Transition from C3 to proto-Kranz to C3–C4 intermediate type in the genus Chenopodium (Chenopodiaceae)
2019
Yorimitsu, Yuki | Kadosono, Aya | Hatakeyama, Yuto | Yabiku, Takayuki | Ueno, Osamu
The Chenopodiaceae is one of the families including C₄ species among eudicots. In this family, the genus Chenopodium is considered to include only C₃ species. However, we report here a transition from C₃ photosynthesis to proto-Kranz to C₃–C₄ intermediate type in Chenopodium. We investigated leaf anatomical and photosynthetic traits of 15 species, of which 8 species showed non-Kranz anatomy and a CO₂ compensation point (Γ) typical of C₃ plants. However, 5 species showed proto-Kranz anatomy and a C₃-like Γ, whereas C. strictum showed leaf anatomy and a Γ typical of C₃–C₄ intermediates. Chenopodium album accessions examined included both proto-Kranz and C₃–C₄ intermediate types, depending on locality. Glycine decarboxylase, a key photorespiratory enzyme that is involved in the decarboxylation of glycine, was located predominantly in the mesophyll (M) cells of C₃ species, in both M and bundle-sheath (BS) cells in proto-Kranz species, and exclusively in BS cells in C₃–C₄ intermediate species. The M/BS tissue area ratio, number of chloroplasts and mitochondria per BS cell, distribution of these organelles to the centripetal region of BS cells, the degree of inner positioning (vacuolar side of chloroplasts) of mitochondria in M cells, and the size of BS mitochondria also changed with the change in glycine decarboxylase localization. All Chenopodium species examined were C₃-like regarding activities and amounts of C₃ and C₄ photosynthetic enzymes and δ¹³C values, suggesting that these species perform photosynthesis without contribution of the C₄ cycle. This study demonstrates that Chenopodium is not a C₃ genus and is valuable for studying evolution of C₃–C₄ intermediates.
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