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Basic data
| Standard ID | SN/T 5325.4-2020 (SN/T5325.4-2020) |
| Description (Translated English) | (Quantitative Detection of Foodborne Viruses in Exported Food. Digital PCR Method - Part 4: Virus) |
| Sector / Industry | Commodity Inspection Standard (Recommended) |
| Classification of Chinese Standard | C53 |
| Classification of International Standard | 67.050 |
| Word Count Estimation | 16,118 |
| Date of Issue | 2020-12-30 |
| Date of Implementation | 2021-07-01 |
| Regulation (derived from) | General Administration of Customs Announcement No. 136 [2020] |
| Issuing agency(ies) | General Administration of Customs |
SN/T 5325.4-2020: (Quantitative Detection of Foodborne Viruses in Exported Food. Digital PCR Method - Part 4: Virus)
---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Digital PCR method for quantitative detection of foodborne viruses in export foods
The People's Republic of China Entry-Exit Inspection and Quarantine Industry Standards
Quantitative detection of food-borne viruses in exported food
2020-12-30 release
2021-07-01 implementation
Issued by the General Administration of Customs of the People's Republic of China
Foreword
SN/T 5235-2020 "Digital PCR Method for the Quantitative Detection of Foodborne Viruses in Exported Foods" is divided into 7 parts.
Part 1.Norovirus;
Part 2.Hepatitis A virus;
Part 3.Rotavirus;
Part 4.Saru Virus;
Part 5.Astrovirus;
Part 6.Coxsackie virus;
Part 7.Poliomyelitis virus.
This part is part 4 of SN/T 5235-2020.
This part is compiled according to the rules given in GB/T1.1-2009.
Please note that some of the contents of this document may involve patents. The issuing agency of this document is not responsible for identifying these patents.
This part is proposed and managed by the General Administration of Customs of the People's Republic of China.
Drafting organizations of this section. Shanghai Customs of the People's Republic of China, Beijing Customs of the People's Republic of China.
The main drafters of this section. Huang Xinxin, He Yuping, Li Xiang, Jiang Yuan, Wu Di, Zeng Jing, Xu Leirui, Yin Liping.
Quantitative detection of food-borne viruses in exported food
Digital PCR method
Part 4 Jaru Virus
1 Scope
This part stipulates the digital PCR detection of virus in foods such as shellfish, hard surface foods, raw vegetables, soft fruits, etc.
method.
This part is applicable to the quantitative detection of virus in foods such as shellfish, hard surface foods, raw vegetables, soft fruits, etc.
The detection limit achieved by this method is 1 800 copies/2 g (shellfish digestive glands); 1 800 copies/100 cm2 (hard surface food);
3 600 copies/25 g (raw vegetables and soft fruits).
The limit of quantification achieved by this method is 3 600 copies/2 g (shellfish digestive glands); 3 600 copies/100 cm2 (hard surface food);
7.200 copies/25 g (raw vegetables and soft fruits).
2 Normative references
The contents of the following documents constitute the indispensable clauses of this document through normative references in the text. Among them, dated quotations
Only the version corresponding to that date is applicable to this document; for undated references, the latest version (including all amendments) is applicable
Used in this document.
GB/T 6682 Analyze and test water specifications and test methods.
3 Terms, definitions and abbreviations
The following terms and definitions apply to this document.
3.1
Limit of determination (LOD)
The method can detect the lowest sarcovirus gene content in the sample.
3.2
Limit of quantification (LOQ)
Under the condition that the relative standard deviation does not exceed 25%, the method can quantitatively detect the lowest viral gene content in the sample.
3.3
Tiny reaction system
Mix the template, primers/probes, Taq enzyme and its buffer thoroughly, and distribute them to oil packets of the same volume and physically separated from each other
A small-volume fluorescent PCR reaction system formed in water droplets or other micropores and microchambers.
3.4
Process control
By adding exogenous quality control substances similar to the target virus, such as MS2 phage, the entire detection process can be monitored.
