[1]陈飞,李蕾,周佳宇,等.茅苍术挥发油及主要组分对3种病原菌和2种内生菌的抑菌活性[J].江苏农业学报,2015,(06):1270-1277.[doi:doi:10.3969/j.issn.1000-4440.2015.06.012]
 CHEN Fei,LI Lei,ZHOU Jia-yu,et al.Antifungal activities of essential oil from Atractylis lancea against three species of pathogenic fungi and two species of endophytic fungi[J].,2015,(06):1270-1277.[doi:doi:10.3969/j.issn.1000-4440.2015.06.012]
点击复制

茅苍术挥发油及主要组分对3种病原菌和2种内生菌的抑菌活性()
分享到:

江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2015年06期
页码:
1270-1277
栏目:
植物保护
出版日期:
2015-12-31

文章信息/Info

Title:
Antifungal activities of essential oil from Atractylis lancea against three species of pathogenic fungi and two species of endophytic fungi
作者:
陈飞李蕾周佳宇戴传超
(南京师范大学生命科学学院/江苏省微生物资源产业化工程技术研究中心/江苏省微生物与功能基因组学重点实验室,江苏南京210023)
Author(s):
CHEN FeiLI LeiZHOU Jia-yuDAI Chuan-chao
(Jiangsu Engineering and Technology Research Center for Industrialization of Microbial Resources/Jiangsu Key Laboratory for Microbes and Functional Genomics/College of Life Science,Nanjing Normal University, Nanjing 210023, China)
关键词:
茅苍术挥发油病原真菌内生真菌抑菌活性
Keywords:
Atractylis lanceavolatile oilpathogenic fungusendophytic fungusantifungal activity
分类号:
S432.2; 567.21+1
DOI:
doi:10.3969/j.issn.1000-4440.2015.06.012
文献标志码:
A
摘要:
研究内生真菌如何与宿主植物建立拮抗平衡,以及该过程与病原菌侵染过程的差别。以药用植物茅苍术及几种真菌为材料,采用水蒸馏法提取挥发油并分离各组分,应用平板生长速率法、滤纸片扩散法、悬滴法和扫描电镜观察研究挥发油对病原真菌和内生真菌的抑菌作用。结果表明,高浓度挥发油对病原菌中交链孢的抑菌活性最强,达77.56%,对尖孢镰刀菌和腐皮镰刀菌的抑菌作用次之,分别为71.75% 和70.07%,而对2种内生真菌AL11和AL12则具有较小抑制作用,分别为61.90% 和23.57%;挥发油中β-桉叶醇和茅术醇对5种真菌均无抑制作用,苍术素相比于苍术酮对病原菌有更强的抑制效果;在苍术酮和苍术素的胁迫下,病原真菌的孢子萌发受到了不同程度的抑制,内生真菌表现为菌丝分支增多,分支间距离变短;苍术酮和苍术素可以引起交链孢的菌丝断裂,褶皱,细胞表面疣状突起。说明茅苍术挥发油及其主要组分苍术酮和苍术素对内生真菌生长有限制作用,但这种作用明显低于对病原菌的抑制作用,说明苍术酮和苍术素很可能是宿主植物与内生真菌建立拮抗平衡的关键物质。
Abstract:
This study aims to investigate how the endophytic fungi and host plant establish an antagonistic balance and its difference with pathogen infection. The volatile oil and four primary components from medicinal plant Atractylodes lancea were extracted by water distillation extraction, and its antifungal activities against three species of pathogenic fungi and two species of endophytic fungi were determined by plate growth method, paper disc assay, drop method and scanning electron microscopy. The volatile oil exhibited the strongest antifungal activity of 77.56% against Alternaria solani, stronger activities against Fusarium solani and F. oxysporum, and weak activities against two species of endophytic fungi (61.90% and 23.57%). Volatile oil components β-eudesmol and atractylol had no inhibitory effect on five species of fungi, and atractydin has stronger inhibitory activity than atractylon against pathogenic fungi. Under the stress of atractydin and atractylon, the sporulation of pathogenic fungus was suppressed in different extent, the hyphal branches of endophytic fungus increased, and the distance between the branches became shorter. The volatile oil and its main components atractydin and atractylon exhibited weaker inhibitory activity against endophytic fungi than against pathogenic fungi, indicating that atractydin and atractylon might be the key metabolites to balance endophytic fungi and host plant.

