Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: polypeptide CDS exon three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGAGAAAAAAAGAGTACAAATTAGAGGTGCTTCTAATGGGAGAG GTTAGTGGTACCATGTCTTTGAAAGGAAGAAATTATTTTGTCAAATGAAATTCTATTTTTCTCGTTATATTTGTTTCTACTTATGATGTTCTAACATGATATCTATTATGTTTTCCAGGGGGTCTTTCTCTCTTGATACGAAATTCATAGAGGTATTACTTATTCCTTTTCTTTATGAGCTTCTGGTAAGTTGGTGTCTTATAGTGGTGAATATTGCTATCGACTGGTGTCGTATAGTGATGTATATTGCTTATCTGGGTGTATCTGGTCAACTGCTTTCTTCTTGCTCTCTTGCATATGGTTATATGATTTCTAATTCATTGGTTTATATTGACAGTGCATTGATAATATTACGATCTTTCAATTTGACATGGTGTGGTGACATCAACTTCTTTCAATCTAAAGGGCATCTTGCAAAATCTAGAAGAGTATTGAACATTCTCACGGAAAATTTGTCTCTCGTGCAAGAGAGCTTAACAACAGCCATAGCCTAGATATGTCATT GTAGGTCACATTCTTCTTTTTTCTTATTTTGTTGTATCTAAGAAGCCGGGAAAGCAGACCGGTGCATAACTTCTTTTTTTTTGGGTTCCTCCTAGATATTTGAGGTTGGAGCTATTGGAAGGTGTGGCAGCATTTCACTGTGGCAAATTCGACAAATGCAGAGAAGCTTTGACATTTGCCAAAGTAAGGTTCGATAAGGTATGGAGAAGTTGGATTTATATTGTATTCTTCAAGATGAGCATCAGCAG GTTCTGTGTGAGACAAATTATTCATCATATCAGGCTTTGATCAATAGATTTTACATCAATTTCTTGCTTTACCTTTGTTTCTTTGCTCTATTTCTTTCCTTCTGTCCTGACTTTCGCATGTTACGTTGGATGTGTGGGCATACAAGAAAGGATCGTTTGAGGAATGAGATTATTAGGAAGAAAGTAGGGGTTGCACCGATTGAGTTTAAGATGATGGAAAATCTTTTAAGATGATTTGGGCATGTAAGCAGAAGATCAAGTTATGCCCCGGTTAGGAGGATAGAAGGGTGGCAAAGTGATAGAATTGCAAGGGGTAGGGGAAGACCTAAGAAAACTTGGAGGAAGGTGATTGAGCACGATATGAGTTTTCTTGGGACCGAGGAGCACATGACGTTGGATAGGACAGAGTGGAGGGAGAGAATATACATTGATGACTTCATTTGACTTATACAGCTTTCATGTTTCTGTCTATTTTTATTTTATTTTCTATTCTTATTTTAATTTTTTTTTATTTTTAAAATTCTTTAATTTTTTTTTTAATTTTTTTTTTTTTTTTTTTAATTTCACATCCTATTTTGAAATGTACTTATTTTACTTATTCATTTATTTTAAACTTTACTTATTTTTATTATCTCTTACAATATTTCTTCTATAATGTATATACATTTTTCTCTTATCTTACTTTCATTAATTCCACTTTCTCTTCCTTGTTTTTTTTCTTTTTACTTCCTGCTCCTTTCTGGTTTGATTGGTGACAATTACGATCTCCTACGACGATTCATGTTAGCCGACCCCAAATCATTTTGGGACTAAGGCTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTTGCTAGTTTGTTTATTTGTTGAACCTAGCCAATGGAATTGATAAACGTAAAAGTGTTTTTTACCTTTACGTGGTTATCTACATGGGATTGCCTTTTCCAGTATGGTAGTTTAATTGAGGAGGTGGATGGACATACTGCTATAATATATCATAGACTTCCATCTTGTCCGGTTGTATCTTTTATAATTTATTTGTTTAGGTTTGAGGGAGGCGGGGGGAACTAGAATGTAGGATTCTTGTGTAGATTCGAGCAGGAATCTTGTAGATCCTTTTTTTGGCTTTGGCTATGAGTGTNGGGGGGGGGGGGGGGGGGGGCTTAATAATATTTCTGTCAACTACAAAGAGTAGATATCACTTTTGTGGTTTAACATAGGCAGTTGGTATTATGTAGAACTCTTCATAAATATTCTGGTCCAAAAACTTGAATATTTCCATTTTAGTTTGTAGCACATTTTTAGTGGATCTTTATGTGACAGAAAGCTTGTTTGCCTCTCTACCGGCTAGGGTTAATGTGAAAGGATATGTAATATGGATCTTGGTAATCTGGGGGTTAGAATAATCTCATGATTTTGCTGTTGTTTATCTTTTAGTTTCTGGCCATCCATCATAGAGTTTAAATTGAAGGTCTCGTATGGGATATTAATTTTTAGACCAATGGGAAGTTGACTTATGAAAGGTAAATTACTTGTGTAAGACATTATTTAGTGAGGCCGTTGTATTGACATATTTGAGAACTGAACTTTGTGAGAACTTTCTCATCCTTCTCCGGGTGTGAGTTTGGAGTCTTTGAATTGATTGATTTAATGCTTTTCAAGCTCTCTTCTTCCACAATCTTAATGAGTGTTTTCTTCCTTTAATAATGCAGTTCACCTACAACTCAGCTTTGGAAACAGCTTCATGCAAGTAGTATTGATGGAGAAGCTATCTGAGGCTTAATTTCAGAACTGCAAGAGTGTTGATCGCAAATTGTGTACAG GTATGTTTGTAAAATGCAGCTAACATGTCTTGTAGGATTCCTGTTTATAAAACAAAAGTGTTGAATGTGGCTGAGGCACCTAACCCCAAATATTGGAGTCTCATTTAAAGCTGATGCATGCGAACGTTTCCATTTCACTCCAATGTTGTTGACATATATCATATATGTCAATGATTAGTATGAGAAATTGAGAAATATCAAGTTTCATTGTGATTAAGAACTTACTTAGCAATACTCTGAAAACAGCCGTGCCTTGCGGTTGATATTGAGGCAGGGCATCCTATCCAAATCAGCAGTACTGTTATAGAAGATTTACATGAGGAGAGTGAGCCTGAAGGAGATGAATGAAGAATAGATTGGGAACGAGGTAGCTAAGATGGGTTGTTGATAGGGGTTTTAGGTCAGTTTGGTTCCGGGTAGGGTCGAGTATGTATTAGCCATTAGGTACGAGTCTTATACTAGTCAATATTATCTGGTTGGGTTGGTTATCGGCTCCCAGCAATAGGGTTTTAAGCGGATCAGACTCCATTGGGCTGTTCGGTATCTGACAGCTTCATATATTGGGTAAGAAACTAACACTGGCATAGTGGCACACTGTAGCAGATAATACTGATCATCCATATAAAGGAACAGAAACGTACACGGTAACAATTGGACAAGAATGGAAAAAAGACCGTTTGGAAAAATTATTAACCACCTAGCACCGATAACTTTTACCGACTTCCTTGACGTTTTTTCACTTTTTTTTATGCCATTTTTTCAAAGTTGTTTAAGAAAAGCATTTGAGGTTATCAACATGATTTTTCGTTCTATTTACTTTAGTCTAATTTATAATATTGTTGTCTTAGTTGACAACCTTTAGTCGTTTTCTATTGTTTAGCAATAATTGACAATTAACAAAGACCCCAAGTCCCAACTAACCACACTATACAGACAACGGATCTTGTTTCTTATCTTCTAGGCAATTTGGCATAAAATAATTCTTATCAAAGTTGGTTACAACTGCTCCATAATCTTAAGTCTAAATGAGTACGTTATAAATAATTAAAAATGCATTACAAAGCATATAGAACTGTGCCAATTTGTGTTTCTGGTATGTTCACTCTTAACAACTCTGATTTTATTCAACTCTGATTTTATTCAATTGGATTTTATTCAATTTGTGTTTCTGTGTTTTGGTATTTTGTTTTCCAATTTATTACCTAATCTGCTGTTTTATTGAGACTAGCAGATCGAACAACCAAAAAACGGGGGCACGAAAATGGCAGCTTACACAATGAAGTCAGACAAGACTTTCCTTCGATGTTTGGACACAGGAGCGATCGAAGTATACGAGTTGGATAGTCCTTACCTATTTCCGGTAAAAGGGAAACAATGGAGTCACCTTGGAATCAGTATAGGGCCCGGCAACAAACATGAAGTGCTGAAGATCGGGGACAGAGATATCAGTGGTGATAATCTGCGGACCTTGATCAAAGATCTTTTCAACTCGCGACTGATTGTGAATCGTGAGGGACTTGGTTTCCTTGCGACTGCAGGGGTCACAGCTGTGATCTTGGAAGTGGATTACTACAGGCTGTTTGATCTCTTTGATTGGTCCAAGTACCAAGTCAATGCATCTCTCAACACTAAATGGGCTCGCAGCAACTTTATGGATGGCCGTCCCTTGGATATATTAGGGAGCAATCAAGGGAATGGCAAGCACGATGACAAAAAGAAATTAAGTGACAAGGAGAAGGAGTTGGAGAACGTGAAGCTTAAGCATAAAAAGGAGCTAGAAGAGGTGAAGCTTACACATAAACAAGCGCTAGAGGATGTGAAGCTTAAACTTAAAGAGGAGTTAGAGAAAGTGAAGCGTAAGAATGAGGAAGAAAGGAAGGAGAAGGAGGAGAAGATAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTNTAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTGTAAAGCAGGAAGAATTGAAGAAGAAACAAGATGAGGTAGACAAATTGAAAGAGGAGTTGGAGACAATAGAGCGTAAAAATTTGGAGGAATCAAAGAGGAAAGAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGACAGAGCGTAGGAAGCGAATAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAAGGAAACAGAAGAATTGAAAGAAGCGGCGGAGGAGTCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGAATAGAGTTGAGGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAGGGAAACAGAAGAATTGAAAGAAGCGTTGGAGGAATCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGATTAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGATCGTAAAAGAGAAACAGAAAAATCGAAAGAAGCGTTGGAGGAAGCAGAACGTAGAAAACAGAAAGAGTTGAAGAAGAAACAGGATGAGATTGATGAACTAAAGAAAAAGCACAAGGCGGAATTAGAGGCAAAGAATGGAGAAAATATGGTTTTGGAAGAGGAGTTGAAATTACATGTATTTCTAAGGAGTGGTTTCACAAAATCATATTTATTTTTTAATAGGCTGATGAAACACATGGTGACCAACTTGCCATCTTCAAAATTGAGCATCATACCTGAAAGATCAGCTAAAGAACACACTAAACCGGTAGCCGAGGGGATTGTTCCAATCATGCCAATAGGGCCAATACTCGACTCAGTATCAAATTTTCCTAGTCAAAAAATTTATTGCGAAGAATCGTTTTACGGTACTTACAACGATTATGACTTGGATAATTGGCAGGTTGTTCGAGTAGCGCATACTATACAGGCGGGTAATCGATTATATACATTAGCGTTTTACAACGGGAAAAAGTTTCGTAACAGTAATGGATTCAACAGTAAGTATCACTATTTCATTCCATGTCATGCTGAGTACCTTTCACACTATAACAGTAATGTAGGTTCTGTTTGTGTATGCAATATAGTTGGGGTTGGCGCAAGATATAGTATTGTGTGCTTTGATACAAGTGGGAGTGAGCTATACCCATGA TTTGCATGTTCTTATGGTATGTACACCACTGAGTACTGACTGATGACTTCTGTATTTGTATATATTTAAATAAAATTGTAAAAGAGAGCTATGAATATAATCCCTTCTACTTGTAATATATAGAACAACTTATATTGTATCCCCTGTTTTATTTTCTTTGATGAACAATCTATTCTGGAATGAAATATTGGGGATCAATAATCTTTCTGAGATGATGTTTCTTACGATCAAAACTCATACAAGTTTAGAATTTACCCTTTCTTCCTTTTTAACATTTCTGTAGTTGTTACTTATAACTCAGAGTAGTATGTTGGCTGATTCACATCATTGACTGTACAGGTGCATTAGTTGGTTGTTTCTTTGAGATAGTAATATTGTTACAGATCGTCACAAAGAAAATTCTGCATTTTATGGTAATTCATCTTAGTTGGAGTCTGACATTTTACTTCGGCCATTGCCAAAACACCCTCTTGCCACTATCCTCTATGATGTGTTAAAACCACTGTTACCTGATTTGCTAGTATGGGGATGGTACAG GTACGCCATTCGTTACCTAATTTGCTAAAATAAGATCAAAAGTGAACCATTTTCATGTTATAATCCGGTTTTTTGGTTCGCGGCTTGTGGGGGTGATTAGAGAATTATGTAACATTGGTTAAAACTCAAATGAATTTATCAGCAAACCTGTAGTTTTCATCTCGAGTTAATGTTCTTGGAAAAAGATATTTTACGAACTAGTTAGAATCAAATAATAATGCTTGAACTAGTGAAAACAAGCTCAAGTTGATCAACAAATCAGATGACACCTCAGATATTCCTGTCATGGAAGTTGTTAAAAAGGTTTTGGTACAATTCTTAAGTGTAGACTGTTGATATTTTGGTTTCCAATTTTTCATAAGCTGTAATTTCCATCTGTTTGATATCTCTTCCTATCATGGAGGTTGTTAAAAAGGTTTTTCATGAATGCACCAAGCATATTGAGATCGATTTTCATTCAGACATTCAGTTTGGGATACCGTAACATAAGGGATTATTGCACCATCATATGTCGATACAACATCACAATTGGCTGATATTTTTTACTAAAGTACTAGACAAGAAAACAACTTGATTACTTGTTGTCCAAATTGGACATTCTTGATTCTTACCATGCTCCAACTTGAGGGGTGTTACTAGAGTTTGTGTTTATGTTAGCCTAGATTTCTAGCACATGCGTTAATTAAGTTACTTTGGTCTACCTAGGTCTAGAATGGAAAACGAAGGCCTTTTTTGCGGAATTGACTTCTTGGCCATAACGGCATGCCTCAATCCGTGGACTATGGACCATGGTGCACATAGAGCATGGTGCACCATGTACACAAAAAGAACATATCAATTTACGATATTGTAATTGTACCTGTTTGTTATATTTTTTTGTTGCCTATTTTTTTTTATGTAAAGACGAAGAAACTAATTCACGCCGGTCAGCCATACGGCGGTGAATTCGTTCCCGGGGGCGGGTCATATGTATAGAACGAACTGGGGCATTGGGCATTTTTTCTAAAGTTACAAAATGAAACAAACAATTGGATCGATTAGATTAGTATTTTTTTTTTCGTGTAGGAAGTTGTACCTAGGTCTAGAATGGAAAACGAAGGCCTTTTTTGCGGAATTGACTTCTTGGCCATAACGGCATGCCTCAATTCGTGGACTGTGGACCATGGTGCACATAGAGCATGGTGCACCATGTACACAAAAAGAACATATGTGCATAAACAAAAGAACATGACACTACGACAAAAGAACATGCAATATAA mRNA sequence
