Amplicon details |
||
Amplicon: |
195 bp | |
1 gctcctacaa atgccatcat tgcgataaag gaaaggctat cattcaagat 51 gcctctgccg acagtggtcc caaagatgga cccccaccca cgaggagcat 101 cgtggaaaaa gaagacgttc caaccacgtc ttcaaagcaa gtggattgat 151 gtgacatctc cactgacgta agggatgacg cacaatccca ctatc |
Record ID | Database | Record description | Record length | Taxon | Method | Amplicon size | Match details |
---|---|---|---|---|---|---|---|
HI578415.1 | emblrelpat | Sequence 31 from Patent WO2010114989. | 11721 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
HI578417.1 | emblrelpat | Sequence 33 from Patent WO2010114989. | 10287 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
CS671195.1 | emblrelpat | Sequence 90 from Patent WO2007061742. | 9088 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
NRN_FW503530 | nrnl1 | MULTIZYMES AND THEIR USE IN MAKING ... | 11725 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HV532523.1 | emblrelpat | JP 2011177191-A/5: Improved targete... | 5345 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
DD448757.1 | emblrelpat | Methods and means for increasing th... | 12987 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
HK128229.1 | emblrelpat | Sequence 110 from patent US 8828690. | 8671 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK128272.1 | emblrelpat | Sequence 153 from patent US 8828690. | 8649 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK128350.1 | emblrelpat | Sequence 266 from patent US 8828690. | 9190 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK128534.1 | emblrelpat | Sequence 490 from patent US 8828690. | 9190 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK128547.1 | emblrelpat | Sequence 503 from patent US 8828690. | 9198 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK132405.1 | emblrelpat | Sequence 26 from patent US 8829273. | 7085 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
JA279471.1 | emblrelpat | Sequence 6 from Patent WO2011008510. | 6747 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
HK555063.1 | emblrelpat | Sequence 62 from patent US 9006514. | 14844 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
JA279488.1 | emblrelpat | Sequence 23 from Patent WO2011008510. | 9245 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
HK132435.1 | emblrelpat | Sequence 56 from patent US 8829273. | 7466 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
HK132440.1 | emblrelpat | Sequence 61 from patent US 8829273. | 7847 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
JA279575.1 | emblrelpat | Sequence 110 from Patent WO2011008510. | 8432 bp | synthetic construct | QL-ELE-00-001 | 195 bp | View |
HK132445.1 | emblrelpat | Sequence 68 from patent US 8829273. | 8638 bp | unidentified | QL-ELE-00-001 | 195 bp | View |
JD589779.1 | emblrelpat | Sequence 76 from Patent WO2015017510. | 9979 bp | synthetic construct | QL-ELE-00-001 | 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.