MELO3C015322 (gene) Melon (DHL92) v4
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATAAAATGTATATATACTATCGCACAATTCTTCTTTCCAAAAGATATTCAACTTTCTTCCTCGGATCGGATCAACTTCCACTTTACCAAATTCCTTCAATTTCCTTCATCACTCGTAATCTTCTTCTTACTCATTCGTCTCCATCAGCTAGTTCTTCATTCCCTTTATTCATTTTCCTCTTGTTCATGCGAGTTTCCCTTCCCAAGCTCTCCAATCCCCATCAATGGTGACCATTACCGAGGAACCAGACGAGCCAGTGCGGAAGCCATCAGAGCCCCAACCCAATAAACCAACTTCATCGTCCTCAAAACCACTGTCGAGTTCCGCCACTGCAACCCACAAAACCCCTCCATCTCCGACCCCAAATCCATTCACCTTTTGGTTCTACTTTATTTTAATCGTCTCTATCATTACATATTTCTTCATTTCTCTCCCCTCTCTCTCTCCCCCAGACCCCAAATCCTGGTTTTTAAGTCTACCCAACAGCCTCCGTCATCATTACTCAAAGGGTCGTCTTCTAAAGGTACAAATTAGCGGTAATTTATCTCCAATCGAAGTCTTTGCAGTTGAAAATGGCGCCAAAGGGAATGAAAATGTGGTCATTGTTCATGGGCTGGGGCTGAGTTCGTACTCCTTCCGCAAGGTTCTGGACTCTTTAGGTTCCAAAGGAGTTCGTGCTCTGGCGTTTGATCTGCCCGGCAATGGCTTTTCCGACAAATCCACTGCTGAGATCGATGAGAGCTCAAATGGGGTTTTAGGGAGGCTTTTGGATGTTTATAATTTGATTCATGAAAAGGGTATCTTCTGGGCGTTTGATCAGATCATTGAAACTGGGCAGATTCCTTATGAAGAAATTCAAAAACATGTTCCTAAGAGGAAGATCTTGAAGCCAATTGGGTTAGGCCCTGAAGAGATTGGTAGCATTTTGGGGCAAATCATAGATACTATTGGTTTGGCTCCAGTTCATTTGGTCCTTCACGATTCAGCTTTATCAATGGCGGGATATTGGGTTGCAGAGAATTCAGGATTCGTGAGGAGTTTAACTCTTATTGATACTTTATCAAAGCCTTCTCTTCCTTTGTGGCTCTTGGAGTTGCCTGTTGTGAGAGAGGTTATTTTGGGATCTAATTTTGTGTATTCAAGGTTGATCAACCTCTGTTGTTCTAAGGGGAATGATGCTCCCTTGGATGTGGAGGCTCATAGAGTTCTTTTGAAAGGCCTCGGTGGGCGGCGGGCAGTTGTTAGCATGGGGAAGAAGTTGAACGATAGCTTTGACATTGCAGAATGGGGTGGTTTGGATGATCTGAAAAGTGTGCCAATGCAGGTTATCTGGTCTAATGGTTGGTCGAACGAATGGAGTACCGAGGGACGTCGGGTTGCTGAAGTGCTTCCACAGGCATCTTTTGTTGAACATTCCGGCGGACGGTGGGCTCAAGTAAGGATTCATTACTTCAATTAAGATTTTGTAATGAGTTTAGCTTATGTTCTGTATGATGAGTTTTCAGTCTATATTATAGTTTGCTGAGTTCTGAAGTATCAATATCCTCTCTAGTACTCATAGATTTTAATGTAACATCAATATAGGCCTTCTTATAGAGCGGTTTTAGCATTCGAGTCAGTTTTTCGTATCTGAGAAGTTGAAACCATTATTTTTCTAAGCACAATGTGGTAAGTTTGAGTGAAGTAGGTTACGTATTTATATAGCATAACAAAATTAAATGAAATCTATTACTTTGAAAATTAACAATATCAAGCAGGACGTTTAAGCAAGAAGGTTGTTCAAATTCCTAGAAAAATCAAATTGATACATAGGAAGTTGGGAGTGCTTGGAATATTAGTTATGCTAGACTAAGTGAAAACAAAACTGATAGAGGCTAGGGAGGTGGAGAGAAATGAGTGATGTGACACTGGATAACTTATTAGAGAAGCATAGGCTTGGCTTGCGAGGAGTTGGAGATGATATTTCTGTTAATCAACCGTTGATATGGTGGAAAAGTTTTTGTTTCTAGATTTTACAGAGAGAGGTACATAAACTGATAGACTTAAAATTTTTGTTTTTTGGAAATGGAGATAGTAGCTAGTTGGGAACAGACGCTCAACTGCTCAAGACTTCGAGCCTTAGGTTAGATTATTCAAGAGTCAAAACCAACGGAAAGGAAACAATGTTGACTTGTACACATTTAGACACTATATTTGAGACATCGTGTGTGCTTAACTGTTGATTCTAAGGGACTGCTTAGGCTCCTGGTCTTAGATAGTCACTTTCTGGCTAGGAGAAATCCTTTTAAAACTCTCCTTAATGCATTCATTTTGTAATCATGCTTGTTTGAGCTTGCCCTTGGTAATAGGCTGATTTCATCTGTCTATGGATTGACTCCTTGATGACCATTTTTGTTTGCTTAAATGATCTCCATTAGCTAGAAAGTGTTTATGTTGTCTCCTTATCGAAACTCAACTACTTAATTCCACATTTCGCTCACCATCTTTTATAATCTATTTCTTCAACTTGCTGGTATATTAGGCTTCTCATTCTCTCTTTCAATGTTAAATATGCTCTTTATCTCTGTCAACCTCAGGAAGATGTAGCCGATGTCGTAGCTGACAGTATATCTCAGTTCATATCCTCGTTACCACCCACGGTTAGAAAAACTGAGGAGCCTACTCCTGAACACATTCATGAAGTTTTCGATCAATCAATGAATAGCGATCACCACCACCACCACCACGATCATGGCAGTCATGGTATTCATGGAGCTGGCTACATGGACGGATACGGGCTCGGTAGTCAAGCCTGGTAAACTAACATCGTCTTCTTTCTACAGGAAGGTGCCTCAAGAAGCGGGTGGATATATGCATGTCCAAATTCGTCTCTTGCGTCCTTACTTCTTTGCCTGATTGATTGTATTTTTGCTTGAGCTGCTCAGGAAAGACGTCCTAATGGTAAAGCCAAGCGTATCATGACGACTTGTTAACTACTTATATATCTCTCTCTCTCTTTTTTTTTGATTTTACATATTAGATTGTTGCTTGCTGATTGACCTGTATTTAAACATGTGTTGCTTCATTGTTTTGAATCTATCTGCTGATCTTACACTTTCTTTTCTTGAAACTGAATTTTGTTCAAATGAAGACGAGAACTTATGCGAGTCTTGGAACAGTTTTGTGTTGTAGGATGCAAGTCTTTAAATATGTATGGATTTTATGAATGGTAAAGTCACTGCAACGTTTCTTTGTTTTTTCAACAACTCAACTAATATGAACTTATACATTGTTCTCGAAGTTGGAAATTCAATTCCTCACCTCACAGATTGTCAAAAGGGAAAGAGACATTCACTTGACAAGTTGCTTATCTGTTATTTTTTTTTCTTCACTGAGAGCAAATTTGAGGAAAGCTACCTTAATGTCACATTCATGCCCCTACGAACATAAACCATCAATGAAAAGAAAAACCTTTGGGAGCCATCTTATTTTTAAGTGCTATAGAATTTTGAGCTTTCATTTTTATATCCAATATGGATAATAAAACTCATGTTTGCTAAACAAACAAATTGGAGTTTTATTGGACAACTTTATATCAGCTAAGTTATAATCTTATTGACACCAAATTGAAAGCATGATATCATATTTATATGTGAGATTTACTAGAGACCTTTGAAGACTAAATGCATATTAGCTACGTGCGATTATGCAAATATAGACATCTTAAACACTTTTTAAATTCCAAAGATTTAAATCTGTTGACAAAATTTTTGAACATTGTATGTTCTTTGATGATATTCAATAGAAGTATTGTTTCAACTATCTTAGATTGACACGGTGGTAATCAATAAGGTTAATGAGTTTAAAAGCGATTTAAAAGGAACAAGTATAATCCATAATGGCTATCTTTTTAGAATAATACTTTTCTTGACATCAAAATGTTAAAGAATTAGATAGATTGTTTGATGAATATATTGAAGGTGTGCATAAGGTTATTTGTTTATTTATCTTTTGACAAAATCATTGAATTATAATGAAACAAAGAGGACTTCACAGCTCGAGATCAAGATATCAAAAAGAAAAGATAATACACAACTAAAGAAAAAAAAAAGAAAAACAAAAATATCGAAGTGAGCGTAAGTTGGTCGGGAGAAACAAATATTACATAAATAAATAAATAGATATGGTAAAAAAAATATATAAAAATCTTCGTTTCTTTGTTGAAAGAAAAAAGAAAATAATCCTCGAAGAAAACATGTTAGTTTTGCAATTTTGTTAAAAATAGGGTTATTTTAGTCAATTTTTCCAATTCAATGTCATATACTAAAAAAACCTCCCTACCTTTCCCTTTTACATATCTAACCCACCTTTGTTCCAGCATTGATCCTCTCCGACACCGGCGTTCTCCTCACTCTTCCGGTGGAACCAGTTTTGCGGAGCAGCTCTTCTGCTAGGACCCACGGTACGGCAGTGGATTCTACTCTGGCGAACAACGCGGCGGCACGGCTAATTCTTCTGGCATCTCCCTGACCTGTGTGAACTTCCCTTCAGCGACGTCTCTCTCTCTCGCGAATCTCTCCCTTCCGGTGACCTACACTTAGAACTGACGTAGAATTGTAGTGGAAAAGCCTTTCGTGCACGAACCAGCAAAGACTCACTCGATTTAAGCGGTAAAATCTTGCTTATTCACTTATTTAGGGTTGATTGTGTTGGTCCATATTGGGATTCTGCTTATTTAGCTTTTAGTTCTTGGAAATTATGTTTTTTGAATTGAATTACGCCGTGGCACAACTTTGTCTTAGTAGAATCTTAGTTCGTGAAAGGATTATGGTCAGTGGGTCATACTTATACGATTTTAATTGTTTGCTTATTTGATGCCTTCTGTTGTTTGGATGTTCTGAAATAGTTGATTATGTTTCCTATTATTGATTATTGAGATTATTGCGATGTATGCTGGATTTATTTGGTCAGTGTATGTCGAGTGTTGTTTATTGACGTCGATAGATTTATTATATTATAGTAAGCATGTTGAAAATTTGTTAGGGAAATATTTATTTGAGTGCGAGTTGTTGATTATGTCAAAAGGTTGATGGCTAAGCTGAGCAAGGGAGGAAGCATGGTAATTGGATTCATTTTGTCATAAAGTTGGAAACTTCGTGATTTTATGATGTTTCAAGATAGATATAGCGGGACTTGAGTTTTTAATTATGTCAAAAGCTTAATGTCTTAGCCGAGCAAGGGAGGAAGTATGGTGATTGCATTCATTTTGTTGTATAGTTGGGAAATTTCATGAGTAGATGATGTATAAAGAACTAAAAAAAATTAGAGTGATTTTTGATGATTGTGCTAATAGTACGAAGAATGATGGAGTTTTCAAGCTTAATTTTGAGAAGGTCTTTGATATGATTGATTGGGATTTGAATAAGCATGGTTTCTGAATCTCAGCACTTCAATCTCTCATGGTTATTTTTTCTTTCTTTCTTTTGAATGCTGTCTATTTCTTATTTAGTCATATTTAATAGGTTTATGGAGGAATCAAAATGAAATGTTTAATTATGAAAACTAAACTAGAAATAAATTAGGCTTCGTCAATTGCACCTGGTGGTTTCTATTTGAGAGTTTTTCTTGATGTCAGTTAATTTTTCCTTAATTCACAGGTCTGATGATTTACACGGCCATCGACACGTTTTATCTAACTGATGAGCAGTTAAAGAACTCACCTTCGAGAAAGGATGGGATTGATGAAACCACTGAAACCACCCTGAGAATCTATGGTTGCGATCTCATCCAAGAGGCTGGCATATTGCTTAAATTGTAATGTCATGCCTTTCTTCTTTCCTAAAAATTGTAATGCCATGCTTTAAAACTATTTCATGGTTTTTCCCTATGACATGGGAGCGAAGAGCCTATGTGTGGGTATCATACTACTTGTGTGGTAGTGTTATAACTTTTTCTAAAATTTGTTTCTTTCAGGCCTCAAGCAGTCATGGCTACTGGACAAGTCTTATTCCATCGATTCTATTGCAAGAAATCATTTGCACGCTTTAATGTCAAGGTTTTTTTCTTTTTGTGCTTGTTTATGTTCTTCAATTTTTCTGAACACTTTATAGTTGCTTGATTAACTCAAATTGTTTTATTAAGCTCATAAAAAGGTTAAGGGTTTCATTTTCCAAGGAAGTATGGCTGTTTCATTACTAGAGAAAAAAAGAAGTCATTCTTGCATTTCTTGATTCTCTTTTTGTTTAAAATTTTAATTAACTATTCTGATATGTTTTTTTATCAATTATTTTTTCCTGATATGAAGCTATATTGGTTTATGATAATTTCCTGCAGAAAGTTGCTTCTAGTTGTGTGTGGCTTGCATCAAAGTTGGAGGAAAATCCTAGGAAAGCCAGACAAGTAATTATTGTTTTTCACCGAATGGAATGCAGGAGAGAGAACTTACCTATAGAGTTCTTGGACCCTTCTCTCAAGGTCTGAGTTTGATCTCTTATCTTTGGTTCCACTTTTCAATCTTTGCATCCATTATTTCTTCTTTTTTAATCAAAGGCATGGTTGTTCTTGGCACAAAAAATAATTTTCCTTTTTTATAAAAAAAGTCATTGCTCTTTTTTGATATACAAGATTGTGGAATCTAGCTTTGCTATTGTATTCACACACATAATTTTGTCCCCTTCTTGGCTATGTTATGGCTGTCTCATTTCTCTTTATATTTTTCACTTAATTGACCTCCTTGTTCAGTATTTTATAATGTTTACATTACTTTTTAATTATTTTTCTTTATTTCATACAGAAATATGCAGACTTGAAGACAGAGTTGAGCAGAACAGAGAGGCATATACTGAAAGAGATGGGTTTCATTTGTCATGTTGAACATCCGCATAAATTCATATCTAACTACCTTGCAACCCTTGGAACACCTCCAGAACTGAGGCAAGAGGCTTGGAATCTAGCCAACGACAGGTATATTAACCGAAAGTTTTATTCCCATGCTGACTTTATTTTGCAGATTTATCTTCTGTTCTAGATTCAAAGAGCTCAAGTGAGATAATGTAGATATATTAGTAAATTGCTTTTGAGTTATGAACTTGAAAATCTAGGAATTAAATTTGTAATTTAACCTAATGTCCTTGCTTAAGTTCTTAGGAGGTCTTAGGTTGGGTCATAGTGGAAAGGGGGATTGTTCCATTTTCAACCTGCTTTTGGATCACTGGCCAGTTTGTACTTAACCTCAATACGAAAACTTGTCTAGCTTCAATCAACATTAATAATCACATCATCACATTAAATTCATCAATTAGAACAGTCTCATTAAACGTTCCAACCTTGCGCTAAGGCATGCCGGTAGAAAGTTAAAGTGTACAACATGTACCTGATGTTCTTAATTAGAATGACACTGGATCAAAATTGTTTACATTTTATTTTGATATTATTACACATCCTATGAGATAATTTGTTAATTTAATTTTTTAATATATTGAGCAGCTTACGTACAACCTTGTGCGTTCGATTCAAGAGTGAGGTTGTGGCTTGTGGGGTTGTATATGCTGCTGCTCGGAGATTTCAAGTACCCCTTCCTGAAAATCCACCTTGGTGGAAGGCATTTGATGGAGAGAAGTCGGGAATCGATGAAGTGTGTCGAGTTTTGGCACACTTGTATACACTTCCGAAGGCACAATATATCCCAGTCTGCAAGGATGGAGAATCGTTTACATTTTCTAACAAGTCATGGGATTCCCAATCTCTTCCAGTCGCCAAGGTGTTTTAATTTGTTGTTAGGCTTATTATTTATATATACAATATATTTTTTATTATGCTGCCTAGTTTCATATAATTTATTAATTATTACTGGCTGCATAAGTTGAATTTTGCATTTTTCTATTTTCAGGAAGTTCCACAAAGCAGTCCAACAGCCAACGATGATCCTTCTATAGTAAAAGCCACCTCCGGAACTAATCTTGAATCAGGGGTGTCCAAAGATGAGATCCTTAAATTAGCCTTAAACAAGCTCAAGGAATCTAAAAAGAGTGATGACGAATCCAAGAGCCTTATGCCTGAAGCCACTACTAGGGAGGAGCTTATGCCAAGATCAAAATCTGATCGAAGGGCTGATATTGGTGAAAGGAACAAGGAAAGAGAAAGAGATAGGGATAGAGAAAGAGAGAGGGAGAGAGACAGAACCAAGTCTCGAGATCGAGATAGGGGTCGAGATTCTGACAGAGAACGTGAGAGAGATGATGCAGACAGAGAAAAAATCAAGGATCGAGCTCATCGCTCAAAGGATAGGGGCAAGGAATTAG ATAAAATGTATATATACTATCGCACAATTCTTCTTTCCAAAAGATATTCAACTTTCTTCCTCGGATCGGATCAACTTCCACTTTACCAAATTCCTTCAATTTCCTTCATCACTCGTAATCTTCTTCTTACTCATTCGTCTCCATCAGCTAGTTCTTCATTCCCTTTATTCATTTTCCTCTTGTTCATGCGAGTTTCCCTTCCCAAGCTCTCCAATCCCCATCAATGGTGACCATTACCGAGGAACCAGACGAGCCAGTGCGGAAGCCATCAGAGCCCCAACCCAATAAACCAACTTCATCGTCCTCAAAACCACTGTCGAGTTCCGCCACTGCAACCCACAAAACCCCTCCATCTCCGACCCCAAATCCATTCACCTTTTGGTTCTACTTTATTTTAATCGTCTCTATCATTACATATTTCTTCATTTCTCTCCCCTCTCTCTCTCCCCCAGACCCCAAATCCTGGTTTTTAAGTCTACCCAACAGCCTCCGTCATCATTACTCAAAGGGTCGTCTTCTAAAGGTACAAATTAGCGGTAATTTATCTCCAATCGAAGTCTTTGCAGTTGAAAATGGCGCCAAAGGGAATGAAAATGTGGTCATTGTTCATGGGCTGGGGCTGAGTTCGTACTCCTTCCGCAAGGTTCTGGACTCTTTAGGTTCCAAAGGAGTTCGTGCTCTGGCGTTTGATCTGCCCGGCAATGGCTTTTCCGACAAATCCACTGCTGAGATCGATGAGAGCTCAAATGGGGTTTTAGGGAGGCTTTTGGATGTTTATAATTTGATTCATGAAAAGGGTATCTTCTGGGCGTTTGATCAGATCATTGAAACTGGGCAGATTCCTTATGAAGAAATTCAAAAACATGTTCCTAAGAGGAAGATCTTGAAGCCAATTGGGTTAGGCCCTGAAGAGATTGGTAGCATTTTGGGGCAAATCATAGATACTATTGGTTTGGCTCCAGTTCATTTGGTCCTTCACGATTCAGCTTTATCAATGGCGGGATATTGGGTTGCAGAGAATTCAGGATTCGTGAGGAGTTTAACTCTTATTGATACTTTATCAAAGCCTTCTCTTCCTTTGTGGCTCTTGGAGTTGCCTGTTGTGAGAGAGGTTATTTTGGGATCTAATTTTGTGTATTCAAGGTTGATCAACCTCTGTTGTTCTAAGGGGAATGATGCTCCCTTGGATGTGGAGGCTCATAGAGTTCTTTTGAAAGGCCTCGGTGGGCGGCGGGCAGTTGTTAGCATGGGGAAGAAGTTGAACGATAGCTTTGACATTGCAGAATGGGGTGGTTTGGATGATCTGAAAAGTGTGCCAATGCAGGTTATCTGGTCTAATGGTTGGTCGAACGAATGGAGTACCGAGGGACGTCGGGTTGCTGAAGTGCTTCCACAGGCATCTTTTGTTGAACATTCCGGCGGACGGTGGGCTCAACCTCAGGAAGATGTAGCCGATGTCGTAGCTGACAGTATATCTCAGTTCATATCCTCGTTACCACCCACGGTTAGAAAAACTGAGGAGCCTACTCCTGAACACATTCATGAAGTTTTCGATCAATCAATGAATAGCGATCACCACCACCACCACCACGATCATGGCAGTCATGGTATTCATGGAGCTGGCTACATGGACGGATACGGGCTCGGTAGTCAAGCCTGGCCTCAAGCAGTCATGGCTACTGGACAAAAAGTTGCTTCTAGTTGTGTGTGGCTTGCATCAAAGTTGGAGGAAAATCCTAGGAAAGCCAGACAAAAATATGCAGACTTGAAGACAGAGTTGAGCAGAACAGAGAGGCATATACTGAAAGAGATGGGTTTCATTTGTCATGTTGAACATCCGCATAAATTCATATCTAACTACCTTGCAACCCTTGGAACACCTCCAGAACTGAGGCAAGAGGCTTGGAATCTAGCCAACGACAGCTTACGTACAACCTTGTGCGTTCGATTCAAGAGTGAGGTTGTGGCTTGTGGGGTTGTATATGCTGCTGCTCGGAGATTTCAAGTACCCCTTCCTGAAAATCCACCTTGGTGGAAGGCATTTGATGGAGAGAAGTCGGGAATCGATGAAGTGTGTCGAGTTTTGGCACACTTGTATACACTTCCGAAGGCACAATATATCCCAGTCTGCAAGGATGGAGAATCGTTTACATTTTCTAACAAGTCATGGGATTCCCAATCTCTTCCAGTCGCCAAGGAAGTTCCACAAAGCAGTCCAACAGCCAACGATGATCCTTCTATAGTAAAAGCCACCTCCGGAACTAATCTTGAATCAGGGGTGTCCAAAGATGAGATCCTTAAATTAGCCTTAAACAAGCTCAAGGAATCTAAAAAGAGTGATGACGAATCCAAGAGCCTTATGCCTGAAGCCACTACTAGGGAGGAGCTTATGCCAAGATCAAAATCTGATCGAAGGGCTGATATTGGTGAAAGGAACAAGGAAAGAGAAAGAGATAGGGATAGAGAAAGAGAGAGGGAGAGAGACAGAACCAAGTCTCGAGATCGAGATAGGGGTCGAGATTCTGACAGAGAACGTGAGAGAGATGATGCAGACAGAGAAAAAATCAAGGATCGAGCTCATCGCTCAAAGGATAGGGGCAAGGAATTAG ATGGTGACCATTACCGAGGAACCAGACGAGCCAGTGCGGAAGCCATCAGAGCCCCAACCCAATAAACCAACTTCATCGTCCTCAAAACCACTGTCGAGTTCCGCCACTGCAACCCACAAAACCCCTCCATCTCCGACCCCAAATCCATTCACCTTTTGGTTCTACTTTATTTTAATCGTCTCTATCATTACATATTTCTTCATTTCTCTCCCCTCTCTCTCTCCCCCAGACCCCAAATCCTGGTTTTTAAGTCTACCCAACAGCCTCCGTCATCATTACTCAAAGGGTCGTCTTCTAAAGGTACAAATTAGCGGTAATTTATCTCCAATCGAAGTCTTTGCAGTTGAAAATGGCGCCAAAGGGAATGAAAATGTGGTCATTGTTCATGGGCTGGGGCTGAGTTCGTACTCCTTCCGCAAGGTTCTGGACTCTTTAGGTTCCAAAGGAGTTCGTGCTCTGGCGTTTGATCTGCCCGGCAATGGCTTTTCCGACAAATCCACTGCTGAGATCGATGAGAGCTCAAATGGGGTTTTAGGGAGGCTTTTGGATGTTTATAATTTGATTCATGAAAAGGGTATCTTCTGGGCGTTTGATCAGATCATTGAAACTGGGCAGATTCCTTATGAAGAAATTCAAAAACATGTTCCTAAGAGGAAGATCTTGAAGCCAATTGGGTTAGGCCCTGAAGAGATTGGTAGCATTTTGGGGCAAATCATAGATACTATTGGTTTGGCTCCAGTTCATTTGGTCCTTCACGATTCAGCTTTATCAATGGCGGGATATTGGGTTGCAGAGAATTCAGGATTCGTGAGGAGTTTAACTCTTATTGATACTTTATCAAAGCCTTCTCTTCCTTTGTGGCTCTTGGAGTTGCCTGTTGTGAGAGAGGTTATTTTGGGATCTAATTTTGTGTATTCAAGGTTGATCAACCTCTGTTGTTCTAAGGGGAATGATGCTCCCTTGGATGTGGAGGCTCATAGAGTTCTTTTGAAAGGCCTCGGTGGGCGGCGGGCAGTTGTTAGCATGGGGAAGAAGTTGAACGATAGCTTTGACATTGCAGAATGGGGTGGTTTGGATGATCTGAAAAGTGTGCCAATGCAGGTTATCTGGTCTAATGGTTGGTCGAACGAATGGAGTACCGAGGGACGTCGGGTTGCTGAAGTGCTTCCACAGGCATCTTTTGTTGAACATTCCGGCGGACGGTGGGCTCAACCTCAGGAAGATGTAGCCGATGTCGTAGCTGACAGTATATCTCAGTTCATATCCTCGTTACCACCCACGGTTAGAAAAACTGAGGAGCCTACTCCTGAACACATTCATGAAGTTTTCGATCAATCAATGAATAGCGATCACCACCACCACCACCACGATCATGGCAGTCATGGTATTCATGGAGCTGGCTACATGGACGGATACGGGCTCGGTAGTCAAGCCTGGCCTCAAGCAGTCATGGCTACTGGACAAAAAGTTGCTTCTAGTTGTGTGTGGCTTGCATCAAAGTTGGAGGAAAATCCTAGGAAAGCCAGACAAAAATATGCAGACTTGAAGACAGAGTTGAGCAGAACAGAGAGGCATATACTGAAAGAGATGGGTTTCATTTGTCATGTTGAACATCCGCATAAATTCATATCTAACTACCTTGCAACCCTTGGAACACCTCCAGAACTGAGGCAAGAGGCTTGGAATCTAGCCAACGACAGCTTACGTACAACCTTGTGCGTTCGATTCAAGAGTGAGGTTGTGGCTTGTGGGGTTGTATATGCTGCTGCTCGGAGATTTCAAGTACCCCTTCCTGAAAATCCACCTTGGTGGAAGGCATTTGATGGAGAGAAGTCGGGAATCGATGAAGTGTGTCGAGTTTTGGCACACTTGTATACACTTCCGAAGGCACAATATATCCCAGTCTGCAAGGATGGAGAATCGTTTACATTTTCTAACAAGTCATGGGATTCCCAATCTCTTCCAGTCGCCAAGGAAGTTCCACAAAGCAGTCCAACAGCCAACGATGATCCTTCTATAGTAAAAGCCACCTCCGGAACTAATCTTGAATCAGGGGTGTCCAAAGATGAGATCCTTAAATTAGCCTTAAACAAGCTCAAGGAATCTAAAAAGAGTGATGACGAATCCAAGAGCCTTATGCCTGAAGCCACTACTAGGGAGGAGCTTATGCCAAGATCAAAATCTGATCGAAGGGCTGATATTGGTGAAAGGAACAAGGAAAGAGAAAGAGATAGGGATAGAGAAAGAGAGAGGGAGAGAGACAGAACCAAGTCTCGAGATCGAGATAGGGGTCGAGATTCTGACAGAGAACGTGAGAGAGATGATGCAGACAGAGAAAAAATCAAGGATCGAGCTCATCGCTCAAAGGATAGGGGCAAGGAATTA MVTITEEPDEPVRKPSEPQPNKPTSSSSKPLSSSATATHKTPPSPTPNPFTFWFYFILIVSIITYFFISLPSLSPPDPKSWFLSLPNSLRHHYSKGRLLKVQISGNLSPIEVFAVENGAKGNENVVIVHGLGLSSYSFRKVLDSLGSKGVRALAFDLPGNGFSDKSTAEIDESSNGVLGRLLDVYNLIHEKGIFWAFDQIIETGQIPYEEIQKHVPKRKILKPIGLGPEEIGSILGQIIDTIGLAPVHLVLHDSALSMAGYWVAENSGFVRSLTLIDTLSKPSLPLWLLELPVVREVILGSNFVYSRLINLCCSKGNDAPLDVEAHRVLLKGLGGRRAVVSMGKKLNDSFDIAEWGGLDDLKSVPMQVIWSNGWSNEWSTEGRRVAEVLPQASFVEHSGGRWAQPQEDVADVVADSISQFISSLPPTVRKTEEPTPEHIHEVFDQSMNSDHHHHHHDHGSHGIHGAGYMDGYGLGSQAWPQAVMATGQKVASSCVWLASKLEENPRKARQKYADLKTELSRTERHILKEMGFICHVEHPHKFISNYLATLGTPPELRQEAWNLANDSLRTTLCVRFKSEVVACGVVYAAARRFQVPLPENPPWWKAFDGEKSGIDEVCRVLAHLYTLPKAQYIPVCKDGESFTFSNKSWDSQSLPVAKEVPQSSPTANDDPSIVKATSGTNLESGVSKDEILKLALNKLKESKKSDDESKSLMPEATTREELMPRSKSDRRADIGERNKERERDRDRERERERDRTKSRDRDRGRDSDRERERDDADREKIKDRAHRSKDRGKEL Homology
BLAST of MELO3C015322 vs. NCBI nr
