Amplicon details |
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Amplicon: |
82 bp | |
1 gcctctgccg acagtggtcc caaagatgga cccccaccca cgaggagcat 51 cgtggaaaaa gaagacgttc caaccacgtc tt |
Record ID | Database | Record description | Record length | Taxon | Method | Amplicon size | Match details |
---|---|---|---|---|---|---|---|
NRN_JA279471 | nrnl1 | Sequence 6 from Patent WO2011008510... | 6747 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
DQ005466.1 | nt | Cloning vector pSAT4-35SP-MCS-35ST,... | 3860 bp | Cloning vector pSAT4-35SP-MCS-35ST | QL-ELE-00-012 | 82 bp | View |
DQ005466.1 | nt | Cloning vector pSAT4-35SP-MCS-35ST,... | 3860 bp | Cloning vector pSAT4-35SP-MCS-35ST | QL-ELE-00-012 | 82 bp | View |
NRN_HB427181 | nrnl1 | Sequence 24 from Patent WO2009073844. | 1654 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
NRN_JA393317 | nrnl1 | Sequence 156 from Patent WO2011062748. | 11876 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
DQ005467.1 | nt | Cloning vector pSAT4A-35SP-MCS-35ST... | 3845 bp | Cloning vector pSAT4A-35SP-MCS-35ST | QL-ELE-00-012 | 82 bp | View |
DQ005467.1 | nt | Cloning vector pSAT4A-35SP-MCS-35ST... | 3845 bp | Cloning vector pSAT4A-35SP-MCS-35ST | QL-ELE-00-012 | 82 bp | View |
NRN_FB729840 | nrnl1 | Sequence 9 from Patent WO2007024866... | 3359 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
NRN_AR014749 | nrnl1 | Sequence 5 from patent US 5773705. | 831 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
DQ005468.1 | nt | Cloning vector pSAT6A-DsRed2-N1, co... | 4555 bp | Cloning vector pSAT6A-DsRed2-N1 | QL-ELE-00-012 | 82 bp | View |
DQ005468.1 | nt | Cloning vector pSAT6A-DsRed2-N1, co... | 4555 bp | Cloning vector pSAT6A-DsRed2-N1 | QL-ELE-00-012 | 82 bp | View |
KR857713.1 | nt | BiFC expression vector hygII-VYNE(R... | 13071 bp | BiFC expression vector hygII-VYNE(R) | QL-ELE-00-012 | 82 bp | View |
FJ905202.1 | nt | Transient expression vector pXSN, c... | 4532 bp | Transient expression vector pXSN | QL-ELE-00-012 | 82 bp | View |
DQ005469.1 | nt | Cloning vector pSAT6A-ECFP-N1, comp... | 4597 bp | Cloning vector pSAT6A-ECFP-N1 | QL-ELE-00-012 | 82 bp | View |
DQ005469.1 | nt | Cloning vector pSAT6A-ECFP-N1, comp... | 4597 bp | Cloning vector pSAT6A-ECFP-N1 | QL-ELE-00-012 | 82 bp | View |
NRN_AR260586 | nrnl1 | Sequence 14 from patent US 6489542.... | 10249 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
NRN_AR260586 | nrnl1 | Sequence 14 from patent US 6489542.... | 10249 bp | unidentified | QL-ELE-00-012 | 82 bp | View |
DQ005470.1 | nt | Cloning vector pSAT6A-EGFP-N1, comp... | 4597 bp | Cloning vector pSAT6A-EGFP-N1 | QL-ELE-00-012 | 82 bp | View |
DQ005470.1 | nt | Cloning vector pSAT6A-EGFP-N1, comp... | 4597 bp | Cloning vector pSAT6A-EGFP-N1 | QL-ELE-00-012 | 82 bp | View |
JA393324.1 | emblrelpat | Sequence 163 from Patent WO2011062748. | 8303 bp | synthetic construct | QL-ELE-00-012 | 82 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.