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Metabolism and Enzymology

Transfer of C₄ Photosynthetic Characters through Hybridization of Flaveria Species ¹

Department of Biochemistry, University of Georgia, Athens, Georgia 30602, Department of Agronomy, University of Georgia, Athens, Georgia 30602, U.S. Department of Agriculture, Agricultural Research Service, Russell Research Center, Athens, Georgia 30613

Transfer of C₄ photosynthetic traits was studied through hybridization of Flaveria trinervia (Spreng.) Mohr (C₄) and Flaveria brownii A.M. Powell (C₄-like) with Flaveria linearis Lag. (C₃-C₄) and the C₃ species Flaveria pringlei Gandoger (C₃). Fertility was low, based on irregular chromosome pairing and low pollen stainability, except in F. brownii x F. linearis which had bivalent pairing and 76% stainable pollen. Hybrids had apparent photosynthesis values of 71 to 148% of the midparental means, while the CO₂ compensation concentration was similar to the C₄ or C₄-like parent, except in hybrids having the C₃ species F. pringlei as a parent. Inhibition of apparent photosynthesis by O₂, and phosphoenolpyruvate carboxylase and NADP-malic enzyme activities and subunit levels in the hybrids were closer to the C₃ or C₃-C₄ parent. The species F. brownii and F. trinervia were equal in their capacity to transfer reduced O₂ inhibition of AP and CO₂ compensation concentration values to hybrids with F. linearis (C₃-C₄), although hybrids with F. trinervia had higher PEPC activity. The O₂ inhibition of AP was correlated with the logarithm of activities of phosphoenolpyruvate carboxylase (r = –0.95) and NADP-malic enzyme (r = –0.87). These results confirm that C₄ traits can be transferred by hybridization of C₃-C₄ and C₄ or C₄-like species, with a higher degree of C₄ photosynthesis than exists in C₃-C₄ species, and at least in F. brownii x F. linearis, fertile progeny are obtained.

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