核桃腐烂病生防桑氏链霉菌HT1抑菌物质筛选及防效评价

doi:10.16409/j.cnki.2095-039x.2026.02.024

中国生物防治学报 ›› 2026, Vol. 42 ›› Issue (3): 672-684.DOI: 10.16409/j.cnki.2095-039x.2026.02.024

• 研究论文 • 上一篇

核桃腐烂病生防桑氏链霉菌HT1抑菌物质筛选及防效评价

袁中堂^1,2, 王卫雄^1,2, 张强^3,4, 邓浩⁵, 王友燕⁵, 王琦⁶, 吴迪^1,2, 牛犇^1,2

1. 东北林业大学林木遗传育种全国重点实验室, 哈尔滨 150040;
2. 东北林业大学生命科学学院, 哈尔滨 150040;
3. 新疆林业科学院经济林研究所, 乌鲁木齐 830000;
4. 新疆阿克苏森林生态系统国家定位观测研究站, 阿克苏 843100;
5. 新疆理工学院经济贸易与管理学院, 阿克苏 843100;
6. 中国农业大学植物病理学系, 北京 100193

收稿日期:2025-05-13 发布日期:2026-06-25
通讯作者: 吴迪，博士，副教授，E-mail：wudi_nefu@nefu.edu.cn;牛犇，博士，教授，E-mail：ben_niu@nefu.edu.cn
作者简介:袁中堂，硕士研究生，E-mail：2914466597@qq.com
基金资助:
新疆维吾尔自治区重点研发计划(2022B02014); 新疆维吾尔自治区“天池英才”引进计划

Screening of Antibacterial Substances from Streptomyces sampsonii HT1 and Their Control Effect on Walnut Cytospora Canker

YUAN Zhongtang^1,2, WANG Weixiong^1,2, ZHANG Qiang^3,4, DENG Hao⁵, WANG Youyan⁵, WANG Qi⁶, WU Di^1,2, NIU Ben^1,2

1. State Key Laboratory of Tree Genetics and Breeding, Northeast Forestry University, Harbin 150040, China;
2. College of Life Science, Northeast Forestry University, Harbin 150040, China;
3. Research Institute of Economic Forestry, Xinjiang Academy of Forestry Science, Urumqi 830000, China;
4. Xinjiang Aksu Forest Ecosystem National Positioning Observation and Research Station, Aksu 843100, China;
5. School of Economics, Trade and Management, Xinjiang Institute of Technology, Aksu 843100, China;
6. Department of Plant Pathology, China Agricultural University, Beijing 100193, China

Received:2025-05-13 Published:2026-06-25

摘要/Abstract

摘要： 核桃腐烂病作为一种危害程度高且防治难度大的真菌病害，已经严重制约核桃产业的健康发展。筛选能够高效拮抗核桃腐烂病病原菌的生防细菌，对提高核桃腐烂病的防治效果以及开展环境友好的病害防控具有重要意义。本研究通过平板对峙试验从核桃伤流液中筛选一株具有高效拮抗金黄壳囊孢菌能力的生防菌株HT1，培养2 d的发酵滤液对金黄壳囊孢菌的抑菌率高达85.71%。基于16S rRNA基因序列比对，鉴定该菌株为桑氏链霉菌HT1。通过非靶向代谢组学分析，在菌株HT1的发酵滤液中检测到780种差异上调的代谢物。其中，尼氟酸、三苯基氧膦及橙皮素等3种物质含量分别为17.73、0.24和0.42 mg/L，对金黄壳囊孢菌表现出良好的拮抗效果，其IC₅₀分别为2.30、3.18和5.39 mg/L。核桃离体枝条防病试验显示菌株HT1的发酵液、发酵滤液及3种抑菌代谢物均能有效防治核桃腐烂病的发生，防治效果33.33%～74.23%。本研究表明，桑氏链霉菌HT1发酵滤液的代谢组分，对核桃腐烂病的防控具有应用潜力。