Match: TYK10238.1 (protein AUXIN RESPONSE 4 [Cucumis melo var. makuwa]) HSP 1 Score: 1478.4 bits (3826), Expect = 0.0e+00 Identity = 793/943 (84.09%), Postives = 793/943 (84.09%), Query Frame = 0
BLAST of MELO3C015322 vs. NCBI nr
Match: KAA0050886.1 (protein AUXIN RESPONSE 4 [Cucumis melo var. makuwa]) HSP 1 Score: 1469.1 bits (3802), Expect = 0.0e+00 Identity = 788/943 (83.56%), Postives = 790/943 (83.78%), Query Frame = 0
BLAST of MELO3C015322 vs. NCBI nr
Match: XP_008450650.1 (PREDICTED: protein AUXIN RESPONSE 4 [Cucumis melo]) HSP 1 Score: 949.9 bits (2454), Expect = 1.4e-272 Identity = 477/479 (99.58%), Postives = 477/479 (99.58%), Query Frame = 0
BLAST of MELO3C015322 vs. NCBI nr
Match: XP_004135783.2 (protein AUXIN RESPONSE 4 [Cucumis sativus] >KGN66081.1 hypothetical protein Csa_007189 [Cucumis sativus]) HSP 1 Score: 890.6 bits (2300), Expect = 1.0e-254 Identity = 457/480 (95.21%), Postives = 462/480 (96.25%), Query Frame = 0
BLAST of MELO3C015322 vs. NCBI nr
Match: XP_038880139.1 (protein AUXIN RESPONSE 4 [Benincasa hispida]) HSP 1 Score: 861.3 bits (2224), Expect = 6.6e-246 Identity = 439/480 (91.46%), Postives = 454/480 (94.58%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy Swiss-Prot
Match: Q9FZ33 (Protein AUXIN RESPONSE 4 OS=Arabidopsis thaliana OX=3702 GN=AXR4 PE=1 SV=1) HSP 1 Score: 472.2 bits (1214), Expect = 1.1e-131 Identity = 255/482 (52.90%), Postives = 331/482 (68.67%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy Swiss-Prot
Match: Q8RWV3 (Cyclin-L1-1 OS=Arabidopsis thaliana OX=3702 GN=CYCL1-1 PE=1 SV=2) HSP 1 Score: 326.2 bits (835), Expect = 1.0e-87 Identity = 204/359 (56.82%), Postives = 242/359 (67.41%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy Swiss-Prot
Match: Q9AS36 (Cyclin-L1-1 OS=Oryza sativa subsp. japonica OX=39947 GN=CYCL1-1 PE=2 SV=1) HSP 1 Score: 283.9 bits (725), Expect = 5.7e-75 Identity = 188/357 (52.66%), Postives = 231/357 (64.71%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy Swiss-Prot
Match: Q5BKF8 (Cyclin-L2 OS=Xenopus tropicalis OX=8364 GN=ccnl2 PE=2 SV=1) HSP 1 Score: 111.3 bits (277), Expect = 5.0e-23 Identity = 109/365 (29.86%), Postives = 158/365 (43.29%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy Swiss-Prot
Match: Q7ZVX0 (Cyclin-L1 OS=Danio rerio OX=7955 GN=ccnl1 PE=1 SV=1) HSP 1 Score: 105.9 bits (263), Expect = 2.1e-21 Identity = 116/404 (28.71%), Postives = 162/404 (40.10%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy TrEMBL
