基于ATP生物发光法的微生物数量快速检测技术的研究进展

微生物数量的快速检测一直是工业生产与食品行业需要解决的问题,腺嘌呤核苷三磷酸(adenosine triphosphate,ATP)生物发光法具有操作简便、检测周期短等优点,可满足一般微生物检测的需求。然而,ATP生物发光法的准确性也受到不同因素的影响,如微生物的ATP检测限值较高、微生物自身及其他因素(如非微生物ATP、提取剂种类、荧光素酶活性等)均对微生物数量的检测产生影响。本文简述了不同微生物数量检测方法的优缺点,介绍了ATP生物发光法的发展历程及原理,综述了非微生物ATP与游离ATP、微生物量、ATP提取剂、荧光素酶等因素对ATP生物发光法灵敏度与稳定性的影响,归纳总结了ATP生物发光法及检测设备在食品、医疗、污水处理等领域的应用现状,并就ATP生物发光法体系的优化及ATP在线检测的应用等方面进行了展望,以期为ATP生物发光法的高效应用提供新的思路。     

ATP的生物发光与清洁

洗手、刷牙,清除污物、杀灭病菌,看似常规小事,其实不然。它与预防疾病、增进身体健康,保障食品、药品、半导体元件、航天器材等相关工业制品的安全品质,提升医院、餐馆、托儿所等各类公共场所服务水平有着密切关系。一句话：清洁、消毒是件关乎百姓福祉以及和谐、文明社会建设的重要窦事。     

生物发光法微生物快速检测试剂的性质及其影响因素研究

研究了ATP生物发光微生物快速检测试剂的反应动力学、反应最适温度、pH以及各种影响因素。在ATP生物发光反应中,测试系统中D-荧光素用量为40～50μg／mL时对反应已经足够;发光脉冲计数CPM值随反应时间的延长不断降低,开始的1min内,其CPM值下降最快,然后下降速度不断减缓;反应的最适温度为24℃～25℃;而体系的最佳pH为7．2-7．4。配制好的发光试剂溶液置于4℃保存45h,可以保持86％的活力。在25℃时保温1h,活力下降较少,随时间的增加,活力逐渐下降,到6．5h时,仅剩53．5％的活力,而在33℃时,随着保温时间的延长,酶活力下降较快,保温1．5h,活力剩下59．1％,因此保存温度对发光试剂活力的影响非常大。各种化学物质如酸、碱、盐及表面活性剂都会抑制ATP发光反应,当NaCl浓度达到1．5g／L时,即可以抑制52．5％的发光,TritonX-100及酸、碱对系统均有一定的影响,CTAB、SDS及TCA则严重抑制发光反应。     

扩增内标及其在食源性致病菌PCR检测中的应用

虽然PCR技术不断地得到了发展和改进,但检测结果容易出现假阴性而影响检测准确性的现象一直没有得到很好的解决。现在大多数学者普遍认为,在PCR体系中加入扩增内标(即一段人工构建合成的DNA序列或者是一段致病菌的看家基因序列)能有效指示假阴性现象的出现,是PCR检测技术标准化的措施之一。本文将从PCR检测方法中假阴性出现的原因、扩增内标的构建以及扩增内标在PCR检测方面的应用三方面进行综合评述,并结合本实验室的工作基础,介绍扩增内标的简捷构建过程和应用要点,希望在不影响检测灵敏度的前提下,发挥扩增内标对假阴性的指示作用。     

基于重组溶葡球菌酶和ATP生物发光技术特异定量检测金黄色葡萄球菌

基于重组溶葡球菌酶和ATP生物发光法建立特异定量检测金黄色葡萄球菌的方法。优化设计合成溶葡球菌酶序列,构建重组表达载体pQE30-Lys,转化至大肠杆菌M15并诱导表达,镍柱纯化得到目的蛋白。利用重组溶葡球菌酶和ATP生物发光法特异定量检测金黄色葡萄球菌并与平板计数对比。成功表达了重组溶葡球菌酶,并建立了特异定量检测金黄色葡萄球菌的方法,与平板计数具有显著线性关系。本研究建立的将重组溶葡球菌酶和ATP生物发光法相结合的检测方法操作快捷简单,具有良好的应用前景。     