ATGAGAAAAAAAGAGTACAAATTAGAGGTGCTTCTAATGGGAGAGAAGAGTATTGAACATTCTCACGGAAAATTTGTCTCTCGTGCAAGAGAGCTTAACAACAGCCATAGCCTAGATATGTCATTATATTTGAGGTTGGAGCTATTGGAAGGTGTGGCAGCATTTCACTGTGGCAAATTCGACAAATGCAGAGAAGCTTTGACATTTGCCAAAGTAAGGTTCGATAAGGTATGGAGAAGTTGGATTTATATTGTATTCTTCAAGATGAGCATCAGCAGAAGCTATCTGAGGCTTAATTTCAGAACTGCAAGAGTGTTGATCGCAAATTGTGTACAGATCGAACAACCAAAAAACGGGGGCACGAAAATGGCAGCTTACACAATGAAGTCAGACAAGACTTTCCTTCGATGTTTGGACACAGGAGCGATCGAAGTATACGAGTTGGATAGTCCTTACCTATTTCCGGTAAAAGGGAAACAATGGAGTCACCTTGGAATCAGTATAGGGCCCGGCAACAAACATGAAGTGCTGAAGATCGGGGACAGAGATATCAGTGGTGATAATCTGCGGACCTTGATCAAAGATCTTTTCAACTCGCGACTGATTGTGAATCGTGAGGGACTTGGTTTCCTTGCGACTGCAGGGGTCACAGCTGTGATCTTGGAAGTGGATTACTACAGGCTGTTTGATCTCTTTGATTGGTCCAAGTACCAAGTCAATGCATCTCTCAACACTAAATGGGCTCGCAGCAACTTTATGGATGGCCGTCCCTTGGATATATTAGGGAGCAATCAAGGGAATGGCAAGCACGATGACAAAAAGAAATTAAGTGACAAGGAGAAGGAGTTGGAGAACGTGAAGCTTAAGCATAAAAAGGAGCTAGAAGAGGTGAAGCTTACACATAAACAAGCGCTAGAGGATGTGAAGCTTAAACTTAAAGAGGAGTTAGAGAAAGTGAAGCGTAAGAATGAGGAAGAAAGGAAGGAGAAGGAGGAGAAGATAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTNTAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTGTAAAGCAGGAAGAATTGAAGAAGAAACAAGATGAGGTAGACAAATTGAAAGAGGAGTTGGAGACAATAGAGCGTAAAAATTTGGAGGAATCAAAGAGGAAAGAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGACAGAGCGTAGGAAGCGAATAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAAGGAAACAGAAGAATTGAAAGAAGCGGCGGAGGAGTCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGAATAGAGTTGAGGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAGGGAAACAGAAGAATTGAAAGAAGCGTTGGAGGAATCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGATTAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGATCGTAAAAGAGAAACAGAAAAATCGAAAGAAGCGTTGGAGGAAGCAGAACGTAGAAAACAGAAAGAGTTGAAGAAGAAACAGGATGAGATTGATGAACTAAAGAAAAAGCACAAGGCGGAATTAGAGGCAAAGAATGGAGAAAATATGGTTTTGGAAGAGGAGTTGAAATTACATGTATTTCTAAGGAGTGGTTTCACAAAATCATATTTATTTTTTAATAGGCTGATGAAACACATGGTGACCAACTTGCCATCTTCAAAATTGAGCATCATACCTGAAAGATCAGCTAAAGAACACACTAAACCGGTAGCCGAGGGGATTGTTCCAATCATGCCAATAGGGCCAATACTCGACTCAGTATCAAATTTTCCTAGTCAAAAAATTTATTGCGAAGAATCGTTTTACGGTACTTACAACGATTATGACTTGGATAATTGGCAGGTTGTTCGAGTAGCGCATACTATACAGGCGGGTAATCGATTATATACATTAGCGTTTTACAACGGGAAAAAGTTTCGTAACAGTAATGGATTCAACAGTAAGTATCACTATTTCATTCCATGTCATGCTGAGTACCTTTCACACTATAACAGTAATGTAGGTTCTGTTTGTGTATGCAATATAGTTGGGGTTGGCGCAAGATATAGTATTGTGTGCTTTGATACAAGTGGGAGTGAGCTATACCCATGATTTGCATGTTCTTATGGTATGTACACCACTGAGTACTGACTGATGACTTCTGTATTTGTATATATTTAAATAAAATTGTAAAAGAGAGCTATGAATATAATCCCTTCTACTTGTAATATATAGAACAACTTATATTGTATCCCCTGTTTTATTTTCTTTGATGAACAATCTATTCTGGAATGAAATATTGGGGATCAATAATCTTTCTGAGATGATGTTTCTTACGATCAAAACTCATACAAGTTTAGAATTTACCCTTTCTTCCTTTTTAACATTTCTGTAGTTGTTACTTATAACTCAGAGTAGTATGTTGGCTGATTCACATCATTGACTGTACAGGTGCATTAGTTGGTTGTTTCTTTGAGATAGTAATATTGTTACAGATCGTCACAAAGAAAATTCTGCATTTTATGGTAATTCATCTTAGTTGGAGTCTGACATTTTACTTCGGCCATTGCCAAAACACCCTCTTGCCACTATCCTCTATGATGTGTTAAAACCACTGTTACCTGATTTGCTAGTATGGGGATGGTACAGGTCTAGAATGGAAAACGAAGGCCTTTTTTGCGGAATTGACTTCTTGGCCATAACGGCATGCCTCAATTCGTGGACTGTGGACCATGGTGCACATAGAGCATGGTGCACCATGTACACAAAAAGAACATATGTGCATAAACAAAAGAACATGACACTACGACAAAAGAACATGCAATATAA Coding sequence (CDS)
ATGAGAAAAAAAGAGTACAAATTAGAGGTGCTTCTAATGGGAGAGAAGAGTATTGAACATTCTCACGGAAAATTTGTCTCTCGTGCAAGAGAGCTTAACAACAGCCATAGCCTAGATATGTCATTATATTTGAGGTTGGAGCTATTGGAAGGTGTGGCAGCATTTCACTGTGGCAAATTCGACAAATGCAGAGAAGCTTTGACATTTGCCAAAGTAAGGTTCGATAAGGTATGGAGAAGTTGGATTTATATTGTATTCTTCAAGATGAGCATCAGCAGAAGCTATCTGAGGCTTAATTTCAGAACTGCAAGAGTGTTGATCGCAAATTGTGTACAGATCGAACAACCAAAAAACGGGGGCACGAAAATGGCAGCTTACACAATGAAGTCAGACAAGACTTTCCTTCGATGTTTGGACACAGGAGCGATCGAAGTATACGAGTTGGATAGTCCTTACCTATTTCCGGTAAAAGGGAAACAATGGAGTCACCTTGGAATCAGTATAGGGCCCGGCAACAAACATGAAGTGCTGAAGATCGGGGACAGAGATATCAGTGGTGATAATCTGCGGACCTTGATCAAAGATCTTTTCAACTCGCGACTGATTGTGAATCGTGAGGGACTTGGTTTCCTTGCGACTGCAGGGGTCACAGCTGTGATCTTGGAAGTGGATTACTACAGGCTGTTTGATCTCTTTGATTGGTCCAAGTACCAAGTCAATGCATCTCTCAACACTAAATGGGCTCGCAGCAACTTTATGGATGGCCGTCCCTTGGATATATTAGGGAGCAATCAAGGGAATGGCAAGCACGATGACAAAAAGAAATTAAGTGACAAGGAGAAGGAGTTGGAGAACGTGAAGCTTAAGCATAAAAAGGAGCTAGAAGAGGTGAAGCTTACACATAAACAAGCGCTAGAGGATGTGAAGCTTAAACTTAAAGAGGAGTTAGAGAAAGTGAAGCGTAAGAATGAGGAAGAAAGGAAGGAGAAGGAGGAGAAGATAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTNTAGATAACATGAAGGAGGTGTTGACGATAGCGGAGGAAGAGTTGAAGGACAGACAAGAGAAGATTAAGAAATTGAAAGAGGAGGTGGCGCGTGTAAAGCAGGAAGAATTGAAGAAGAAACAAGATGAGGTAGACAAATTGAAAGAGGAGTTGGAGACAATAGAGCGTAAAAATTTGGAGGAATCAAAGAGGAAAGAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGACAGAGCGTAGGAAGCGAATAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAAGGAAACAGAAGAATTGAAAGAAGCGGCGGAGGAGTCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGAATAGAGTTGAGGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGAGCGTAAAAGGGAAACAGAAGAATTGAAAGAAGCGTTGGAGGAATCAAAGAGGAAACAAAATAAGATAGAGAAATTGAGAGAGGAGTTGGATGAGGCAGAGCGTAGGAAGCGATTAGAGTTGAAGGATAAAGAAGATGAGATAAACGAACTGATAGAGAAGTTGGATCGTAAAAGAGAAACAGAAAAATCGAAAGAAGCGTTGGAGGAAGCAGAACGTAGAAAACAGAAAGAGTTGAAGAAGAAACAGGATGAGATTGATGAACTAAAGAAAAAGCACAAGGCGGAATTAGAGGCAAAGAATGGAGAAAATATGGTTTTGGAAGAGGAGTTGAAATTACATGTATTTCTAAGGAGTGGTTTCACAAAATCATATTTATTTTTTAATAGGCTGATGAAACACATGGTGACCAACTTGCCATCTTCAAAATTGAGCATCATACCTGAAAGATCAGCTAAAGAACACACTAAACCGGTAGCCGAGGGGATTGTTCCAATCATGCCAATAGGGCCAATACTCGACTCAGTATCAAATTTTCCTAGTCAAAAAATTTATTGCGAAGAATCGTTTTACGGTACTTACAACGATTATGACTTGGATAATTGGCAGGTTGTTCGAGTAGCGCATACTATACAGGCGGGTAATCGATTATATACATTAGCGTTTTACAACGGGAAAAAGTTTCGTAACAGTAATGGATTCAACAGTAAGTATCACTATTTCATTCCATGTCATGCTGAGTACCTTTCACACTATAACAGTAATGTAGGTTCTGTTTGTGTATGCAATATAGTTGGGGTTGGCGCAAGATATAGTATTGTGTGCTTTGATACAAGTGGGAGTGAGCTATACCCATGA Protein sequence
MRKKEYKLEVLLMGEKSIEHSHGKFVSRARELNNSHSLDMSLYLRLELLEGVAAFHCGKFDKCREALTFAKVRFDKVWRSWIYIVFFKMSISRSYLRLNFRTARVLIANCVQIEQPKNGGTKMAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDRDISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNASLNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKIKKLKEEVARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKNLEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKKQDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSSKLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNWQVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVCNIVGVGARYSIVCFDTSGSELYP
Homology
BLAST of Spo25016.1 vs. NCBI nr
Match:
gi|902165442|gb|KNA07107.1| (hypothetical protein SOVF_174880 [Spinacia oleracea])
HSP 1 Score: 1158.7 bits (2996), Expect = 0.000e+0
