Cmc07g0181231 (gene) Melon (Charmono) v1.1
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.CTTAGTGAGTTCGTGGGTCTCCTCTAAGTCCTCTCCTTCATTCATCTTTGTTCCTTCTCCTTCTTTTGTCCGGCGTGGGTTTCTTCTTTACAGTAGCCTCCGTCGGCATGGGTTTCGTTTTTACTGTAGGCCTCCGGCGTCGGTTGAACCTTCTGAGGTATTTGACGATTTTAAAGTATTTTTTATGTAAATATTGCGAGGATTAATTTCACCCAACTAATTATGTACTAACAAGAATTACGGTAGCGTCCTTTACTGTATTTCACGATTCAGTATAATATACCGTAGTTCAAATGAAAACAACTGAAGAAGGGTAGTTGAGTCGTTCTTTATTTACTTTTGAATTCCATGATTCTTGTGAAAACATACTCTTCTTTGTGAAATTTATTCAATCAACATGCTTGTTGAGTTGAATTCCCATTTGAATCCTAATTAATCATAGTTAAATTCAATTAAGTTGATGTTGCAAGTCCAATCACCGCTCTGCACCTTTTGCTGTGTATCCGATTTTGCATCGACCGAGAAAATGCCAATGCCAACTCACTTTTTCTTAATTTTAAATTAATTTTTTCTAATCGCTGATTTTTCTCTTTTTCAATAGCCTACGGCCCACTTATATATAAGAGATCGGCCCAAATATAAATAAGTGGCCTTTGCAATAGTCTGTTACTTTCTGGGCTTCGGAATTGGAGGCGGGAAGGGGAGCCCTCTCGAAGCATCCATGGCCGAATTTCGTTTCTGTATTACAATTTTGAACCATGCTTGGAAGCCATAACCTCAAACAAGCATCATCGAAGAGAAGCAAGACGAAGTGAAGAAAAGCTTTCTGAATCATCTTCTTGGTTCGACTTTTCAAGTTCATTCTCCAGTATCGGCTTCTTCGATTTCATGGCGAGTATCTTTGTCTTTTTCTGTTTTTTTTTTTTTTTCTTGTACGAACTGCATTTCGTAGCATTCTCATTGTATGTATTTTTCTTCTTGTTTTACTATTTTGTAGGAGTTACAACAGGAGCAAACTCCGTCGGTATCCATAGAAGATTGCTTGAAGCTCCTGAAGGGAGAGAAAGACGAGCAGCGTCTTGCTGGCCTTTTCTTAGTTGCTAAAATTTGCAAGGTGGATGACCTTGCCTCGCTTTCTAGAGTTTATAATGCCGTTGGAGCGAAGTTTCTTGAACGACTTCTGAGAACTGGTATGTTTCTTAATACTTCGTGATCACTTAAACTTTTTAGTTGTACTTGAACAGTTTGAGGCTTATATGCTTCTTTTGATGTATACACTCTGAAACTGTGTTTAAAACTTCTAGGCATGGGTAAAGGAACTGTCAGTGGACCTGGAGAAGATAATCGCGATGCGTATTTGCAACTGTCTGTTAGGATTCTGGCAGCGTTTTGTCATGTTCCTGAGATCGCTGCTTCAGAAGAAATGGTCTCGAAGATTCCACTGATACTGGAAACCCTATCCAACCAGTGCGTGCGCTATCAGTAAACTCTTTCTTGGTTACATTTCTACTTTAATCAGTTTATTATGCGTACGGAATTAGAACGACGAATATCCTCTGAGAGATTGAGGTGATTTTGAACGAAAACGTGTCACACTGGAATTAGAAAAAGAAAATCGTTTGTGCTATTTTTCTTTTCGTATTCACCTGTATTCTTCTTGTTCCTTTGCATATTGGTGTTTCGTTAAGGAGATTTAGAGATTGATCTTCAAGCAGACTTTAGATTTGCAGTACGAGTACGTACTCAACCATTTTTCTGATTGCAATACATAAATTTATTTATATTATTAATGCATTCTTGAATCTACTTGTGCTATCGGGATTTAGGTTCTTACCATCAAGAAATGACTAATTGCATTAAGGACTGGATTTTCTTAATTGCTATTTACATCATGCTTTCTTGTCCTTTCGAATCCCTTTCATCGATGTTTCTTTTGTTGTTTATGGAAGGTCAGGATCTTCTGTTTTGGAGGAGTGTCTTGAATTTTTGTATCTGGTATCAACTGCATCTGATGCTGGAGTGACCACTCTGTATGAATCTGGTAGTCTGAAAATTATAGCTTCTTGGATGTTGTCAATGCCAGATGGTAACACTTCTCATTGTTTGTTGAATCTCATTGATGACCTTGTTGTGGGCTGTTGATCACTCAATATCTCAGTATAACCTTTTGCATACAGGTCCTAATCTGATGAAGATTTCCATGCAACTTGTTCAATTGATCATCAGTAAGATTTCTCTGGACATCATCATCATCGACTCTTTGCCTGAACTATCAGATATTGTGAGTTAAATTTATGTTTATTCTAGTTACTATCTATTAGGTTAGGACATGTCACTCGTTTTGGTTTGTTTTCGGTCATATTCTTATAGGGAGACACAAAAATTCTATTCCCCCCATAATCGAGTAAATATTATCCAATTAGGTTGTCGCTATTGCGAGGCAATTTGGAGTGGCACACGATGCTATGAAGTTTGAAGCCCTTCGCCTGCTTTCTGCCATCCTGTCTTCAAATTTGGTATACAATTAATGGTTCCAATAGGAAATATTACTTTAGTAGTTTCGCTGCTTAGCCTTGACTGATGCATAACTTTTTAGGTTGATATACATTCTTTTTAGTTTTAATAATTGTCGTCCTTTGCTACCTTTTCAGACATGTTAGTTCTTAGTTCTGTTATAACTCATAATCATGTTTTGCAAACGGCATTTCATTTTCAGACACCACTTTTTGAAACCCTTCGTCAAGTGCCCTCCAATGTTTGGGCAAAATATATGCGTGATGGAGTTTCAGCTATTCTTCATAACCGCACAGGTATCCTAAGCTGCAATTTCTTCAATGTAAAAGATTTCTCCTCCTTTTCTATTTCTGGCAATCATCGTGTAGCTATATGTTTTTCCTATGTTGCTATTACTCAATTTCGCACTAAACTGCCATATTATCAATCTTCTACTTAGCTTGATTATAATGTATTTGACATATATTCCAATTGTTGGGTGTTGATTTTTTTGGTGTTTGCAATCTACAAGTTTATTTGATTTATTATGAAAGCTGCAGCAATCCTATGTTATTAGACTGGTGAAACTTGGTCTCTGAGTTGGTATAGAAGGAGACATGAAATATAGTTGAAAGGATATTTGCAATTTGGCCCTTTTCTATTTTCTTTTGGGGTGAAGATAAAATGAAGTGTATGTTAGGGCCTGGATACTGTATATGTTGGAAGGCCACCCTTTTTTCTTTAAAAGTAAATTAATTACAGTGCATTAATTTAGATAATCATTCATATTTAGCGCTTCATAAGGTGAAATTTTCTTTTCTTTCGATTGAGATTTAGATGTTTATTTGCTCTTGTAATGGAAAAGTGAAAAATTGGAGGCAAACGTTTCAAGTATATTCTGTTTTTTGAAGCTTTTTTTGTAGTTGTGTCCAGGAAGATGTTTGAGTTTCTAATTTATTGAATCTCTTGCTTTGCTGTCCAATGTTCAGCACCTGCTGAAAAGCTTCAGGCTCTTAGTTTGGCCGAGTCGATGGTATCTATTCTAGGAGAAGGTTGGCTGATAGGTGAAATAGAATTACCTGATGTACAAGACGCTATTCCATCGGACAGGTATTCGGTGATTGCTACCAGTACTGATGCTTTATTAACTTCTCGGATATATTTTTCATTTTTCTCTTCTATCTTGATCTCAGATGTCTAATACTTGTCTTAGAGCAGTCAAGGGTTGAGATTGCCGTGATGCTGAATGAACTGGCTTATATGAAATATGAAGCTTCCAAGAATTCGTCCTTGAAGGAAGATATCATCTTAAAGCAGCGTAATGTAGCTACTGCCTTCTCTTTGGTGGAAAAGATAATTAAGTTAATATCAAATATCGGAGAAGAACAAGGTGAATTACTAATGTGATGTCAATTATTTGCTAGGTCTTGAATTTTATTTATTAGCATTGAGATTGATAGCCCAGATTTCAAAAGTTTAGGAGAATAAGCTCCTGAAGAATGGGTTGGGGGGGGGGCATGTGAAGTATAGTTTCTTCATATCTTTATATTTTGTTGGTTAGAGAAAGGGTGCGATGGGGCAGGATGATATGGGGCAGTGTTATCCTTTTGCTGACAACTCTAATCTGTAGGCTTTCTCTATGTTTCTAATGGTAGGTTTAAGATTTTGTCCCATTTGTAGTTTACTTCATAGAATCAATTGGATAATTAATTAATTGGATGATAAATGTATAATTAGATGATTGCTTTAAAGGGTGTATAAACAAATTAAGGAAATTGATGACTTAACTCAACCAACTATATAAATGAGCCTTTTATATTTTCTTAAAATTTTACAATTATCAATTTTAATTATTTTTGAGTTAAGTCAGATTATGTACTGATTGAAGTTTGCTCTAGAAAAGAAGGGAGTTCGGAAATGTCTTAGAGATTTTTTTTTACACCAAATTATTATTATTATTGTTATTTTTTAAAACATGATCAATCTAAATAGAATTACATAAAACTTGAAGATGGTTGAAGCTTGGAGTCATGGACATAAATGTTACTTGATGTGTTTGAAATAGTTGGTCTTTCATCGACCCTTTTGGGGCTTTACGTGGTTGAATTACTAACCTATTGATATTGCTTTGTGGCTTGCCCAAGCTTGTTTGGTGGATGGTCCGTCCATGTACTAGGTCTTTCTTTTAAAGTACAGAAAATGCAGGACTGATTTTAAGGGTTTTTTTTTTTTTCTTTTTGTGTGTGTGTGTGTGTGTGTATCTGAGAAACCATTTGAAATAGACATTTTAATTAACGTTGTTATGATGTTGTAATCCAGTGTTGACCTTTGGCTAATATATTTGGCAACGCCAAGTTATTTTCTTTTTAATTAGTTCACAATCTAATAGTTTCTTGAATACCTGGGGAATTTATCTGTAGGGGATCTTATCAGTGAAAACACACTGATGAAAGTGATTAGAGGGCTTAATGAGACTACTGGGGTTGTGCTAGAATATTTGCAAGATGCAAAGGTAATTATGGGAAAACTTATAGTTGTAGTAGGATATGGGGATACTGTTCCTTATTTAAGATTGTGATTTATGATTCTTCAGGAGCATGGACAAAGAAAAGGAGATGACATTTTAGCATCTGTACGGGTTATTGGGAGGTAATGTATTCTATATTTGTTTGCAATCCTTTGTGAGAGAGCAGAGTGTTTCAAATTCTAAAAACAAGGAAACGGTTTTGAATGAATTTCTTTTTACTGTTTAATATATTGAAATGCCCCTTGTTTATCCTTTTTATGAATATCTATTTTGTAAGAAGCATAGAATGGAAAATTTGAGCTAGTTTGCGTATTCTTCAATCTTAGATATAAATAGAAGAAAAAGAATGTAGCAAATCTTCAATGTCTTTTGCCTTTGCTGTGTAATTGCTTGTCTTAGTATTGCTTGATAATTGAGGAGTGTCTAGGTGCAAATTTTATAACAAGGAACAATACTCATTTGCAATGGTACCAACTACCAAAGACCGTTGAAGTAATATGAAATGTGAATTTTCTTCATTCAGTTAGTATAACATGTGGGCACTCTAAATTTTTGGTCCGGTGGACCATTTATGATTTGGTATCTTCAAACTAGACTATAGTTTTATTTGTACATGGATTGCCTTTGGTTAACATTATTCTCTTTTATTCCAGTTTTCTTGCACAAACCCCCGATGCATGGACAGAAAAAGTTAAGGAACTCTTGGACTATATGCTCTCTGTTGAAGGTGAAGATGAACAGAGGTTTGTCAGCGCCCAGTTATTACCGACAATTTGGTATTTATTGTATGAATCTAAAATACCTGAATTCCGTTTCTATGTTTACAAATGACAGCCCCTTCAACTCTGTGTGCTTCTTGCTTCCCATGCTATGTCAAATTACGATGAATGTTGAAGGATGTAAGACTTTGGTTTCTTCTGGAGGTCTTGCAGCTGTAAGTGATTGCAATATGGAATTTGCTTTTATACAAGTGGCCTTGTGAACTCTGAAACTTTCTATTTATTACTTTTGCCAGATTGAAGTTCTTAATCACTGAGCATTTGGGTCTACACACAGGTTGTGAATTGCCTTATTAATTTGATTCACAAGCACGGTTGCTGGATTGACAATGATGGATCCATCTTCTTGGCTTGTGATACAATCTTGAATGTGCTTCTGAAGGTACTCATCTAGTAAACTACTGTAGTACCGAATTCTGTTTATATTGTTTCTTTAAGGTCTTGATTGGTTACCATTTGATTTTCTATTTTTGGTTTTTAAAAATTGAGCTTATAATCACTACTTCCATCTTTTAAGTTTCTTTGTTTTCTTGTCCACTTCCTACCAATGTTTTTAAAAACCAAGCCAAATTTTGAAAACTAAAAAGGTATTCAAAAACTCGTTACTAGTACTCGTTCAATTTTGTAAGTTGTAACAAGGTACTTGTACTCCTTTCTAGAAAGAGCTTGGTGGGCTTCTATGTGGCGAATCATCTTTTATTCACCTGTTGGAAGCAATCGTAAATTCAACTGGTATTTTTCTTGATTTTTGTTTTTTACCTGCATGTTCAATGACTACCTTAGCTTTAATTATTGCCTCCATGTTTAAAGATAATATCCGATGGTGCTTGCTTTATTAGTCCTTTCTTAAACAAGATCTTATATCCTAATAGCATAGGAAAAAACTTACAACTCACCAGAACATTTTTATAACGTATGTTGTTTGATTTTGATATAATAGTTGAATGATTTAGGCAATTGTGCATAGTTGGTAATGAAAAAATGTGTATAACTTTATTTAATATTTTTTTAGTACAACAAAAGTAGGGTGTGGAGAATTCTTCAACCTCAAGGAAATGAGTAAATGATAACTATTTCCTAACTGTGCTTATGTTTGAAAATTATTTTCTCTTCTTTTAGATATCTTGGGAATGTGTGTTAAATAAATAAATTTTGATTATTTATTTATTATTATTACGTTTTTAAAAAGTTACATTGTGTTTATGATGGTTGTAGAGGATTCCAAAGAGCTATCTGTTATCATGATGGCTGGTAGTATATGTGCCTTGATATTTGATTTCACCTCGGAGGCCGCTCTTCTAAGCAATCCTAATTTTGCCGATAAATCTCTCGATAAGTTGTGCAAACTCTTTTCAAGAATCTTCATTTTGTCTCAACAGGTATGGTAAACATTAACAATGTGCTTCCTTGAAGGCGGCCTAAGTATTTTTATTTTATATCTAAAAGGTCATTAACATTCCACATTTTACAAACTTCACAATTCTAGCAGGAAAGCTAATTAAATATGTTTGGAGACTAAACGTAAAAATTAAGTCTATTTTCCTTGACCTACACATTGAAAGTTTCATAGATTTATTAGAGATTTACTAAATATCCATTTGAAGGAAAATGTAGTAAACTTATAATTTAACAACAGTGTGCTGAAGATGATTATATAAAATGTTGAATTTCTCTGTATTTCAGCAGAGCATGAACGACGATGTAATGGCACAGATGGATCTTCTCGAGATTATCACAGCAGGTTTGTGCTTTACTCAAACATATATTAACAAAGACAACTTTAAAAATTCTATTACAAGACATATTTTCTATTTGAAACTCAACATTGCACCATTCAAATCTTTTTCCCTTCGTTTTATTTTTTCATTTTTATAATTATTAGTCTTACGCAATTGTGAAATGTGACGTGTCATTTAAAAATGTTAATTATGCAATGGGACACTTCATTGAGTCTTTAGTTTTATTAATTGATTCCATTTTCGGAGAGATGTATTACATTTCATGGTGTCTGGACTCTCGTAGGGCAGAAGCCACTGTGTTTAGGCCTTTTGGCTTCCTGTATTTAGAGGAATGGTGAGGATGTTTGTTTTCTTCTTTGCAAACATTGAAAAATGCTTTAAATTTGATTTCAGGATATTCTCGTTGGGGAGACAGATTTCCGCGTGTTCAAAAGGCAATTGGCAGTTCACGATACTCATGAGCATTGCATCCATCCTTATGATTATTGGTAAATGGTAATGAATAAGGAAATCATATGTTTGCGTTGTGGGGTCGTTAATTAGTATAATTTATGAAATTAGAGTTTTCCTGTTTGTTGCTTTTTTTTTTAGATGACAAAGCATGCAGCAAGCCATATTTATGAGTGTAACGTTCCATCTATGGAAGTGTAGCCATATTTATTAGATTTCGAGCGTTGAAGGGAATTGTTGAGAGAGAATTTAGAAATAGAAGCAAAAAGGATGATTTACTCGCATAGTTTAGTTTAGAGAGGTTTTCGGTCTTTTCTTTGGTATTCTAAAATTTACTCACTAAATCAAATGTGTTTTGGAAGAAAAGCTTTTAGGCGCCGTGAGCATAGATATTGAATGTCTAGGATAACCTATCGTTTGGGCAAGTCTAGGATCGAAGGAATTATTTAGAAGTAATGTAGTCATTATAATTAGATTTTAATTATTAACATCGTTATGTTAATTATTTAATCACAAATAATTTTTAATGTAACATTATTTAAATCATCAATAATAATTAATTAAAT CTTAGTGAGTTCGTGGGTCTCCTCTAAGTCCTCTCCTTCATTCATCTTTGTTCCTTCTCCTTCTTTTGTCCGGCGTGGGTTTCTTCTTTACAGTAGCCTCCGTCGGCATGGGTTTCGTTTTTACTGTAGGCCTCCGGCGTCGGTTGAACCTTCTGAGCCTACGGCCCACTTATATATAAGAGATCGGCCCAAATATAAATAAGTGGCCTTTGCAATAGTCTGTTACTTTCTGGGCTTCGGAATTGGAGGCGGGAAGGGGAGCCCTCTCGAAGCATCCATGGCCGAATTTCGTTTCTGTATTACAATTTTGAACCATGCTTGGAAGCCATAACCTCAAACAAGCATCATCGAAGAGAAGCAAGACGAAGTGAAGAAAAGCTTTCTGAATCATCTTCTTGGTTCGACTTTTCAAGTTCATTCTCCAGTATCGGCTTCTTCGATTTCATGGAGTTACAACAGGAGCAAACTCCGTCGGTATCCATAGAAGATTGCTTGAAGCTCCTGAAGGGAGAGAAAGACGAGCAGCGTCTTGCTGGCCTTTTCTTAGTTGCTAAAATTTGCAAGGTGGATGACCTTGCCTCGCTTTCTAGAGTTTATAATGCCGTTGGAGCGAAGTTTCTTGAACGACTTCTGAGAACTGGCATGGGTAAAGGAACTGTCAGTGGACCTGGAGAAGATAATCGCGATGCGTATTTGCAACTGTCTGTTAGGATTCTGGCAGCGTTTTGTCATGTTCCTGAGATCGCTGCTTCAGAAGAAATGGTCTCGAAGATTCCACTGATACTGGAAACCCTATCCAACCAGTCAGGATCTTCTGTTTTGGAGGAGTGTCTTGAATTTTTGTATCTGGTATCAACTGCATCTGATGCTGGAGTGACCACTCTGTATGAATCTGGTAGTCTGAAAATTATAGCTTCTTGGATGTTGTCAATGCCAGATGGTCCTAATCTGATGAAGATTTCCATGCAACTTGTTCAATTGATCATCAGTAAGATTTCTCTGGACATCATCATCATCGACTCTTTGCCTGAACTATCAGATATTGTTGTCGCTATTGCGAGGCAATTTGGAGTGGCACACGATGCTATGAAGTTTGAAGCCCTTCGCCTGCTTTCTGCCATCCTGTCTTCAAATTTGACACCACTTTTTGAAACCCTTCGTCAAGTGCCCTCCAATGTTTGGGCAAAATATATGCGTGATGGAGTTTCAGCTATTCTTCATAACCGCACAGCACCTGCTGAAAAGCTTCAGGCTCTTAGTTTGGCCGAGTCGATGGTATCTATTCTAGGAGAAGGTTGGCTGATAGGTGAAATAGAATTACCTGATGTACAAGACGCTATTCCATCGGACAGATGTCTAATACTTGTCTTAGAGCAGTCAAGGGTTGAGATTGCCGTGATGCTGAATGAACTGGCTTATATGAAATATGAAGCTTCCAAGAATTCGTCCTTGAAGGAAGATATCATCTTAAAGCAGCGTAATGTAGCTACTGCCTTCTCTTTGGTGGAAAAGATAATTAAGTTAATATCAAATATCGGAGAAGAACAAGGGGATCTTATCAGTGAAAACACACTGATGAAAGTGATTAGAGGGCTTAATGAGACTACTGGGGTTGTGCTAGAATATTTGCAAGATGCAAAGGAGCATGGACAAAGAAAAGGAGATGACATTTTAGCATCTGTACGGGTTATTGGGAGTTTTCTTGCACAAACCCCCGATGCATGGACAGAAAAAGTTAAGGAACTCTTGGACTATATGCTCTCTGTTGAAGGTGAAGATGAACAGAGCCCCTTCAACTCTGTGTGCTTCTTGCTTCCCATGCTATGTCAAATTACGATGAATGTTGAAGGATGTAAGACTTTGGTTTCTTCTGGAGGTCTTGCAGCTGTTGTGAATTGCCTTATTAATTTGATTCACAAGCACGGTTGCTGGATTGACAATGATGGATCCATCTTCTTGGCTTGTGATACAATCTTGAATGTGCTTCTGAAGAAAGAGCTTGGTGGGCTTCTATGTGGCGAATCATCTTTTATTCACCTGTTGGAAGCAATCGTAAATTCAACTGAGGATTCCAAAGAGCTATCTGTTATCATGATGGCTGGTAGTATATGTGCCTTGATATTTGATTTCACCTCGGAGGCCGCTCTTCTAAGCAATCCTAATTTTGCCGATAAATCTCTCGATAAGTTGTGCAAACTCTTTTCAAGAATCTTCATTTTGTCTCAACAGCAGAGCATGAACGACGATGTAATGGCACAGATGGATCTTCTCGAGATTATCACAGCAGGATATTCTCGTTGGGGAGACAGATTTCCGCGTGTTCAAAAGGCAATTGGCAGTTCACGATACTCATGAGCATTGCATCCATCCTTATGATTATTGGTAAATGATGACAAAGCATGCAGCAAGCCATATTTATGAGTGTAACGTTCCATCTATGGAAGTGTAGCCATATTTATTAGATTTCGAGCGTTGAAGGGAATTGTTGAGAGAGAATTTAGAAATAGAAGCAAAAAGGATGATTTACTCGCATAGTTTAGTTTAGAGAGGTTTTCGGTCTTTTCTTTGGTATTCTAAAATTTACTCACTAAATCAAATGTGTTTTGGAAGAAAAGCTTTTAGGCGCCGTGAGCATAGATATTGAATGTCTAGGATAACCTATCGTTTGGGCAAGTCTAGGATCGAAGGAATTATTTAGAAGTAATGTAGTCATTATAATTAGATTTTAATTATTAACATCGTTATGTTAATTATTTAATCACAAATAATTTTTAATGTAACATTATTTAAATCATCAATAATAATTAATTAAAT