Amplicon details |
||
Amplicon: |
136 bp | |
1 tatccttcgc aagacccttc ctctatataa ggaagttcat ttcatttgga 51 gaggacacgc tgaaatcacc agtctctctc tataaatcta tctctctctc 101 tataaccatg gacccagaac gacgcccggc cgacat |
Record ID | Database | Record description | Record length | Taxon | Method | Amplicon size | Match details |
---|---|---|---|---|---|---|---|
JD017430.1 | emblrelpat | Sequence 7 from Patent WO2014161821. | 1671 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
MS790116.1 | emblrelpat | Sequence 1 from Patent WO2017025282. | 4556 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
MS790123.1 | emblrelpat | Sequence 8 from Patent WO2017025282. | 4734 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
DI364091.1 | emblrelpat | KR 1020130122635-A/10: METHODS FOR ... | 3971 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
DI366713.1 | emblrelpat | KR 1020130083495-A/12: METHODS FOR ... | 5490 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
DI366715.1 | emblrelpat | KR 1020130083495-A/14: METHODS FOR ... | 6464 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
DJ029509.1 | emblrelpat | GENETIC TRANSFORMATION USING A PARP... | 6548 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
E41551.1 | emblrelpat | Method for yielding male abortive p... | 5228 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
E41553.1 | emblrelpat | Method for yielding male abortive p... | 7492 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
FB513661.1 | emblrelpat | Sequence 12 from Patent EP1862473. | 8514 bp | synthetic construct | QL-CON-00-015 | 136 bp | View |
MV982804.1 | emblrelpat | Sequence 1 from patent US 10844390. | 4556 bp | unidentified | QL-CON-00-015 | 136 bp | View |
MV982811.1 | emblrelpat | Sequence 8 from patent US 10844390. | 4734 bp | unidentified | QL-CON-00-015 | 136 bp | View |
MV982812.1 | emblrelpat | Sequence 9 from patent US 10844390. | 5177 bp | unidentified | QL-CON-00-015 | 136 bp | View |
MV982813.1 | emblrelpat | Sequence 10 from patent US 10844390. | 4737 bp | unidentified | QL-CON-00-015 | 136 bp | View |
A23633.1 | emblrelpat | Plasmid pVE149 | 6376 bp | unidentified | QL-CON-00-015 | 136 bp | View |
A60109.1 | emblrelpat | Sequence 2 from Patent WO9706267. | 6548 bp | Plasmid PTS172 | QL-CON-00-015 | 136 bp | View |
A71437.1 | emblrelpat | Sequence 7 from Patent WO9810081. | 5349 bp | unidentified | QL-CON-00-015 | 136 bp | View |
A75886.1 | emblrelpat | Sequence 1 from Patent WO9321335. | 4883 bp | unidentified | QL-CON-00-015 | 136 bp | View |
A76916.1 | emblrelpat | Sequence 2 from Patent EP0757102. | 6548 bp | Plasmid PTS172 | QL-CON-00-015 | 136 bp | View |
AR007513.1 | emblrelpat | Sequence 3 from patent US 5750867. | 5620 bp | unidentified | QL-CON-00-015 | 136 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.