Identity = 652/683 (95.46%), Postives = 652/683 (95.46%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR Sbjct: 1 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS Sbjct: 61 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK 302 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK Sbjct: 121 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK 180 Query: 303 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKIKKLKEEV 362 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMK Sbjct: 181 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMK------------------------ 240 Query: 363 ARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN 422 EVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN Sbjct: 241 -------EVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN 300 Query: 423 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK 482 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK Sbjct: 301 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK 360 Query: 483 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK 542 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK Sbjct: 361 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK 420 Query: 543 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK 602 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK Sbjct: 421 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK 480 Query: 603 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS 662 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS Sbjct: 481 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS 540 Query: 663 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW 722 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW Sbjct: 541 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW 600 Query: 723 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC 782 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC Sbjct: 601 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC 652 Query: 783 NIVGVGARYSIVCFDTSGSELYP 806 NIVGVGARYSIVCFDTSGSELYP Sbjct: 661 NIVGVGARYSIVCFDTSGSELYP 652
BLAST of Spo25016.1 vs. NCBI nr
Match:
gi|902158864|gb|KNA06268.1| (hypothetical protein SOVF_182650 [Spinacia oleracea])
HSP 1 Score: 1094.3 bits (2829), Expect = 0.000e+0
Identity = 621/694 (89.48%), Postives = 636/694 (91.64%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHE+LKIGDR Sbjct: 1 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHELLKIGDR 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DISGD+L+TLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS Sbjct: 61 DISGDSLQTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELEN-----------VKLKHK 302 LNTKWARSNFMDGRPLDILGSNQGNG HDDKKKLSDKEKELEN VKLKHK Sbjct: 121 LNTKWARSNFMDGRPLDILGSNQGNGNHDDKKKLSDKEKELENAKLKHKEELEDVKLKHK 180 Query: 303 KELEEVKLTHKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDR 362 +ELEEVKLTHKQ LED+KLKLKEELEKVKRKNEEERKEKEEKIDNMK Sbjct: 181 RELEEVKLTHKQELEDMKLKLKEELEKVKRKNEEERKEKEEKIDNMK------------- 240 Query: 363 QEKIKKLKEEVARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL 422 EVLT AEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL Sbjct: 241 ------------------EVLTKAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL 300 Query: 423 KEELETIERKNLEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKET 482 KEELET+ERKNLEESKRKENKIEKLREELDE ERRKRIELKDKEDEINELIEKLERKKET Sbjct: 301 KEELETVERKNLEESKRKENKIEKLREELDEAERRKRIELKDKEDEINELIEKLERKKET 360 Query: 483 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE 542 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE Sbjct: 361 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE 420 Query: 543 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEA 602 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETE+SKE LEEA Sbjct: 421 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEESKEELEEA 480 Query: 603 ERRKQKELKKKQDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRL 662 ERRKQKELKKKQDEIDELKKKHKAELEAKN ENMVLEEELKLHVFLRSGFTKSYLFFNRL Sbjct: 481 ERRKQKELKKKQDEIDELKKKHKAELEAKNEENMVLEEELKLHVFLRSGFTKSYLFFNRL 540 Query: 663 MKHMVTNLPSSKLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFY 722 M+HMVT LPSSKLSI+PERSAKEHTKPV EGIVP MPIGPILDSVSNFPSQKIYCEESFY Sbjct: 541 MEHMVTKLPSSKLSIVPERSAKEHTKPVTEGIVPFMPIGPILDSVSNFPSQKIYCEESFY 600 Query: 723 GTYNDYDLDNWQVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSH 782 GTY+DYDLDNWQVVRVA+TI AGNR +T+AFYNG+KFRNSNGFNSKY YFIPCH EYLSH Sbjct: 601 GTYHDYDLDNWQVVRVAYTILAGNRSFTIAFYNGRKFRNSNGFNSKYQYFIPCHPEYLSH 660 Query: 783 YNSNVGSVCVCNIVGVGARYSIVCFDTSGSELYP 806 YN+NVG VCV NIVGVG RYSIVCFDTSGSELYP Sbjct: 661 YNTNVGGVCVYNIVGVGVRYSIVCFDTSGSELYP 663
BLAST of Spo25016.1 vs. NCBI nr
Match:
gi|902224684|gb|KNA19853.1| (hypothetical protein SOVF_057600 [Spinacia oleracea])
HSP 1 Score: 507.3 bits (1305), Expect = 4.900e-140
Identity = 351/697 (50.36%), Postives = 438/697 (62.84%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 M AYTMKSDKTFLRCLDT AIEVYELDSPYLFPVKGKQWSHLGISIGPG+K+EVL+IGD+ Sbjct: 1 MEAYTMKSDKTFLRCLDTRAIEVYELDSPYLFPVKGKQWSHLGISIGPGHKYEVLRIGDK 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DI GD+L+ LI+DLFNSRLI+NREGLGFL AGVT V++ V+YYRLFDLFDWSKYQVN S Sbjct: 61 DIRGDDLQALIRDLFNSRLIINREGLGFLPAAGVTVVVMLVEYYRLFDLFDWSKYQVNTS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDD---KKKLSDKEKELENVKLKHKKELEEVKL 302 LNTKWARSNF+DGRPLDILGSN GNG DD KKKL +K+KELEN K+KHK+ELEEV Sbjct: 121 LNTKWARSNFIDGRPLDILGSNPGNGSRDDTECKKKLGEKDKELENQKIKHKEELEEV-- 180 Query: 303 THKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKIKKLK 362 KR+ EE KE +EKI+N+KEVL AEEELKD+Q KI KLK Sbjct: 181 --------------------KRRKEEGSKETKEKINNIKEVLEAAEEELKDKQNKIDKLK 240 Query: 363 EEVARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIE 422 EE+A + R+KQ+ELKKKQDE+D LKEEL E Sbjct: 241 EELAGAE----------------------------RIKQKELKKKQDEIDTLKEELAGAE 300 Query: 423 RKNLEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAE 482 R N EE K+K+++I+KL+EEL TER+ E Sbjct: 301 RINKEELKKKQDEIDKLKEELVTTERKNM------------------------------E 360 Query: 483 ESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRK 542 ESK KQNKI+KL+ +LDEAERRKR EL+DKED+I Sbjct: 361 ESKDKQNKIDKLKVKLDEAERRKREELKDKEDDI-------------------------- 420 Query: 543 QNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKEL 602 +KL++EL+EAE++++ +LK K+DEI L KEALEEAER+ L Sbjct: 421 ----DKLKDELEEAEQKRQQDLKKKQDEIEIL-------------KEALEEAERK----L 480 Query: 603 KKKQDEIDELK------KKHKAELEAKNGENMV----LEEELKLHVFLRSGFTKSYLFFN 662 KKK DEID LK K++ + K E+ LEEELKLHV+LRSG + F Sbjct: 481 KKKHDEIDRLKVELAEEKRNSKDQNDKIAEDKKKINELEEELKLHVYLRSGLRGGFEFLY 540 Query: 663 RLMKHMVTNLPSSKLSIIPERSAKEHTKPVAEGIV-------PIMPIGPILDSVSNFPSQ 722 L++ NLPSSKLSI+ A H ++ + P++ IGPILDS+S+FP+Q Sbjct: 541 NLVQVTQRNLPSSKLSILSITQAVRHKGALSNFQLKVEHLHDPLIVIGPILDSMSDFPTQ 564 Query: 723 KIYCEESFYGTYNDYDLDNWQVVRVAHTIQAGNRL---YTLAFYNGKKFRNSNGFNSKYH 782 I+ ESFY +D+DL+NW+VVRV + + G+ +T+AFY+G K++ + + K+ Sbjct: 601 LIFRPESFY---SDFDLNNWRVVRVIGSSKGGSVTPFAFTIAFYDGNKYQKRSA-DEKHI 564 Query: 783 YFIPCHAEYLSHYNSNVGSVCVCNIVGVGARYSIVCF 797 Y IPCH ++LS+Y S + NI+GVG RYSI CF Sbjct: 661 YPIPCHYQHLSNYTSYSNGIY--NILGVGLRYSIACF 564
BLAST of Spo25016.1 vs. NCBI nr
Match:
gi|870844320|gb|KMS97326.1| (hypothetical protein BVRB_6g156230 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 259.2 bits (661), Expect = 2.300e-65
