Amplicon details |
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Amplicon: |
195 bp | |
1 gctcctacaa atgccatcat tgcgataaag gaaaggctat cgttcaagat 51 gcctctaccg acagtggtcc caaagatgga cccccaccca cgaggaacat 101 cgtggaaaaa gaagacgttc caaccacgtc ttcaaagcaa gtggattgat 151 gtgatatctc cactgacgta agggatgacg cacaatccca ctatc |
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| Record ID | Database | Record description | Record length | Taxon | Method | Amplicon size | Match details |
|---|---|---|---|---|---|---|---|
| NRN_CS158621 | nrnl1 | Sequence 9 from Patent WO2005080544... | 338 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_DD090358 | nrnl1 | A vector for the activation of a pl... | 18987 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_DD116170 | nrnl1 | Nove methods that can suppress gen... | 5165 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_HB427369 | nrnl1 | Sequence 5 from Patent WO2009072118. | 2402 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_GP466898 | nrnl1 | Sequence 234 from patent US 7554007... | 3868 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_JA381213 | nrnl1 | Sequence 13 from Patent EP2322636. | 2186 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_AR110594 | nrnl1 | Sequence 1 from patent US 6114608. ... | 532 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_AR110602 | nrnl1 | Sequence 9 from patent US 6114608. ... | 7378 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| NRN_DM465251 | nrnl1 | A gene capable of increase of produ... | 484 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| KJ608143.1 | nt | Zea mays 35S1 transgenic line Bt11 ... | 502 bp | Zea mays | QL-ELE-00-005 | 195 bp | View |
| AY560325.1 | nt | Cloning vector pC1300intB-35SnosEX,... | 9937 bp | Cloning vector pC1300intB-35SnosEX | QL-ELE-00-005 | 195 bp | View |
| AY560326.1 | nt | Cloning vector pC1300intB-35SnosBK,... | 9946 bp | Cloning vector pC1300intB-35SnosBK | QL-ELE-00-005 | 195 bp | View |
| MW653811.1 | nt | T-DNA vector pBDL11, complete sequence. | 19718 bp | T-DNA vector pBDL11 | QL-ELE-00-005 | 195 bp | View |
| JB307984.1 | emblrelpat | Sequence 4666 from Patent EP2563112. | 666 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
| JD591194.1 | emblrelpat | Sequence 15 from Patent EP2820132. | 13662 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
| JD591199.1 | emblrelpat | Sequence 20 from Patent EP2820132. | 13702 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
| LX250378.1 | emblrelpat | WO 2017090761-A/7: Method of modify... | 14569 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
| DI121922.1 | emblrelpat | PRODUCTION OF HIGH MANNOSE PROTEINS... | 2186 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
| LY590021.1 | emblrelpat | KR 1020180081811-A/10: METHOD FOR C... | 14569 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
| DI161164.1 | emblrelpat | CELL/TISSUE CULTURING DEVICE, SYSTE... | 2186 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
Related publications:
Petrillo, M., et al. “JRC GMO-Amplicons: A Collection of Nucleic Acid Sequences Related to Genetically Modified Organisms.” Database (Oxford), vol. 2015 bav101, 30 Sep. 2015, doi:10.1093/database/bav101.
Angers-Loustau, A., et al. “Using the EURL GMFF Online Bioinformatics Resources: A how-to Guide for Practical JRC GMO-Matrix and JRC GMO-Amplicons Case Uses.” European Commission, Ispra, JRC101853, 2016.