Target | Query species | Target species | Query coverage (%) | Target coverage (%) | Identity | Alignment length (nt) | Orientation |
CNT30317234 | Glycine max | Corylus avellana | 19.96 | 47.47 | 83.51 | 291 | forward |
CNT30701193 | Glycine max | Quercus lobata | 24.21 | 28.04 | 86.4 | 353 | forward |
CNT3070976 | Glycine max | Quercus suber | 18.31 | 52.56 | 86.89 | 267 | forward |
CNT30379012 | Glycine max | Manihot esculenta | 27.85 | 49.94 | 85.71 | 406 | forward |
CNT30631012 | Glycine max | Vigna unguiculata | 28.12 | 32.28 | 92.68 | 410 | forward |
CNT30561790 | Glycine max | Actinidia chinensis | 24.35 | 51.37 | 80.56 | 355 | forward |
CNT30539463 | Glycine max | Brassica napus | 27.57 | 55.68 | 80.35 | 402 | forward |
CNT30510148 | Glycine max | Solanum lycopersicum | 14.61 | 50.24 | 84.04 | 213 | forward |
CNT30172025 | Glycine max | Trifolium pratense | 27.98 | 35.36 | 89.46 | 408 | forward |
CNT30311404 | Glycine max | Camelina sativa | 26.89 | 59.67 | 80.1 | 392 | forward |
CNT30264606 | Glycine max | Brassica rapa | 27.64 | 47.02 | 80.15 | 403 | forward |
CNT30605018 | Glycine max | Gossypium raimondii | 27.85 | 63.94 | 84.98 | 406 | forward |
CNT30204126 | Glycine max | Helianthus annuus | 18.59 | 52.93 | 83.03 | 271 | forward |
CNT30480205 | Glycine max | Arabidopsis halleri | 26.95 | 52.05 | 80.15 | 393 | forward |
CNT30408909 | Glycine max | Papaver somniferum | 23.39 | 74.78 | 81.52 | 341 | forward |
CNT30119392 | Glycine max | Citrus clementina | 27.98 | 44.4 | 81.13 | 408 | forward |
CNT3035928 | Glycine max | Cucumis melo | 18.38 | 56.54 | 85.82 | 268 | forward |
>peptide 1 (35 aa)
MVLIQIFLLHRCSYISENGVKHKGTAKGSRRLHCM*
>peptide 2 (35 aa)
MENIAKRPFLSSLTFNSANASGSSARPRGSKAPPG*
>peptide 3 (39 aa)
MMESAPRMDPSTWDGQGHTCFVFHNTSDKFLKPSFISVT*
>peptide 4 (30 aa)
MELNTRELQKGAEDCIACRHPHCPGTKLVA*
>peptide 5 (38 aa)
MHQGHQPDQEGQKHHQGRLGQVLHQVVLHQLCNLQQTP*
>CNT30711475
AACTTGAATTCCAAACGTAAGAGTTGATATTTTCTGGGGACCCAAATTTCTAATATATAAAAATATAATGGTTCTCATACAGATTTTTCTGCTACACAGG
TGTAGTTACATTAGTGAAAATGGAGTTAAACACAAGGGAACTGCAAAAGGGAGCAGAAGATTGCATTGCATGTAGGCATCCTCATTGTCCAGGGACAAAG
TTAGTGGCATAAGCCCAAGCATTGGCCCTTGCCAGTGACAATAGCCTGAACAAAGAAACCAAACATGGAGAACATAGCCAAGCGACCGTTCTTGAGTTCC
TTGACCTTCAACTCAGCGAATGCATCAGGGTCATCAGCCAGACCAAGAGGGTCAAAAGCACCACCAGGGTAGATTGGGTCAAGTCCTTCACCAAGTGGTC
CTCCACCAACTCTGTAACCTTCAACAAACCCCATGAGCACAACCTGAACAGCCCAGATAGCAAGGATGCTCTGAGCATGGATCAGGTTTGGGTTGCCCAA
GTAGTCAAGGCCTCCCTCTGAGAAGATCTGTGCACCGGCCTTGAACCACACGGCCTCGCCGAATTTGACACCATTCTTCTCAAGGATCTCTGGGAAGGTG
CAGCCAAGGGCACCAAGCATTGCCCATCTGCTGGAATTCTCCGGTCAGGTATGATGGAATCTGCTCCGAGAATGGACCCAAGTACTTGGGACGGTCAGGG
CCATACCTGTTTTGTTTTTCACAACACCTCAGACAAATTCTTAAAACCTAGCTTCATATCTGTTACTTAGTTGATTTTTTTTATCTTTACAAGACAAGAC
AATAACTATTATTAATCTGTTATGCTTGCATAATCACTGGCTTTCTAGTTAGCCCCATCCTGCTGAGAATTGTTAAGTGCAAAACATAGATATAGTTCTA
TAGATGCTTTTTGGAGTTTTACCTCAGTGATAATCATTAACATTTAACGCGAACTTTTAGTTACGTGAATTAGTTAGTTAAAACTCCAATTTTAATTATT
CCCTCCATCCCAAAATAATAATCGTCTAAAGATTATTTTAGATATACCAAGATAAAATAATAAATAAATGAAAAACTAAAATGATAATTATTATGAAACA
AAGTCTTTTTTTTTTTTTCTCTTCCGGGACAATTATAATGAGATGGAAGAAGTAGAACACAATACCAAAAACAAAAGGTTTTGCATCTAAGTTTTGTGGA
ATTACTAGTATTATTTTATGTTGTCAAGCGAGTATTATATTAAAAGCAGTAACTACTAAGTTGAACTAGTGGAGTGGGAAGGGTAATGTTGAGTTACCAA
ATGCTCTGAGGAGCACTCTTGACGGTGCGGCGCATGTTAGTGCGACCTTTGCCGGCGCCACCGAGCAGTTTGACCAGTGAATGCTGATTGCTGAATAGCA
GAGGTGGCCATGATGGTTGTGTTGGCTAAGGGTTTTTTTTTTTCTTTGTTTTTGTTCT