基于裂解酶与ATP生物发光法特异定量检测炭疽杆菌方法的研究简

目的：原核表达炭疽杆菌噬菌体叮裂解酶（PlyG）和萤光素酶（Luc）,结合这2种酶建立特异定量检测炭疽杆菌的方法。方法：PCR扩增得到带有His标签的裂解酶基因和萤光素酶基因,构建重组表达载体pET22b-p@G和DET22b-luc,转化至大肠杆菌BL21（DE3）并诱导表达,过镍柱纯化得到目的蛋白;利用裂解酶裂解和ATP生物发光定量检测蜡样芽孢杆菌RSVFl,与平板计数法对比建立线性关系。结果：表达了炭疽杆菌噬菌体γ裂解酶和萤光素酶,并建立了特异定量检测蜡样芽孢杆菌RSVF1的方法,与平板计数方法具有显著的线性相关。结论：因炭疽杆菌与蜡样芽孢杆菌RSVF1均对PlyG具有较强的敏感性,故本研究所建立的将炭疽杆菌噬菌体γ裂解酶与萤光素一萤光素酶系统相结合的检测方法对现场或临床定性定量检测炭疽杆菌提供了理论支持,具有良好的应用前景。     

ATP的生物发光与清洁

北京人居环境生态条件已有明显改善,但若干中小型食品生产加工单位饮食摊点、公共服务部门场所设施的微观清洁卫生水平离"世界城市"要求还有很大差距。发达国家(欧盟、北美、日本等)均已将ATP生物发光检测方法列入相关卫生标准检测方法并建立与其对应的卫生"评价体系"和"卫生基准值制度"。     

添加有扩增内标的副溶血弧菌PCR检测方法的建立

摘要：【目的】发掘副溶血弧菌特异性更强的检测靶点,并人工构建扩增内标,建立可以有效避免假阴性的新PCR检测体系。【方法】利用生物信息学方法,从副溶血弧菌（Vibrio parahaemolyticus）基因组DNA中发掘特异性很高的序列,并设计相应的特异性引物,人工构建扩增内标,建立PCR检测体系。【结果】本研究发掘得到的序列vp1332特异性很强,经检索,该序列是编码ABC转运子接合蛋白组分的基因片段,根据此序列设计一对特异检测引物（vp1332L/vp1332R）,同时,构建了扩增内标,并建立了PCR检测体系。利用该体系对296株副溶血弧菌和33株非副溶血弧菌进行检测,结果显示,所有以副溶血弧菌为模板的PCR反应均可扩增到一条343 bp的特异片段,而模板来源于非副溶血弧菌的则只能扩增到一条499 bp的扩增内标片段。灵敏度实验表明,该PCR反应体系的检测灵敏度为1.6×102 cfu/mL。人工污染实验表明,起始染菌量为1.24 cfu/25 g样品时经8 h增菌,即可检测到副溶血弧菌。实际样品检测结果也证实该方法的有效性。【结论】本研究建立的PCR反应体系能特异地检测副溶血弧菌,并可有效地排除假阴性,提高检测准确率。     

一种利用Profile-1生物发光仪快速测定土壤中微生物量的改良方法

开发了一种利用Profile-1生物发光仪测定土壤中微生物量的改良方法,并以此方法分别测定了标准大肠杆菌茵液以及3种不同类型的土壤(九段沙湿地土壤,崇明东滩大田土壤和崇明实验地改良土壤)的微生物量,并将结果与Profile-1生物发光仪自带的标准分析方法以及传统的菌落计数法进行比较。结果显示,改良的ATP提取方法(BAB改良分析法)和Profile-1生物发光仪自带的标准分析方法都可用于液体样品中微生物量的测定,其灵敏度和准确度无显著差异(P0.05)。但在测定土壤样品时,菌落计数法测定结果大约占BAB改良分析法测定结果的1%～5%,占Profile-1生物发光仪自带的标准分析方法的测定结果的22%～99%。这表明在分析土壤样品时,BAB改良分析法较Profile-1生物发光仪自带的标准分析方法的ATP提取效率更高,可显著提高仪器检测土壤样品的灵敏度和可靠性,因此可有效应用于各类土壤的微生物量的监测,为土壤环境监控提供微生物量的可靠数据。     