ATGGAGTTACAACAGGAGCAAACTCCGTCGGTATCCATAGAAGATTGCTTGAAGCTCCTGAAGGGAGAGAAAGACGAGCAGCGTCTTGCTGGCCTTTTCTTAGTTGCTAAAATTTGCAAGGTGGATGACCTTGCCTCGCTTTCTAGAGTTTATAATGCCGTTGGAGCGAAGTTTCTTGAACGACTTCTGAGAACTGGCATGGGTAAAGGAACTGTCAGTGGACCTGGAGAAGATAATCGCGATGCGTATTTGCAACTGTCTGTTAGGATTCTGGCAGCGTTTTGTCATGTTCCTGAGATCGCTGCTTCAGAAGAAATGGTCTCGAAGATTCCACTGATACTGGAAACCCTATCCAACCAGTCAGGATCTTCTGTTTTGGAGGAGTGTCTTGAATTTTTGTATCTGGTATCAACTGCATCTGATGCTGGAGTGACCACTCTGTATGAATCTGGTAGTCTGAAAATTATAGCTTCTTGGATGTTGTCAATGCCAGATGGTCCTAATCTGATGAAGATTTCCATGCAACTTGTTCAATTGATCATCAGTAAGATTTCTCTGGACATCATCATCATCGACTCTTTGCCTGAACTATCAGATATTGTTGTCGCTATTGCGAGGCAATTTGGAGTGGCACACGATGCTATGAAGTTTGAAGCCCTTCGCCTGCTTTCTGCCATCCTGTCTTCAAATTTGACACCACTTTTTGAAACCCTTCGTCAAGTGCCCTCCAATGTTTGGGCAAAATATATGCGTGATGGAGTTTCAGCTATTCTTCATAACCGCACAGCACCTGCTGAAAAGCTTCAGGCTCTTAGTTTGGCCGAGTCGATGGTATCTATTCTAGGAGAAGGTTGGCTGATAGGTGAAATAGAATTACCTGATGTACAAGACGCTATTCCATCGGACAGATGTCTAATACTTGTCTTAGAGCAGTCAAGGGTTGAGATTGCCGTGATGCTGAATGAACTGGCTTATATGAAATATGAAGCTTCCAAGAATTCGTCCTTGAAGGAAGATATCATCTTAAAGCAGCGTAATGTAGCTACTGCCTTCTCTTTGGTGGAAAAGATAATTAAGTTAATATCAAATATCGGAGAAGAACAAGGGGATCTTATCAGTGAAAACACACTGATGAAAGTGATTAGAGGGCTTAATGAGACTACTGGGGTTGTGCTAGAATATTTGCAAGATGCAAAGGAGCATGGACAAAGAAAAGGAGATGACATTTTAGCATCTGTACGGGTTATTGGGAGTTTTCTTGCACAAACCCCCGATGCATGGACAGAAAAAGTTAAGGAACTCTTGGACTATATGCTCTCTGTTGAAGGTGAAGATGAACAGAGCCCCTTCAACTCTGTGTGCTTCTTGCTTCCCATGCTATGTCAAATTACGATGAATGTTGAAGGATGTAAGACTTTGGTTTCTTCTGGAGGTCTTGCAGCTGTTGTGAATTGCCTTATTAATTTGATTCACAAGCACGGTTGCTGGATTGACAATGATGGATCCATCTTCTTGGCTTGTGATACAATCTTGAATGTGCTTCTGAAGAAAGAGCTTGGTGGGCTTCTATGTGGCGAATCATCTTTTATTCACCTGTTGGAAGCAATCGTAAATTCAACTGAGGATTCCAAAGAGCTATCTGTTATCATGATGGCTGGTAGTATATGTGCCTTGATATTTGATTTCACCTCGGAGGCCGCTCTTCTAAGCAATCCTAATTTTGCCGATAAATCTCTCGATAAGTTGTGCAAACTCTTTTCAAGAATCTTCATTTTGTCTCAACAGCAGAGCATGAACGACGATGTAATGGCACAGATGGATCTTCTCGAGATTATCACAGCAGGATATTCTCGTTGGGGAGACAGATTTCCGCGTGTTCAAAAGGCAATTGGCAGTTCACGATACTCATGA MELQQEQTPSVSIEDCLKLLKGEKDEQRLAGLFLVAKICKVDDLASLSRVYNAVGAKFLERLLRTGMGKGTVSGPGEDNRDAYLQLSVRILAAFCHVPEIAASEEMVSKIPLILETLSNQSGSSVLEECLEFLYLVSTASDAGVTTLYESGSLKIIASWMLSMPDGPNLMKISMQLVQLIISKISLDIIIIDSLPELSDIVVAIARQFGVAHDAMKFEALRLLSAILSSNLTPLFETLRQVPSNVWAKYMRDGVSAILHNRTAPAEKLQALSLAESMVSILGEGWLIGEIELPDVQDAIPSDRCLILVLEQSRVEIAVMLNELAYMKYEASKNSSLKEDIILKQRNVATAFSLVEKIIKLISNIGEEQGDLISENTLMKVIRGLNETTGVVLEYLQDAKEHGQRKGDDILASVRVIGSFLAQTPDAWTEKVKELLDYMLSVEGEDEQSPFNSVCFLLPMLCQITMNVEGCKTLVSSGGLAAVVNCLINLIHKHGCWIDNDGSIFLACDTILNVLLKKELGGLLCGESSFIHLLEAIVNSTEDSKELSVIMMAGSICALIFDFTSEAALLSNPNFADKSLDKLCKLFSRIFILSQQQSMNDDVMAQMDLLEIITAGYSRWGDRFPRVQKAIGSSRYS Homology
