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SN/T 1196-2012: Detection of genetically modified components - Maize test methods Delivery: 9 seconds. True-PDF full-copy in English & invoice will be downloaded + auto-delivered via email. See step-by-step procedure Status: Obsolete SN/T 1196: Historical versions
SN/T 1196-2012: Detection of genetically modified components - Maize test methods---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/SNT1196-2012SN Industry Standard of the People’s Republic of China Replacing SN/T 1196-2003 Detection of genetically modified components – Maize test methods ISSUE ON. DECEMBER 12, 2012 Implemented on: JULY 1, 2013 Issued by. State Administration of Quality Supervision and Inspection and Quarantine of the People’s Republic of China Table of ContentsForeword... 3 1 Scope... 4 2 Normative references... 4 3 Terms, definitions and abbreviations... 5 4 Anti-pollution measures... 6 5 Sampling and sample preparation... 6 6 Common PCR method... 6 7 Real-time fluorescence PCR method... 11 8 Recording of results... 16 9 Expression of results... 16 Appendix A... 17 Appendix B... 21 References... 22ForewordThis Standard was drafted in accordance with rules given in GB/T 1.1-2009. This Standard replaces SN/T 1196-2003 "GMO maize Qualitative PCR detection methods". Compared with SN/T 1196-2003, the main technical changes of this Standard are as follows. - MIDOFY the Chinese and English name of the standard; - ADD the scope of identifying maize lines, AMEND qualitative detection of genetically modified lines of MON863, NK603, TC1507, MON88017, 59122, MIR604, MTR162, DBT418, MON89034, LY038, ES3272, Bt10, and DP98140. - ADD 2nd method - real-time PCR method. This Standard references PCR detection method of genetically modified maize in ISO standards and the EU Joint Research Centre - Community reference laboratory for GM food and feed Biotechnology & GMOs Unit. In the 1st method – common PCR method, ADD qualitative detection of genetically modified lines of MON863 NK603, TC1507, and Bt10. ADD 2nd method - real-time PCR method. This Standard is proposed and managed by the National Certification and Accreditation Administration Committee. Drafting organizations of this Standard. Liaoning Entry-Exit Inspection and Quarantine Bureau, Chinese Academy of Inspection and Quarantine, Shandong Entry-Exit Inspection and Quarantine Bureau, Fujian Entry-Exit Inspection and Quarantine Bureau, and Shenzhen Entry-Exit Inspection and Quarantine Bureau. Main drafters of this Standard. Cao Jijuan, Xu Junyi, Zhao Xin, Huang Xin, Gao Hongwei, Chen Wenbing, Yan Pingping, Ling Xingyuan, Shao Biying, and Zhu Shuifang. The previous standard replaced by this Standard is. - SN/T 1196-2003. Detection of genetically modified components – Maize test methods1 ScopeThis Standard specifies the PCR method and real-time fluorescence PCR method of detecting genetically modified components in maize and maize-processed products. The screening detection of this Standard applies to qualitative detection of genetically modified components in maize and maize-processed products. Identification detection of this Standard applies to qualitative detection of genetically modified components of maize lines MON810, Bt11, Bt176, T14/T25, CBH351, GA21, MON863, NK603, TC1507, MON88017, 59122, MIR604, MIR162, DBT418, MON89034, LY038, ES3272, Bt10, and DP98140.2 Normative referencesThe following documents for the application of this document are essential. Only those dated documents are applicable to this document. For undated references, the latest edition (including any amendments) applies to this document. GB/T 6682 Analytical laboratory use - Specification and test methods GB/T 19495.1 Detection of genetically modified organisms and derived products. General requirements and definitions GB/T 19495.2 Detection of genetically modified organism and derived products. General requirements for laboratories GB/T 19495.3 Detection of genetically modified organisms and derived products. Nucleic acid extraction GB/T 19495.7 Detection of genetically modified organisms and derived products. Gene-chip detection 6.2.15 10 X loading buffer. 0.25% bromophenol blue, 40% sucrose. 6.2.16 RNA enzyme (10μg/mL). 6.2.17 UNG enzyme (Uracil N-glycosylase). 