| Literature DB >> 32719709 |
Nicholas R Moody1, Pascal-Antoine Christin2, James D Reid1.
Abstract
C4 photosynthesis results from a set of anatomical features and biochemical components that act together to concentrate CO2 within the leaf and boost productivity. This complex trait evolved independently many times, resulting in various realizations of the phenotype, but in all C4 plants the primary fixation of atmospheric carbon is catalyzed by phosphoenolpyruvate carboxylase. Comparisons of C4 and non-C4 PEPC from a few closely related species suggested that the enzyme was modified to meet the demands of the C4 cycle. However, very few C4 groups have been investigated, hampering general conclusions. To test the hypothesis that distant C4 lineages underwent convergent biochemical changes, we compare the kinetic variation between C4 and non-C4 PEPC from a previously assessed young lineage (Flaveria, Asteraceae) with those from an older lineage found within the distantly related grass family (Panicum). Despite the evolutionary distance, the kinetic changes between the non-C4 and C4 PEPC are qualitatively similar, with a decrease in sensitivity for inhibitors, an increased specificity (k cat/K m) for bicarbonate, and a decreased specificity (k cat/K m) for PEP. The differences are more pronounced in the older lineage Panicum, which might indicate that optimization of PEPC for the C4 context increases with evolutionary time.Entities:
Keywords: C4 photosynthesis; carbon fixation; enzyme evolution; feedback inhibition; kinetics; phosphoenolpyruvate carboxylase
Year: 2020 PMID: 32719709 PMCID: PMC7350407 DOI: 10.3389/fpls.2020.01014
Source DB: PubMed Journal: Front Plant Sci ISSN: 1664-462X Impact factor: 5.753