BLAST of Cmc07g0181231 vs. NCBI nr
Match: TYK19981.1 (neurochondrin isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 1214.5 bits (3141), Expect = 0.0e+00 Identity = 635/635 (100.00%), Postives = 635/635 (100.00%), Query Frame = 0
BLAST of Cmc07g0181231 vs. NCBI nr
Match: XP_008452892.1 (PREDICTED: neurochondrin isoform X1 [Cucumis melo] >XP_008452893.1 PREDICTED: neurochondrin isoform X1 [Cucumis melo] >XP_016901342.1 PREDICTED: neurochondrin isoform X2 [Cucumis melo]) HSP 1 Score: 1210.3 bits (3130), Expect = 0.0e+00 Identity = 633/636 (99.53%), Postives = 635/636 (99.84%), Query Frame = 0
BLAST of Cmc07g0181231 vs. NCBI nr
Match: KAA0064611.1 (neurochondrin isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 1208.4 bits (3125), Expect = 0.0e+00 Identity = 632/635 (99.53%), Postives = 634/635 (99.84%), Query Frame = 0
BLAST of Cmc07g0181231 vs. NCBI nr
Match: XP_008452894.1 (PREDICTED: neurochondrin isoform X3 [Cucumis melo]) HSP 1 Score: 1203.7 bits (3113), Expect = 0.0e+00 Identity = 632/636 (99.37%), Postives = 634/636 (99.69%), Query Frame = 0
BLAST of Cmc07g0181231 vs. NCBI nr
Match: XP_004145520.1 (neurochondrin isoform X2 [Cucumis sativus] >KAE8649952.1 hypothetical protein Csa_012776 [Cucumis sativus]) HSP 1 Score: 1134.8 bits (2934), Expect = 0.0e+00 Identity = 591/634 (93.22%), Postives = 612/634 (96.53%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy Swiss-Prot
Match: Q640K1 (Neurochondrin OS=Xenopus laevis OX=8355 GN=ncdn PE=2 SV=1) HSP 1 Score: 104.8 bits (260), Expect = 3.8e-21 Identity = 136/596 (22.82%), Postives = 261/596 (43.79%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy Swiss-Prot
Match: Q2KJ97 (Neurochondrin OS=Bos taurus OX=9913 GN=NCDN PE=2 SV=1) HSP 1 Score: 89.0 bits (219), Expect = 2.1e-16 Identity = 107/448 (23.88%), Postives = 203/448 (45.31%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy Swiss-Prot
