84K杨组培苗染菌分离鉴定及脱菌技术

doi:10.11707/j.1001-7488.LYKX20240419

摘要/Abstract

摘要：

目的: 对感染菌的84K杨组培苗菌株进行分离鉴定，并探索一种高效、简便的组培苗脱菌技术，为木本植物扩繁、长期继代保存、植物抗逆性、生长活力和高效稳定遗传转化体系的维持提供技术保障。方法: 以感染菌的84K杨组培苗为材料，利用16S rDNA测序结合NCBI-BLAST搜索对菌株进行分离鉴定。通过比较0.1%氯化汞、无菌水培、黑暗、变温黑暗等处理，并结合取茎尖培养法对感染菌的84K杨组培苗进行脱菌处理。进一步对比脱菌前后愈伤诱导成芽试验，评估脱菌效果。结果: 感染菌的84K杨组培苗有3种细菌（84K-01、84K-02、84K-03），其中84K-01与短小杆菌属一种（CP066341.1）相似度达99.79%，84K-02与威廉姆斯菌属一种（JQ660098.1）相似度达99.93%，84K-03与藤黄杆菌属一种（CP077072.1）相似度达99.86%；0.1%氯化汞、单独黑暗21天和变温黑暗21天处理结合取茎尖培养法对84K杨组培苗３种细菌均具有显著脱菌效果（P<0.05），而变温黑暗21天处理结合取茎尖培养法综合效果最优，无菌率达51.85%。对脱菌84K杨进行愈伤诱导和成芽能力分析，发现脱菌苗叶片诱导的愈伤生长更快，且能成芽。结论: 感染菌的84K杨组培苗分离鉴定出3种细菌，变温黑暗21天处理结合取茎尖培养法去除效果最佳。这套方法以其简便、快捷、稳定性高、无毒害性等优点，可在感染菌的木本植物组培苗脱菌中推广应用。

关键词: 84K杨, 分离鉴定, 脱菌, 变温黑暗处理, 茎尖培养

Abstract:

Objective: The tissue culture seedlings of Populus alba × P. glandulosa (84K poplar) that have been preserved through long-term subculture are prone to bacterial infection, leading to problems such as slow growth and low genetic transformation efficiency. However, there has been no report on rapid bacteria elimination technology. This study aims to isolate and identify the bacteria in the tissue culture seedlings of 84K poplar that are infected with bacteria, and to explore an efficient and convenient technology for eliminating bacteria from the tissue culture seedlings, so as to provide technolical reference for the multiplication of tissue culture seedlings of woody plants, their long-term subculture preservation, stress resistance, growth vitality, and the maintenance of an efficient and stable transgenic transformation system. Method: In this study, the tissue culture seedlings of 84K poplar infected with bacteria were used as materials. The strains were isolated and further identified by using 16S rDNA sequencing combined with NCBI-BLAST search. Treatments such as 0.1% mercury chloride, aseptic hydroponics, darkness, and darkness with variable temperature were compared, and in combination with the method of shoot tip culture, the tissue culture seedlings of 84K poplar infected with bacteria were subjected to bacteria elimination treatment. Furthermore, the experiment of callus induction to buds before and after bacteria elimination was compared to evaluate the effect of bacteria elimination. Result: There were three kinds of bacteria (84K-01, 84K-02, 84K-03) in the tissue-cultured seedlings of 84K poplar that were infected by bacteria. Among them, the similarity between 84K-01 and a species of the genus Curtobacterium (CP066341.1) was as high as 99.79%, the similarity between 84K-02 and a species of the genus Williamsia (JQ660098.1) was as high as 99.93%, and the similarity between 84K-03 and a species of the genus Luteibacter (CP077072.1) was as high as 99.86%. The treatments with 0.1% mercury chloride, darkness for 21 days, and darkness at variable temperatures for 21 days, combined with the method of shoot tip culture all had significant effects on eliminating the three types of bacteria in the tissue culture seedlings of 84K poplar (P<0.05). The treatment of darkness at variable temperatures for 21 days combined with the method of shoot tip culture had the best comprehensive effect, with the sterile rate of 51.85%. Further analysis of the callus induction and bud formation ability of the bacteria-eliminated 84K poplar showed that the callus induced from the leaves of the bacteria-eliminated seedlings grew faster and was able to form buds. Conclusion: Three types of bacteria have been isolated and identified from the tissue culture seedlings of 84K poplar infected with bacteria. The treatment of darkness at variable temperatures for 21 days, combined with the method of shoot tip culture has the best elimination effect. With the advantages of simplicity, rapidity, high stability, and no toxicity, this set of methods can be popularized and applied in the elimination of bacteria from the tissue culture seedlings of woody plants infected with bacteria.