生物发光法微生物快速检测试剂的性质及其影响因素研究*

研究了ATP生物发光微生物快速检测试剂的反应动力学、反应最适温度、pH以及各种影响因素。在ATP生物发光反应中,测试系统中D-荧光素用量为40～50μg／mL时对反应已经足够;发光脉冲计数CPM值随反应时间的延长不断降低,开始的1min内,其CPM值下降最快,然后下降速度不断减缓;反应的最适温度为24℃-25℃;而体系的最佳pH为7．2—7．4。配制好的发光试剂溶液置于4℃保存45h,可以保持86％的活力,在25℃时保温1h,活力下降较少,随时间的增加,活力逐渐下降,到6．5h时,仅剩53．5％的活力,而     

Continuous-flow ATP amplification system for increasing the sensitivity of quantitative bioluminescence assay

We constructed a novel ATP amplification reactor using a continuous-flow system, and this allowed us to increase the sensitivity of a quantitative bioluminescence assay by controlling the number of ATP amplification cycles. We previously developed a bioluminescence assay coupled with ATP amplification using a batch system. However, it was difficult to control the number of amplification cycles. In this study, ATP amplification was performed using a continuous-flow system, and significant linear correlations between amplified luminescence and initial ATP concentration were observed. When performing four cycles of continuous-flow ATP amplification, the gradient of amplification was 1.87^N. Whereas the lower quantifiable level was 500 pM without amplification, values as low as 50 pM ATP could be measured after amplification. The sensitivity thus increased 10-fold, with further improvements expected with additional amplification cycles. The continuous-flow system thus effectively increased the sensitivity of the quantitative bioluminescence assay.     

Enhanced firefly bioluminescence assay of ATP in the presence of ATP extractants by using diethylaminoethyl-dextran

A highly sensitive ATP bioluminescence assay with diethylaminoethyl-dextran (DEAE-Dx) in the presence of ATP extractants such as trichloroacetic acid (TCA) and Triton X-100 is described. These ATP extractants inhibited the activity of firefly luciferase, resulting in a remarkable decrease in the intensity of light emission. However, DEAE-Dx enhanced the intensity of light emission as long as firefly luciferase was active in the presence of the ATP extractants. When DEAE-Dx was used for the assay, the detection limits for ATP in the presence of TCA and Triton X-100 were 0.3 and 0.5 pM, respectively, in aqueous ATP standard solution. The detection limit in the presence of DEAE-Dx was improved 13- to 20-fold compared to that in the absence of DEAE-Dx. The method was applied to the determination of ATP in Escherichia coli extracts. When a 5% solution of TCA was used for the extraction of ATP from E. coli cells, the detection limit corresponded to 250 cells ml(-1) of E. coli.     

ATP生物荧光法快速检测化妆品中菌落总数的研究

本文从快速检测的必要性出发,介绍了ATP生物荧光法及其原理,并针对某款化妆品通过一系列实验建立了一种快速检测菌落总数的方法。将该方法用于CTFA(美国化妆品香料香精协会,Cosmetic Toiletry and Fragrance Association)实验中,并通过与平板计数法结果进行比对,发现该方法可以有效的运用于样品细菌总数的快速检测。     

Detection of E. coli in beach water within 1 hour using immunomagnetic separation and ATP bioluminescence

The contamination of beach waters occurs from the discharge of storm water and sanitary sewer over?ows containing faecal material. Additional faecal material derives from discharge of animals and waterfowl. In order to protect public from exposure to faecal‐contaminated water, it is required to test enteric indicators in beach water. The problem is that the traditional culture‐based methods cannot meet this goal because it takes too long (>24 h), so the results are not available until a day later. A rapid method for testing beach water for Escherichia coli within 1 h has been developed. Immunomagnetic separation (IMS) and ATP bioluminescence were used for selective capture and quanti?cation, respectively. This rapid method was compared to the current method (m‐TEC) using beach water samples. The beach samples were pre?ltered with a 20 µm pore size ?lter in order to remove algae, plant debris and large particles. The results showed that the pre?ltration step did not trap the bacteria which were present in the original water samples. The pre?ltered water was then passed through a 0.45 µm pore size ?lter for concentration. The deposited bacteria were resuspended and then mixed with superparamagnetic polystyrene beads (diameter of 0.6 µm) that were coated with E. coli antibodies. After IMS, the quanti?cation of the E. coli was done by ATP bioluminescence. The results obtained with IMS‐ATP bioluminescence correlated well with the plate count method (Rsq = 0.93). The detection limit of the assay was about 20 CFU/100 mL, which is well below the US EPA limits for recreational water. The entire procedure can be completed in less than 1 hour. The necessary equipment is portable and was tested on‐site. Copyright © 2004 John Wiley & Sons, Ltd.     

