Bibliometric Analysis of Mycotoxin Detection Technology Based on Web of Science Database: Visualization and Quantification

doi:10.19586/j.2095-2341.2024.0161

Current Biotechnology ›› 2025, Vol. 15 ›› Issue (2): 314-324.DOI: 10.19586/j.2095-2341.2024.0161

• Articles • Previous Articles Next Articles

Bibliometric Analysis of Mycotoxin Detection Technology Based on Web of Science Database: Visualization and Quantification

Zile WANG(), Dongdong CHEN, Tao PENG()

Chinese Academy of Inspection and Quarantine，Beijing 100176，China

Received:2024-10-21 Accepted:2024-12-03 Online:2025-03-25 Published:2025-04-29
Contact: Tao PENG

基于Web of Science数据库的真菌毒素检测技术可视化计量分析

王梓乐(), 陈冬东, 彭涛()

中国检验检疫科学研究院，北京 100176

通讯作者: 彭涛
作者简介:王梓乐E-mail：wangzl@caiq.org.cn；
基金资助:
国家重点研发计划项目(2022YFF1101004)

Abstract

Abstract:

Mycotoxin contamination constitutes a significant public health concern that seriously threatens human health and livestock development， highlighting the crucial need to enhance detection capabilities. This study conducted quantitative analysis and visual representation of productive countries， institutions， researchers， publishing journals， highly cited documents， and keywords using data from the Web of Science Core Collection database. Our findings reveal that mycotoxin detection technology research is experiencing rapid growth， with an established international collaboration network. China leads in publication output and maintains world-class research status. Ghent University， Sarah De Saeger， and Food Control emerge as the most productive institution， researcher， and journal， respectively. Interdisciplinary integration has accelerated research progress， with Chinese scholars increasingly assuming leadership roles. Keyword clustering identifies four primary research themes： mycotoxin biosynthesis， instrumental analysis， immunoassay development， and toxicity/risk assessment. Recent high-frequency keywords in immunoassay research highlight emerging frontiers， particularly novel recognition elements （e.g.， aptamers） and advanced detection modalities （e.g.， biosensors） as current research hotspots.

Key words: mycotoxin, detection technology, bibliometric analysis, knowledge graph

摘要：

真菌毒素污染对人类健康和畜牧业的发展构成严重威胁，是重要的公共卫生问题，提升真菌毒素检验检测能力具有重大意义。基于文献计量学对Web of Science核心数据库中与真菌毒素检测相关文献的出版量、高产国家、研究机构、研究人员、发文期刊、高被引文献和关键词等要素进行定量分析和可视化展示，期望为该领域的科技创新提供数据参考。结果显示，真菌毒素检测技术领域的研究成果正处于快速增长期；国际上已形成紧密的合作网络，中国在该领域的发文量稳居第一，研究成果处于世界前沿水平；比利时根特大学、De Saeger Sarah和《Food Control》分别是最高产的研究机构、人员和学术期刊，学科的交叉融合促进了该领域研究的推进，我国研究人员逐渐成为该领域发展的中坚力量；关键词聚类显示研究主题集中在真菌毒素的产生、真菌毒素的仪器分析、免疫分析、毒性和风险评估方向；免疫分析主题中具有更多的新发高频关键词，核酸适配体、传感器等新识别元件和新检测模式的开发是前沿性研究热点。

关键词: 真菌毒素, 检测技术, 文献计量分析, 知识图谱

CLC Number:

Q939.5

Zile WANG, Dongdong CHEN, Tao PENG. Bibliometric Analysis of Mycotoxin Detection Technology Based on Web of Science Database: Visualization and Quantification[J]. Current Biotechnology, 2025, 15(2): 314-324.

王梓乐, 陈冬东, 彭涛. 基于Web of Science数据库的真菌毒素检测技术可视化计量分析[J]. 生物技术进展, 2025, 15(2): 314-324.