Match: A0A5D3CG86 (Protein AUXIN RESPONSE 4 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold16G003850 PE=3 SV=1) HSP 1 Score: 1478.4 bits (3826), Expect = 0.0e+00 Identity = 793/943 (84.09%), Postives = 793/943 (84.09%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy TrEMBL
Match: A0A5A7U9L3 (Protein AUXIN RESPONSE 4 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold761G00110 PE=3 SV=1) HSP 1 Score: 1469.1 bits (3802), Expect = 0.0e+00 Identity = 788/943 (83.56%), Postives = 790/943 (83.78%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy TrEMBL
Match: A0A1S3BP26 (protein AUXIN RESPONSE 4 OS=Cucumis melo OX=3656 GN=LOC103492173 PE=4 SV=1) HSP 1 Score: 949.9 bits (2454), Expect = 6.8e-273 Identity = 477/479 (99.58%), Postives = 477/479 (99.58%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy TrEMBL
Match: A0A0A0M1J7 (AB hydrolase-1 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G570060 PE=4 SV=1) HSP 1 Score: 890.6 bits (2300), Expect = 4.9e-255 Identity = 457/480 (95.21%), Postives = 462/480 (96.25%), Query Frame = 0
BLAST of MELO3C015322 vs. ExPASy TrEMBL
Match: A0A6J1HWL6 (protein AUXIN RESPONSE 4 OS=Cucurbita maxima OX=3661 GN=LOC111468529 PE=4 SV=1) HSP 1 Score: 815.1 bits (2104), Expect = 2.6e-232 Identity = 412/479 (86.01%), Postives = 436/479 (91.02%), Query Frame = 0
BLAST of MELO3C015322 vs. TAIR 10
Match: AT1G54990.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 472.2 bits (1214), Expect = 8.0e-133 Identity = 255/482 (52.90%), Postives = 331/482 (68.67%), Query Frame = 0
BLAST of MELO3C015322 vs. TAIR 10
Match: AT2G26430.1 (arginine-rich cyclin 1 ) HSP 1 Score: 326.2 bits (835), Expect = 7.1e-89 Identity = 204/359 (56.82%), Postives = 242/359 (67.41%), Query Frame = 0
BLAST of MELO3C015322 vs. TAIR 10
Match: AT2G26430.2 (arginine-rich cyclin 1 ) HSP 1 Score: 320.9 bits (821), Expect = 3.0e-87 Identity = 195/331 (58.91%), Postives = 233/331 (70.39%), Query Frame = 0
BLAST of MELO3C015322 vs. TAIR 10
Match: AT2G26430.3 (arginine-rich cyclin 1 ) HSP 1 Score: 320.9 bits (821), Expect = 3.0e-87 Identity = 195/331 (58.91%), Postives = 233/331 (70.39%), Query Frame = 0
BLAST of MELO3C015322 vs. TAIR 10
Match: AT4G19600.1 (Cyclin family protein ) HSP 1 Score: 47.8 bits (112), Expect = 4.9e-05 Identity = 77/337 (22.85%), Postives = 141/337 (41.84%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
|