[1]解蕊. 一种潜在的植物蛋白资源——菜籽蛋白的开发[J]. 农产品加工,2003(1):26-27.
[2]王汉中. 发展油菜生物柴油的潜力、问题与对策[J]. 中国油料作物学报,2005,27(2):74-76.
[3]Lai C P,Huang L M,Chen L O,et al. Genome-wide analysis of GDSL-type esterases/lipases in Arabidopsis[J]. Plant Molecular Biology,2017,95(1/2):181-197.
[4]Chepyshko H,Lai C P,Huang L M,et al. Multifunctionality and diversity of GDSL esterase/lipase gene family in rice (Oryza sativa L. japonica) genome:new insights from bioinformatics analysis[J]. BMC Genomics,2012,13(1):309.
[5]Volokita M,Rosilio-Brami T,Rivkin N,et al. Combining comparative sequence and genomic data to ascertain phylogenetic relationships and explore the evolution of the large GDSL-lipase family in land plants[J]. Molecular Biology and Evolution,2011,28(1):551-565.
[6]Akoh C C,Lee G C,Liaw Y C,et al. GDSL family of serine esterases/lipases[J]. Progress in Lipid Research,2004,43(6):534-552.
[7]Ji R,Wang H,Xin X,et al. BrEXL6,a GDSL lipase gene of Brassica rapa,functions in pollen development[J]. Biologia Plantarum,2017,61(4):685-692.
[8]Ma R,Yuan H,An J,et al. A Gossypium hirsutum GDSL lipase/hydrolase gene (GhGLIP) appears to be involved in promoting seed growth in Arabidopsis[J]. PLoS One,2018,13(4):e0195556.
[9]Kwon S J,Jin H C,Lee S,et al. GDSL lipase-like 1 regulates systemic resistance associated with ethylene signaling in Arabidopsis[J]. The Plant Journal,2009,58(2):235-245.
[10]Zhang Y J,Bai B,Lee M,et al. Cloning and characterization of EgGDSL,a gene associated with oil content in oil palm[J]. Scientific Reports,2018,8(1):11406.
[11]Ling H,Zuo K,Zhao J,et al. Isolation and characterization of a homologous to lipase gene from Brassica napus[J]. Russian Journal of Plant Physiology,2006,53(3):366-372.
[12]Takahashi K,Shimada T,Kondo M,et al. Ectopic expression of an esterase,which is a candidate for the unidentified plant cutinase,causes cuticular defects in Arabidopsis thaliana[J]. Plant & Cell Physiology,2010,51(1):123-131.
[13]Kim H G,Kwon S J,Jang Y J,et al. GDSL lipase 1 regulates ethylene signaling and ethylene-associated systemic immunity in Arabidopsis[J]. FEBS Letters,2014,588(9):1652-1658.
[14]Ding L N,Guo X J,Li M,et al. Improving seed germination and oil contents by regulating the GDSL transcriptional level in Brassica napus[J]. Plant Cell Reports,2019,38(2):243-253.
[15]Chen M X,Du X,Zhu Y,et al. Seed Fatty Acid Reducer acts downstream of gibberellin signalling pathway to lower seed fatty acid storage in Arabidopsis[J]. Plant,Cell & Environment,2012,35(12):2155-2169.
[16]郝晓云,蔡永智,袁哈利,等. 过量表达棉花GDSL脂肪酶提高甘蓝型油菜油脂含量的研究[J]. 中国粮油学报,2014,29(6):63-68,73.
[17]Marchler-Bauer A,Derbyshire M K,Gonzales N R,et al. CDD:NCBIs conserved domain database[J]. Nucleic Acids Research,2015,43:D222-D226.
[18]Emanuelsson O,Brunak S,von Heijne G,et al. Locating proteins in the cell using TargetP,SignalP and related tools[J]. Nature Protocols,2007,2(4):953-971.
[19]Kondou Y,Nakazawa M,Kawashima M,et al. RETARDED GROWTH OF EMBRYO1,a new basic helix-loop-helix protein,expresses in endosperm to control embryo growth[J]. Plant Physiology,2008,147(4):1924-1935.
[20]Lee D S,Kim B K,Kwon S J,et al. Arabidopsis GDSL lipase 2 plays a role in pathogen defense via negative regulation of auxin signaling[J]. Biochemical and Biophysical Research Communications,2009,379(4):1038-1042.
[21]Oh I S,Park A R,Bae M S,et al. Secretome analysis reveals an Arabidopsis lipase involved in defense against Alternaria brassicicola[J]. The Plant Cell,2005,17(10):2832-2847.
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Peng Qi,et al(8).Rapid identification method of crack angle of Brassica napus and its application[J].Jiangsu Agricultural Sciences,2014,42(04):128.
[2]徐亮.青海不同海拔环境对甘蓝型油菜种子油脂和干物质积累的影响[J].江苏农业科学,2015,43(12):95.
Xu Liang.Effects of altitude environment on oil and dry matter accumulation in Brassica napus seeds in Qinghai Province[J].Jiangsu Agricultural Sciences,2015,43(04):95.
[3]谢雅晶,武爱华,刘贤金.青杂5号甘蓝型油菜的高效再生及农杆菌侵染转化体系的建立[J].江苏农业科学,2015,43(12):17.
Xie Yajing,et al.High efficiency regeneration and agrobacterium-mediated transformation system of Brassica napus L. “Qinza No.5” with insect resistant gene[J].Jiangsu Agricultural Sciences,2015,43(04):17.
[4]李爱民,张永泰,惠飞虎,等.杂交油菜新品种扬优10号的选育[J].江苏农业科学,2013,41(07):88.
Li Aimin,et al.Breeding of new hybrid rapeseed cultivar “Yangyou No.10”[J].Jiangsu Agricultural Sciences,2013,41(04):88.
[5]李爱民,周德银,惠飞虎,等.大籽粒优质甘蓝型油菜新品种扬油9号的选育[J].江苏农业科学,2014,42(02):78.
Li Aimin,et al.Breeding of new Brassica napus cultivar“Yangyou No.9” with big grains and high quality[J].Jiangsu Agricultural Sciences,2014,42(04):78.
[6]淡亚彬,杜德志.甘蓝型油菜心叶颜色性状的遗传和AFLP标记的筛选[J].江苏农业科学,2016,44(04):90.
Dan Yabin,et al.Inheritance of central leaf color trait in Brassica napus and screening of AFLP markers for that trait[J].Jiangsu Agricultural Sciences,2016,44(04):90.
[7]付三雄,戚存扣,张洁夫,等.高产、高油甘蓝型油菜宁油22的选育与栽培要点[J].江苏农业科学,2016,44(02):111.
Fu Sanxiong,et al.Breeding and cultivation techniques of Brassica napus “Ningyou 22” with high yield and high oil content[J].Jiangsu Agricultural Sciences,2016,44(04):111.
[8]张维,张洁夫,浦惠明,等.神舟十号搭载甘蓝型油菜种子SP1代性状调查[J].江苏农业科学,2015,43(09):130.
Zhang Wei,et al.Trait investigation of SP1 generation of Brassica napus seed equipped in Shenzhou Ten[J].Jiangsu Agricultural Sciences,2015,43(04):130.
[9]马明莉,周文波,钟雪梅,等.外源水杨酸对干旱胁迫下甘蓝型油菜幼苗生理特性的影响[J].江苏农业科学,2015,43(06):84.
Ma Mingli,et al.Effect of exogenous salicylic acid on physiological characteristics of Brassica napus L. seedlings under drought stress[J].Jiangsu Agricultural Sciences,2015,43(04):84.
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