Figures/Tables 11

References 57

1	鄂丽霞. 基于公共卫生的疾控中心食源性疾病监测体系构建[J]. 食品安全导刊, 2024(14): 13-15.
	E L X. Construction of a foodborne disease monitoring system for centers for disease control and prevention based on public health[J]. China Food Safety Mag., 2024(14): 13-15.
2	申慧婧,张弛,周爽,等.食品中新兴真菌毒素检测技术及其污染现状研究进展[J].食品安全质量检测学报,2023,14(12):203-213.
	SHEN H J, ZHANG C, ZHOU S, et al.. Research progress of emerging mycotoxin detection technology and its contamination status in food[J]. J. Food Saf. Qual., 2023, 14(12): 203-213.
3	KHAN R. Mycotoxins in food: occurrence, health implications, and control strategies-a comprehensive review[J/OL]. Toxicon, 2024, 248: 108038[2024-11-25]. .
4	ÜLGER T G, UÇAR A, ÇAKıROĞLU F P, et al.. Genotoxic effects of mycotoxins[J]. Toxicon, 2020, 185: 104-113.
5	STOEV S D. Foodborne diseases due to underestimated hazard of joint mycotoxin exposure at low levels and possible risk assessment[J/OL]. Toxins (Basel), 2023, 15(7): 464[2024-11-25]. .
6	张晶,高素艳,杜兆林,等.粮油作物真菌毒素污染现状及控制[J].农业环境科学学报,2022,41(12):2680-2687.
	ZHANG J, GAO S Y, DU Z L, et al.. Contamination status and control of mycotoxins in grain and oil crops[J]. J. Agro. Environ. Sci., 2022, 41(12): 2680-2687.
7	ALSHANNAQ A, YU J H. Occurrence, toxicity, and analysis of major mycotoxins in food[J/OL]. Int. J. Environ. Res. Public Health, 2017, 14(6): 632[2024-11-25]. .
8	苏青云,齐莎日娜,雷元培,等.2022年中国饲料和原料中霉菌毒素污染调查报告[J].饲料工业,2024(9):121-125.
	SU Q Y, QI S, LEI Y P, et al.. Survey report on the mycotoxin contamination of Chinese raw materials and feed in 2022[J]. Feed. Ind., 2024(9): 121-125.
9	王新慧,许宏扬,刘沛尧,等.黄曲霉毒素B1对奶牛的危害及防控研究进展[J].中国奶牛,2021(9):44-47.
	WANG X H, XU H Y, LIU P Y, et al.. Research progress on the harm of aflatoxin B1 to dairy cows and control measures[J]. China Dairy Cattle, 2021(9): 44-47.
10	NAN M, XUE H, BI Y. Contamination, detection and control of mycotoxins in fruits and vegetables[J/OL]. Toxins (Basel), 2022, 14(5): 309[2024-11-25]. .
11	SALEH S K H, HASSAN K I, MAHMUD P H S, et al.. Assessment of fungal species in some spices using molecular study with detection of their mycotoxins using chromatography analysis[J/OL]. Biomed. Chromatogr., 2024, 38(7): e5889[2024-11-25]. .
12	DRUSCH S, RAGAB W. Mycotoxins in fruits, fruit juices, and dried fruits[J]. J. Food Prot., 2003, 66(8): 1514-1527.
13	WU T, KANG K, XIA Y, et al.. Development and validation of a liquid chromatography tandem mass spectrometry method for the determination of 10 mycotoxins in beer of the Chinese market and exposure estimate[J/OL]. Food Res. Int., 2024, 184: 114256[2024-11-25]. .
14	MORETTI A, PASCALE M, LOGRIECO A F. Mycotoxin risks under a climate change scenario in Europe[J]. Trends Food Sci. Technol., 2019, 84: 38-40.
15	SEIDEL D, WURSTER S, JENKS J D, et al.. Impact of climate change and natural disasters on fungal infections[J]. Lancet Microbe, 2024, 5(6): e594-e605.