参考文献/References:

[1]周洁,郭兰萍,黄璐琦,等. 基于道地药材标准的炮制苍术挥发油变化规律研究[J]. 中国中药杂志, 2009, 44(8): 567-570.
[2]陈佳昕,戴传超,李霞. 茅苍术内生真菌的分离鉴定及在组培苗中的回接[J]. 广西植物, 2008, 28(2): 256-260.
[3]方芳,戴传超,王宇. 一氧化氮和过氧化氢在内生真菌小克银汉霉属AL4诱导子促进茅苍术细胞挥发油积累中的作用[J]. 生物工程学报, 2009, 25(10): 1490-1496.
[4]张波,戴传超,方芳,等. 三种内生真菌对茅苍术组培苗的生长及主要挥发油成分的影响[J]. 生态学杂志, 2009, 28(4): 704-709.
[5]RODRIGUEZ R J, WHITE J F, ARNOLD A E, et al. Fungal endophytes: diversity and functional roles [J]. New Phytologist, 2009, 182(2): 314-330.
[6]LI Y C, TAO W Y, CHENG L. Paclitaxel production using co-culture of Taxus suspension cells and paclitaxel producing endophytic fungi in a co-bioreactor [J]. Applied Microbiology and Biotechnology, 2009, 83(2): 233-239.
[7]李霞,王超,任承刚,等. 植物内生真菌B3和不同施氮量对水稻生长和产量的影响[J]. 江苏农业学报, 2009, 25(6): 1207-1212.
[8]王兰英,廖凤仙,骆焱平. 九里香内生真菌HBS-1的鉴定及其对芒果采后病害的防效[J]. 江苏农业学报, 2012, 28(1): 41-45.
[9]RAHMAN M H, SAIGA S. Endophytic fungi (Neotyphodium coenophialum) affect the growth and mineral uptake, transport and efficiency ratios in tall fescue (Festuca arundinacea) [J]. Plant and Soil, 2005, 272(1-2): 163-171.
[10]WANG Y, DAI C C, CAO J L, et al. Comparison of the effects of fungal endophyte Gilmaniella sp. and its elicitor on Atractylodes lancea plantlets [J]. World Journal of Microbiology and Biotechnology, 2012, 28(2): 575-584.
[11]SUO Y Y, LEUNG D W M. Elevation of extracellular β-1,3-glucanases and chitinase activities in rose in response to treatment with acibenzolar-S-methyl and infection by D. rosae [J]. Journal of Plant Physiology, 2001, 158(8): 971-976.
[12]KOGEL K H, FRANKEN P, HCKELHOVEN R. Endophyte or parasite-what decides? [J]. Current Opinion in Plant Biology, 2006, 9(4): 358-363.
[13]BOUARAB K, MELTON R, PEART J, et al. A saponin-detoxifying enzyme mediates suppression of plant defences [J]. Nature, 2002, 418 (6900): 889-892.
[14]李蕾,刘付燕,任承钢,等. 1株选择性降解茅苍术挥发油的内生真菌筛选与鉴定[J]. 中国中药杂志, 2012, 37(19): 2855-2862.
[15]赵翔宇. 苍术挥发油指纹图谱研究及2株真菌对茅苍术组培苗的影响[D]. 南京:南京师范大学,2014.
[16]ZHAO J L, MOU Y, SHAN T J, et al. Antimicrobial metabolites from the endophytic fungus Pichia guilliermondii isolated from Pairs polyphylla var. yunnanensis [J]. Molecules, 2010, 15(11): 7961-7970.
[17]CARDOSO C, CHARNIKHOVA T, JAMIL M, et al. Differential activity of Striga hermonthica seed germination stimulants and Gigaspora rosea hyphal branching factors in rice and their contribution to underground communication [J]. PLoS ONE, 2014, 9(8): e104201.