Use of a newly developed rapid microbial ATP bioluminescence assay to detect microbial contamination on poultry carcasses

A newly developed rapid microbial ATP bioluminescence test (R-mATP) was shown to be an adequate means to assay the microbial load of poultry carcasses. This assay utilizes differential extraction and filtration to separate somatic from microbial ATP in a very rapid timeframe. The assay requires approximately 5 min to complete; approximately 3.5 min to sample and 90 s analytical time. Correlation coefficient (r) between aerobic colony counts and R-mATP test results (n=329) was 0.82. Post-test probabilities to correctly classify carcasses with different levels of microbial contamination were as high as 98% for samples of ≥3.5 log aerobic CFU per ml. Given the rapidity of this assay, the R-mATP holds potential for monitoring the microbial load of carcasses at poultry-processing critical control points. Other potential applications of this new version of the microbial ATP bioluminescence test are discussed.     

Detection of viable fungal spores contaminant on documents and rapid control of the effectiveness of an ethylene oxide disinfection using ATP assay

Filamentous fungi are able to damage and even destroy archival and library materials. Nowadays the conventional method for detecting such micro‐organisms is to put them in cultures but such methods are laborious and time‐consuming. ATP methodology has been widely applied in other domains and its success on bacteria and yeast has been demonstrated. Several commercial reagent kits are available but they did not give satisfactory results on spores mould. We have elaborated new extraction strategies specific to fungi. A comparison of 42 extraction protocols of ATP from fungal spores was carried out. Extraction at 100°C with DMSO 90% in a Tris–acetate–EDTA buffer proved to be the best method. The viability of cells is estimated by the determination of adenylate energy charge (EC). We applied our method successfully on well‐known species such as Aspergillus flavus, A. niger, A. fumigatus, A. versicolor, Neosartorya fischeri, Eurotium chevalieri, Penicillium chrysogenum, Chaetomium globosum and Ulocladium spp. The results suggest that the ATP bioluminescence assay provides a sensitive and time‐saving method for detecting viable fungal spores. The validity of the procedure was also tested on spores killed by steam and on spores treated with ethylene oxide. We showed that EC determination could be used for a rapid control of the effectiveness of a disinfection process performed with ethylene oxide. Copyright © 2003 John Wiley & Sons, Ltd.     

Development of a new procedure based on the energy charge measurement using ATP bioluminescence assay for the detection of living mould from graphic documents

Fungal contamination is a major cause of deterioration in libraries and archives. Curators and conservators increasingly need rapid microbiological analyses. This paper presents a rapid detection method for the fungal contaminants on documents. A previous study showed that the calculation of energy charge, using bioluminescence ATP assays, provides a useful indicator to determinate the viability of fungal strains. We argue that this sensitive and time‐saving method is better than traditional culture techniques. However, the procedure needs to be modified to make it usable for lay persons. An improved and simplified protocol is proposed here for the extraction of adenylate nucleotides (AN) from fungal spores and for their measurements. Our new procedure can detect the existence of viable fungal strains on documents, presenting suspect spots within minutes. The extraction is performed by filtration with DMSO–TE solution as extractant. The different step of the measurement of AN content is carried out successively in a single test tube instead of the three tubes necessary in the initial method. The new procedure was tested on 12 strains among those most frequently found in archives and libraries and validated on swab samples from real documents. Copyright © 2008 John Wiley & Sons, Ltd.     

Methodological problems of direct bioluminescent ATP assay in platelets and erythrocytes

Direct bioluminescent ATP determination in platelets and erythrocytes involves the study of different parameters which are discussed here. Some parameters are linked to the bioluminescent reaction and to the analyte (ATP); others have regard to the biological matrix. The composition of bioluminescent reagents and the preparation and conservation of the ATP standard, also in the presence of excipients, are among the first given. Matrix problems involve cell characteristics related to age and form, lysis resistance and the possible formation of aggregates (platelets) that may inhibit the complete release of ATP. For these reasons we used the most efficient ATP release agent with the lowest inhibitory effect on luciferase. The data obtained correlate well with a bioluminescent method requiring extraction with ethanol/EDTA, and therefore more time, for ATP determination in platelets and erythrocytes.