16	LI M, WANG Y, XUE H, et al.. Scientometric analysis and scientific trends on microplastics research[J/OL]. Chemosphere, 2022, 304: 135337[2024-11-25]. .
17	赵蓉英,许丽敏.文献计量学发展演进与研究前沿的知识图谱探析[J].中国图书馆学报,2010,36(5):60-68.
18	梁刚, 高羽菲, 甄建辉, 等. 基于文献计量的抗生素适配体传感技术研究进展与热点分析[J]. 分析试验室, 2024, 43(4): 595-608.
	LIANG G, GAO Y F, ZHEN J H, et al.. Progress and hotspots analysis of antibioticaptamer-based sensing technology: A bibliometric analysis[J]. Chin. J. Anal. Labor., 2024, 43(04): 595-608.
19	陈君帅,赵辉,闫华晓,等.基于文献计量的微生物胞外聚合物研究可视化分析[J].微生物学通报,2024,51(11):4768-4786.
	CHEN J S, ZHAO H, YAN H X, et al.. Visual analysis of research on microbial extracellular polymeric substances based on bibliometrics[J]. Microbiol. China, 2024, 51(11): 4768-4786.
20	赵欣鑫,刘普,高捷,等.基于文献计量的细菌-生物炭协同修复重金属污染土壤研究进展[J].生态学报,2024,44(13):5882-5892.
21	司智陟,王凤忠,张辛欣.国内外食品科学研究现状及热点分析[J].中国食物与营养,2023,29(1):5-10.
	SI Z Z, WANG F Z, ZHANG X X. Research on current situation and hotspots of food science[J]. Food Nutr. China, 2023, 29(1): 5-10.
22	龙玉娟,刘天贶,王梓得.基于文献计量的我国神经重症护理研究热点和趋势分析[J].护理与康复,2024,23(8):36-40+45.
23	许智勇,金安江,马爱民.世界食品营养学研究文献计量分析[J].中国食品学报,2023,23(7):442-454.
	XU Z Y, JIN A J, MA A M. Bibliometric analysis of global trends in food nutrition research[J]. J. Chin. Inst. Food Sci. Technol., 2023, 23(7): 442-454.
24	张志娟,郭春景.基于文献计量的全球真菌毒素研究态势分析[J].辽宁农业科学,2023(2):34-41.
	ZHANG Z J, GUO C J. Development trend analysis of mycotoxins based on bibliometrics[J]. Liaoning Agric. Sci., 2023(2): 34-41.
25	郭春景,张志娟,王建忠.基于文献计量的真菌毒素研究热点分析[J].农业与技术,2023,43(2):9-11.
	GUO C J, ZHANG Z J, WANG J Z. Hot spot analysis of mycotoxin research based on bibliometrics[J]. Agric. Technol., 2023, 43(2): 9-11.
26	WU H, ZHOU Y, XU L, et al.. Mapping knowledge structure and research frontiers of ultrasound-induced blood-brain barrier opening: a scientometric study[J/OL]. Front. Neurosci., 2021, 15: 706105[2024-11-25]. .
27	李锐.基于知识图谱分析胶体金免疫层析技术在食品检测领域中的研究进展[J].现代食品,2024,30(3):36-42+53.
	LI R. Research progress of colloidal gold immunochromatography in food detection based on knowledge graph analysis[J]. Mod. Food, 2024, 30(3): 36-42+53.
28	ZHANG X, FAN X, SONG R, et al.. A smartphone-controlled portable multiplexed photoelectrochemical sensor based on dual UV intelligent response system-assisted signal resolution strategy[J/OL]. Sens. Actuat. B Chem., 2024, 404: 135281[2024-11-25]. .
29	LIU H, SHI Y, YE J, et al.. An automated magnetic beads-based chemiluminescence immunoassay system for simultaneous quantification of multi-mycotoxins in agricultural products[J/OL]. Sens. Actuat. B Chem., 2024, 420: 136424[2024-11-25]. .
30	MOU Y, ZHANG Y, CHEN M, et al.. Dual-mode aptasensor based on a coumarin-benzothiazole fluorescent and colorimetric probe for label-free and visual detection of ochratoxin A[J]. Sens. Actuat. B Chem., 2024:408[2024-11-25]. .
31	WANG J, ZHU L, LI T, et al.. In silico simulation-guided engineering of multifunctional bivalent light up aptamer for sensitive and on-site detection of AFB1 using label-free ratiometric fluorescent aptasensor[J/OL]. Sens. Actuat. B Chem., 2024, 420: 136425[2024-11-25]. .