[18]YANG T, CHEN Y, WANG X X, et al. Plant symbionts: keys to the phytosphere [J]. Symbiosis, 2013, 59(1): 1-14.
[19] KARI S, SAARI S, HELANDER M. Defensive mutualism between plants and endophytic fungi? [J]. Fungal Diversity, 2010, 41(1): 101-113.
[20]SAIKKONEN K, LEHTONEN P, HELANDER M, et al. Model systems in ecology: dissecting the endophyte-grass literature [J]. Trends in Plant Science, 2006, 11(9): 428-433.
[21]LUDWIG-MLLER J. Plants and endophytes: equal partners in secondary metabolite production? [J]. Biotechnology Letters, 2015, 37(7): 1325-1334.
[22]ALY A H, DEBBAB A, KJER J, et al. Fungal endophytes from higher plants: a prolific source of phytochemicals and other bioactive natural products [J]. Fungal Diversity, 2010, 41(1): 1-16.
[23]王宇,戴传超,陈晏. 茅苍术挥发油对三种内生真菌及其中外源真菌的抑菌活性[J]. 应用生态学报, 2009, 20(11): 2778-2784.
[24]戴传超,谢慧,王兴祥,等. 间作药材与接种内生真菌对连作花生土壤微生物区系及产量的影响[J]. 生态学报, 2010, 30(8): 2105-2111.
[25]ZHEN O Y, ZHANG L, ZHAO M, et al. Identification and quantification of sesquiterpenes and polyacetylenes in Atractylodes lancea from various geographical origins using GC-MS analysis [J]. Revista Brasileira de Farmacognosia Brazilian Journal of Pharmacognosy, 2012, 22(5): 957-963.
[26]JEONG S I, KIM S Y, KIM S J, et al. Antibacterial activity of phytochemicals isolated from Atractylodes japonica against methicillin-resistant staphylococcus aureus [J]. Molecules, 2010, 15(10): 7395-7402.
[27]CHEN Y J, WU Y X, WANG H X, et al. A new 9-nor-atractylodin from Atractylodes lancea and the antibacterial activity of the atractylodin derivatives [J]. Fitoterapia, 2012, 83(1): 199-203.
[28]YAHYAZADEH M, OMIDBAIGI R, ZARE R, et al. Effect of some essential oils on mycelial growth of Penicillium digitatum Sacc [J]. World Journal of Microbiology and Biotechnology, 2008, 24(8): 1445-1450.

相似文献/References:

[1]任 妮,虞德容,戴红君,等.基于文献计量的国内外茅苍术研究态势分析[J].江苏农业学报,2016,(03):705.[doi:10.3969/j.issn.1000-4440.2016.03.034]
 REN Ni,YU De-rong,DAI Hong-jun,et al.Analyses of research status and trends of Atractylodes lancea based on bibliometrics[J].,2016,(06):705.[doi:10.3969/j.issn.1000-4440.2016.03.034]

备注/Memo

备注/Memo:
收稿日期:2015-07-01 基金项目:国家自然科学基金项目(21406119、31070443);江苏省高校自然科学基金项目(14KJB180009) 作者简介:陈飞(1982-),男,河南汝南人,博士,讲师,研究方向为微生物与植物互作及其在药用植物次级代谢调控的应用。(Tel) 025-85891382; (E-mail) chenfei@njnu.edu.cn。李蕾为共同第一作者。 通讯作者:戴传超,(Tel) 025-85891382; (E-mail) daichuanchao@njnu.edu.cn
更新日期/Last Update: 2015-12-31