Key words: Populus alba × P. glandulosa, isolation and identification, sterilization, dark treatment with variable temperature, shoot tip culture

中图分类号:

S792.11

焦阳,王深,曾智新,乔静,余浩森,张琦琦,邱明萱,潘怡宁,舒文波. 84K杨组培苗染菌分离鉴定及脱菌技术[J]. 林业科学, 2025, 61(8): 106-115.

Yang Jiao,Shen Wang,Zhixin Zeng,Jing Qiao,Haosen Yu,Qiqi Zhang,Mingxuan Qiu,Yining Pan,Wenbo Shu. Isolation, Identification and Sterilization Technology of 84K Poplar Tissue Culture Seedlings Infected with Bacteria[J]. Scientia Silvae Sinicae, 2025, 61(8): 106-115.

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参考文献 0

	白　淼, 张　灿, 郑文杰, 等. 脂环酸芽孢杆菌的分离鉴定与控制技术研究进展. 环境与健康杂志, 2015, 32 (7): 650- 654.
	Bai M, Zhang C, Zheng W J, et al. Review for isolation, identification and control for Alicyclobacillus. Journal of Environment and Health, 2015, 32 (7): 650- 654.
	蔡时可, 李静宇, 梅　瑜, 等. 中草药脱毒技术研究进展. 广东农业科学, 2021, 48 (12): 151- 161.
	Cai S K, Li J Y, Mei Y, et al. Research progress on detoxification technology of Chinese herbal medicine. Guangdong Agricultural Sciences, 2021, 48 (12): 151- 161.
	陈传红, 古晓斌, 应家轩, 等. 赣南脐橙无菌苗生产的组培脱菌与微芽嫁接快繁技术. 北方园艺, 2019, (18): 26- 31.
	Chen C H, Gu X B, Ying J X, et al. Tissue culture debacteriosis and microbud grafting and rapid propagation technology for sterile seedlings of Gannan navel orange. Northern Horticulture, 2019, (18): 26- 31.
	陈　肃, 于　越, 刘智杰. 2022. 一种杨树外植体脱毒试剂、脱毒方法及应用. 黑龙江省: CN202110332124. X.
	Chen S, Yu Y, Liu Z J. 2022. A detoxification reagent, method, and application for poplar explants. Heilongjiang Province: CN202110332124. X. ［in Chinese］
	陈晓阳, 沈熙环. 2005. 林木育种学. 北京: 高等教育出版社.
	Chen X Y, Shen X H. 2005. Forest tree breeding. Beijing: Higer Education Press. ［in Chinese］
	陈毅群, 陈　波, 易　龙, 等. 3个脐橙品种离体茎段培养及茎尖微芽嫁接条件的优化. 中国南方果树, 2020, 49 (1): 22- 27.
	Chen Y Q, Chen B, Yi L, et al. Optimization of stem segment culture and shoot tip microbud grafting conditions of three navel orange cultivars. South China Fruit Tree, 2020, 49 (1): 22- 27.
	杜易静, 刘文林, 乔月莲, 等. ‘阳光玫瑰’ 葡萄试管苗热处理结合茎尖和腋芽培养脱毒技术研究. 园艺学报, 2024, 51 (4): 893- 902.
	Du Y J, Liu W L, Qiao Y L, et al. Virus elimination from ‘shine muscat’ grape plantlets in vitro via heat treatment combined with shoot tip and axillary bud culture. Acta Horticulturae Sinica, 2024, 51 (4): 893- 902.
	顾真荣, 程洪斌, 魏春妹, 等. 枯草芽孢杆菌G3抗真菌物质最低抑菌浓度和有效菌中浓度测定方法. 植物病理学报, 2006, 36 (3): 279- 280. doi: 10.3321/j.issn:0412-0914.2006.03.013
	Gu Z R, Cheng H B, Wei C M, et al. Method for determination of minimum inhibitory concentration of antifungal substances and concentration in effective bacteria of Bacillus subtilis G3. Chinese Journal of Plant Pathology, 2006, 36 (3): 279- 280. doi: 10.3321/j.issn:0412-0914.2006.03.013
	孔祥生, 张妙霞, 高书颖, 等. 提高甘薯茎尖分生组织培养成苗率的研究. 洛阳农业高等专科学校学报, 1999, (1): 11- 12.
	Kong X S, Zhang M X, Gao S Y, et al. Study on increasing the plantlet ratio of tip meristem culture of sweetpotato. Journal of Luoyang Agricultural College, 1999, (1): 11- 12.