Identity = 166/311 (53.38%), Postives = 224/311 (72.03%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYT+KSDK FLRC D IEVYELDSPY++PVKGK WSH+GISI PG K+E LKIGD+ Sbjct: 1 MAAYTLKSDKMFLRCFDMEGIEVYELDSPYIYPVKGKHWSHIGISIAPGKKYEALKIGDK 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 +I +L+TLIKDLFNSRLIVNREGL FLAT GVT+V+LEV+YYR FD+F+WS+YQ S Sbjct: 61 EIKSVDLQTLIKDLFNSRLIVNREGLCFLATTGVTSVVLEVEYYRQFDVFNWSRYQAKTS 120 Query: 243 LNTKWARSNFMDGRPLDIL---GSNQGNGKHDDKKKL-SDKEKELENVKLKHKKELEEVK 302 +NTKW+R + +DGRPL+I+ GSN G+ K+L +K+KELE K KHK E+EEV+ Sbjct: 121 VNTKWSRKDIVDGRPLEIIVPVGSNSGDVNDQKVKELEEEKKKELEEQKNKHKAEIEEVE 180 Query: 303 LTHKQALEDVKL---KLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKI 362 + AL++ + KLKEEL + +RK +EE K+KE +I EV E LK++Q +I Sbjct: 181 RKKEAALKEKQAEIGKLKEELVEERRKKQEEEKKKEGEI----EVEHKNEAALKEKQAEI 240 Query: 363 KKLKEEVARXDNMKEVLTIAEEELKDRQ--EKIKKLKEEVARV---KQEELKKKQDEVDK 422 KLK+E+A K+ +E+ KD + E +K KEE+ R+ KQ+ELK KQDE+++ Sbjct: 241 DKLKKELAEERRKKQ----EDEKKKDGEIAELKRKHKEELVRLEQRKQQELKWKQDELER 300
BLAST of Spo25016.1 vs. NCBI nr
Match:
gi|902074283|gb|KNA03030.1| (hypothetical protein SOVF_213080 [Spinacia oleracea])
HSP 1 Score: 250.4 bits (638), Expect = 1.100e-62
Identity = 159/299 (53.18%), Postives = 207/299 (69.23%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVL----- 182 M AYT+KSDKTFLRCLD A+EVYELDS Y+FPVKGK WS LGI+IG GN +E L Sbjct: 1 MTAYTIKSDKTFLRCLDMSAVEVYELDSLYIFPVKGKHWSQLGITIGHGNNYEALQIGDK 60 Query: 183 ------------KIGDRDISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDY 242 KIGD+DI GD+L++LIKDLFNSRLIVN EGLGFLATAGVT+V+LEV+Y Sbjct: 61 YIGGVGNNYEALKIGDKDIGGDDLQSLIKDLFNSRLIVNGEGLGFLATAGVTSVVLEVEY 120 Query: 243 YRLFDLFDWSKYQVNASLNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELEN 302 +RLFDLFDWSKY VN SLNTKWARSNFMDGRPLDILG N ++ KK+LS E+ L+ Sbjct: 121 FRLFDLFDWSKYHVNTSLNTKWARSNFMDGRPLDILGRNGNRDDNEYKKELS--EEALDE 180 Query: 303 VKLKHKKELEEVKLTHKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAE 362 + K ++EL++ +D LKE L++ +RK ++E K+K+++I +K+ L AE Sbjct: 181 AERKRQQELKK--------KQDEIEALKEALDEAERKRQQELKKKQDEIQVLKQALDEAE 240 Query: 363 EELKDRQEKIKKLKEEVARXDNM-KEVLTIAE----EELKDRQEKIK-KLKEEVARVKQ 399 + RQ+ +KK ++E+A + KE L I E EELK Q +++ K+KE + K+ Sbjct: 241 ---RKRQQDLKKKQDEIAELKSKHKEELRILENRMLEELKKIQAELESKIKENMGLEKE 286
BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9QIP2_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_174880 PE=4 SV=1)
HSP 1 Score: 1158.7 bits (2996), Expect = 0.000e+0
Identity = 652/683 (95.46%), Postives = 652/683 (95.46%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR Sbjct: 1 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS Sbjct: 61 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK 302 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK Sbjct: 121 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELENVKLKHKKELEEVKLTHK 180 Query: 303 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKIKKLKEEV 362 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMK Sbjct: 181 QALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMK------------------------ 240 Query: 363 ARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN 422 EVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN Sbjct: 241 -------EVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIERKN 300 Query: 423 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK 482 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK Sbjct: 301 LEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAEESK 360 Query: 483 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK 542 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK Sbjct: 361 RKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRKQNK 420 Query: 543 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK 602 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK Sbjct: 421 IEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKELKKK 480 Query: 603 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS 662 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS Sbjct: 481 QDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRLMKHMVTNLPSS 540 Query: 663 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW 722 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW Sbjct: 541 KLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFYGTYNDYDLDNW 600 Query: 723 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC 782 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC Sbjct: 601 QVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSHYNSNVGSVCVC 652 Query: 783 NIVGVGARYSIVCFDTSGSELYP 806 NIVGVGARYSIVCFDTSGSELYP Sbjct: 661 NIVGVGARYSIVCFDTSGSELYP 652
BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9QHW0_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_182650 PE=4 SV=1)
HSP 1 Score: 1094.3 bits (2829), Expect = 0.000e+0
Identity = 621/694 (89.48%), Postives = 636/694 (91.64%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHE+LKIGDR Sbjct: 1 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHELLKIGDR 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DISGD+L+TLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS Sbjct: 61 DISGDSLQTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELEN-----------VKLKHK 302 LNTKWARSNFMDGRPLDILGSNQGNG HDDKKKLSDKEKELEN VKLKHK Sbjct: 121 LNTKWARSNFMDGRPLDILGSNQGNGNHDDKKKLSDKEKELENAKLKHKEELEDVKLKHK 180 Query: 303 KELEEVKLTHKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDR 362 +ELEEVKLTHKQ LED+KLKLKEELEKVKRKNEEERKEKEEKIDNMK Sbjct: 181 RELEEVKLTHKQELEDMKLKLKEELEKVKRKNEEERKEKEEKIDNMK------------- 240 Query: 363 QEKIKKLKEEVARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL 422 EVLT AEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL Sbjct: 241 ------------------EVLTKAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKL 300 Query: 423 KEELETIERKNLEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKET 482 KEELET+ERKNLEESKRKENKIEKLREELDE ERRKRIELKDKEDEINELIEKLERKKET Sbjct: 301 KEELETVERKNLEESKRKENKIEKLREELDEAERRKRIELKDKEDEINELIEKLERKKET 360 Query: 483 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE 542 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE Sbjct: 361 EELKEAAEESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKE 420 Query: 543 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEA 602 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETE+SKE LEEA Sbjct: 421 ALEESKRKQNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEESKEELEEA 480 Query: 603 ERRKQKELKKKQDEIDELKKKHKAELEAKNGENMVLEEELKLHVFLRSGFTKSYLFFNRL 662 ERRKQKELKKKQDEIDELKKKHKAELEAKN ENMVLEEELKLHVFLRSGFTKSYLFFNRL Sbjct: 481 ERRKQKELKKKQDEIDELKKKHKAELEAKNEENMVLEEELKLHVFLRSGFTKSYLFFNRL 540 Query: 663 MKHMVTNLPSSKLSIIPERSAKEHTKPVAEGIVPIMPIGPILDSVSNFPSQKIYCEESFY 722 M+HMVT LPSSKLSI+PERSAKEHTKPV EGIVP MPIGPILDSVSNFPSQKIYCEESFY Sbjct: 541 MEHMVTKLPSSKLSIVPERSAKEHTKPVTEGIVPFMPIGPILDSVSNFPSQKIYCEESFY 600 Query: 723 GTYNDYDLDNWQVVRVAHTIQAGNRLYTLAFYNGKKFRNSNGFNSKYHYFIPCHAEYLSH 782 GTY+DYDLDNWQVVRVA+TI AGNR +T+AFYNG+KFRNSNGFNSKY YFIPCH EYLSH Sbjct: 601 GTYHDYDLDNWQVVRVAYTILAGNRSFTIAFYNGRKFRNSNGFNSKYQYFIPCHPEYLSH 660 Query: 783 YNSNVGSVCVCNIVGVGARYSIVCFDTSGSELYP 806 YN+NVG VCV NIVGVG RYSIVCFDTSGSELYP Sbjct: 661 YNTNVGGVCVYNIVGVGVRYSIVCFDTSGSELYP 663
BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9RK28_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_057600 PE=4 SV=1)
HSP 1 Score: 507.3 bits (1305), Expect = 3.400e-140