32	AGGARWAL A, MISHRA A, TABASSUM N, et al.. Detection of mycotoxin contamination in foods using artificial intelligence: a review[J/OL]. Foods, 2024, 13(20): 3339[2024-11-25]. .
33	RICHARD J L. Some major mycotoxins and their mycotoxicoses: an overview[J]. Int. J. Food Microbiol., 2007, 119(1-2): 3-10.
34	OSTRY V. Alternaria mycotoxins: an overview of chemical characterization, producers, toxicity, analysis and occurrence in foodstuffs[J]. World Mycotoxin J., 2008, 1(2): 175-188.
35	SULYOK M, BERTHILLER F, KRSKA R, et al.. Development and validation of a liquid chromatography/tandem mass spectrometric method for the determination of 39 mycotoxins in wheat and maize[J]. Rapid Commun. Mass Spectrom., 2006, 20(18): 2649-2659.
36	SHEPHARD G S, SYDENHAM E W, THIEL P G, et al.. Quantitative determination of fumonisins B1 and B2 by high-performance liquid chromatography with fluorescence detection[J]. J. Liq. Chromatogr., 1990, 13(10): 2077-2087.
37	NIELSEN K F, SMEDSGAARD J. Fungal metabolite screening: database of 474 mycotoxins and fungal metabolites for dereplication by standardised liquid chromatography-UV-mass spectrometry methodology[J]. J. Chromatogr. A, 2003, 1002(1-2): 111-136.
38	CRUZ-AGUADO J A, PENNER G. Determination of ochratoxin a with a DNA aptamer[J]. J. Agric. Food Chem., 2008, 56(22): 10456-10461.
39	MOL H G, PLAZA-BOLAÑOS P, ZOMER P, et al.. Toward a generic extraction method for simultaneous determination of pesticides, mycotoxins, plant toxins, and veterinary drugs in feed and food matrixes[J]. Anal. Chem., 2008, 80(24): 9450-9459.
40	LIN Y, ZHOU Q, TANG D, et al.. Signal-on photoelectrochemical immunoassay for aflatoxin B₁ based on enzymatic product-etching MnO₂ nanosheets for dissociation of carbon dots[J]. Anal. Chem., 2017, 89(10): 5637-5645.
41	SMEDSGAARD J. Micro-scale extraction procedure for standardized screening of fungal metabolite production in cultures[J]. J. Chromatogr. A, 1997, 760(2): 264-270.
42	ARENDRUP M C, BOEKHOUT T, AKOVA M, et al.. ESCMID and ECMM joint clinical guidelines for the diagnosis and management of rare invasive yeast infections[J]. Clin. Microbiol. Infect., 2014, 20(): 76-98.
43	KLINGELHÖFER D, ZHU Y, BRAUN M, et al.. Aflatoxin-Publication analysis of a global health threat[J]. Food Contr., 2018, 89: 280-290.
44	KLINGELHÖFER D, BRAUN M, SCHÖFFEL N, et al.. Ochratoxin-characteristics, influences and challenges of global research[J/OL]. Food Contr., 2020, 114: 107230[2024-11-25]. .
45	张蕴哲, 张先舟, 袁耀武, 等. IAC协同ELISA法检测赭曲霉毒素A[J/OL]. 食品科学, 2024: 119[2024-11-25]. .
	ZHANG Y Z, ZHANG X Z, YUAN Y W, et al.. Collaborative detection of ochratoxin A using IAC and ELISA[J/OL]. Food Science, 2024: 119[2024-11-25]. .
46	邢常瑞,郑欣,董雪,等.免疫快速同步检测玉米中5种真菌毒素胶体金试纸条的构建和应用[J].中国粮油学报,2023,38(11):205-210.