Match: Q9UBB6 (Neurochondrin OS=Homo sapiens OX=9606 GN=NCDN PE=1 SV=1) HSP 1 Score: 85.9 bits (211), Expect = 1.8e-15 Identity = 105/448 (23.44%), Postives = 201/448 (44.87%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy Swiss-Prot
Match: Q9Z0E0 (Neurochondrin OS=Mus musculus OX=10090 GN=Ncdn PE=1 SV=1) HSP 1 Score: 83.2 bits (204), Expect = 1.2e-14 Identity = 105/449 (23.39%), Postives = 203/449 (45.21%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy Swiss-Prot
Match: O35095 (Neurochondrin OS=Rattus norvegicus OX=10116 GN=Ncdn PE=1 SV=2) HSP 1 Score: 82.8 bits (203), Expect = 1.5e-14 Identity = 105/449 (23.39%), Postives = 203/449 (45.21%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy TrEMBL
Match: A0A5D3D8S2 (Neurochondrin isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold134G00960 PE=4 SV=1) HSP 1 Score: 1214.5 bits (3141), Expect = 0.0e+00 Identity = 635/635 (100.00%), Postives = 635/635 (100.00%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy TrEMBL
Match: A0A1S3BW48 (neurochondrin isoform X1 OS=Cucumis melo OX=3656 GN=LOC103493779 PE=4 SV=1) HSP 1 Score: 1210.3 bits (3130), Expect = 0.0e+00 Identity = 633/636 (99.53%), Postives = 635/636 (99.84%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy TrEMBL
Match: A0A5A7VFZ2 (Neurochondrin isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold255G003330 PE=4 SV=1) HSP 1 Score: 1208.4 bits (3125), Expect = 0.0e+00 Identity = 632/635 (99.53%), Postives = 634/635 (99.84%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy TrEMBL
Match: A0A1S3BUZ3 (neurochondrin isoform X3 OS=Cucumis melo OX=3656 GN=LOC103493779 PE=4 SV=1) HSP 1 Score: 1203.7 bits (3113), Expect = 0.0e+00 Identity = 632/636 (99.37%), Postives = 634/636 (99.69%), Query Frame = 0
BLAST of Cmc07g0181231 vs. ExPASy TrEMBL
Match: A0A0A0L170 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G652750 PE=4 SV=1) HSP 1 Score: 1133.2 bits (2930), Expect = 0.0e+00 Identity = 590/633 (93.21%), Postives = 611/633 (96.52%), Query Frame = 0
BLAST of Cmc07g0181231 vs. TAIR 10
Match: AT4G32050.1 (neurochondrin family protein ) HSP 1 Score: 662.1 bits (1707), Expect = 4.4e-190 Identity = 367/627 (58.53%), Postives = 461/627 (73.52%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
Relationships
The following mRNA feature(s) are a part of this gene:
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