6.3 Instruments Solid grinder and mortar; high-speed refrigerated centrifuge; desktop mini centrifuge, mini individual centrifuge; bath incubator, incubator, constant temperature incubator; balance. sensitivity of 0.001 g; autoclave; temperature oven; distilled water maker or double water heater; refrigerator, freezers; ice maker; vortex oscillator; microwave oven; Cycler; electrophoresis; PCR clean bench; nucleic acid protein analyzer; micropipette (0.1μL - 2μL, 0.5μL - 10μL, 2μL - 20μL, 10μL - 100μL, 20μL - 200μL, 200μL - 1000μL); gel imaging system; centrifuge tube. 1.5 mL - 5 mL; PCR reaction tube. two specifications of 200μL, 500μL. 6.4 Detection steps 6.4.1 Settings of contrast Contrast shall be set in accordance with provisions in GB/T 19495.2 during the detection procedure. DNA contrast of negative target. It shall not contain DNA fragment of exogenous target nucleic acid sequence. DNA contrast of positive target. It can be the reference DNA, or the DNA extracted from traceable reference material, or the DNA extracted from positive sample (or organism) which contains known sequences. Contrast of amplification reagent. All reaction reagents except the DNA template of test samples. USE the same volume of water (excluding the nucleic acid) to substitute template DNA in the PCR reaction system. 6.4.2 Extraction of template DNA WEIGH 1 g of powder sample into 10 mL centrifuge tube; ADD 5 mL of CTAB lysis buffer (including appropriate amount of RNA enzymes); MIX well; at 60ºC water bath SHAKE for 1 7.4.7.2 Relation between Ct value and DNA concentration When Ct value is greater than or equal to 40, there is no amplification of the target DNA in PCR procedure; if Ct value is between 36 - 40, and difference between each value of parallel samples is very large, it indicates that there is little amount of target DNA in the PCR reaction system; it shall appropriately increase the template amount. 7.5 Quality Control of real-time fluorescence PCR detection Amplification Reagent Contrast. Detected Ct value of exogenous gene is greater than or equal to 40; detected Ct value of endogenous gene is greater than or equal to 40. Negative target DNA contrast. Detected Ct value of exogenous gene is greater than or equal to 40. Positive target DNA contrast. Detected Ct value of exogenous gene is smaller than or equal to 34. If there is one item of above indicators not compliant, it shall repeat the real-time fluorescence PCR amplification. 7.6 Selection of screening test and identification test For detection of genetically modified component in maize sample, it may be performed according to the contents of Appendix B. Firstly SCREEN and TEST CaMV 35S, NOS, NPTII, PAT, BAR and CryIA(b) genes, if the screening test result is negative, then directly REPORT the test result. If the screening test result is positive, then it needs further identification detection of line specificity gene of MON810, Bt11, Bt176, T14/T25, CBH351, GA21, MON863, NK603, TC1507, MON88017, 59122, MIR604, MIR162, DBT418, MON89034, LY038, ES3272, Bt10 and DP98140, so as to determine the line of genetically modified maize. 7.7 Judgment of results If the detection value Ct of exogenous gene of test sample is greater than or equal to 40, the detection value Ct of endogenous gene of test sample is smaller than or equal to 24, and the setting contrast result is normal, then it can be judged that XXX gene is not References [1] Protocol for event-specific quantitation of Bt11 in maize, EU-CRL. [2] Foodstuffs-Methods of analysis for the detection of genetically modified organisms and derived products-qualitative nucleic acid based methods, prEN ISO 21570. [3] Event-specific method for the quantitation of maize line TC 1507 using real-time PCR Protocol, EU-CRL. [4] Event-specific method for the quantitation of maize line MON 863 using reaI-time PCR, EU-CRL. [5] Event-specific Method for the Quantification of Maize Line MON 89034 Using reaI-time PCR, EU-CRL. [6] Event-specific method for the quantitation of maize line NK603 using real-time PCR, EU-CRL. [7] Event-specific method for the quantitation of maize line GA21 using real-time PCR, EU-CRL. [8] Event-specific method for the quantitation of maize line T25 using real-time PCR, EU-CRL. [9] Event-specific method for the quantitation of maize line MON 88017 using real-time PCR, EU-CRL. [10] Event-specific method for the quantitation of maize 59122 using real-time PCR, EU-CRL. [11] Event-specific method for the quantitation of maize line MIR604 using real-time PCR, EU-CRL. [12] Long, N., Pulliam, D., Bottoms, J., Meghji, M.,... ......Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al. |