	XING C R, ZHENG X, DONG X, et al.. Development and application of colloidal gold test strip for simultaneously and fast detection of five mycotoxins in maize[J]. J. Chin. Cereals Oils Assoc., 2023, 38(11): 205-210.
47	霍炳帆, 马骉, 厉佳丽, 等. 基于荧光纳米颗粒的免疫层析技术同步快速检测药食同源药材中的3种真菌毒素[J]. 现代食品科技, 2024: 1-10.
	HUO B F, MA B, LI J L, et al.. Simultaneous and rapid detection of three mycotoxins in medicinal materials with homology of medicine and food by immunochromatography based on fluorescent nanoparticle[J]. Modern Food Sci. Technol., 2024: 1-10.
48	杨祥龙,毛劲,程玲,等.分子印迹聚合物在真菌毒素检测中的研究进展[J].化学试剂,2024,46(7):1-10.
	YANG X L, MAO J, CHENG L, et al.. Recent advances of molecularly imprinted polymers in mycotoxin detection[J]. Chem. Reag., 2024, 46(7): 1-10.
49	吕泽平,卫敏.基于核酸适配体的荧光传感器检测赭曲霉毒素A[J].河南工业大学学报(自然科学版),2023,44(2):16-23.
	LYU Z P, WEI M. Detection of ochratoxin A by fluorescence sensor based on aptamer[J]. J. Henan Univ. Technol. Nat. Sci. Ed., 2023, 44(2): 16-23.
50	陈颖,于宁,彭涛,等.现场执法食品安全快速检测产品研发与应用[J].质量安全与检验检测,2023(1):46-52.
	CHEN Y, YU N, PENG T, et al.. Development and application of rapid testing of food safety on site law enforcement[J]. Qual. Saf. Insp. Test., 2023(1): 46-52.
51	史莹,吴振洲,王玥,等.不同厂家酶联免疫试剂盒检测饲料中霉菌毒素效果评价[J].当代畜牧,2022(8):15-19.
	SHI Y, WU Z Z, WANG Y, et al.. Evaluation of enzyme-linked immunosorbent assay kits from different manufacturers for mycotoxin detection in feed[J]. Contemp. Anim. Husb., 2022(8): 15-19.
52	倪启迪, 杨元涛, 苏玉梅, 等. 国产食品安全检测试纸条的应用现状[J]. 食品安全导刊, 2024(21): 10-12.
	NI Q D, YANG Y T, SU Y M, et al.. Application status of domestic food safety test strip[J]. China Food Safety Mag., 2024(21): 10-12.
53	王韦达, 杨睿, 郑彦婕, 等. 国内外食品快速检测方法评价技术研究[J]. 食品与药品, 2024, 26(01): 96-103.
	WANG W D, YANG R, ZHENG Y J, et al.. Research on evaluation technology of food rapid detection methods at home and abroad[J]. Food Drug, 2024, 26(01): 96-103.
54	王浩,郭佳佳,马斌,等.食用农产品快速检测产品评价的意义及过程[J].中国食品,2023(14):75-77.
55	KARSAULIYA K, YAHAVI C, PANDEY A, et al. Co-occurrence of mycotoxins: a review on bioanalytical methods for simultaneous analysis in human biological samples, mixture toxicity and risk assessment strategies. Toxicon, 2022, 218: 25-39.
	KARSAULIYA K, YAHAVI C, PANDEY A, et al.. Co-occurrence of mycotoxins: a review on bioanalytical methods for simultaneous analysis in human biological samples, mixture toxicity and risk assessment strategies[J]. Toxicon, 2022, 218: 25-39.
56	陈鑫璐,邱月,张建友,等.国内外谷物中多种真菌毒素限量和同步检测标准及方法研究进展[J].中国粮油学报,2021,36(12):194-202.
	CHEN X L, QIU Y, ZHANG J Y, et al.. Domestic and foreign research progress on the limit standards and simultaneous detection standards and methods of multiple mycotoxins in grain[J]. J. Chin. Cereals Oils Assoc., 2021, 36(12): 194-202.
57	史姗姗,沈飞,刘晓庚.中国谷物真菌毒素降解的研究现状与发展趋势[J].粮食科技与经济,2021,46(2):84-87.
	SHI S S, SHEN F, LIU X G. Research status and development trend of mycotoxin degradation of Chinese cereals[J]. Grain Sci. Technol. Econ., 2021, 46(2): 84-87.