	梁彦彦, 兰道亮, 林宝山, 等. 动物肠道乳酸菌的分离鉴定技术研究进展. 动物医学进展, 2015, 36 (10): 90- 94. doi: 10.3969/j.issn.1007-5038.2015.10.020
	Liang Y Y, Lan D L, Lin B S, et al. Progress on technologies of isolation and identification of lactic acid bacteria in animal intestines. Progress in Veterinary Medicine, 2015, 36 (10): 90- 94. doi: 10.3969/j.issn.1007-5038.2015.10.020
	刘梦洁, 徐亚军, 黄雪珍, 等. 植物内生菌研究方法. 微生物学通报, 2024, 51 (6): 1887- 1897.
	Liu M J, Xu Y J, Huang X Z, et al. Advances in research methods for plant endophytes. Microbiology China, 2024, 51 (6): 1887- 1897.
	刘子元, 赵艳艳, 苏艺芃. 2025. 草莓超低温脱毒体系优化及效果检测. 甘肃农业大学学报, 60(2): 137–144.
	Liu Z Y, Zhao Y Y, Su Y P. 2025. Optimization and effect detection of strawberry ultra-low temperature detoxification system. Journal of Gansu Agricultural University, 60(2): 137–144. ［in Chinese］
	卢艳丽, 周洪友, 张笑宇. 马铃薯茎尖脱毒方法优化及病毒检测. 作物杂志, 2017, (1): 161- 167.
	Lu Y L, Zhou H Y, Zhang X Y. Optimization of potato stem tip detoxification method and virus detection. The Crop Journal, 2017, (1): 161- 167.
	马秀明, 缪　军, 王俊峰, 等. 草莓茎尖脱毒繁育体系研究进展. 安徽农业科学, 2021, 49 (24): 18- 23. doi: 10.3969/j.issn.0517-6611.2021.24.004
	Ma X M, Miao J, Wang J F, et al. Research progress on stem apex detoxification and breeding system of strawberry. Journal of Anhui Agricultural Sciences, 2021, 49 (24): 18- 23. doi: 10.3969/j.issn.0517-6611.2021.24.004
	彭　琼, 鄢　铮, 谢　东, 等. 甘薯茎尖脱毒技术研究进展. 福建农业科技, 2020, (8): 53- 57.
	Peng Q, Yan Z, Xie D, et al. Research progress on tip meristem virus-free culture technology of sweet potato. Fujian Agricultural Science and Technology, 2020, (8): 53- 57.
	邱　静, 汤浩茹, 曹会娟, 等. 园艺植物茎尖冷冻疗法脱毒的技术研究. 植物生理学报, 2014, 50 (1): 1- 6.
	Qiu J, Tang H R, Cao H J, et al. Research on shoot tip cryotherapy detoxification of horticultural plants. Chinese Journal of Plant Physiology, 2014, 50 (1): 1- 6.
	师校欣, 杜国强, 高　仪, 等. 黑暗培养对苹果组培快繁及叶片再生的影响. 河北农业大学学报, 2004, 27 (4): 18- 21. doi: 10.3969/j.issn.1000-1573.2004.04.005
	Shi X X, Du G Q, Gao Y, et al. The effect of darkness culture on micropropagation and adventitious bud generation from leaf in apple. Journal Agricultural University of Hebei, 2004, 27 (4): 18- 21. doi: 10.3969/j.issn.1000-1573.2004.04.005
	唐　渊. 2016. 玉簪组织培养及试管苗内生菌污染控制研究. 银川: 宁夏大学.
	Tang Y. 2016. The research on hosta tissue culture and the contamination control of entophytes in test-tube. Yinchuan: Ningxia University. ［in Chinese］
	王　鹤, 王文豪, 黄　华, 等. 一株大菱鲆源杀鲑气单胞菌非典型株的分离鉴定及毒力基因型. 大连海洋大学学报, 2022, 37 (4): 558- 567.
	Wang H, Wang W H, Huang H, et al. Isolation and identification of an atypical strain of Aeromonas salmonica. Journal of Dalian Ocean University, 2022, 37 (4): 558- 567.
	王淑娴, 刁　菁, 樊　英, 等. 2019. MALDI-TOF MS技术用于细菌鉴定的研究进展. 农业灾害研究, 9(5): 20–23.
	Wang S X, Diao J, Fan Y, et al. 2019. Matrix-assisted laser desorption ionization time-of-flight mass spectrometry for bacterial strain identification. Journal of Agricultural Catastrophology, 9(5): 20–23. ［in Chinese］