关键词: 桑氏链霉菌HT1, 核桃腐烂病, 金黄壳囊孢菌, 生物防治, 非靶向代谢组学

Abstract: Walnut Cytospora canker, a highly destructive and challenging fungal disease to manage, has severely constrained the healthy development of the walnut industry. Screening biocontrol bacteria that can efficiently antagonize walnut Cytospora canker is of great significance for improving control effect of walnut Cytospora canker and developing environment-friendly disease management strategies. In this study, through plate confrontation test, a biocontrol strain HT1 capable of efficiently antagonizing Cytospora chrysosperma was isolated from the bleeding sap of walnuts. The inhibition rate of the fermentation filtrate of strain HT1 cultured for 2 days against C. chrysosperma was as high as 85.71%. Based on the alignment of the 16S rRNA gene sequence, it was identified as Streptomyces sampsonii HT1. Through untargeted metabolomics, 780 differentially upregulated metabolites were detected in the fermentation filtrate of strain HT1. Among them, the concentrations of niflumic acid, triphenylphosphine oxide, and hesperetin, were 17.73 mg/L, 0.24 mg/L, and 0.42 mg/L respectively. These substances exhibited good inhibitory effects on C. chrysosperma, with IC₅₀ values of 2.30 mg/L, 3.18 mg/L, and 5.39 mg/L respectively. In vitro experiment on walnut branches demonstrated that the fermentation broth, fermentation filtrate, and three antibacterial metabolites of strain HT1 could effectively control walnut Cytospora canker, with the efficacy of 33.33%-74.23%. Our findings indicate that the fermentation filtrate of C. chrysosperma HT1 contains antibacterial metabolic components, possessing potential application value in the walnut Cytospora canker control.

Key words: Streptomyces sampsonii HT1, walnut Cytospora canker, Cytospora chrysosperma, biocontrol, untargeted metabolomics

中图分类号:

S476

袁中堂, 王卫雄, 张强, 邓浩, 王友燕, 王琦, 吴迪, 牛犇. 核桃腐烂病生防桑氏链霉菌HT1抑菌物质筛选及防效评价[J]. 中国生物防治学报, 2026, 42(3): 672-684.

YUAN Zhongtang, WANG Weixiong, ZHANG Qiang, DENG Hao, WANG Youyan, WANG Qi, WU Di, NIU Ben. Screening of Antibacterial Substances from Streptomyces sampsonii HT1 and Their Control Effect on Walnut Cytospora Canker[J]. Chinese Journal of Biological Control, 2026, 42(3): 672-684.