排名	国家	发文数量/篇	总被引次数	平均发文年份
1	中国	1 853	48 061	2019
2	美国	651	21 952	2009
3	西班牙	516	18 339	2013
4	意大利	499	17 679	2012
5	德国	411	15 593	2011
6	巴西	269	5 903	2014
7	比利时	245	8 516	2013
8	奥地利	206	11 598	2011
9	法国	187	6 337	2011
10	英国	177	6 459	2010

排名	国家	发文数量/篇	总被引次数	平均发文年份
1	中国	1 853	48 061	2019
2	美国	651	21 952	2009
3	西班牙	516	18 339	2013
4	意大利	499	17 679	2012
5	德国	411	15 593	2011
6	巴西	269	5 903	2014
7	比利时	245	8 516	2013
8	奥地利	206	11 598	2011
9	法国	187	6 337	2011
10	英国	177	6 459	2010

排名	机构名称	国家	发文数量/篇	总被引次数
1	根特大学	比利时	160	6 288
2	瓦伦西亚大学	西班牙	155	5 827
3	中国农业科学院	中国	137	3 751
4	江南大学	中国	118	4 098
5	江苏大学	中国	108	3 140
6	中国农业大学	中国	89	2 578
7	中国科学院	中国	86	3 166
8	南昌大学	中国	85	2 971
9	意大利国家研究委员会	意大利	82	3 783
10	慕尼黑理工大学	德国	73	3 423

排名	机构名称	国家	发文数量/篇	总被引次数
1	根特大学	比利时	160	6 288
2	瓦伦西亚大学	西班牙	155	5 827
3	中国农业科学院	中国	137	3 751
4	江南大学	中国	118	4 098
5	江苏大学	中国	108	3 140
6	中国农业大学	中国	89	2 578
7	中国科学院	中国	86	3 166
8	南昌大学	中国	85	2 971
9	意大利国家研究委员会	意大利	82	3 783
10	慕尼黑理工大学	德国	73	3 423

排名	研究人员	发文数量	总被引次数
1	De Saeger Sarah	75	3 532
2	Li Peiwu	61	1 945
3	Krska Rudolf	60	4 998
4	Zhang Qi	59	1 675
5	Sulyok Michael	47	4 297
6	Yang Meihua	42	1 106
7	Manes Jordi	41	1 796
8	Wang Zhouping	40	1 982
9	Kong Weijun	38	976
10	Han Zheng	37	1 167

Bibliometric Analysis of Mycotoxin Detection Technology Based on Web of Science Database: Visualization and Quantification

基于Web of Science数据库的真菌毒素检测技术可视化计量分析

RichHTML

PDF

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 11

References 57

Related Articles 9

Recommended Articles

Metrics

Comments

排名	期刊名称	发文数量	总被引次数	平均被引次数
1	Food Control	331	12 130	36.6
2	Toxins	329	5 668	17.2
3	Food Chemistry	321	12 318	38.4
4	Food Additives and Contaminants Part A-Chemistry Analysis Control Exposure & Risk Assessment	283	9 828	34.7
5	Journal of Agricultural and Food Chemistry	264	13 433	50.9
6	Journal of Chromatography A	190	11 251	59.2
7	Analytical and Bioanalytical Chemistry	159	6 441	40.5
8	World Mycotoxin Journal	141	2 934	20.8
9	Talanta	130	4 219	32.5
10	Analytica Chimica Acta	129	6 137	47.6