	王　政, 王建格, 何松林, 等. 牡丹组织培养过程中抑菌剂的筛选及内生细菌的鉴定. 分子植物育种, 2022, 20 (8): 2707- 2712.
	Wang Z, Wang J G, He S L, et al. Screening of bacteriostatic agents and identification of endophytic bacteria in peony tissue culture. Molecular Plant Breeding, 2022, 20 (8): 2707- 2712.
	颜克如, 毛碧增. 植物病毒脱毒技术进展与展望. 分子植物育种, 2019, 17 (23): 7861- 7870.
	Yan K R, Mao B Z. Progress and prospect of plant virus detoxification technology. Molecular Plant Breeding, 2019, 17 (23): 7861- 7870.
	杨　雪, 吴　边, 柳陈坚, 等. 基于不同通用引物比较分析肠道微生物群落变化. 生物工程学报, 2020, 36 (12): 2556- 2565.
	Yang X, Wu B, Liu C J, et al. Comparative analysis of intestinal microbial community changes based on different universal primers. Chinese Journal of Biotechnology, 2020, 36 (12): 2556- 2565.
	叶乃芳, 王中新. 16S rRNA及相关技术用于临床细菌鉴定的研究进展. 国际检验医学杂志, 2015, 36 (4): 520- 522. doi: 10.3969/j.issn.1673-4130.2015.04.037
	Ye N F, Wang Z X. Research progress on 16S rRNA and related technologies for clinical bacterial identification. International Journal of Laboratory Medicine, 2015, 36 (4): 520- 522. doi: 10.3969/j.issn.1673-4130.2015.04.037
	詹康英. 2018. 欧美杨107茎尖脱毒及组培快繁研究. 泰安: 山东农业大学.
	Zhan K Y. 2018. Study on rapid rropagation of 107 groups of poplar and stem tip detoxification of poplar in Europe and America. Tai’an: Shandong Agricultural University. ［in Chinese］
	张丽珍, 赵立华, 吴　阔, 等. 植物诱抗剂AHO联合茎尖培养脱除马铃薯S病毒和马铃薯Y病毒. 植物保护, 2022, 48 (5): 239- 245.
	Zhang L Z, Zhao L H, Wu K, et al. Removal of potato S virus and potato Y virus by plant inhibitor aho combined with shoot tip culture. Plant Protection, 2022, 48 (5): 239- 245.
	赵建萍, 蒋小满, 柏新富, 等. 影响芋茎尖培养中脱毒和快速繁殖的几个生理因素. 植物生理学通讯, 2009, 45 (2): 133- 136.
	Zhao J P, Jiang X M, Bai X F, et al. Several physiological factors influencing detoxification and rapid reproduction in taro shoot tip culture. Plant Physiology Bulletin, 2009, 45 (2): 133- 136.
	赵习武, 王晨静, 杨丹丹, 等. 园艺植物脱毒技术方法研究进展. 安徽农业科学, 2013, 41 (16): 7074- 7076. doi: 10.3969/j.issn.0517-6611.2013.16.010
	Zhao X W, Wang C J, Yang D D, et al. Research advance in the techniques and methods of horticultural plant virus-free. Journal of Anhui Agricultural Sciences, 2013, 41 (16): 7074- 7076. doi: 10.3969/j.issn.0517-6611.2013.16.010
	Afzal I, Shinwari Z K, Sikandar S, et al. Plant beneficial endophytic bacteria: mechanisms, diversity, host range and genetic determinants. Microbiological Research, 2019, 221, 36- 49. doi: 10.1016/j.micres.2019.02.001
	Altschul S F, Gish W, Miller W, et al. Basic local alignment search tool. Journal of Molecular Biology, 1990, 215 (3): 403- 410. doi: 10.1016/S0022-2836(05)80360-2
	Gorai P S, Ghosh R, Mandal S, et al. Bacillus siamensis CNE6- a multifaceted plant growth promoting endophyte of Cicer arietinum L. having broad spectrum antifungal activities and host colonizing potential. Microbiological Research, 2021, 252, 126859. doi: 10.1016/j.micres.2021.126859