/ 推荐

参考文献

[1] 怀婷婷,卫伟,刘春晓,等.核桃产业和贸易现状及发展建议[J].安徽农业科学, 2023, 51(18):203-208.
[2] 温家康,张萍,王茹,等.新疆野核桃枝条组织结构与核桃腐烂病抗性的关系[J].西南农业学报, 2023, 36(8):1686-1693.
[3] 王瀚,卓平清,王让军,等.核桃腐烂病研究进展[J].东北农业科学, 2019, 44(3):23-27.
[4] 高鹤,赵宝军,王云飞,等.辽西地区主栽品种核桃腐烂病发生、流行情况调查[J].新农业, 2017(9):6-9.
[5] 王瀚,卓平清,王让军,等.陇南核桃腐烂病一株伴生细菌的分离与鉴定[J].绵阳师范学院学报, 2020, 39(11):66-69, 87.
[6] 郭开发,王刚,吴彩兰,等.新疆南疆核桃树腐烂病菌鉴定[J].新疆农业科学, 2016, 53(3):496-501.
[7] 孔婷婷,岳朝阳,刘爱华,等.核桃腐烂病的发生和综合防控研究进展[J].防护林科技, 2016,(10):65-66, 72.
[8] 周静.核桃树腐烂病田间防治药剂的筛选[J].落叶果树, 2024, 56(5):76-78.
[9] Liang X, Lin Y, Yu W et al. Chaetoglobosin A contributes to the antagonistic action of Chaetomium globosum strain 61239 toward the apple Valsa Canker pathogen Cytospora mali[J]. Phytopathology, 2023, 113(8):1494-1505.
[10] Scherlach K, Boettger D, Remme N, et al. The chemistry and biology of cytochalasans[J]. Natural Product Reports, 2010, 27(6):869-886.
[11] Virag A, Griffiths A J. A mutation in the Neurospora crassa actin gene results in multiple defects in tip growth and branching[J]. Fungal Genetics and Biology, 2004, 41(2):213-225.
[12] Liu A, Zhang P, Bai B, et al. Volatile organic compounds of endophytic Burkholderia pyrrocinia strain JK-SH007 promote disease resistance in poplar[J].Plant Disease, 2020, 104(6):1610-1620.
[13] 许仁伟,杨琳,何颜言,等.生防链霉菌Q2-02的分离、鉴定及其抑菌活性研究[J].热带生物学报, 2025, 16:1-8.
[14] Doppler M, Kluger B, Bueschl C, et al. Stable isotope-assisted evaluation of different extraction solvents for untargeted metabolomics of plants[J].International Journal of Molecular Sciences, 2016, 17(7):1017.
[15] Wang J., Zhang, T, Shen, X. et al. Serum metabolomics for early diagnosis of esophageal squamous cell carcinoma by UHPLC-QTOF/MS[J].Metabolomics, 2016, 12(7):116-125.
[16] Cho H Y, Park G K, Lee Y B. Simultaneous determination of morniflumate and its major active metabolite, niflumic acid, in human plasma by high-performance liquid chromatography in stability and pharmacokinetic studies[J]. Biomed Chromatography, 2013, 27(11):1438-1443.
[17] Richoll S M, Colón I. Determination of triphenylphosphine oxide in active pharmaceutical ingredients by hollow-fiber liquid-phase microextraction followed by reversed-phase liquid chromatography[J]. Journal of Chromatogr A, 2006, 1127(1-2):147-153.
[18] Kanaze F I, Kokkalou E, Georgarakis M, et al. A validated solid-phase extraction HPLC method for the simultaneous determination of the citrus flavanone aglycones hesperetin and naringenin in urine[J]. Journal of Pharmaceutical and Biomedical Analysis, 2004, 36(1):175-181.
[19] Schymanski E L, Jeon J, Gulde R, et al. Identifying small molecules via high resolution mass spectrometry:communicating confidence[J]. Environmental Science&Technology, 2014, 48(4):2097-2098.
[20] Hanke G T, Northrop F D, Devine G R, et al. Chloride channel antagonists perturb growth and morphology of Neurospora crassa[J]. FEMS Microbiology Letters, 2001, 201(2):243-247.
[21] Awan Z A, Shoaib A, Schenk P M, et al. Antifungal potential of volatiles produced by Bacillus subtilis BS-01 against Alternaria solani in Solanum lycopersicum[J]. Frontiers in Plant Science, 2023, 13:1089562.
[22] CarevićT, KostićM, NikolićB, et al. Hesperetin-between the ability to diminish mono-and polymicrobial biofilms and toxicity[J]. Molecules, 2022,27(20):6806.
[23] 李晶晶,田赐,王明思,等. 113种植物的乙醇提取物对反枝苋和马唐种子萌发及生长的抑制活性[J].中国生物防治学报, 2022, 38(2):374-382.
[24] 高林,付思娜,马腾,等.杨树烂皮病拮抗细菌鉴定及无菌滤液抑菌效果研究[J].山东林业科技, 2024, 54(3):1-7.
[25] 刘志金.不同树龄核桃园土壤微生物多样性及核桃腐烂病拮抗菌的筛选[D].塔里木:塔里木大学, 2024.
[26] 王宁,黄伟,鲁致远,等.苹果树腐烂病生防链霉菌A144的鉴定及其代谢产物的抑菌活性[J].西北农业学报, 2023, 32(3):440-449.
[27] 张扬.橄榄链霉菌Fb4发酵条件优化及其抑菌物质对苹果树腐烂病菌的抑制作用[D].兰州:甘肃农业大学, 2024.
[28] 董德鑫,邢歧,李文珍,等.梧宁霉素发酵液防治苹果树腐烂病试验[J].中国果树, 1990(2):34-35.
[29] 贺春玲.长木蜂蜂粮防腐机理研究[D].南京:南京林业大学, 2009.
[30] 张博阳,朱天辉,韩珊,等.桑氏链霉菌几丁质酶ChiKJ40基因的克隆表达及其抑菌作用[J].微生物学通报, 2018, 45(5):1016-1026.
[31] Xiu L, Yu X, Xue Z. Response mechanism of Saccharomyces cerevisiae under benzoic acid stress in ethanol fermentation[J]. Scientific Reports, 2024,14(1):28757.
[32] Da X, Nishiyama Y, Tie D, et al. Antifungal activity and mechanism of action of Ou-gon(Scutellaria root extract)components against pathogenic fungi[J].Scientific Reports, 2019, 9(1):1683.
[33] Jin Y S. Recent advances in natural antifungal flavonoids and their derivatives[J]. Bioorganic&Medicinal Chemistry Letters, 2019, 29(19):126589.
[34] 赵亚婧,张宏.白念珠菌能量代谢与致病性[J].菌物学报, 2020, 39(11):2076-2087.
[35] 马伟虎,程红刚,杨璟,等.香豆素对灰葡萄孢霉菌抑菌作用机理初探[J].农药学学报, 2020, 22(5):775-781.
[36] 王宝君.一株喜树内生真菌G4代谢物中抗植物病原菌活性物质的分离与鉴定[D].合肥:安徽农业大学, 2017.
[37] Chang W, Liu J, Zhang M, et al. Efflux pump-mediated resistance to antifungal compounds can be prevented by conjugation with triphenylphosphonium cation[J]. Nature Communications, 2018, 9(1):5102.
[38] 陈晓莲,杨镇朵,丁辉,等.环孢素A联合抗真菌药物体外抗茄病镰刀菌效果研究[J].国际眼科杂志, 2020, 20(9):1567-1572.

