W25 was a gamma-irradiation induced albinorice mutant line, which only expressed in thespecial temperatures (see figure). At 30 Cand 35 C, the seedling leaves of W25 showedgreenish or normal green, but they exhibiteda...W25 was a gamma-irradiation induced albinorice mutant line, which only expressed in thespecial temperatures (see figure). At 30 Cand 35 C, the seedling leaves of W25 showedgreenish or normal green, but they exhibitedalbino at 25℃, which could be greenish afterthe fourth leaf extension and recovered to be展开更多
Strigolactones (SLs) are a class of newly discovered plant hormones and play diverse roles in plant growth and devel- opment. Recently, it has been demonstrated that SLs nega- tively regulate shoot branching by inhi...Strigolactones (SLs) are a class of newly discovered plant hormones and play diverse roles in plant growth and devel- opment. Recently, it has been demonstrated that SLs nega- tively regulate shoot branching by inhibiting bud outgrowth in plants (Umehara et al., 2008). Several genes involved in SL biosynthesis or signaling had been identified in both monocots and dicots. Loss-of-function mutants corresponding to these genes exhibit enhanced shoot branching phenotype (Beveridge and Kyozuka, 2010).展开更多
文摘W25 was a gamma-irradiation induced albinorice mutant line, which only expressed in thespecial temperatures (see figure). At 30 Cand 35 C, the seedling leaves of W25 showedgreenish or normal green, but they exhibitedalbino at 25℃, which could be greenish afterthe fourth leaf extension and recovered to be
基金supported by grants from the National Basic Research Program of China(No.2012CB114300 to X.W.)the National Natural Science Foundation of China (Nos.91117005 and 31271300 to X.W.,31271684 to S.S.)+1 种基金the Program of Shanghai Subject Chief Scientist(No. 11XD1400700 to X.W.)the Key Project of Shanghai Science and Technology Committee(No.10JC1400800 to X.W.)
文摘Strigolactones (SLs) are a class of newly discovered plant hormones and play diverse roles in plant growth and devel- opment. Recently, it has been demonstrated that SLs nega- tively regulate shoot branching by inhibiting bud outgrowth in plants (Umehara et al., 2008). Several genes involved in SL biosynthesis or signaling had been identified in both monocots and dicots. Loss-of-function mutants corresponding to these genes exhibit enhanced shoot branching phenotype (Beveridge and Kyozuka, 2010).