Transfer of C 4 Photosynthetic Characters through Hybridization of Flaveria Species

Abstract

Transfer of C(4) photosynthetic traits was studied through hybridization of Flaveria trinervia (Spreng.) Mohr (C(4)) and Flaveria brownii A.M. Powell (C(4)-like) with Flaveria linearis Lag. (C(3)-C(4)) and the C(3) species Flaveria pringlei Gandoger (C(3)). 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 CO(2) compensation concentration was similar to the C(4) or C(4)-like parent, except in hybrids having the C(3) species F. pringlei as a parent. Inhibition of apparent photosynthesis by O(2), and phosphoenolpyruvate carboxylase and NADP-malic enzyme activities and subunit levels in the hybrids were closer to the C(3) or C(3)-C(4) parent. The species F. brownii and F. trinervia were equal in their capacity to transfer reduced O(2) inhibition of AP and CO(2) compensation concentration values to hybrids with F. linearis (C(3)-C(4)), although hybrids with F. trinervia had higher PEPC activity. The O(2) 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 C(4) traits can be transferred by hybridization of C(3)-C(4) and C(4) or C(4)-like species, with a higher degree of C(4) photosynthesis than exists in C(3)-C(4) species, and at least in F. brownii x F. linearis, fertile progeny are obtained.