[目的]研究菊花脑(Chrysanthemum nankingense)花蕾再生不定芽的机制,构建菊花脑再生体系.[方法]以菊花脑花蕾为试材,研究花蕾大小、生长调节剂浓度和花器官类型对不定芽再生的影响,同时采用常规石蜡制片法,对不定芽再生过程进行组织学观察.[结果]直径为0.4 cm的花蕾最适于诱导不定芽再生;花蕾外植体的最适再生培养基为MS+2.0 mg?L-1 6-BA+0.25 mg?L-1 NAA,再生率达66.5%,平均不定芽数为4.9.花托的再生率为42.6%,舌状花、管状花再生率分别为16.7%和13.1%,子房仅分化出少量芽体.组织学观察表明,花蕾中再生不定芽的部位为花托.不定芽的最适生根培养基为1/2MS+0.2 mg?L-1 IBA,生根率和移栽成活率均为100%.[结论]菊花脑花蕾再生不定芽属于器官间接发生途径,以花蕾为外植体可构建高效稳定的再生体系.[Objectives]Studying the regeneration mechanism of flower bud of Chrysanthemum nankingense, establishing its regeneration system. [Methods]Some factors including size, plant growth regulators combinations and floral organ types were studied on flower bud of C.nankingense for shoot regeneration, meanwhile, through the conventional paraffin method, histological observation about the whole process of regeneration was conducted. [Results]The optimal size of flower bud for differential was 0.4 cm, and the optimal differential medium was MS+2.0 mg?L-1 6-BA+0.25 mg?L-1 NAA, which resulted in the highest regeneration rate(66.5%)and highest average number of adventitious bud(4.9).Further analysis revealed that regeneration rate of torus was 42.6%, of ray flower and tubular flower was 16.7% and 13.1%, respectively, while only a small amount of buds differentiated from ovary. Through histological observation of flower bud, the adventitious buds originated from torus. The optimal rooting medium was 1/2MS+0.2 mg?L-1 IBA and the rooting rate and survival rate reached 100%. [Conclusions]The adventitious buds regeneration in flower bud belonged to indirect organogenesis, and taking flower bud as explant would contribute to a high efficient and stable regeneration system for C.nankingense
References
[1]
张莉俊,戴思兰. 菊花种质资源研究进展[J]. 植物学报,2009,44(5):526-535 [Zhang L J,Dai S L. Research advance on germplasm resources of Chrysanthemum × morifolium[J]. Chinese Bulletin of Botany,2009,44(5):526-535(in Chinese with English abstract)]
[2]
何铁光,文国荣,韦星光,等. ’桂特一号’大叶菊花菜特征特性及栽培技术[J]. 北方园艺,2013(4):54-55 [He T G,Wen G R,Wei X G,et al. Study on characteristics and cultivation techniques of Chrysanthemum nankingense’Guiteyihao’[J]. Northern Horticulture,2013(4):54-55(in Chinese)]
[3]
杨立刚,李莉华,林丽凤,等. 南京菊花脑部分成分分析及挥发油的提取研究[J]. 现代食品科技,2010,26(2):212-214 [Yang L G,Li L H,Lin L F,et al. Analysis of functional ingredients and extraction of volatile oil from Chrysanthemum nankingense[J]. Modern Food Science and Technology,2010,26(2):212-214(in Chinese with English abstract)]
[4]
陈发棣,蒋甲福,房伟民. 秋水仙素诱导菊花脑多倍体的研究[J]. 上海农业学报,2002,18(1):46-50 [Chen F D,Jiang J F,Fang W M. Study on induction of polyploidy Dendranthema nankingense with colchicine[J]. Acta Agriculture Shanghai,2002,18(1):46-50(in Chinese)]
[5]
Cheng X,Chen S M,Chen F D,et al. Interspecific hybrids between Dendranthema morifolium(Ramat.)Kitamura and D.nankingense(Nakai)Tzvel.achieved using ovary rescue and their cold tolerance characteristics[J]. Euphytica,2010,172(1):101-108
[6]
Tang F P,Wang H B,Chen S M,et al. Intergeneric hybridization between Dendranthema nankingense and Tanacetum vulgare[J]. Scientia Horticulturae,2011,132:1-6
[7]
费建业,黄文苑,白卉,等. 菊花脑叶片组织培养再生植株的研究[J]. 安徽农业科学,2009,37(17):7872-7874 [Fei J Y,Huang W Y,Bai H,et al. Plant regeneration in the tissue culture of Chrysanthemum nankingense leaves[J]. Journal of Anhui Agriculture Sciences,2009,37(17):7872-7874(in Chinese with English abstract)]
[8]
白卉,黄文苑,贲爱玲,等. 菊花脑离体培养再生植株的研究[J]. 安徽农业科学,2010,38(15):7782-7783 [Bai H,Huang W Y,Bi A L,et al. Study on plant regeneration of Chrysanthemum nankingense via in vitro culture[J]. Journal of Anhui Agriculture Sciences,2010,38(15):7782-7783(in Chinese with English abstract)]
[9]
李辛雷,陈发棣,王红,等. 菊花外植体再生体系的研究[J]. 上海农业学报,2004,20(2):13-16 [Li X L,Chen F D,Wang H,et al. Study on regeneration system of chrysanthemum explants[J]. Acta Agriculture Shanghai,2004,20(2):13-16(in Chinese)]
[10]
Song J Y,Mattson N S,Jeong B R. Efficiency of shoot regeneration from leaf,stem,petiole and petal explants of six cultivars of Chrysanthemum morifolium[J]. Plant Cell,Tissue and Organ Culture,2011,107(2):295-304
[11]
李玉芬. 几种菊花花器培养及愈伤组织分化频率研究[J]. 生物技术,1997,7(2):24-26 [Li Y F. Study on culture of several floral organs and callus differential rate of chrysanthemum[J]. Biotechnology,1997,7(2):24-26(in Chinese)]
[12]
Sangeetha P,Venkatachalam P. Induction of direct shoot organogenesis and in vitro flowering from shoot tip explants of cucumber(Cucumis sativus L.cv.’Green long’)[J]. In vitro Cellular & Developmental Biology-Plant,2014,50(2):242-248
[13]
赵云鹏,郭维明,王广东. 花烛不同愈伤组织解剖结构的观察[J]. 园艺学报,2005,32(1):60-64 [Zhao Y P,Guo W M,Wang G D. Observation on anatomic structure of eight kinds of calli in Anthurium andraeanum[J]. Acta Horticulturae Sinica,2005,32(1):60-64(in Chinese with English abstract)]
