Lee Byung Ha, Jeon Jae Og, Lee Myeong Min, Kim Jeong Hoe
a Department of Biology ; Kyungpook National University ; Daegu , Korea.
Plant Signal Behav. 2015;10(2):e988071. doi: 10.4161/15592324.2014.988071.
The Arabidopsis thaliana GROWTH-REGULATING FACTOR (GRF) gene family comprises 9 members and encodes a class of transcription factors. We previously demonstrated that GRF genes played an essential role in formation of the boundary region between cotyledons, since their loss-of-function mutants developed fused cotyledons. Our present study shows that the grf mutants display fused floral organs as well. Such fusion phenotypes of embryonic and post-embryonic floral organs are highly reminiscent of the cup-shaped cotyledon (cuc) mutants. In order to test a genetic interaction between GRFs and CUCs, we constructed cuc1 grf1/2/3, cuc2 grf1/2/3, and cuc3 grf1/2/3 quadruple mutants, and found that the mutants showed dramatic increases in cotyledon fusion as well as floral organ fusion. The results suggest that the signaling pathway of GRFs may be genetically associated with that of CUCs in the organ separation process.
拟南芥生长调控因子(GRF)基因家族由9个成员组成,编码一类转录因子。我们之前证明,GRF基因在子叶间边界区域的形成中起关键作用,因为其功能缺失突变体发育出融合的子叶。我们目前的研究表明,grf突变体也表现出花器官融合。胚胎期和胚后期花器官的这种融合表型与杯状子叶(cuc)突变体非常相似。为了测试GRF和CUC之间的遗传相互作用,我们构建了cuc1 grf1/2/3、cuc2 grf1/2/3和cuc3 grf1/2/3四重突变体,发现这些突变体的子叶融合以及花器官融合显著增加。结果表明,GRF的信号通路在器官分离过程中可能与CUC的信号通路存在遗传关联。