Identity = 351/697 (50.36%), Postives = 438/697 (62.84%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 M AYTMKSDKTFLRCLDT AIEVYELDSPYLFPVKGKQWSHLGISIGPG+K+EVL+IGD+ Sbjct: 1 MEAYTMKSDKTFLRCLDTRAIEVYELDSPYLFPVKGKQWSHLGISIGPGHKYEVLRIGDK 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 DI GD+L+ LI+DLFNSRLI+NREGLGFL AGVT V++ V+YYRLFDLFDWSKYQVN S Sbjct: 61 DIRGDDLQALIRDLFNSRLIINREGLGFLPAAGVTVVVMLVEYYRLFDLFDWSKYQVNTS 120 Query: 243 LNTKWARSNFMDGRPLDILGSNQGNGKHDD---KKKLSDKEKELENVKLKHKKELEEVKL 302 LNTKWARSNF+DGRPLDILGSN GNG DD KKKL +K+KELEN K+KHK+ELEEV Sbjct: 121 LNTKWARSNFIDGRPLDILGSNPGNGSRDDTECKKKLGEKDKELENQKIKHKEELEEV-- 180 Query: 303 THKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKIKKLK 362 KR+ EE KE +EKI+N+KEVL AEEELKD+Q KI KLK Sbjct: 181 --------------------KRRKEEGSKETKEKINNIKEVLEAAEEELKDKQNKIDKLK 240 Query: 363 EEVARXDNMKEVLTIAEEELKDRQEKIKKLKEEVARVKQEELKKKQDEVDKLKEELETIE 422 EE+A + R+KQ+ELKKKQDE+D LKEEL E Sbjct: 241 EELAGAE----------------------------RIKQKELKKKQDEIDTLKEELAGAE 300 Query: 423 RKNLEESKRKENKIEKLREELDETERRKRIELKDKEDEINELIEKLERKKETEELKEAAE 482 R N EE K+K+++I+KL+EEL TER+ E Sbjct: 301 RINKEELKKKQDEIDKLKEELVTTERKNM------------------------------E 360 Query: 483 ESKRKQNKIEKLREELDEAERRKRIELRDKEDEINELIEKLERKRETEELKEALEESKRK 542 ESK KQNKI+KL+ +LDEAERRKR EL+DKED+I Sbjct: 361 ESKDKQNKIDKLKVKLDEAERRKREELKDKEDDI-------------------------- 420 Query: 543 QNKIEKLREELDEAERRKRLELKDKEDEINELIEKLDRKRETEKSKEALEEAERRKQKEL 602 +KL++EL+EAE++++ +LK K+DEI L KEALEEAER+ L Sbjct: 421 ----DKLKDELEEAEQKRQQDLKKKQDEIEIL-------------KEALEEAERK----L 480 Query: 603 KKKQDEIDELK------KKHKAELEAKNGENMV----LEEELKLHVFLRSGFTKSYLFFN 662 KKK DEID LK K++ + K E+ LEEELKLHV+LRSG + F Sbjct: 481 KKKHDEIDRLKVELAEEKRNSKDQNDKIAEDKKKINELEEELKLHVYLRSGLRGGFEFLY 540 Query: 663 RLMKHMVTNLPSSKLSIIPERSAKEHTKPVAEGIV-------PIMPIGPILDSVSNFPSQ 722 L++ NLPSSKLSI+ A H ++ + P++ IGPILDS+S+FP+Q Sbjct: 541 NLVQVTQRNLPSSKLSILSITQAVRHKGALSNFQLKVEHLHDPLIVIGPILDSMSDFPTQ 564 Query: 723 KIYCEESFYGTYNDYDLDNWQVVRVAHTIQAGNRL---YTLAFYNGKKFRNSNGFNSKYH 782 I+ ESFY +D+DL+NW+VVRV + + G+ +T+AFY+G K++ + + K+ Sbjct: 601 LIFRPESFY---SDFDLNNWRVVRVIGSSKGGSVTPFAFTIAFYDGNKYQKRSA-DEKHI 564 Query: 783 YFIPCHAEYLSHYNSNVGSVCVCNIVGVGARYSIVCF 797 Y IPCH ++LS+Y S + NI+GVG RYSI CF Sbjct: 661 YPIPCHYQHLSNYTSYSNGIY--NILGVGLRYSIACF 564
BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8B8M0_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g156230 PE=4 SV=1)
HSP 1 Score: 259.2 bits (661), Expect = 1.600e-65
Identity = 166/311 (53.38%), Postives = 224/311 (72.03%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVLKIGDR 182 MAAYT+KSDK FLRC D IEVYELDSPY++PVKGK WSH+GISI PG K+E LKIGD+ Sbjct: 1 MAAYTLKSDKMFLRCFDMEGIEVYELDSPYIYPVKGKHWSHIGISIAPGKKYEALKIGDK 60 Query: 183 DISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDYYRLFDLFDWSKYQVNAS 242 +I +L+TLIKDLFNSRLIVNREGL FLAT GVT+V+LEV+YYR FD+F+WS+YQ S Sbjct: 61 EIKSVDLQTLIKDLFNSRLIVNREGLCFLATTGVTSVVLEVEYYRQFDVFNWSRYQAKTS 120 Query: 243 LNTKWARSNFMDGRPLDIL---GSNQGNGKHDDKKKL-SDKEKELENVKLKHKKELEEVK 302 +NTKW+R + +DGRPL+I+ GSN G+ K+L +K+KELE K KHK E+EEV+ Sbjct: 121 VNTKWSRKDIVDGRPLEIIVPVGSNSGDVNDQKVKELEEEKKKELEEQKNKHKAEIEEVE 180 Query: 303 LTHKQALEDVKL---KLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAEEELKDRQEKI 362 + AL++ + KLKEEL + +RK +EE K+KE +I EV E LK++Q +I Sbjct: 181 RKKEAALKEKQAEIGKLKEELVEERRKKQEEEKKKEGEI----EVEHKNEAALKEKQAEI 240 Query: 363 KKLKEEVARXDNMKEVLTIAEEELKDRQ--EKIKKLKEEVARV---KQEELKKKQDEVDK 422 KLK+E+A K+ +E+ KD + E +K KEE+ R+ KQ+ELK KQDE+++ Sbjct: 241 DKLKKELAEERRKKQ----EDEKKKDGEIAELKRKHKEELVRLEQRKQQELKWKQDELER 300
BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9Q785_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_213080 PE=4 SV=1)
HSP 1 Score: 250.4 bits (638), Expect = 7.600e-63
Identity = 159/299 (53.18%), Postives = 207/299 (69.23%), Query Frame = 1
Query: 123 MAAYTMKSDKTFLRCLDTGAIEVYELDSPYLFPVKGKQWSHLGISIGPGNKHEVL----- 182 M AYT+KSDKTFLRCLD A+EVYELDS Y+FPVKGK WS LGI+IG GN +E L Sbjct: 1 MTAYTIKSDKTFLRCLDMSAVEVYELDSLYIFPVKGKHWSQLGITIGHGNNYEALQIGDK 60 Query: 183 ------------KIGDRDISGDNLRTLIKDLFNSRLIVNREGLGFLATAGVTAVILEVDY 242 KIGD+DI GD+L++LIKDLFNSRLIVN EGLGFLATAGVT+V+LEV+Y Sbjct: 61 YIGGVGNNYEALKIGDKDIGGDDLQSLIKDLFNSRLIVNGEGLGFLATAGVTSVVLEVEY 120 Query: 243 YRLFDLFDWSKYQVNASLNTKWARSNFMDGRPLDILGSNQGNGKHDDKKKLSDKEKELEN 302 +RLFDLFDWSKY VN SLNTKWARSNFMDGRPLDILG N ++ KK+LS E+ L+ Sbjct: 121 FRLFDLFDWSKYHVNTSLNTKWARSNFMDGRPLDILGRNGNRDDNEYKKELS--EEALDE 180 Query: 303 VKLKHKKELEEVKLTHKQALEDVKLKLKEELEKVKRKNEEERKEKEEKIDNMKEVLTIAE 362 + K ++EL++ +D LKE L++ +RK ++E K+K+++I +K+ L AE Sbjct: 181 AERKRQQELKK--------KQDEIEALKEALDEAERKRQQELKKKQDEIQVLKQALDEAE 240 Query: 363 EELKDRQEKIKKLKEEVARXDNM-KEVLTIAE----EELKDRQEKIK-KLKEEVARVKQ 399 + RQ+ +KK ++E+A + KE L I E EELK Q +++ K+KE + K+ Sbjct: 241 ---RKRQQDLKKKQDEIAELKSKHKEELRILENRMLEELKKIQAELESKIKENMGLEKE 286
BLAST of Spo25016.1 vs. TAIR (Arabidopsis)
Match:
AT2G12550.1 (ubiquitin-associated (UBA)/TS-N domain-containing protein)
HSP 1 Score: 61.6 bits (148), Expect = 2.500e-9
Identity = 31/64 (48.44%), Postives = 41/64 (64.06%), Query Frame = 1
Query: 11 LLMGEKSIEHSHGKFVSRARELNNSHSLDMSLYLRLELLEGVAAFHCGKFDKCREALTFA 70 L+ K +E +HGK +SR R L S +M++YLRLELLEGV A+H G+ DK AL A Sbjct: 216 LVRARKGLERAHGKDLSRVRLLQAGQSPEMAIYLRLELLEGVVAYHTGQNDKALNALKSA 275 Query: 71 KVRF 75 +F Sbjct: 276 HAKF 279
The following BLAST results are available for this feature:
BLAST of Spo25016.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
A T G A G A A A A A A A G A G T A C A A A T T A G A G G T G C T T C T A A T G G G A G A G A A G A G T A T T G A A C A T T C T C A C G G A A A A T T T G T C T C T C G T G C A A G A G A G C T T A A C A A C A G C C A T A G C C T A G A T A T G T C A T T A T A T T T G A G G T T G G A G C T A T T G G A A G G T G T G G C A G C A T T T C A C T G T G G C A A A T T C G A C A A A T G C A G A G A A G C T T T G A C A T T T G C C A A A G T A A G G T T C G A T A A G G T A T G G A G A A G T T G G A T T T A T A T T G T A T T C T T C A A G A T G A G C A T C A G C A G A A G C T A T C T G A G G C T T A A T T T C A G A A C T G C A A G A G T G T T G A T C G C A A A T T G T G T A C A G A T C G A A C A A C C A A A A A A C G G G G G C A C G A A A A T G G C A G C T T A C A C A A T G A A G T C A G A C A A G A C T T T C C T T C G A T G T T T G G A C A C A G G A G C G A T C G A A G T A T A C G A G T T G G A T A G T C C T T A C C T A T T T C C G G T A A A A G G G A A A C A A T G G A G T C A C C T T G G A A T C A G T A T A G G G C C C G G C A A C A A A C A T G A A G T G C T G A A G A T C G G G G A C A G A G A T A T C A G T G G T G A T A A T C T G C G G A C C T T G A T C A A A G A T C T T T T C A A C T C G C G A C T G A T T G T G A A T C G T G A G G G A C T T G G T T T C C T T G C G A C T G C A G G G G T C A C A G C T G T G A T C T T G G A A G T G G A T T A C T A C A G G C T G T T T G A T C T C T T T G A T T G G T C C A A G T A C C A A G T C A A T G C A T C T C T C A A C A C T A A A T G G G C T C G C A G C A A C T T T A T G G A T G G C C G T C C C T T G G A T A T A T T A G G G A G C A A T C A A G G G A A T G G C A A G C A C G A T G A C A A A A A G A A A T T A A G T G A C A A G G A G A A G G A G T T G G A G A A C G T G A A G C T T A A G C A T A A A A A G G A G C T A G A A G A G G T G A A G C T T A C A C A T A A A C A A G C G C T A G A G G A T G T G A A G C T T A A A C T T A A A G A G G A G T T A G A G A A A G T G A A G C G T A A G A A T G A G G A A G A A A G G A A G G A G A A G G A G G A G A A G A T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T N T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T G T A A A G C A G G A A G A A T T G A A G A A G A A A C A A G A T G A G G T A G A C A A A T T G A A A G A G G A G T T G G