	Kulkarni A A, Kelkar S M, Watve M G, et al. 2007. Characterization and control of endophytic bacterial contaminants in in vitro cultures of Piper spp., Taxus baccata subsp. wallichiana, and Withania somnifera. Canadian Journal of Microbiology, 53(1): 63–74.
	Pollock K, Barfield D G, Shields R. The toxicity of antibiotics to plant cell cultures. Plant Cell Reports, 1983, 2 (1): 36- 39. doi: 10.1007/BF00269232
	Qiu D Y, Bai S L, Ma J C, et al. The genome of Populus alba x Populus tremula var. glandulosa clone 84K. DNA Research, 2019, 26 (5): 423- 431. doi: 10.1093/dnares/dsz020
	Ray S S, Ali M N, Mukherjee S, et al. Elimination and molecular identification of endophytic bacterial contaminants during in vitro propagation of Bambusa balcooa. World Journal of Microbiology & Biotechnology, 2017, 33 (2): 31.
	Shu W B, Liu Y L, Guo Y H, et al. A Populus TIR1 gene family survey reveals differential expression patterns and responses to 1-naphthaleneacetic acid and stress treatments. Frontiers in Plant Science, 2015, 6, 719. doi: 10.3389/fpls.2015.00719
	Eed A M, Reddy S A, Reddy K M, et al. Effect of antibiotics and fungicides on the in vitro production of citrus limonia osbeck nodal segment and shoot tip explants. The Asian and Australasian Journal of Plant Science and Biotechnology, 2010, 4 (1): 66- 70.
	Thakur R, Sood A. An efficient method for explant sterilization for reduced contamination. Plant Cell Tissue and Organ Culture, 2006, 84 (3): 369- 371. doi: 10.1007/s11240-005-9034-6
	Wang Q C, Valkonen J P T. Cryotherapy of shoot tips: novel pathogen eradication method. Trends in Plant Science, 2009, 14 (3): 119- 122. doi: 10.1016/j.tplants.2008.11.010
	Wen S S, Ge X L, Wang R, et al. An efficient Agrobacterium-mediated transformation method for hybrid poplar 84K (Populus alba × P. glandulosa) using calli as explants. International Journal of Molecular Sciences, 2022, 23 (4): 2216. doi: 10.3390/ijms23042216
	Xu W F, Wang F, Zhang M, et al. Diversity of cultivable endophytic bacteria in mulberry and their potential for antimicrobial and plant growth-promoting activities. Microbiological Research, 2019, 229, 126328. doi: 10.1016/j.micres.2019.126328
	Zhang J J, Shi L, Chen H, et al. An efficient Agrobacterium-mediated transformation method for the edible mushroom Hypsizygus marmoreus. Microbiological Research, 2014, 169 (9/10): 741- 748.
	Zhang W J, Zhou Y, Zhang Y, et al. Protein phosphorylation: a molecular switch in plant signaling. Cell Reports, 2023, 42 (7): 112729.. doi: 10.1016/j.celrep.2023.112729
	Zhao L, Wang M R, Cui Z H, et al. Combining thermotherapy with cryotherapy for efficient eradication of apple stem grooving virus from infected in-vitro-cultured apple shoots. Plant Disease, 2018, 102 (8): 1574- 1580. doi: 10.1094/PDIS-11-17-1753-RE

