Target | Query species | Target species | Query coverage (%) | Target coverage (%) | Identity | Alignment length (nt) | Orientation |
CNT30696085 | Ipomoea triloba | Oryza sativa | 4.87 | 25.51 | 84.75 | 223 | forward |
CNT30516020 | Ipomoea triloba | Juglans regia | 2.03 | 36.47 | 87.1 | 93 | reverse complement |
CNT30493471 | Ipomoea triloba | Olea europaea | 3.1 | 36.13 | 87.32 | 142 | forward |
CNT30297207 | Ipomoea triloba | Triticum aestivum | 1.07 | 24.26 | 89.8 | 49 | forward |
CNT30541469 | Ipomoea triloba | Brassica napus | 8.67 | 25.95 | 82.87 | 397 | forward |
CNT30511668 | Ipomoea triloba | Solanum lycopersicum | 4.65 | 70.76 | 93.43 | 213 | forward |
CNT30555950 | Ipomoea triloba | Oryza glaberrima | 8.19 | 24.75 | 85.33 | 375 | forward |
CNT30147499 | Ipomoea triloba | Medicago truncatula | 8.15 | 23.67 | 85.52 | 373 | forward |
CNT30243771 | Ipomoea triloba | Avena sativa | 5.46 | 21.68 | 82.8 | 250 | forward |
CNT30310337 | Ipomoea triloba | Camelina sativa | 8.93 | 24.48 | 82.4 | 409 | forward |
CNT30228020 | Ipomoea triloba | Ananas comosus | 8.6 | 28.49 | 86.04 | 394 | forward |
CNT3068454 | Ipomoea triloba | Leersia perrieri | 5.96 | 44.39 | 83.52 | 273 | forward |
CNT30202977 | Ipomoea triloba | Helianthus annuus | 5.83 | 50.57 | 87.27 | 267 | forward |
CNT30687109 | Ipomoea triloba | Triticum urartu | 3.84 | 21.31 | 86.36 | 176 | forward |
CNT30351320 | Ipomoea triloba | Eragrostis tef | 2.66 | 50 | 83.61 | 122 | forward |
CNT30434619 | Ipomoea triloba | Papaver somniferum | 4.94 | 33.73 | 86.73 | 226 | forward |
CNT30574575 | Ipomoea triloba | Vitis vinifera | 8.15 | 24.44 | 91.15 | 373 | forward |
CNT3053857 | Ipomoea triloba | Amborella trichopoda | 7.75 | 28.31 | 85.92 | 355 | forward |
CNT30576477 | Ipomoea triloba | Oryza barthii | 3.78 | 37.69 | 83.82 | 173 | forward |
CNT30116873 | Ipomoea triloba | Oryza nivara | 4.24 | 27.83 | 84.02 | 194 | forward |
>peptide 1 (71 aa)
MKPLGIHFCSFIPGTVSDLEVSTNAGRTIFNNSPIFSFPKFYKQIRSFGSNFYILFKILPYITQNFSPDSF*
>peptide 2 (70 aa)
MGLRLNHIIFFTLFFTMQRAKKKRNIFCPQTQKETCVFVSFLRFLSGGFRFFFYLRTNELSSYRHFGCCY*
>peptide 3 (30 aa)
RHKFHIDYFSIQFLSNSLKSHVPILEYPLW*
>peptide 4 (71 aa)
MKPLGIHFCSFIPGTVSDLEVSTNAGRTIFNNSPIFSFPKFYKQIRSFGSNFYILFKILPYITQNFSPDSF*
>peptide 5 (36 aa)
MVEYSCGAFSDFTRVIHVPSISPSKALRIAMPIVSA*
>peptide 6 (61 aa)
MTSARSIPRSTTVRIAFDAAVSAAKGVPLLVPLNPEVPAEDQETTRPRTSVTVTMVLLKLA*
