[4] Zhang X,Ju H W,Huang P,et al. Functional identification of At-SKIP as a regulator of the cell cycle signaling pathway in Arabidopsisthaliana[J]. Journal of Plant Biology,2013,55( 6) : 481-488.
[5] Chen Y,Zhang L,Jones K A. SKIP counteracts p53-mediated apoptosisvia selective regulation of p21Cip1 mRNA splicing[J].Genes & Development,2011,25: 701-716. .
[6] Zhao L,Luo Q,Yang C,et al. A RAV-like transcription factorcontrols photosynthesis and senescence in soybean[J]. Planta,2008,227( 6) : 1389-1399.
[7] 赵琳,罗秋兰,杨春亮,等. 大豆在暗诱导条件下差异表达cDNA 文库的构建及分析[J]. 大豆科学,2008,26( 2) : 134-139. ( Zhao L,Luo Q L,Yang C L,et al. Construction and analysisof differentially expressed cdna library from soybeans inducedby darkness[J]. Soybean Science,2008,26( 2) : 134-139. )
[8] Zhao L,Wang Z,Lu Q, et al. Overexpression of a GmGBP1 orthologof soybean enhances the responses to flowering,stem elongationand heat tolerance in transgenic tobaccos[J]. Plant Molecular Biology,2013,82( 3) : 279-299.
[9] Lim G H,Zhang X,Chung M S,et al. A putative novel transcriptionfactor,AtSKIP,is involved in abscisic acid signalling andconfers salt and osmotic tolerance in Arabidopsis[J]. New Phytologist,2010,185( 1) : 103-113.
[10] Wang X,Wu F,Xie Q,et al. SKIP is a component of the spliceosomelinking alternative splicing and the circadian clock in Arabidopsis[J]. The Plant Cell Online,2012,24( 8) : 3278-3295.
[11] 张彦威. 大豆GmGBP1 基因参与光周期开花途径和逆境反应的功能分析[D]. 哈尔滨: 东北农业大学. 2013. ( Zhang Y W.Functional analysis of soybean GmGBP1 gene involved in photoperiodicflowering pathway and stress respones[D]. Harbin: NortheastAgricultural University,2013. )
[12] Zhang Y W,Zhao L,Li H Y,et al. GmGBP1,a homolog of humanski interacting protein in soybean,regulates flowering andstress tolerance in Arabidopsis[J]. BMC Plant Biology,2013,13:21.