A G A C A A T A G A G C G T A A A A A T T T G G A G G A A T C A A A G A G G A A A G A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G A C A G A G C G T A G G A A G C G A A T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A A G G A A A C A G A A G A A T T G A A A G A A G C G G C G G A G G A G T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A A T A G A G T T G A G G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A G G G A A A C A G A A G A A T T G A A A G A A G C G T T G G A G G A A T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A T T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A T C G T A A A A G A G A A A C A G A A A A A T C G A A A G A A G C G T T G G A G G A A G C A G A A C G T A G A A A A C A G A A A G A G T T G A A G A A G A A A C A G G A T G A G A T T G A T G A A C T A A A G A A A A A G C A C A A G G C G G A A T T A G A G G C A A A G A A T G G A G A A A A T A T G G T T T T G G A A G A G G A G T T G A A A T T A C A T G T A T T T C T A A G G A G T G G T T T C A C A A A A T C A T A T T T A T T T T T T A A T A G G C T G A T G A A A C A C A T G G T G A C C A A C T T G C C A T C T T C A A A A T T G A G C A T C A T A C C T G A A A G A T C A G C T A A A G A A C A C A C T A A A C C G G T A G C C G A G G G G A T T G T T C C A A T C A T G C C A A T A G G G C C A A T A C T C G A C T C A G T A T C A A A T T T T C C T A G T C A A A A A A T T T A T T G C G A A G A A T C G T T T T A C G G T A C T T A C A A C G A T T A T G A C T T G G A T A A T T G G C A G G T T G T T C G A G T A G C G C A T A C T A T A C A G G C G G G T A A T C G A T T A T A T A C A T T A G C G T T T T A C A A C G G G A A A A A G T T T C G T A A C A G T A A T G G A T T C A A C A G T A A G T A T C A C T A T T T C A T T C C A T G T C A T G C T G A G T A C C T T T C A C A C T A T A A C A G T A A T G T A G G T T C T G T T T G T G T A T G C A A T A T A G T T G G G G T T G G C G C A A G A T A T A G T A T T G T G T G C T T T G A T A C A A G T G G G A G T G A G C T A T A C C C A T G A T T T G C A T G T T C T T A T G G T A T G T A C A C C A C T G A G T A C T G A C T G A T G A C T T C T G T A T T T G T A T A T A T T T A A A T A A A A T T G T A A A A G A G A G C T A T G A A T A T A A T C C C T T C T A C T T G T A A T A T A T A G A A C A A C T T A T A T T G T A T C C C C T G T T T T A T T T T C T T T G A T G A A C A A T C T A T T C T G G A A T G A A A T A T T G G G G A T C A A T A A T C T T T C T G A G A T G A T G T T T C T T A C G A T C A A A A C T C A T A C A A G T T T A G A A T T T A C C C T T T C T T C C T T T T T A A C A T T T C T G T A G T T G T T A C T T A T A A C T C A G A G T A G T A T G T T G G C T G A T T C A C A T C A T T G A C T G T A C A G G T G C A T T A G T T G G T T G T T T C T T T G A G A T A G T A A T A T T G T T A C A G A T C G T C A C A A A G A A A A T T C T G C A T T T T A T G G T A A T T C A T C T T A G T T G G A G T C T G A C A T T T T A C T T C G G C C A T T G C C A A A A C A C C C T C T T G C C A C T A T C C T C T A T G A T G T G T T A A A A C C A C T G T T A C C T G A T T T G C T A G T A T G G G G A T G G T A C A G G T C T A G A A T G G A A A A C G A A G G C C T T T T T T G C G G A A T T G A C T T C T T G G C C A T A A C G G C A T G C C T C A A T T C G T G G A C T G T G G A C C A T G G T G C A C A T A G A G C A T G G T G C A C C A T G T A C A C A A A A A G A A C A T A T G T G C A T A A A C A A A A G A A C A T G A C A C T A C G A C A A A A G A A C A T G C A A T A T A A 500 1000 1500 2000 2500 3000 Expect = 0.00e+0 / Id = 95.46 Expect = 0.00e+0 / Id = 89.48 Expect = 4.90e-140 / Id = 50.36 Expect = 2.30e-65 / Id = 53.38 Expect = 1.10e-62 / Id = 53.18 Sequence KNA07107.1 KNA06268.1 KNA19853.1 KMS97326.1 KNA03030.1
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BLAST of Spo25016.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
A T G A G A A A A A A A G A G T A C A A A T T A G A G G T G C T T C T A A T G G G A G A G A A G A G T A T T G A A C A T T C T C A C G G A A A A T T T G T C T C T C G T G C A A G A G A G C T T A A C A A C A G C C A T A G C C T A G A T A T G T C A T T A T A T T T G A G G T T G G A G C T A T T G G A A G G T G T G G C A G C A T T T C A C T G T G G C A A A T T C G A C A A A T G C A G A G A A G C T T T G A C A T T T G C C A A A G T A A G G T T C G A T A A G G T A T G G A G A A G T T G G A T T T A T A T T G T A T T C T T C A A G A T G A G C A T C A G C A G A A G C T A T C T G A G G C T T A A T T T C A G A A C T G C A A G A G T G T T G A T C G C A A A T T G T G T A C A G A T C G A A C A A C C A A A A A A C G G G G G C A C G A A A A T G G C A G C T T A C A C A A T G A A G T C A G A C A A G A C T T T C C T T C G A T G T T T G G A C A C A G G A G C G A T C G A A G T A T A C G A G T T G G A T A G T C C T T A C C T A T T T C C G G T A A A A G G G A A A C A A T G G A G T C A C C T T G G A A T C A G T A T A G G G C C C G G C A A C A A A C A T G A A G T G C T G A A G A T C G G G G A C A G A G A T A T C A G T G G T G A T A A T C T G C G G A C C T T G A T C A A A G A T C T T T T C A A C T C G C G A C T G A T T G T G A A T C G T G A G G G A C T T G G T T T C C T T G C G A C T G C A G G G G T C A C A G C T G T G A T C T T G G A A G T G G A T T A C T A C A G G C T G T T T G A T C T C T T T G A T T G G T C C A A G T A C C A A G T C A A T G C A T C T C T C A A C A C T A A A T G G G C T C G C A G C A A C T T T A T G G A T G G C C G T C C C T T G G A T A T A T T A G G G A G C A A T C A A G G G A A T G G C A A G C A C G A T G A C A A A A A G A A A T T A A G T G A C A A G G A G A A G G A G T T G G A G A A C G T G A A G C T T A A G C A T A A A A A G G A G C T A G A A G A G G T G A A G C T T A C A C A T A A A C A A G C G C T A G A G G A T G T G A A G C T T A A A C T T A A A G A G G A G T T A G A G A A A G T G A A G C G T A A G A A T G A G G A A G A A A G G A A G G A G A A G G A G G A G A A G A T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T N T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T G T A A A G C A G G A A G A A T T G A A G A A G A A A C A A G A T G A G G T A G A C A A A T T G A A A G A G G A G T T G G A G A C A A T A G A G C G T A A A A A T T T G G A G G A A T C A A A G A G G A A A G A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G A C A G A G C G T A G G A A G C G A A T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A A G G A A A C A G A A G A A T T G A A A G A A G C G G C G G A G G A G T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A A T A G A G T T G A G G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A G G G A A A C A G A A G A A T T G A A A G A A G C G T T G G A G G A A T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A T T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A T C G T A A A A G A G A A A C A G A A A A A T C G A A A G A A G C G T T G G A G G A A G C A G A A C G T A G A A A A C A G A A A G A G T T G A A G A A G A A A C A G G A T G A G A T T G A T G A A C T A A A G A A A A A G C A C A A G G C G G A A T T A G A G G C A A A G A A T G G A G A A A A T A T G G T T T T G G A A G A G G A G T T G A A A T T A C A T G T A T T T C T A A G G A G T G G T T T C A C A A A A T C A T A T T T A T T T T T T A A T A G G C T G A T G A A A C A C A T G G T G A C C A A C T T G C C A T C T T C A A A A T T G A G C A T C A T A C C T G A A A G A T C A G C T A A A G A A C A C A C T A A A C C G G T A G C C G A G G G G A T T G T