>peptide 7 (34 aa)
MDISISRFFIFTLVQLVSLIILVVVYVSGWNKLL*
>peptide 8 (65 aa)
MYRFLNTRYGRIFMRGFLRFYTCDTCSFYFPKQSSSHRNAYCVGLTFHKWRQNKAAIIKAFTVCS*
>CNT30550215
GCGTCACAAGTTCCATATAGATTACTTCTCAATACAATTTCTTTCAAATTCATTAAAATCTCATGTACCGATTCTTGAATACCCGCTATGGTAGAATATT
CATGCGGGGCTTTCTCCGATTTTACACGTGTGATACATGTTCCTTCTATTTCCCCAAGCAAAGCTCTTCGCATCGCAATGCCTATTGTGTCGGCTTGACC
TTTCATAAGTGGAGACAGAATAAAGCGGCCATAATAAAGGCGTTTACTGTCTGTTCTTGATTCAACACATTTCCACTGTAGTGTCCGAGTAGATACTGTG
ACTTTCTCTCGAATCATAGCAATATTATTTGATTAGATTAGCGAATTCTTGATTTTATTTCTCTTTCTCTTGAGATTTTTTCAATGTTCATTTCTACACA
CGTCTTTTTTTCGGAGGTCTACAGCCATTGTGTGGCATAGGGGTTACATCCCGTACGAAAGTTAATAGTATACCACTTTGAAGAATAGCTCGTAATGCTG
CGTCTCTTCCGAGACCGGGACCCTTTATCATGACTTCTGCTCGTAGCATACCCCGATCAACTACTGTACGGATAGCATTTGATGCCGCGGTTTCCGCAGC
AAAAGGTGTCCCTCTTCTCGTTCCCTTGAATCCAGAAGTCCCGGCGGAGGACCAAGAAACTACTCGACCCCGTACATCTGTAACAGTGACAATGGTATTA
TTGAAACTAGCTTGAACATGAATAACTCCCTTTGGTATTCTACGTGCACTCTTACGTGAACCAATACGTCCATTCCTACGCGAACTTCTTCTCGGTATAG
CTTTTGCCATATTTTACATTTCGTAAATCTGAGTTAGCGATATATGGATATATCCATTCACGATTCTTTATTTTTACATTGGTTCAGTTGGTAAGTCTGA
TTATCCTTGTCGTTGTTTATGTCTCGGGTTGGAACAAATTACTATAATTCGTCCTCTTCTACGGATTAGTCGACATTTTTCACAAATTTTACGAACAGAA
GCTCTTATTTTCATATTTCCCATTCCTTACCTTCATTTGAAATCTACTTTTTTCAAAAAAGTTTCTTGATATTTTGCATCTCGAATTGTATTTCCGTGAA
AGACATGTTTGTTAAAGTTGAAAAACGAATCCTTCGAATCTTTGTTGCGTTGCGAAGTTGATAAATTATACGCCCTCTGGTTGAATCATAAGGACTTACT
TCAAATTTGACTTTTTGGCGGTATCCATATAAACCTACGTCGGATCTTTTCCGAAACAGAACTTAGAATCAGATCTTCATTCTATAAATAAGCCCGGAAC
ATACTATTCGGAAGCGATTCATTAATGAAACCCTTAGGAATTCATTTTTGTTCTTTCATCCCAGGTACTGTAAGTGATCTTGAAGTATCAACTAATGCAG
GTAGAACGATATTCAATAACTCCCCCATTTTTTCCTTTCCCAAATTTTACAAACAAATAAGAAGTTTTGGATCCAATTTTTATATTCTATTCAAAATATT
ACCATATATAACACAAAATTTCTCCCCCGATTCCTTCTAGTCGAGCCTCTCGGTCTGTCATTATACCTCGCGAAGTAGAAAGAATTACAACTCCCATCCC
ACCTAAAATTTTAGGGATTCGTTGATAGTTAGAATAGATTCGTAAACCGGGTCGACTGATCCGTTTTAAATTGAAAATATTTCTATAGGGTCTTTTCCTA
TTCCTTCTATGTCGCAGGGTTAAAACAAAAAAATTTTTGTTTTTTTCTCGATGCTTTCTCACGTTTTCAATAAAACCTTCTCGTAAAAGTATTCTTACAA
TATTTTCGGTAATATTGGTGGATGCTATTCGAACCACTCTTTTTCGATCCATATCAGCATTTCGTATAGAAGTGATTATCTCAGCAATAGTGTCCCTACC
CATGATGAACTATAATTATTGCGGCAAAAAAATTGGATACTATCAACGTGTTTTTTTACTTATTTGTCTATGAATTCTATTTTTCAAGAAAGATATATGC
GTGAGACACATTCTACTCAATTTTGAATCTATTTCTTTCAAATACTCCACTAGAAACATATCACGATTTACTTTTCTAATACCTTTCTTTCAAATACTCC
ACTAGAAACATATCACGATTTCCTTTTATAATACTTCGGGAGCTAATGAAACTATTTTAGTAAAATTGAATTGTCTCAACTCTCGGGCGATTGCACCAAA