通用引物 Universal primer		序列Sequence (5'–3')		效果 Effect
通用引物 Universal primer		正向引物 Forward primer	反向引物 Reverse primer	效果 Effect
27F/1492R	A-1	AGAGTTTGATCCTGGCTCAG	ACGGCTACCTTGTTACGACTT	+
	A-2	AGAGTTTGATCCTGGCTCAG	TACGACTTAACCCCAATCGC	–
	A-3	AGTTTGATCMTGGCTCAG	GGTTACCTTGTTACGACTT	+
	A-4	TACGGYTACCTTGTTACGACTT	AGAGTTTGATCMTGGCTCAG	+
343F/798R	B-1	TACGGRAGGCAGCAG	AGGGTATCTAATCCT	–

基因编码 Gene ID	参考物种 Reference species	序列相似度 Sequence similarity (%)	Blast评分 Blast score	培养温度 Incubation temperature/℃
84K-01	短小杆菌属一种 Curtobacterium sp.(CP066341.1)	99.79	2614	37
84K-02	威廉姆斯菌属一种 Williamsia serinedens (JQ660098.1)	99.93	2634	28
84K-03	藤黄杆菌属一种 Luteibacter anthropi (CP077072.1)	99.86	2636	30

特异引物 Specific primers	序列Sequence (5'–3')
特异引物 Specific primers	正向Forward	反向Reverse
84K-01F/R	AATCTCCCCTACCGCACTCT	GCAAGTCGAACGATGATGCC
84K-02F/R	CGCTACCCACGCTTTCG	AGACACGGCCCAGACTCCT
84K-03F/R	TACTCGCTGGCAACTAAGGAC	CTGGGAATGGCAATGGATA

[1]	郭建荣, 万贤崇. 杨树苗木完整植株根压的昼夜节律及其影响因素[J]. 林业科学, 2017, 53(10): 22-28.
[2]	向伟, 喻艳, 刘静, 徐立, 黄先智, 丁天龙, 左少纯. 新疆药桑枝条中抗氧化活性成分sanggenon A的分离鉴定[J]. 林业科学, 2016, 52(3): 30-35.
[3]	彭方仁郭红彦吴青霞. 银杏营养贮藏蛋白质的分离鉴定[J]. 林业科学, 2010, 46(3): 52-55.
[4]	任建军;师光禄王建文谷继成王有年;. 薄荷中杀螨活性物质的分离与鉴定*[J]. 林业科学, 2009, 12(6): 77-82.
[5]	张锡津田国忠黄钦才. 温度处理和茎尖培养结合脱除泡桐丛枝病类菌原体(MLO)[J]. , 1994, 30(1): 34-38.