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 |
---|---|---|---|---|---|---|---|
HL296278.1 | emblrelpat | Sequence 63 from patent US 9187736. | 12055 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
GY516159.1 | emblrelpat | Sequence 26 from patent US 8058517. | 7887 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
GY516160.1 | emblrelpat | Sequence 27 from patent US 8058517. | 11482 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
MI441489.1 | emblrelpat | Sequence 98 from patent US 9902967. | 8641 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
GY516179.1 | emblrelpat | Sequence 46 from patent US 8058517. | 7085 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
A18050.1 | emblrelpat | DNA for transforming monocotyledono... | 5399 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
HL296281.1 | emblrelpat | Sequence 68 from patent US 9187736. | 8638 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
A18053.1 | emblrelpat | DNA for transforming monocotyledono... | 4883 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
GY516180.1 | emblrelpat | Sequence 47 from patent US 8058517. | 7873 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
A23998.1 | emblrelpat | pTE4 expression vector | 7049 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
A24783.1 | emblrelpat | plasmid pPS0212 replicable en E.coli | 7566 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
GY516187.1 | emblrelpat | Sequence 54 from patent US 8058517. | 9088 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
A60112.1 | emblrelpat | Sequence 5 from Patent WO9706267. | 5560 bp | Transformation vector pTHW142 | QL-ELE-00-005 | 195 bp | View |
HL296288.1 | emblrelpat | Sequence 75 from patent US 9187736. | 11693 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
AX004880.1 | emblrelpat | Sequence 1 from Patent WO9910512. | 2345 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
GY714051.1 | emblrelpat | Sequence 101 from patent US 8084074. | 7048 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
AX012337.1 | emblrelpat | Sequence 1 from Patent EP0955371. | 5399 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
AX012340.1 | emblrelpat | Sequence 4 from Patent EP0955371. | 4883 bp | synthetic construct | QL-ELE-00-005 | 195 bp | View |
MI441490.1 | emblrelpat | Sequence 99 from patent US 9902967. | 8641 bp | unidentified | QL-ELE-00-005 | 195 bp | View |
GY714055.1 | emblrelpat | Sequence 105 from patent US 8084074. | 8138 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.