排名	文献题目	来源期刊	被引次数	发表年份
1	Some major mycotoxins and their mycotoxicoses - an overview	International Journal of Food Microbiology	697	2007
2	Development and validation of a liquid chromatography/tandem mass spectrometric method for the determination of 39 mycotoxins in wheat and maize	Rapid Communications in Mass Spectrometry	556	2006
3	Determination of ochratoxin A with a DNA aptamer	Journal of Agricultural and Food Chemistry	474	2008
4	Quantitative-determination of fumonisin-b1 and fumonisins-b2 by high-performance liquid-chromatography with fluoresence detection	Journal of Liquid Chromatography	456	1990
5	Alternaria mycotoxins: an overview of chemical characterization, producers, toxicity, analysis and occurrence in foodstuffs	World Mycotoxin Journal	402	2008
6	ESCMID and ECMM joint clinical guidelines for the diagnosis and management of rare invasive yeast infections	Clinical Microbiology and Infection	373	2014
7	Fungal metabolite screening: database of 474 mycotoxins and fungal metabolites for dereplication by standardised liquid chromatography-UV-mass spectrometry methodology	Journal of Chromatography A	372	2003
8	Toward a generic extraction method for simultaneous determination of pesticides, mycotoxins, plant toxins, and veterinary drugs in feed and food matrixes	Analytical Chemistry	368	2008
9	Signal-on photoelectrochemical immunoassay for aflatoxin B1 based on enzymatic product-etching MnO₂ nanosheets for dissociation of carbon dots	Analytical Chemistry	359	2017
10	Micro-scale extraction procedure for standardized screening of fungal metabolite production in cultures	Journal of Chromatography A	356	1997

[1]	Zhi WANG, Guang HU, Wei FU, Xuanzi PENG, Yongjiang ZHANG, Junfeng ZHAI. Bibliometric Analysis of Nucleotide-based Detection Methods for Genetically Modified Plants and Derived Products [J]. Current Biotechnology, 2025, 15(3): 476-485.
[2]	Jing WANG, Haitao GUAN, Xiaolei ZHANG, Baohuai WANG, Baohai LIU, Hongtao WEN. Detection Dynamic and Development Tendency of Agricultural Gene Editing Products [J]. Current Biotechnology, 2024, 14(5): 712-723.
[3]	Lai WEI, Fang WANG, Jiahui TAN, Xiyi CHEN, Ziyan ZHANG, Fucai ZHANG, Yufang ZHANG, Jie SUN. Origins, Detection and Removal Technology of Off-flavor Compounds in Aquatic Products [J]. Current Biotechnology, 2024, 14(5): 745-760.
[4]	Guangxuan TANG, Liwei HE, Yongyu CHEN, Jiayan ZHANG, Yaqi DAI, Huixiong LV, Lihui LIU. Techniques on Colonization and Detection of Plant Endophytes and its Application [J]. Current Biotechnology, 2023, 13(1): 55-64.
[5]	Huiru YU, Yi JI, Cheng PENG, Xiaoli XU, Xiaofu WANG, Meihao SUN, Xiaoyun CHEN. Research Progress on Detection Technology of Meat Adulteration [J]. Current Biotechnology, 2022, 12(2): 213-221.
[6]	Yuzhou XIE, Wei FU, Chaojie YAN, Zhi WANG, Pengyu ZHU, Yongchao REN, Yongjiang ZHANG, Ning XIANG. Research Progress of Detection Technology of Genetically Modified Products Based on CRISPR/Cas Principle [J]. Current Biotechnology, 2021, 11(4): 430-437.
[7]	Mengyu WANG, Haoqian WANG, Xujing WANG, Zhixing WANG. Research Progress of Gene Editing Products Detection Technology [J]. Current Biotechnology, 2021, 11(4): 438-445.
[8]	Zijian WANG, Yingyu CHEN, Changmin HU, Aizhen GUO. Development Status and Perspective of Veterinary Diagnostic Industry in China [J]. Current Biotechnology, 2021, 11(4): 471-475.
[9]	SUN Xiao-lei, YAN Pei-sheng*, WANG Kai, WANG Wen-wei, LI Meng-ying. Progress of Deep-sea Bacteria and its Bioactive Compounds on Prevention of Plant Pathogenic Fungi [J]. Curr. Biotech., 2015, 5(3): 176-184.