Biochemical approaches to C4 photosynthesis evolution studies: the case of malic enzymes decarboxylases View Full Text


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Article Info

DATE

2013-07-07

AUTHORS

Mariana Saigo, Marcos A. Tronconi, Mariel C. Gerrard Wheeler, Clarisa E. Alvarez, María F. Drincovich, Carlos S. Andreo

ABSTRACT

C4 photosynthesis enables the capture of atmospheric CO2 and its concentration at the site of RuBisCO, thus counteracting the negative effects of low atmospheric levels of CO2 and high atmospheric levels of O2 (21 %) on photosynthesis. The evolution of this complex syndrome was a multistep process. It did not occur by simply recruiting pre-exiting components of the pathway from C3 ancestors which were already optimized for C4 function. Rather it involved modifications in the kinetics and regulatory properties of pre-existing isoforms of non-photosynthetic enzymes in C3 plants. Thus, biochemical studies aimed at elucidating the functional adaptations of these enzymes are central to the development of an integrative view of the C4 mechanism. In the present review, the most important biochemical approaches that we currently use to understand the evolution of the C4 isoforms of malic enzyme are summarized. It is expected that this information will help in the rational design of the best decarboxylation processes to provide CO2 for RuBisCO in engineering C3 species to perform C4 photosynthesis. More... »

PAGES

177-187

References to SciGraph publications

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  • 2008-01-30. Protein production and purification in NATURE METHODS
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  • 1970-08. Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 in NATURE
  • 2012-12-16. Fumarate and cytosolic pH as modulators of the synthesis or consumption of C4 organic acids through NADP-malic enzyme in Arabidopsis thaliana in PLANT MOLECULAR BIOLOGY
  • 2008-02-21. Arabidopsis thaliana NADP-malic enzyme isoforms: high degree of identity but clearly distinct properties in PLANT MOLECULAR BIOLOGY
  • 2009-06-23. Comparative genomic analysis of C4 photosynthetic pathway evolution in grasses in GENOME BIOLOGY
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    http://scigraph.springernature.com/pub.10.1007/s11120-013-9879-1

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    DIMENSIONS

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    PUBMED

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    34 schema:description C4 photosynthesis enables the capture of atmospheric CO2 and its concentration at the site of RuBisCO, thus counteracting the negative effects of low atmospheric levels of CO2 and high atmospheric levels of O2 (21 %) on photosynthesis. The evolution of this complex syndrome was a multistep process. It did not occur by simply recruiting pre-exiting components of the pathway from C3 ancestors which were already optimized for C4 function. Rather it involved modifications in the kinetics and regulatory properties of pre-existing isoforms of non-photosynthetic enzymes in C3 plants. Thus, biochemical studies aimed at elucidating the functional adaptations of these enzymes are central to the development of an integrative view of the C4 mechanism. In the present review, the most important biochemical approaches that we currently use to understand the evolution of the C4 isoforms of malic enzyme are summarized. It is expected that this information will help in the rational design of the best decarboxylation processes to provide CO2 for RuBisCO in engineering C3 species to perform C4 photosynthesis.
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