TY - JOUR
T1 - Introgression of two chromosome regions for leaf photosynthesis from an indica rice into the genetic background of a japonica rice
AU - Adachi, Shunsuke
AU - Baptista, Leticia Z.
AU - Sueyoshi, Tomohiro
AU - Murata, Kazumasa
AU - Yamamoto, Toshio
AU - Ebitani, Takeshi
AU - Ookawa, Taiichiro
AU - Hirasawa, Tadashi
N1 - Funding Information:
This work was supported in part by Grants-in-Aid from the Ministry of Education, Culture, Sports, Science and Technology of Japan (nos 23658014 and 25252007) and from the Ministry of Agriculture, Forestry and Fisheries of Japan (Genomics for Agricultural Innovation, QTL-1002).
PY - 2014/5
Y1 - 2014/5
N2 - Increases in rates of individual leaf photosynthesis (Pn) are critical for future increases of rice yields. A previous study, using introgression lines derived from a cross between indica cultivar Habataki, with one of the highest recorded values of Pn, and the Japanese elite cultivar Koshihikari, identified four QTLs (qCAR4, qCAR5, qCAR8, and qCAR11) that affect Pn. The present study examined the combined effect of qCAR4 and qCAR8 on Pn in the genetic background of Koshihikari. The pyramided near-isogenic line NIL(qCAR4+qCAR8) showed higher Pn than both NIL(qCAR4) and NIL(qCAR8), equivalent to that of Habataki despite being due to only two out of the four QTLs. The high Pn of NIL(qCAR4+qCAR8) may be attributable to the high leaf nitrogen content, which may have been inherited from NIL(qCAR4), to the large hydraulic conductance due to the large root surface area from NIL(qCAR4), and to the high hydraulic conductivity from NIL(qCAR8). It might be also attributable to high mesophyll conductance, which may have been inherited from NIL(qCAR4). The induction of mesophyll conductance and the high leaf nitrogen content and high hydraulic conductivity could not be explained in isolation from the Koshihikari background. These results suggest that QTL pyramiding is a useful approach in rice breeding aimed at increasing Pn.
AB - Increases in rates of individual leaf photosynthesis (Pn) are critical for future increases of rice yields. A previous study, using introgression lines derived from a cross between indica cultivar Habataki, with one of the highest recorded values of Pn, and the Japanese elite cultivar Koshihikari, identified four QTLs (qCAR4, qCAR5, qCAR8, and qCAR11) that affect Pn. The present study examined the combined effect of qCAR4 and qCAR8 on Pn in the genetic background of Koshihikari. The pyramided near-isogenic line NIL(qCAR4+qCAR8) showed higher Pn than both NIL(qCAR4) and NIL(qCAR8), equivalent to that of Habataki despite being due to only two out of the four QTLs. The high Pn of NIL(qCAR4+qCAR8) may be attributable to the high leaf nitrogen content, which may have been inherited from NIL(qCAR4), to the large hydraulic conductance due to the large root surface area from NIL(qCAR4), and to the high hydraulic conductivity from NIL(qCAR8). It might be also attributable to high mesophyll conductance, which may have been inherited from NIL(qCAR4). The induction of mesophyll conductance and the high leaf nitrogen content and high hydraulic conductivity could not be explained in isolation from the Koshihikari background. These results suggest that QTL pyramiding is a useful approach in rice breeding aimed at increasing Pn.
KW - Hydraulic conductance
KW - Oryza sativa
KW - leaf nitrogen content
KW - photosynthesis
KW - quantitative trait locus
KW - stomatal conductance
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U2 - 10.1093/jxb/eru047
DO - 10.1093/jxb/eru047
M3 - Article
C2 - 24591053
AN - SCOPUS:84899001971
SN - 0022-0957
VL - 65
SP - 2049
EP - 2056
JO - Journal of experimental botany
JF - Journal of experimental botany
IS - 8
ER -