PRIMARY STRUCTURE OF THE PHOTOSYNTHETIC PYRUVATE ORTHOPHOSPHATE DIKINASE OF THE C-3 PLANT FLAVERIA-PRINGLEI AND EXPRESSION ANALYSIS OF PYRUVATE ORTHOPHOSPHATE DIKINASE SEQUENCES IN C-3, C-3-C-4 AND C-4 FLAVERIA SPECIES
E. Rosche et al., PRIMARY STRUCTURE OF THE PHOTOSYNTHETIC PYRUVATE ORTHOPHOSPHATE DIKINASE OF THE C-3 PLANT FLAVERIA-PRINGLEI AND EXPRESSION ANALYSIS OF PYRUVATE ORTHOPHOSPHATE DIKINASE SEQUENCES IN C-3, C-3-C-4 AND C-4 FLAVERIA SPECIES, Plant molecular biology, 26(2), 1994, pp. 763-769
We have isolated full-size cDNA sequences encoding the photosynthetic
isoform of pyruvate orthophosphate dikinase (PPDK) of the C-3 plant Fl
averia pringlei. The encoded protein shares 96% identical amino acid r
esidues with the C-4 isoform of PPDK in the C-4 species F. trinervia.
The differing amino acid residues are evenly distributed along the pol
ypeptide chain. Genomic Southern analysis of photosynthetic PPDK seque
nces in F. pringlei (C-3), F. chloraefolia (C-3-C-4), F. linearis (C3-
C4), F. floridana (C3-C4), F. brownii (C4-like) and F. trinervia (C4)
reveals a simple hybridization pattern which is suggestive of a single
gene. Northern hybridization experiments show that the abundance of P
PDK transcripts in leaves correlates with the degree of C4 characteris
tics expressed in the various photosynthetic types analysed. This find
ing demonstrates that the increase in expression levels must have play
ed a crucial role in evolving the C4-PPDK gene in the genus Flaveria.