AATTCTAGTTCCTTTTGGATTTCCTTCTTTATCAATAACAACTGCGGCATTGTCATCATATCGTATTATCATTCCGTTGTCACGTTTGAGTTCTTTACAG
GTACGCACAATTACCGCTCTGACTACTTCGGATCTTTCTAGAGGCATATTAGGTACTGCTTCTTTGATAACAGCAACAATAATGTCACCAATATGAGCAT
ATCGACGATTGCTAGCTCCTATGATTCGAATACACATCAATTCTCGAGCCCCGCTGTTATCCGCTACATTTAAATGGGTCTGAGGTTGAATCATATCATT
TTTTTTACTCTGTTTTTTACAATGCAAAGGGCGAAGAAAAAAAGAAATATTTTTTGTCCACAAACACAAAAAGAAACCTGTGTTTTTGTTTCATTCCTAA
GATTCCTTTCGGGTGGTTTTAGATTTTTCTTCTATCTCCGAACTAATGAATTGAGTTCGTATAGGCATTTTGGATGCTGCTATTGAAATAGCTCTTCTGG
CAATCTTTTTTGTTACTCCACCCATTTCATAAAGTATTCGACCGGGTTTCACAACAGCTACCCAATATTCAGGGATCCTTTTCCCGAACCTGAATAACTC
CCTTTGGTATTCTACGTGCACTCTTACGTGAACCAATACGTCCATTCCTACGCGAACTTCTTCTCGGTATAGCTTTTGCCATATTTTACATTTCGTAAAT
CTGAGTTAGCGATATATGGATATATCCATTTCACGATTCTTTATTTTTACATTGGTTCAGTTGGTAAGTCTGATTATCCTTGTCGTTGTTTATGTCTCGG
GTTGGAACAAATTACTATAATTCGTCCTCTTCTACGGATTAGTCGACATTTTTCACAAATTTTACGAACAGAAGCTCTTATTTTCATATTTCCCATTCCT
TACCTTCATTTGAAATCTACTTTTTTCAAAAAAGTTTCTTGATATTTTGCATCTCGAATTGTATTTCCGTGAAAGACATGTTTGTTAAAGTTGAAAAACG
AATCCTTCGAATCTTTGTTGCGTTGCGAAGTTGATAAATTATACGCCCTCTGGTTGAATCATAAGGACTTACTTCAAATTTGACTTTTTGGCGGTATCCA
TATAAACCTACGTCGGATCTTTTCCGAAACAGAACTTAGAATCAGATCTTCATTCTATAAATAAGCCCGGAACATACTATTCGGAAGCGATTCATTAATG
AAACCCTTAGGAATTCATTTTTGTTCTTTCATCCCAGGTACTGTAAGTGATCTTGAAGTATCAACTAATGCAGGTAGAACGATATTCAATAACTCCCCCA
TTTTTTCCTTTCCCAAATTTTACAAACAAATAAGAAGTTTTGGATCCAATTTTTATATTCTATTCAAAATATTACCATATATAACACAAAATTTCTCCCC
CGATTCCTTCTAGTCGAGCCTCTCGGTCTGTCATTATACCTCGCGAAGTAGAAAGAATTACAACTCCCATCCCACCTAAAATTTTAGGGATTCGTTGATA
GTTAGAATAGATTCGTAAACCGGGTCGACTGATCCGTTTTAAATTGAAAATATTTCTATAGGGTCTTTTCCTATTCCTTCTATGTCGCAGGGTTAAAACA
AAAAAATTTTTGTTTTTTTCTCGATGCTTTCTCACGTTTTCAATAAAACCTTCTCGTAAAAGTATTCTTACAATATTTTCGGTAATATTAGTGGATGCTA
TTCGAACCACTCTTTTTCGATCCATATCAGCATTTCGTATAGAAGTGATTATCTCAGCAATAGTGTCCCTACCCATGATGAACTATAATTATTGCGGCAA
AAAAATTGGATACTATCAACGTGTTTTTTTACTTATTTGTCTATGAATTCTATTTTTCAAGAAAGATATATGCGTGAGACACATTCTACTCAATTTTGAA
TCTATTTCTTTCAAATACTCCACTAGAAACATATCACGATTTACTTTTCTAATACCTTTCTTTCAAATACTCCACTAGAAACATATCACGATTTCCTTTT
ATAATACTTCGGGAGCTAATGAAACTATTTTAGTAAAATTGAATTGTCTCAACTCTCGGGCGATTGCACCAAAAATTCTAGTTCCTTTTGGATTTCCTTC
TTTATCAATAACAACTGCGGCATTGTCATCATATCGTATTATCATTCCGTTGTCACGTTTGAGTTCTTTACAGGTACGCACAATTACCGCTCTGACTACT
TCGGATCTTTCTAGAGGCATATTAGGTACTGCTTCTTTGATAACAGCAACAATAATGTCACCAATATGAGCATATCGACGATTGCTAGCTCCTATGATTC
GAATACACATCAATTCTCGAGCCCCGCTGTTATCCGCTACATTTAAATGGGTCTGAGGTTGAATCATATCATTTTTTTT