molecular and biochemical analyses of CO2-concentrating mechanisms in cyanobacteria and microalgae

. The supply of dissolved inorganic carbon for photosynthesis in the aquatic environment is much more variable than that experienced by terrestrial plants. In response to this variability, cyanobacteria and many species of microalgae acclimate to rapid changes in the availability of dissolved inorga...

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Veröffentlicht in:	Plant, cell and environment cell and environment, 1991-10, Vol.14 (8), p.861-867
1. Verfasser:	Coleman, J.R
Format:	Artikel
Sprache:	eng
Schlagworte:	acclimation algae algae and seaweeds Bacteriology Biological and medical sciences carbon dioxide carbonate dehydratase carbonic anhydrase carboxysome CO2‐concentrating mechanisms cyanobacteria enzyme activity Fundamental and applied biological sciences. Psychology literature reviews Metabolism. Enzymes microalgae Microbiology mutants organelles protein synthesis proteins pyrenoid transport processes
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description	. The supply of dissolved inorganic carbon for photosynthesis in the aquatic environment is much more variable than that experienced by terrestrial plants. In response to this variability, cyanobacteria and many species of microalgae acclimate to rapid changes in the availability of dissolved inorganic carbon by the induction of high affinity/high capacity CO2‐concentrating systems (CCMs). Biochemical and molecular analyses of the acclimation response have recently identified several components that are required for efficient operation of the CCMs and CO2 assimilation. This has been accomplished using in vivo labelling studies, and characterization of high inorganic carbon (Ci) requiring cyanobacterial and algal mutants. The identification and regulation of expression of polypeptides synthesized in response to limiting Ci concentrations, and the proposed role of the carboxysome and the pyrenoid in the functioning of the CCMs are examined.
doi_str_mv	10.1111/j.1365-3040.1991.tb01449.x
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The supply of dissolved inorganic carbon for photosynthesis in the aquatic environment is much more variable than that experienced by terrestrial plants. In response to this variability, cyanobacteria and many species of microalgae acclimate to rapid changes in the availability of dissolved inorganic carbon by the induction of high affinity/high capacity CO2‐concentrating systems (CCMs). Biochemical and molecular analyses of the acclimation response have recently identified several components that are required for efficient operation of the CCMs and CO2 assimilation. This has been accomplished using in vivo labelling studies, and characterization of high inorganic carbon (Ci) requiring cyanobacterial and algal mutants. The identification and regulation of expression of polypeptides synthesized in response to limiting Ci concentrations, and the proposed role of the carboxysome and the pyrenoid in the functioning of the CCMs are examined.</description><identifier>ISSN: 0140-7791</identifier><identifier>EISSN: 1365-3040</identifier><identifier>DOI: 10.1111/j.1365-3040.1991.tb01449.x</identifier><identifier>CODEN: PLCEDV</identifier><language>eng</language><publisher>Oxford, UK: Blackwell Publishing Ltd</publisher><subject>acclimation ; algae ; algae and seaweeds ; Bacteriology ; Biological and medical sciences ; carbon dioxide ; carbonate dehydratase ; carbonic anhydrase ; carboxysome ; CO2‐concentrating mechanisms ; cyanobacteria ; enzyme activity ; Fundamental and applied biological sciences. Psychology ; literature reviews ; Metabolism. 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The supply of dissolved inorganic carbon for photosynthesis in the aquatic environment is much more variable than that experienced by terrestrial plants. In response to this variability, cyanobacteria and many species of microalgae acclimate to rapid changes in the availability of dissolved inorganic carbon by the induction of high affinity/high capacity CO2‐concentrating systems (CCMs). Biochemical and molecular analyses of the acclimation response have recently identified several components that are required for efficient operation of the CCMs and CO2 assimilation. This has been accomplished using in vivo labelling studies, and characterization of high inorganic carbon (Ci) requiring cyanobacterial and algal mutants. The identification and regulation of expression of polypeptides synthesized in response to limiting Ci concentrations, and the proposed role of the carboxysome and the pyrenoid in the functioning of the CCMs are examined.</description><subject>acclimation</subject><subject>algae</subject><subject>algae and seaweeds</subject><subject>Bacteriology</subject><subject>Biological and medical sciences</subject><subject>carbon dioxide</subject><subject>carbonate dehydratase</subject><subject>carbonic anhydrase</subject><subject>carboxysome</subject><subject>CO2‐concentrating mechanisms</subject><subject>cyanobacteria</subject><subject>enzyme activity</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>literature reviews</subject><subject>Metabolism. 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The supply of dissolved inorganic carbon for photosynthesis in the aquatic environment is much more variable than that experienced by terrestrial plants. In response to this variability, cyanobacteria and many species of microalgae acclimate to rapid changes in the availability of dissolved inorganic carbon by the induction of high affinity/high capacity CO2‐concentrating systems (CCMs). Biochemical and molecular analyses of the acclimation response have recently identified several components that are required for efficient operation of the CCMs and CO2 assimilation. This has been accomplished using in vivo labelling studies, and characterization of high inorganic carbon (Ci) requiring cyanobacterial and algal mutants. 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source	Wiley Online Library Journals Frontfile Complete
subjects	acclimation algae algae and seaweeds Bacteriology Biological and medical sciences carbon dioxide carbonate dehydratase carbonic anhydrase carboxysome CO2‐concentrating mechanisms cyanobacteria enzyme activity Fundamental and applied biological sciences. Psychology literature reviews Metabolism. Enzymes microalgae Microbiology mutants organelles protein synthesis proteins pyrenoid transport processes
title	molecular and biochemical analyses of CO2-concentrating mechanisms in cyanobacteria and microalgae
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