for insightful advice and acknowledge Ed Stiefel’s other Princeton graduate students Madeli Castruita, Melissa Cody, and Kelsey McNeely and research undergraduates Mariamawit Tamerat, Joey Contruvo, Abhinav Jha, and Eddie Burgess.
PY - 2007/11
Y1 - 2007/11
N2 - While the presence of inorganic carbon in the form of (bi)carbonate has been known to be important for activity of Photosystem II (PSII), the vast majority of studies on this "bicarbonate effect" have been limited to in vitro studies of isolated thylakoid membranes and PSII complexes. Here we report an in vivo requirement for bicarbonate that is both reversible and selective for this anion for efficient water oxidation activity in the hypercarbonate-requiring cyanobacterium Arthrospira (Spirulina) maxima, originally isolated from highly alkaline soda lakes. Using a non-invasive internal probe of PSII charge separation (variable fluorescence), primary electron acceptor (QA- / QA) reoxidation rate, and flash-induced oxygen yield, we report the largest reversible bicarbonate effect on PSII activity ever observed, which is due to the requirement for bicarbonate at the water-oxidizing complex. Temporal separation of this donor side bicarbonate requirement from a smaller effect of bicarbonate on the QA- reoxidation rate was observed. We expect the atypical way in which Arthrospira manages intracellular pH, sodium, and inorganic carbon concentrations relative to other cyanobacteria is responsible for this strong in vivo bicarbonate requirement.
AB - While the presence of inorganic carbon in the form of (bi)carbonate has been known to be important for activity of Photosystem II (PSII), the vast majority of studies on this "bicarbonate effect" have been limited to in vitro studies of isolated thylakoid membranes and PSII complexes. Here we report an in vivo requirement for bicarbonate that is both reversible and selective for this anion for efficient water oxidation activity in the hypercarbonate-requiring cyanobacterium Arthrospira (Spirulina) maxima, originally isolated from highly alkaline soda lakes. Using a non-invasive internal probe of PSII charge separation (variable fluorescence), primary electron acceptor (QA- / QA) reoxidation rate, and flash-induced oxygen yield, we report the largest reversible bicarbonate effect on PSII activity ever observed, which is due to the requirement for bicarbonate at the water-oxidizing complex. Temporal separation of this donor side bicarbonate requirement from a smaller effect of bicarbonate on the QA- reoxidation rate was observed. We expect the atypical way in which Arthrospira manages intracellular pH, sodium, and inorganic carbon concentrations relative to other cyanobacteria is responsible for this strong in vivo bicarbonate requirement.
KW - Arthrospira (Spirulina)
KW - Bicarbonate
KW - Cyanobacteria
KW - Oxygenic photosynthesis
KW - Photosystem II
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U2 - 10.1016/j.jinorgbio.2007.06.039
DO - 10.1016/j.jinorgbio.2007.06.039
M3 - Article
C2 - 17707911
AN - SCOPUS:35348824314
VL - 101
SP - 1865
EP - 1874
JO - Journal of Inorganic Biochemistry
JF - Journal of Inorganic Biochemistry
SN - 0162-0134
IS - 11-12
ER -