[1]de Nettancourt D. Incompatibility in angiosperms[J]. Sexual Plant Reproduction,1997,10(4):185-199.
[2]Lewis D. Sexual incompatibility in plants[M]. Studies in Biology,1979.
[3]Kubo K,Entani T,Takara A,et al. Collaborative non-self recognition system in S-RNase-based self-incompatibility[J]. Science,2010,330(6005):796-799.
[4]Ushijima K,Sassa H,Dandekar A M,et al. Structural and transcriptional analysis of the self-incompatibility locus of almond:identification of a pollen-expressed F-box gene with haplotype-specific polymorphism[J]. The Plant Cell,2003,15(3):771-781.
[5]何兴波,雷莉莉,杨绍彬,等. 自交不亲和杏李品种‘风味玫瑰’授粉早期花柱蛋白质差异分析[J]. 林业科学研究,2014,27(5):590-597.
[6]Distefano G,Caruso M,La M S,et al. Histological and molecular analysis of pollen-pistil interaction in Clementine[J]. Plant Cell Reports,2009,28(9):1439-1451.
[7]Taylor L P,Hepler P K. Pollen germination and tube growth[J]. Annual Review of Plant Biology,1997,48(1):461-491.
[8]Rudd J J,Franklin-Tong V E. Calcium signaling in plants[J]. Cellular and Molecular Life Sciences,1999,55(2):214-232.
[9]薛妙男,陈腾土,杨继华. 沙田柚自交和异交亲和性观察[J]. 园艺学报,1995,22(2):127-132.
[10]杨继华,李红艳,薛妙男. 沙田柚花柱S-糖蛋白分离及鉴定[J]. 广西师范大学学报,2000,18(4):66-70.
[11]杨继华,尧桂荣,薛妙男. 沙田柚花柱S-糖蛋白的纯化和N-端序列测定[J]. 广西师范大学学报,2001,19(1):72-79.
[12]秦新民,李惠敏,薛妙男,等. 沙田柚自交、异交花粉管蛋白的双向电泳分析[J]. 广西植物,2004,24(6):566-569.
[13]薛妙男,李义平,张杏辉,等. 沙田柚自交花柱中识别蛋白的免疫金定位[J]. 园艺学报,2001,28(1):59-61.
[14]秦新民,莫花浓,万珊,等. 沙田柚花粉管特异蛋白的免疫细胞化学研究[J]. 广西师范大学学报,2008,26(4):113-115.
[15]秦新民,莫花浓,石菁萍,等. 沙田柚花粉管S1-RNase免疫胶体金定位研究[J]. 广西农业科学,2009,40(5):483-485.
[16]Simms D,Cizdziel P E,Chomczynski P. Trizol:a new reagent for optimal single-step isolation of RNA[J]. Focus,1993,15(4):532-535.
[17]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.
[18]Brick D J,Brumlik M J,Buckley J T,et al. A new family of lipolytic plant enzymes with members in rice,arabidopsis and maize[J]. FEBS Letters,1995,377(3):475-480.
[19]Upton C,Buckley J T. A new family of lipolytic enzymes?[J]. Trends in Biochemical Sciences,1995,20(5):178-179.
[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]Updegraff E P,Zhao F,Preuss D. The extracellular lipase EXL4 is required for efficient hydration of Arabidopsis pollen[J]. Sexual Plant Reproduction,2009,22(3):197-204.
[22]Huang Y T,Liaw Y C,Gorbatyuk V Y,et al. Backbone dynamics of Escherichia coli thioesterase/protease Ⅰ:evidence of a flexible active-site environment for a serine protease[J]. Journal of Molecular Biology,2001,307(4):1075-1090.
[23]Hammes G G. Multiple conformational changes in enzyme catalysis[J]. Biochemistry,2002,41(26):8221-8228.
[24]Tyukhtenko S I,Litvinchuk A V,Chang C F,et al. NMR studies of the hydrogen bonds involving the catalytic triad of Escherichia coli thioesterase/protease I[J]. FEBS Letters,2002,528(1):203-206.
[25]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.
[26]李志兰,华水金,蒋立希. 植物GDSL脂酶家族基因的研究进展[J]. 农业生物技术学报,2014,22(7):916-924.
[27]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 and Cell Physiology,2010,51(1):123-131.