T C C A A T C A T G C C A A T A G G G C C A A T A C T C G A C T C A G T A T C A A A T T T T C C T A G T C A A A A A A T T T A T T G C G A A G A A T C G T T T T A C G G T A C T T A C A A C G A T T A T G A C T T G G A T A A T T G G C A G G T T G T T C G A G T A G C G C A T A C T A T A C A G G C G G G T A A T C G A T T A T A T A C A T T A G C G T T T T A C A A C G G G A A A A A G T T T C G T A A C A G T A A T G G A T T C A A C A G T A A G T A T C A C T A T T T C A T T C C A T G T C A T G C T G A G T A C C T T T C A C A C T A T A A C A G T A A T G T A G G T T C T G T T T G T G T A T G C A A T A T A G T T G G G G T T G G C G C A A G A T A T A G T A T T G T G T G C T T T G A T A C A A G T G G G A G T G A G C T A T A C C C A T G A T T T G C A T G T T C T T A T G G T A T G T A C A C C A C T G A G T A C T G A C T G A T G A C T T C T G T A T T T G T A T A T A T T T A A A T A A A A T T G T A A A A G A G A G C T A T G A A T A T A A T C C C T T C T A C T T G T A A T A T A T A G A A C A A C T T A T A T T G T A T C C C C T G T T T T A T T T T C T T T G A T G A A C A A T C T A T T C T G G A A T G A A A T A T T G G G G A T C A A T A A T C T T T C T G A G A T G A T G T T T C T T A C G A T C A A A A C T C A T A C A A G T T T A G A A T T T A C C C T T T C T T C C T T T T T A A C A T T T C T G T A G T T G T T A C T T A T A A C T C A G A G T A G T A T G T T G G C T G A T T C A C A T C A T T G A C T G T A C A G G T G C A T T A G T T G G T T G T T T C T T T G A G A T A G T A A T A T T G T T A C A G A T C G T C A C A A A G A A A A T T C T G C A T T T T A T G G T A A T T C A T C T T A G T T G G A G T C T G A C A T T T T A C T T C G G C C A T T G C C A A A A C A C C C T C T T G C C A C T A T C C T C T A T G A T G T G T T A A A A C C A C T G T T A C C T G A T T T G C T A G T A T G G G G A T G G T A C A G G T C T A G A A T G G A A A A C G A A G G C C T T T T T T G C G G A A T T G A C T T C T T G G C C A T A A C G G C A T G C C T C A A T T C G T G G A C T G T G G A C C A T G G T G C A C A T A G A G C A T G G T G C A C C A T G T A C A C A A A A A G A A C A T A T G T G C A T A A A C A A A A G A A C A T G A C A C T A C G A C A A A A G A A C A T G C A A T A T A A 500 1000 1500 2000 2500 3000 Expect = 0.00e+0 / Id = 95.46 Expect = 0.00e+0 / Id = 89.48 Expect = 3.40e-140 / Id = 50.36 Expect = 1.60e-65 / Id = 53.38 Expect = 7.60e-63 / Id = 53.18 Sequence A0A0K9QIP2_SPIOL A0A0K9QHW0_SPIOL A0A0K9RK28_SPIOL A0A0J8B8M0_BETVU A0A0K9Q785_SPIOL
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BLAST of Spo25016.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
A T G A G A A A A A A A G A G T A C A A A T T A G A G G T G C T T C T A A T G G G A G A G A A G A G T A T T G A A C A T T C T C A C G G A A A A T T T G T C T C T C G T G C A A G A G A G C T T A A C A A C A G C C A T A G C C T A G A T A T G T C A T T A T A T T T G A G G T T G G A G C T A T T G G A A G G T G T G G C A G C A T T T C A C T G T G G C A A A T T C G A C A A A T G C A G A G A A G C T T T G A C A T T T G C C A A A G T A A G G T T C G A T A A G G T A T G G A G A A G T T G G A T T T A T A T T G T A T T C T T C A A G A T G A G C A T C A G C A G A A G C T A T C T G A G G C T T A A T T T C A G A A C T G C A A G A G T G T T G A T C G C A A A T T G T G T A C A G A T C G A A C A A C C A A A A A A C G G G G G C A C G A A A A T G G C A G C T T A C A C A A T G A A G T C A G A C A A G A C T T T C C T T C G A T G T T T G G A C A C A G G A G C G A T C G A A G T A T A C G A G T T G G A T A G T C C T T A C C T A T T T C C G G T A A A A G G G A A A C A A T G G A G T C A C C T T G G A A T C A G T A T A G G G C C C G G C A A C A A A C A T G A A G T G C T G A A G A T C G G G G A C A G A G A T A T C A G T G G T G A T A A T C T G C G G A C C T T G A T C A A A G A T C T T T T C A A C T C G C G A C T G A T T G T G A A T C G T G A G G G A C T T G G T T T C C T T G C G A C T G C A G G G G T C A C A G C T G T G A T C T T G G A A G T G G A T T A C T A C A G G C T G T T T G A T C T C T T T G A T T G G T C C A A G T A C C A A G T C A A T G C A T C T C T C A A C A C T A A A T G G G C T C G C A G C A A C T T T A T G G A T G G C C G T C C C T T G G A T A T A T T A G G G A G C A A T C A A G G G A A T G G C A A G C A C G A T G A C A A A A A G A A A T T A A G T G A C A A G G A G A A G G A G T T G G A G A A C G T G A A G C T T A A G C A T A A A A A G G A G C T A G A A G A G G T G A A G C T T A C A C A T A A A C A A G C G C T A G A G G A T G T G A A G C T T A A A C T T A A A G A G G A G T T A G A G A A A G T G A A G C G T A A G A A T G A G G A A G A A A G G A A G G A G A A G G A G G A G A A G A T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T N T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T G T A A A G C A G G A A G A A T T G A A G A A G A A A C A A G A T G A G G T A G A C A A A T T G A A A G A G G A G T T G G A G A C A A T A G A G C G T A A A A A T T T G G A G G A A T C A A A G A G G A A A G A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G A C A G A G C G T A G G A A G C G A A T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A A G G A A A C A G A A G A A T T G A A A G A A G C G G C G G A G G A G T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A A T A G A G T T G A G G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A G G G A A A C A G A A G A A T T G A A A G A A G C G T T G G A G G A A T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A T T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A T C G T A A A A G A G A A A C A G A A A A A T C G A A A G A A G C G T T G G A G G A A G C A G A A C G T A G A A A A C A G A A A G A G T T G A A G A A G A A A C A G G A T G A G A T T G A T G A A C T A A A G A A A A A G C A C A A G G C G G A A T T A G A G G C A A A G A A T G G A G A A A A T A T G G T T T T G G A A G A G G A G T T G A A A T T A C A T G T A T T T C T A A G G A G T G G T T T C A C A A A A T C A T A T T T A T T T T T T A A T A G G C T G A T G A A A C A C A T G G T G A C C A A C T T G C C A T C T T C A A A A T T G A G C A T C A T A C C T G A A A G A T C A G C T A A A G A A C A C A C T A A A C C G G T A G C C G A G G G G A T T G T T C C A A T C A T G C C A A T A G G G C C A A T A C T C G A C T C A G T A T C A A A T T T T C C T A G T C A A A A A A T T T A T T G C G A A G A A T C G T T T T A C G G T A C T T A C A A C G A T T A T G A C T T G G A T A A T T G G C A G G T T G T T C G A G T A G C G C A T A C T A T A C A G G C G G G T A A T C G A T T A T A T A C A T T A G C G T T T T A C A A C G G G A A A A A G T T T C G T A A C A G T A A T G G A T T C A A C A G T A A G T A T C A C T A T T T C A T T C C A T G T C A T G C T G A G T A C C T T T C A C A C T A T A A C A G T A A T G T A G G T T C T G T T T G T G T A T G C A A T A T A G T T G G G G T T G G C G C A A G A T A T A G T A T T G T G T G C T T T G A T A C A A G T G G G A G T G A G C T A T A C C C A T G A T T T G C A T G T T C T T A T G G T A T G T A C A C C A C T G A G T A C T G A C T G A T G A C T T C T G T A T T T G T A T A T A T T T A A A T A A A A T T G T A A A A G A G A G C T A T G A A T A T A A T C C C T T C T A C T T G T A A T A T A T A G A A C A A C T T A T A T T G T A T C C C C T G T T T T A T T T T C T T T G A T G A A C A A T C T A T T C T G G A A T G A A A T A T T G G G G A T C A A T A A T C T T T C T G A G A T G A T G T T T C T T A C G A T C A A A A C T C A T A C A A G T T T A G A A T T T A C C C T T T C T T C C T T T T T A A C A T T T C T G T A G T T G T T A C T T A T A A C T C A G A G T A G T A T G T T G G C T G A T T C A C A T C A T T G A C T G T A C A G G T G C A T T A G T T G G T T G T T T C T T T G A G A T A G T A A T A T T G T T A C A G A T C G T C A C A A A G A A A A T T C T G C A T T T T A T G G T A A T T C A T C T T A G T T G G A G T C T G A C A T T T T A C T T C G G C C A T T G C C A A A A C A C C C T C T T G C C A C T A T C C T C T A T G A T G T G T T A A A A C C A C T G T T A C C T G A T T T G C T A G T A T G G G G A T G G T A C A G G T C T A G A A T G G A A A A C G A A G G C C T T T T T T G C G G A A T T G A C T T C T T G G C C A T A A C G G C A T G C C T C A A T T C G T G G A C T G T G G A C C A T G G T G C A C A T A G A G C A T G G T G C A C C A T G T A C A C A A A A A G A A C A T A T G T G C A T A A A C A A A A G A A C A T G A C A C T A C G A C A A A A G A A C A T G C A A T A T A A 500 1000 1500 2000 2500 3000 Sequence
