2.Saxena B B,Zhu L,Hao M,et al.Boc-lysinate-betulonic acid:a potent,anti-prostate cancer agent[J].Journal of Medicinal Chemistry,2006,14:6249-6258.
[2]
3.Huang L,Lee K H,Chen C H.Synthesis and anti-HIV activity of bi-functional BA derivatives[J].Bioorganic & Medicinal Chemistry,2006,14:2279-2289.
[3]
4.Kyoko N G,Koji Y,Masahiko T,et al.Cancer preventive agents.Betulinic acid derivatives as potent cancer chemopreventive agents[J].Bioorganic & Medicinal Chemistry Letters,2009,19(13):3378-3381.
[4]
5.Aharon A,Jongsma M A,Kim T Y,et al.Metabolic engineering of terpenoid biosynthesis in plants[J].Phytochemistry Reviews,2006,5:49-58.
[5]
6.Gallo M B C,Sarachine M J.Biological activities of Lupeol[J].International Journal of Biomedical and Pharmaceutical Sciences,2009,3(Special Issue 1):46-66.
[6]
7.Kim Y S,Han J Y,Lim S,et al.Ginseng metabolic engineering :Regulation of genes related to ginsenoside biosynthesis[J].Journal of Medicinal Plants Research,2010,3(13):1270-1276.
[7]
8.Zhang H,Shibuya M,Yokota S.Oxidosqualene cyclases from cell suspension cultures of Betula platyphylla var. japonica:molecular evolution of oxidosqualene cyclases in higher plants[J].Biological & Pharmaceutical Bulletin,2003,26(5):642-650.
[8]
9.Yin J,Zhan Y G,Ren C L,et al.Distribution and expression characteristics of triterpenoids and OSC genes in white birch( Betula platyphylla suk.)[J].Molecular Biology Reports,2012,39(3):2321-2328.
[9]
10.Turner J G,Ellis C,Devoto A.The jasmonate signal pathway[J].The Plant Cell,2002,S:153-164.
[10]
11.Thaler J S,Owen B,Higgins V J.The role of the jasmonate response in plant susceptibility to diverse pathogens with a range of lifestyles[J].Plant Physiology,2004,135:530-538.
[11]
12.Kim Y S,Cho J H,Park S.Gene regulation patterns in triterpene biosynthetic pathway driven by overexpression of squalene synthase and methyl jasmonate elicitation in Bupleurum falcatum[J].Planta,2011,233:343-355.
[12]
13.Hayashi H,Huang P Y,Inoue K.Up-regulation of soyasaponin biosynthesis by Methyl Jasmonate in cultured cells of Glycyrrhiza glabra[J].Plant Cell Physiol,2003,44(4):404-411.
[13]
14.Martin D M,Gershenzon J,Bohlmann J.Induction of volatile terpene biosynthesis and diurnal emission by Methyl Jasmonate in foliage of Norway spruce[J].Plant Physiology,2003,132:1586-1599.
[14]
15.Haley A,Russell A J,Wood N,et al.Effects of mechanical signaling on plant cell cytosolic calcium[J].Proceedings of the National Academy of Sciences,1995,92:4124-4128.
19.Islam M M,Hossain M A,Jannat R,et al.Cytosolic alkalization and cytosolic calcium oscillation in Arabidopsis guard cells response to ABA and MeJA[J].Plant Cell Physiol,2010,51(10):1721-1730.
[19]
20.Chen Y C,Tseng B W,Huang Y L,et al.Expression of the ipomoelin gene from sweet potato is regulated by dephosphorylated proteins,calcium ion and ethylene[J].Plant,Cell and Environment,2003,26:1373-1383.
23.Moyen C,Hammond-Kosack K E,Jones J,et al.Systemin triggers an increase of cytoplasmic calcium in tomato mesophyll cells:Ca 2+ mobilization from intra- and extracellular compartments[J].Plant Cell Environ,1998,21:1101-1111.
[23]
24.Hashimoto K,Kudla J.Calcium decoding mechanisms in plants[J].Biochimie,2011,93:2054-2059.
26.Livak K J,Schmittgen T D.Analysis of relative gene expression data using real-timequantitative PCR and the 2″AACt method[J].Methods,2001,25:402-408.
28.Reddy A S N,Ali G S,Celesnik H,et al.Coping with stresses:roles of calcium- and calcium/calmodulin-regulated gene expression[J].The Plant Cell,2011,23:2010-2032.
[28]
29.Zhao J,Lawrence C D,Robert V.Elicitor signal transduction leading to production of plant secondary metabolites[J]. Biotechnology Advances,2005,23:283-333.
[29]
30.Schneider-Müller S,Kurosaki F,Nishi A.Role of salicylic acid and intracellular Ca 2+ in the induction of chitinase activity in carrot suspension culture[J].Physiological and Molecular Plant Pathology,1994,45:101-109.
33.Raz V,Fluhr R.Calcium requirement for ethylene-dependent responses[J].The Plant Cell,1992,4:1123-1130.
[33]
34.Bush D S.Caleium regulation in plant cells and its role in signaling[J].Annual Review of Plant Physiology and Plant Molecular Biology,1995,46:95-122.
37.Munemasa S,Mori I C,Murata Y.Methyl jasmonate signaling and signal crosstalk between methyl jasmonate and abscisic acid in guard cells[J].Plant Signal Behav,2011,6(7):939-941.
[37]
38.Kenton P,Mur LA J,Atzorn R,et al.(-)-Jasmonicacid accumulation in tobacco hypersensitive response lesions[J].Molecular Plant-Microbe Interactions,1999,12:74-78.
[38]
39.León J,Rojo,E,Sánchez-Serrano J J.Wound signalling in plants[J].Journal of Experimental Botany,2001,52(354):1-9.
[39]
40.Hsu Y Y,Chao Y Y,Kao C H.Methyl Jasmonate-induced lateral root formation in rice:The role of heme oxygenase and calcium[J].Journal of Plant Physiology,2013,170:63-69.
44.Hashimoto K,Kudla J.Calcium decoding mechanisms in plants[J].Biochimie,2011,93:2054-2059.
[44]
45.Nkembo M K,Kurosaki F,Lee J B,et al.Stimulation of calcium signal transduction results in enhancement of production of scopadulcic acid B by methyl jasmonate in the cultured tissues of Scoparia dulcis[J].Plant Biotechnology,2005,22:333-337.
47.Boursiac Y,Harper J F.The origin and function of calmodulin regulated Ca 2+ pumps in plants[J].Journal of Bioenergetics & Biomembranes,2007,39:409-414.