Process the calculation of the recovery rate of quality control substances to evaluate the effectiveness of the detection process and calculate the actual content of the virus in the sample.
3.5
External control RNA (EC RNA)
Exogenous positive control RNA is used as a positive control for the digital PCR process.
3.6
Certified reference material
Attached with a certificate issued by an authoritative organization, explaining the use procedure and obtaining one or more characteristics with relevant uncertainty and traceability
Value of the standard substance.
3.7 Abbreviations
3.7.1 SV (sapovirus). Sapovirus.
3.7.2 PC (process control). Process quality control.
3.7.3 EC RNA (external control RNA). External control RNA.
3.7.4 pfu (plaque forming unit). plaque forming unit.
4 Principle
Digital PCR (digital PCR) is a quantitative detection technology of gene copy number developed on the basis of fluorescent PCR. It is used for nucleic acid modeling.
Determination of the absolute copy number of the plate. By fully mixing the fluorescent PCR reaction system containing template, primer/probe, Taq enzyme and its buffer
After homogenization, the amount is equally divided into a large number (more than 10,000) of micro-reaction systems isolated from each other, so that each template is independently and randomly allocated to
Micro reaction system. After all micro-reaction systems undergo PCR amplification reactions under the same prescribed conditions at the same time, according to the set fluorescence threshold
Value to judge the amplification result of each micro-reaction system. The digital PCR reaction is calculated according to the positive rate of the microreaction system and the Poisson distribution formula.
Should be the template concentration in the system.
5 Equipment and materials
5.1 Digital PCR system. including a micro-reaction system generator or other instruments with the same function, a micro-reaction system fluorescence detector or
Other systems with the same functional instrument.
5.2 Nucleic acid quantifier. Nanodrop3000 or Modulus detector or other nucleic acid quantitative detector.
5.3 Refrigerated centrifuge.
5.4 Biological safety cabinet.
5.5 Low temperature refrigerator. -80 ℃ refrigerator, -20 ℃ refrigerator.
5.6 Balance. Sensitivity is 0.1 g.
5.7 Homogenizer.
5.8 Vortex oscillator.
5.9 Autoclave.
5.10 Constant temperature incubator/box. temperature control accuracy ±1.0 ℃.
5.11 Micropipette. 100 μL~1 000 μL, 20 μL~200 μL, 10 μL~100 μL, 0.5 μL~10 μL, 0.1 μL~2.5 μL.
5.12 The digital PCR micro-reaction system generates row tubes and membranes or chips.
5.13 Mesh filter bag. 400 mL.
5.14 Sterile cotton swabs.
5.15 Sterile scissors.
5.16 Sterile forceps.
5.17 Sterile petri dishes.
5.18 Glass container without RNase and DNase contamination.
5.19 RNase-free centrifuge tube, RNase-free pipette nozzle, RNase-free spoon, RNase-free PCR thin-walled tube.
6 Reagents
All experimental reagents are analytically pure and meet the requirements of GB/T 6682; unless otherwise specified, the experimental water is RNase-free ultra
Pure water.
6.1 One-step digital RT-PCR reaction master mix.
6.2 Pectinase. derived from Aspergillus niger or Aspergillus aculeatus.
6.3 For PC substances, see Appendix A for preparation and quantitative methods.
6.4 EC RNA. See Appendix B for preparation and quantification methods.
6.5 Tris/glycine/beef extract (TGB E) buffer. see C.2.2.
6.6 5×PEG/NaCl solution. see C.2.3.
6.7 Phosphate buffered saline (PBS). see C.2.4.
6.8 Chloroform/n-butanol mixture. see C.2.5.
6.9 Proteinase K solution. see C.2.6.
6.10 75% ethanol. see C.2.7.
6.11 Trizol reagent. see C.2.8.
6.12 Primers and probes. Synthesize primers and probes according to the sequence in Table 1, and add RNase-free ultrapure water to prepare a concentration of 10 µmol/L.
See Appendix D for the amplified sequence.
7 Testing procedures
See Figure 1 for the digital PCR quantitative detection program of Zaru virus.
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