核桃腐烂病生防桑氏链霉菌HT1抑菌物质筛选及防效评价

Screening of Antibacterial Substances from Streptomyces sampsonii HT1 and Their Control Effect on Walnut Cytospora Canker

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

联系我们

[1]	吴沛林, 陈祯鸿, 齐志浩, 康开权, 陈建兴, 林后恩, 梁光红. 杉肤小蠹的捕食天敌——红腹郭公虫的生物学特性[J]. 中国生物防治学报, 2026, 42(3): 546-554.
[2]	金利容, 王玲, 许冬, 杨妮娜, 尹海辰, 黄薇, 刘林芳, 万鹏. 恶臭假单胞菌HB3S-20对番茄青枯病的抑制作用及其抑菌机制初探[J]. 中国生物防治学报, 2026, 42(3): 637-647.
[3]	束长龙, 彭东海, 曹蓓蓓, 谢家建, 张杰. 我国苏云金芽胞杆菌研究应用发展历程与展望[J]. 中国生物防治学报, 2026, 42(2): 278-291.
[4]	刘紫依, 王震铄, 李燕, 曾庆超, 王琦. 植物病害生防芽胞杆菌研究进展[J]. 中国生物防治学报, 2026, 42(2): 317-327.
[5]	陈捷, 刘宏毅, 张成, 杨从州, 张学力. 木霉生防的增效路径：从机理突破到产品创新[J]. 中国生物防治学报, 2026, 42(2): 328-340.
[6]	杨锡朗, 束长龙, 向文胜. 国内外生防放线菌商业化登记现状及应用[J]. 中国生物防治学报, 2026, 42(2): 341-349.
[7]	刘晨晨, 吴蓓蕾, 蒋细良. 木霉病毒研究进展及展望[J]. 中国生物防治学报, 2026, 42(2): 489-495.
[8]	林龙, 管芸, 薛畅达, 高鹏龙, 王平平, 崔传斌, 钱国良. 生防黑附球菌En13的抗真菌活性分析[J]. 中国生物防治学报, 2026, 42(2): 503-511.
[9]	李亚红, 姚力铭, 陈心宇, 王科晶, 王斌, 蒋先芝, 刘文德, 赵长江, 吴瀚翔. 复合芽孢杆菌种衣剂对玉米茎腐病的防治及促生作用[J]. 中国生物防治学报, 2026, 42(1): 1-9.
[10]	胡尊瑞, 段彦丽, 展昭凤, 高乐, 汤久杨, 王振营, 吴晓云, 田家铭. 赤眼蜂不同品系对亚洲玉米螟的田间防治效果[J]. 中国生物防治学报, 2026, 42(1): 134-142.
[11]	杨光源, 张轲, 王广, 蔡浩升, 李政宾, 谢永辉, 茶陈文, 顾小飞, 陈斌. 一株侵染斜纹夜蛾的核型多角体病毒的分离鉴定及毒力分析[J]. 中国生物防治学报, 2026, 42(1): 208-217.
[12]	阮宏椿, 黄艳琴, 贾孟, 徐婷, 兰成忠. 链霉菌FJ-10的鉴定及其对大豆炭疽病的防效[J]. 中国生物防治学报, 2025, 41(6): 1369-1378.
[13]	王艳平, 张凯, 贾景丽, 郑玉宝, 贾立君, 赵静陶, 王凤鹭, 李乾, 毛海岩, 张崇, 杨宇, 吴元华. 马铃薯疮痂病生防菌贝莱斯芽胞杆菌Apcs-1鉴定及促生防病特性[J]. 中国生物防治学报, 2025, 41(6): 1390-1402.
[14]	王艺璇, 柳敬龙, 李惠霞, 费芍丹, 孙佳聪, 任兴平, 田晓明, 刘永刚, 张海英. 生防副地衣芽孢杆菌ZYGT1811的GFP标记及其在小麦植株和根际土的定殖动态[J]. 中国生物防治学报, 2025, 41(6): 1403-1411.
[15]	肖畑, 高雨欣, 郭开发, 金晨钟, 郝亚伦. 农用酵素对油茶炭疽病的防治效果[J]. 中国生物防治学报, 2025, 41(6): 1430-1438.