Match Name E-value Identity Description
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BLAST of Spo25016.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 1
A T G A G A A A A A A A G A G T A C A A A T T A G A G G T G C T T C T A A T G G G A G A G A A G A G T A T T G A A C A T T C T C A C G G A A A A T T T G T C T C T C G T G C A A G A G A G C T T A A C A A C A G C C A T A G C C T A G A T A T G T C A T T A T A T T T G A G G T T G G A G C T A T T G G A A G G T G T G G C A G C A T T T C A C T G T G G C A A A T T C G A C A A A T G C A G A G A A G C T T T G A C A T T T G C C A A A G T A A G G T T C G A T A A G G T A T G G A G A A G T T G G A T T T A T A T T G T A T T C T T C A A G A T G A G C A T C A G C A G A A G C T A T C T G A G G C T T A A T T T C A G A A C T G C A A G A G T G T T G A T C G C A A A T T G T G T A C A G A T C G A A C A A C C A A A A A A C G G G G G C A C G A A A A T G G C A G C T T A C A C A A T G A A G T C A G A C A A G A C T T T C C T T C G A T G T T T G G A C A C A G G A G C G A T C G A A G T A T A C G A G T T G G A T A G T C C T T A C C T A T T T C C G G T A A A A G G G A A A C A A T G G A G T C A C C T T G G A A T C A G T A T A G G G C C C G G C A A C A A A C A T G A A G T G C T G A A G A T C G G G G A C A G A G A T A T C A G T G G T G A T A A T C T G C G G A C C T T G A T C A A A G A T C T T T T C A A C T C G C G A C T G A T T G T G A A T C G T G A G G G A C T T G G T T T C C T T G C G A C T G C A G G G G T C A C A G C T G T G A T C T T G G A A G T G G A T T A C T A C A G G C T G T T T G A T C T C T T T G A T T G G T C C A A G T A C C A A G T C A A T G C A T C T C T C A A C A C T A A A T G G G C T C G C A G C A A C T T T A T G G A T G G C C G T C C C T T G G A T A T A T T A G G G A G C A A T C A A G G G A A T G G C A A G C A C G A T G A C A A A A A G A A A T T A A G T G A C A A G G A G A A G G A G T T G G A G A A C G T G A A G C T T A A G C A T A A A A A G G A G C T A G A A G A G G T G A A G C T T A C A C A T A A A C A A G C G C T A G A G G A T G T G A A G C T T A A A C T T A A A G A G G A G T T A G A G A A A G T G A A G C G T A A G A A T G A G G A A G A A A G G A A G G A G A A G G A G G A G A A G A T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T N T A G A T A A C A T G A A G G A G G T G T T G A C G A T A G C G G A G G A A G A G T T G A A G G A C A G A C A A G A G A A G A T T A A G A A A T T G A A A G A G G A G G T G G C G C G T G T A A A G C A G G A A G A A T T G A A G A A G A A A C A A G A T G A G G T A G A C A A A T T G A A A G A G G A G T T G G A G A C A A T A G A G C G T A A A A A T T T G G A G G A A T C A A A G A G G A A A G A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G A C A G A G C G T A G G A A G C G A A T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A A G G A A A C A G A A G A A T T G A A A G A A G C G G C G G A G G A G T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A A T A G A G T T G A G G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A G C G T A A A A G G G A A A C A G A A G A A T T G A A A G A A G C G T T G G A G G A A T C A A A G A G G A A A C A A A A T A A G A T A G A G A A A T T G A G A G A G G A G T T G G A T G A G G C A G A G C G T A G G A A G C G A T T A G A G T T G A A G G A T A A A G A A G A T G A G A T A A A C G A A C T G A T A G A G A A G T T G G A T C G T A A A A G A G A A A C A G A A A A A T C G A A A G A A G C G T T G G A G G A A G C A G A A C G T A G A A A A C A G A A A G A G T T G A A G A A G A A A C A G G A T G A G A T T G A T G A A C T A A A G A A A A A G C A C A A G G C G G A A T T A G A G G C A A A G A A T G G A G A A A A T A T G G T T T T G G A A G A G G A G T T G A A A T T A C A T G T A T T T C T A A G G A G T G G T T T C A C A A A A T C A T A T T T A T T T T T T A A T A G G C T G A T G A A A C A C A T G G T G A C C A A C T T G C C A T C T T C A A A A T T G A G C A T C A T A C C T G A A A G A T C A G C T A A A G A A C A C A C T A A A C C G G T A G C C G A G G G G A T T G T T C C A A T C A T G C C A A T A G G G C C A A T A C T C G A C T C A G T A T C A A A T T T T C C T A G T C A A A A A A T T T A T T G C G A A G A A T C G T T T T A C G G T A C T T A C A A C G A T T A T G A C T T G G A T A A T T G G C A G G T T G T T C G A G T A G C G C A T A C T A T A C A G G C G G G T A A T C G A T T A T A T A C A T T A G C G T T T T A C A A C G G G A A A A A G T T T C G T A A C A G T A A T G G A T T C A A C A G T A A G T A T C A C T A T T T C A T T C C A T G T C A T G C T G A G T A C C T T T C A C A C T A T A A C A G T A A T G T A G G T T C T G T T T G T G T A T G C A A T A T A G T T G G G G T T G G C G C A A G A T A T A G T A T T G T G T G C T T T G A T A C A A G T G G G A G T G A G C T A T A C C C A T G A T T T G C A T G T T C T T A T G G T A T G T A C A C C A C T G A G T A C T G A C T G A T G A C T T C T G T A T T T G T A T A T A T T T A A A T A A A A T T G T A A A A G A G A G C T A T G A A T A T A A T C C C T T C T A C T T G T A A T A T A T A G A A C A A C T T A T A T T G T A T C C C C T G T T T T A T T T T C T T T G A T G A A C A A T C T A T T C T G G A A T G A A A T A T T G G G G A T C A A T A A T C T T T C T G A G A T G A T G T T T C T T A C G A T C A A A A C T C A T A C A A G T T T A G A A T T T A C C C T T T C T T C C T T T T T A A C A T T T C T G T A G T T G T T A C T T A T A A C T C A G A G T A G T A T G T T G G C T G A T T C A C A T C A T T G A C T G T A C A G G T G C A T T A G T T G G T T G T T T C T T T G A G A T A G T A A T A T T G T T A C A G A T C G T C A C A A A G A A A A T T C T G C A T T T T A T G G T A A T T C A T C T T A G T T G G A G T C T G A C A T T T T A C T T C G G C C A T T G C C A A A A C A C C C T C T T G C C A C T A T C C T C T A T G A T G T G T T A A A A C C A C T G T T A C C T G A T T T G C T A G T A T G G G G A T G G T A C A G G T C T A G A A T G G A A A A C G A A G G C C T T T T T T G C G G A A T T G A C T T C T T G G C C A T A A C G G C A T G C C T C A A T T C G T G G A C T G T G G A C C A T G G T G C A C A T A G A G C A T G G T G C A C C A T G T A C A C A A A A A G A A C A T A T G T G C A T A A A C A A A A G A A C A T G A C A C T A C G A C A A A A G A A C A T G C A A T A T A A 500 1000 1500 2000 2500 3000 Expect = 2.50e-9 / Id = 48.44 Sequence AT2G12550.1
Match Name E-value Identity Description
AT2G12550.1 2.5e-9 48.4 ubiquitin-associated (UBA)/TS-... [more]
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