Cmc06g0178321 (gene) Melon (Charmono) v1.1
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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.GAAAAAGAGAAAAAAAAAAAAAGAGAGAAAGAAAAAGAAGAATAAACTAAAACCCTAAAAAACAAAACCCATTTCGCGGTTCTCTTTCTCCTTCCCATTTCCCGTGTCTGTTCAGTCGTCACTCATCACTGATCGAAACAAAGCAAATACGCAAATTCACAACACGAATCACTGAACCCATCAATTTCCCATTTCCATTCTTTCCTCAACAATCCACCTAGAACAAGAAGAACAAGAAGAAGAATAACAACAAGAAGAAAGGGATCTCCTTTCTTCCCACATTCCCTTAATCTGATTTTGCCCCCCACCCAAATGGATTCACGGGAGAGGTCGATGCCTTCTGTTCATCAACATCATCAACAATCAACTCCACCCAACAGGATGATCCCCAACAACGCTTCTTATTCCGCTAATATGCCAAATTCCAACAATACTTCCCCTTTGATCAACCCCAATTCCGCTGCTGCTCAAATGATGTCTTCCGCTTCCCGATTTCCCTTCAACTCCATGATGGGTTCCTCTTCTAAGCCTTCCGAATCTCCCAATGCAGCTTCTTATGATGGATCCCAGTCTGAATTGCGTACTGGTGGCTTTAACATTGATTCTGGGAAGAAGAAGAGAGGCCGTCCCAGGAAGTATTCTCCTGATGGGAATATCGCCTTGGGTTTATCACCAACCCCCATCACTTCTTCCGCCGTTCCTGCCGATTCCGCCGGCATGCACTCCCCAGATCCTCGCCCTAAGAAGAACAGAGGACGGCCGCCCGGTACAGGGAAGAAGCAAATGGATGCTTTGGGTACTTATCTTTATGCCTTTCTTCCTTTCTTCTTGTTTTGCTTTCTTTATGCCTTGAGTAATGGTGTTGTCCCGGTGGGCAGGGACCGGCGGTGTTGGTTTTACTCCTCATGTCATTCTTGTGAAACCAGGAGAGGTAAAGAAATTTGCTTTCTTTCGTGTATATTATGTTGCTGTTGAATTTGATTTGATGTTATTTTTTTTTCTTTAATTTTAATTTTCTATTCAATGGTATTCAATTCTTGTAGTCGATTGTTTGGGCTTCTATGAGTAATTCATTAAATGAAGTGAGGTGGGTGCTTGTGGATTTAAGATTAGATATTGAGATTCTGCAACATTGGCTGATGCACCTTAGCTCCTTTCCTTGAGAACGTGGTTGTGTAAATCTGTGTCTTATATACGTATGTTTCATTCATTGATGTTCCCTGGGGGTGGTGTTGTCTCTCCCTTGTGCATAGCACTTGTACTGCCATAAAGTTACTTGTCTTGATAGAAAGAGAAGAAAAGAGAGAGAAAGGAACCCAAATTAGAAAGATGAGAAAGAACTTGAGTTGAGTATAGTTGGTGTTTAATAAAAGGAAAAAATGCATCACAACGTAAAGAGTTGTGAACCTGTTTTTGTGGAAAATAGATAAGGTAATTTCGTTGGTATGCTCTTCTCGCCTCTTTATTTTTTTGATAAAATGTAAATGCCTCAATGTCATGAGACCGACTTTTTTAAAATTTCTGGTGGTTTACATTTTCTCTTACTTTCAAGAGTACGAAGCCCCTAAGAATCCTTCAATTTTAAGTTTAGATGTCAATGAAGTGAAGGTAAGAGACAAGGAGAATAATATATGATTATACAGAAAGTTGTCACGGTTTTGAATTAGATGCTTAAAATTGGAATTTTTTCCCGCAAATGCCTTAAACACCTTTTTGGGCCTTTTTTTAGTACATTTGTTTTTGCCGTGGATAGTTTTTGTTTCCTATAAAAAGGTTCTCCAACATTTGAATGATATCTTCATCCTTATTCCTACAAAAGGTTTGTCTTAGCAAGTTTCAGTGATAATTGATGCAAATAAGTAGTGAACTGTGCTGTGATTTTTAGAACTGCCATTCTTGCATTATTGAGCTAAATTGCTTGTTCAAGGTAAGAACTTTTGCTATGTCACTCTATTCTGTGGTCTTAGGAAACTATTCAAATAGCTTTGGGAGAATAGACTTTCCTCAGAGACCGAAACAAAATCCAATTGTTCTCACTTCTAAATCTGATACATCAAATTCCTGTCTAGATCTAGTTTTTCCTACAATAACATCAGATTTTTTGTTTGTAAAGGAAACCCATTGGAATTCGTTTGATAGATGGGAAAAAGTTTATATATATATATTGTCTAATTGTTATATTGCTCATTTCAAAGTGTAGTTCATATTCCTTTTTTGCTTTTGCATTGAATTATATTGTCGATGGGGCATCTGTTTCGTTTGAAATTAGGCTTAATCGTTAGAAGCTGCTTCTGTGGAGACTCTACATCACTCAACTGCCTCTTAAATTGGTGTCTGCAAGATTTTTCTGCGTTGTAGAGTCTAGAATCTTGTGGTGCAAGGGAGAAGGCTGGTCAAGTAGTTGGAGGGGAATTCTGATTGGTTAGGAAATAGAAAAATGACTATCCTTCAAGGAGCTTTTCAGGAACTTTCTAGTTCGGTTTGGTTTGGTTCTATTCCATGGTCTTTTGCTAAATTTGGCTTTTCCATTTACCAAAGAGATCATTCTTACTTGACAAATCAACAAAGCTATTTGGCATCAAAGTACCACAAGAAAGTGAAATTCTTTCCCTGGTATCTGACTCTTCGTGAGTTAAGCACTACCGATAAGATATCTTTTGCTTGTGTCATCCTTGTCACCTATTGGTTTGCTTTTGTGGTAGGATGTTTCTGAGAATGCCCCGTTTGTTTGTTTTGGATGATAAATCTAAATCTAGGAAAAATATGTGTTAACTATTTAGTTTGTTTTGGTCACAGACTTCCCCTTGGTAATATCCACCATTTGTTCTCTAAGGAACCCCTTTGAAAGAGAACTAAAGCATTGTGGTTGTGCGTGATTAAAGTTCTTCTTTGAGCAAAAAGGGGGAAAACCCCCTTTTTGAGGTTTTAGATGAAAAGAAACTGAGAATTTTTCGAAAAGCAGTAAAACTGGGAGGGATGTCTAAGAAGAAACTAAAATTGGGAGTCTCTTCTAGTGTTCTCTGCTTTAGATTGTAATCCCCTCTTTTGCTCTTTTAATATTTGAAAAAATGGATATTTCTTAAACATTTATCAAAATTGATCTGTTGAAGAAAGGCAAGAAAGGCAAGGTCTTCAAGCCTTTTTTGTCGATCAGCTTCATAGTTTATATGATTTTATCTGTTATACTTGTCAAGTATGAAGATCCATCTTAAGTTGTAACATATTGTTTGATAATCTAGTAATGTTATTTGAAAAAAATTGCTCTTTTTTATTTTTTGGATGGTCGTGACTGCTTGGGCAAGCTTGCATATATGTCCACACTATTTTGATGCCAAATTTGGAGATTTTACCGGATGCCTTATTTCCCTCCCCATTGTTCTTTATAGGAATGGATTTGTGGTTTCCTCTTACAAAAGCCTATGGTACTATCTAGCGGGCTTCAGTTAATTGAAATGATGGTGTTTCACTTTTAAGACTGATAGGATCATTCATAAGTATACTTATTCAATACAGAATTTAAAAACATTTACAATAATAATCTTTAGCATTTACAATAATAATCTTTCGGGTGTGGTCAGAGAGAAATTCAAGCTATGATCGAGGAGTTCCTCCTTTTTTGTGGTTTGCTGGGTGTGTGCAATTATTTGGGATATTTGGGGAAGAGGAATGGTAGAGATTTTAGAGGGAAGGATAGGGATCCTTGTGAGGTGTGGTCTTTGGTAAGATTTCATGTTTCAATTTGGGTTTTGGTTGCAAAGCTTTTCTGTAATTATTCAATAGGAAACATCTCCCTCAGTTGGATCCCTTTCCTTTAGTGGGGGTTTATTTTCGTGGGCTTGTTTTTTGTATGTCCTTATCTTCTTTCATTTTTTCTCAATGAAAGTTGTTGTCTCTGCTCTTGACCTTTTCTGGTAGGAATAGGATTTAGTTTTCCATGGTGCAGACATGTGTGCTATTGAATGTGTTTTCATAGTTTACTCCCTTCCTTAACATGCATATGGATTTATAAGTCTGAAGCTTAATCGATTCCTGTTTCAAAAAAGTGCCTTTTGATTGTTTTGCAGGACATTGCCTCAAAAGTTATGGCATTTTCACAGCAGGGGCCACGGACTGTTTGTATTCTCTCTGCCCATGGGGCTGTCTGCAATGTTACCCTTCAACCCGCATTGTCATCTGGTAGTGTGTCATACGAGGCAAGTTCTTAATTTTCCTGAGTTGACTTTGGAGAATTGTAGCCAGCAAGTGATATTGGACTTGCTATTATTTACAGTACATTCTAATGCTTCAGCTTCCAAAACATAGAAGGATCCATGTGAGAGTTTTGCACAAGCTTAGGAGCACACATCATTTTCTTGTTTATTATTGCTAGTCACCCCTCCTCTACTCTTGATGTTGGTTTTCCTTTGGAGCTTGAGGGTCACTTTACGTCAAATGCTTGTACATTGTAGCTCAGGCTACCTATTCCATTCCTGCATGTGCTATCTGCCTCTCTTAACCTTCTTGGCGTTTTACTATCTTTTTTCTGCATTATTTTCATTTGTTAAAAGTCTGTTTGTTTTGCCTTTCTATTTAATTGGTTACCCTTTGCCCTGTACTATGGTGATGAAAGGTAAAGCTCTGGGCTTTTGCAAACATCCGTATTTCTATGAACTATATAGAGAAGACAGATGTTTTCTTCTAAACAGTTCTTGTTGTGAATTTTTAAATGGGTTGATTATTTCCAAGTGAAAGAATGGAACGTCATGATAACTTAATTTATCAGTGCTAAAGTTGAAGTAGCTTGCTCCAATGCATACTGAGTCCATGGTTTTGGTGATCCCTGACCGGCAGTTCATGCTTATCTACATGGAGGTTATGTTAGTCTCCTCAATTTTTAAGATGCGCTGGTGCTAGTACTTGTAATGTATTTCATCCGTTCTTCCCAGCCTCTAAAAGAAGAAAAAGGTAGCATTGATCATCAAGGATTTTAGCCTTGTGCCTAACGGTGTGACCCAAAGATTCTATGGAGAAGGATCTCGAGGATGTAAAGGTATGGTTAAGAAAAACTTAAAAGAATTTAAAATAACTACCTATATCAACAAAGTGTGCATCCCTTTTCAGTGACTCATTCTTAAGATCTTTGAACTTAACTTAGAACAATCCTATGCTAGGTGGGCTCTTGGAAATTTTCCTTGGAAGGATATCAGTGGGGTGGGGACAAAGCATGTTGAAAGTATTCATGCTGGTTTGTGAAGGTAGTTTTCACTCTTAGAAGCTCTTCAAGACAAATAGAATGACGTAGTTAGATTGTAGGGGATGCAGGGAAATGCCGAGGTAATTAGATGTCAAATCCAAATCCCGAATCATGATCCGAATCTTGGGCTTCGGGTTTATAGTTGGAGTAAGGATCCTCTAGGTTGTTGGGAGCACATCAAGAGAGATTGAAGGTAGAAGGGAAGTTGTATTGCAGTGGCAAGGAGGCAGGGTACGAACCTTGGTTATTTCAACTCTTGTTCTTGCCTAGCACACATGATAAATTAGTAGCCGACGGTAAAGTTATGCTTCCTTTATTTTTGGCCTTCGGTAATAAGTTTACTTTAGTACAATAACCGAGCAAAGTCTTTGATCTTCTAAGGATGTTAGTATCTAACTGACATTTTAACTTAATTGGAAGAAGGATGGTTTCTTGGTGATAAAATGGAGCGGCGAGAGAACATCTTGCTTGGCTTTCTTAGTATAGGAGTCGTTCCAAATTCACTTGCAACAGTGAAGGACTTGAGATTCTATGACAGTATCTCAAGGAGAGAGACTAACAAGTGACCATATGCCAATAGAATTTTAGAGCCAAACTATTTATCTTGAGGCAATTTAAGGCAAGATTCAGTAATGAGATCCATAAGGGACATCCATTGCCATTTCTCGGTTACTCAACTACTCAAGTTTTTTTCTTTGGAGAGTATTTATTTCTTTATAGAAATCAAATCTTAGATAGAGACAGAAAGTAGGCACTACAAAAGTTCTTTCTTAATTTAAAAAGTACAAGAATTAAATTTTTTTGATGAAACAAACTTTCATTGAGAAAGAATGCAAAAGCATACAAAAAAAAAAAAAAAAAAACAGCCCACCAAAACACCCCAACTAGCAGAAGGGGGACCAACTAAGTACAATAATTAAATTTTGAACTCCATTTTGACTGAGCTCCGAAGAGAGGCCACAACTTTCTCTGGGTTTAAAAATCCAATATTGTTTTTTTATTAGAAAAAATTACTTCATCCTTTTCTAGTCTCCCATCAGGTAATCACCATTGGATTCGTCCAAATAGTCTGATTGCAAAAAATTGTTAATGCAAAAATTCTGCTGCAGAGATGATCTGTTTTAGATGTTGAACAGTTACCGTCCCTTGAATTTTTTGAACTTGGGTTTGACAAAAGAAGTTTTGGTTGGATCATTTCAAGGAATTATGAATACTGCTCTGTTCTATTATCGTTCTTTACTTAAGAAAAGTGATACTTGCTCATCATTTTGAGAAGTGGGTCATATCTGATATTCCATAAGCTGCATCTGATAATGCAGTGTCCAACTAGTTCTCCGTCATTATTTTAAAAGGAAAATTAAGGTGCTTTTGTTGAATGGTAATAGTGTTATGCTTTATAATATTTGAATGCAAGAAACAGAAAATGTTTCAATTGATTATATGCTAAGGGATGAGCTTTGAGACTGATATTCATGTAGGCTGGTGTATTTCTTTAAACTCTTTTGCAATTATTCTATTTCGTATTGCCAATTGGTAAGCTTTTCATATTCTATTGGGTTGATTGTGAGGGTTTTAACTCTTTGCACATCTCGAGAGAAGAAATGACTCATTATTATTCCTGAAACAGCTGGAGAAAAAAAGAACCTATTCTAGCTGTAGGCTACCCCAACCTTTAAAAGAAATCTGTTGATGATCTTGATTCATTGGCCAGAAAAACTAGGGAAAAGATCTATTCTAGCTGTATTATTTCCTTTGTACACAAGATATCACCAATTCTATTGCTTTTAAATCTTATGCAGGGCCGCTATGAAATCATATCTCTATCAGGTTCCTTTTTGATTTCTGAAAATAATGGTAATCGGAGTCGAAGTGGTGGTTTAAGTGTGTCTCTAGCAAGTGCAGATGGACAAGTTCTTGGTGGAATTACCAACATGCTAACGGCAGCATCGACAGTTCAGGTACTAACCTTCCCTACTGTCTACAAGAAAGTTCGTTGTCTTACCTTGACATAGTGCTGTTGATATTTCCCATTTTGGATGGATTGAATGTTCTTTGCTGGGTTGCAAGCTTATCCGCTAATGTAAAATTTGACAATACCAGAGGAGAAACAAAAGTAAGTTGGTTTTTATGCCTTAAACCATGTCTTTTTGCAAAATCAGGTTATAGTTGGTAGCTTTCTTGTGGACGGGAAAAAGCTAGGAGCCAGTATACAGAAATCTGGGCCATCGTCTACATCTCCTAATATGTTAAACTTTGGTACACCCGTGGCAGCAGGCTGCCCCTCTGAAGGCGCATCAAATAATTCATCCGACGACAATGGTGGTAGCCCTTTAAGCCGGGGGCCTGGAATGTACACCAATGCCAACCAACCAATTCATAATATGCAGATGTATCAACAACTATGGGCTAGCCGAAATCAATAATGAAGCTGCTTTGCTCAACTTAACAGTGTAGTGCATTGGGTGTCGAAGTGGTTAGTGTTTTGCATCCCGATGTATAGAGGTTAGTTCTGGATTCTGTCCCTAACATCCACTGCGCGAACCCCGTATCATAACTTTTCTAGATTAGATTCTCTATTAATCTTTTAGCTGCTGGTTAGCTTTATTTCTAGTCTGTCCAAATTGTCTACTTGAACATTTATCCATGAATGCGGAATTTCTGAAGATTGTGGTAAATTGTATCGATTGGGATGTCATTATTAAAAACTAAGAAGGGTAAATTTTCTACTCTCCTCTCTAAATTAGGGAAAATCAAACGTATCCAAAGATGCATTGTTGAATCAAAAGTCAGTAACACATTATTTTTAACCTCCTGGAAAAGCCATGAAGTTGAGTCAACATGATTATTCATGGAACGATATGTTCAAATCAACATTAGTATAACTTATAGTGTTCGGCTACCGAAATCAGGTGGAAACAAATTGTCCCTATTGATTGGAAAAGAACTAGTTCTTATTGTTAAGATCTTTTTCGAGGAAGCGATGAAAGTAGGAGTGGTATGCGAGTTGTTCGCCTTTTCAATTGCTTTTGATTTCATTGTGCTGAAATAGGTGATTCTGTGAACAGTTTGAGAGGATTATTAAGTGTTTTCTGAAATTTTCTCTTGCAATATTTACAAAATCCTACAAGTAGTTCGAAGAGGGAGGTGAAAGGTTTGCAACTTTGACACAAGAGACAATTTGCACGATCTTACCTGAATAGGACTTGTTCTATAGTTGTCCTCTTTGAGTTCTAAGGAGCCATGAGAGAAAATTTGCATATCTGCAATCGGATTTTTCTTATGTATTATTTGTCTGAATGTCTCATTTTAGTATGATTTACTTTAGGGAAATCAAGGCCTATTAGATCAGAATTTAATACAATGACATAACTTTGGAGGATGGTACTTGAGTTGTGAAAAATTTAACTATTCTAAAAGTGAACAAAATATTTAGTTTGACATGTAATATAAACACTGCAGGTAGCTCTTGAAGCAAACGACGAATTACTATGGTCATCCATCATATATCATATTGTGTCTAATCATTTGCATTTCATTTGCTACTGACCCTATTAGACTTGTAAAATTTGCATTTGAAATCATAGATTGTTCCCTAATTGTGTACCAATTGAATGCCGAACATAGACCTTCACTATTATTATGTATGTCGTTTTGTACCCAAGCTAACGAACAATGGTTACATGATGATAACCTTTTTTTATACTTTCCCTATAATGTACTTAGAATTGTTGTGTAATCTTTGAAAATGATTTTTTTTAATTGAAAAAACTAAACCTTTCCCCATTAAATGTTTTGTTTTAGTTTCAAACTATTGACTTTGTTTCACTTTGTTATTGATTGATGGTATTGTGTGTTATTAG GAAAAAGAGAAAAAAAAAAAAAGAGAGAAAGAAAAAGAAGAATAAACTAAAACCCTAAAAAACAAAACCCATTTCGCGGTTCTCTTTCTCCTTCCCATTTCCCGTGTCTGTTCAGTCGTCACTCATCACTGATCGAAACAAAGCAAATACGCAAATTCACAACACGAATCACTGAACCCATCAATTTCCCATTTCCATTCTTTCCTCAACAATCCACCTAGAACAAGAAGAACAAGAAGAAGAATAACAACAAGAAGAAAGGGATCTCCTTTCTTCCCACATTCCCTTAATCTGATTTTGCCCCCCACCCAAATGGATTCACGGGAGAGGTCGATGCCTTCTGTTCATCAACATCATCAACAATCAACTCCACCCAACAGGATGATCCCCAACAACGCTTCTTATTCCGCTAATATGCCAAATTCCAACAATACTTCCCCTTTGATCAACCCCAATTCCGCTGCTGCTCAAATGATGTCTTCCGCTTCCCGATTTCCCTTCAACTCCATGATGGGTTCCTCTTCTAAGCCTTCCGAATCTCCCAATGCAGCTTCTTATGATGGATCCCAGTCTGAATTGCGTACTGGTGGCTTTAACATTGATTCTGGGAAGAAGAAGAGAGGCCGTCCCAGGAAGTATTCTCCTGATGGGAATATCGCCTTGGGTTTATCACCAACCCCCATCACTTCTTCCGCCGTTCCTGCCGATTCCGCCGGCATGCACTCCCCAGATCCTCGCCCTAAGAAGAACAGAGGACGGCCGCCCGGTACAGGGAAGAAGCAAATGGATGCTTTGGGGACCGGCGGTGTTGGTTTTACTCCTCATGTCATTCTTGTGAAACCAGGAGAGGACATTGCCTCAAAAGTTATGGCATTTTCACAGCAGGGGCCACGGACTGTTTGTATTCTCTCTGCCCATGGGGCTGTCTGCAATGTTACCCTTCAACCCGCATTGTCATCTGGTAGTGTGTCATACGAGGGCCGCTATGAAATCATATCTCTATCAGGTTCCTTTTTGATTTCTGAAAATAATGGTAATCGGAGTCGAAGTGGTGGTTTAAGTGTGTCTCTAGCAAGTGCAGATGGACAAGTTCTTGGTGGAATTACCAACATGCTAACGGCAGCATCGACAGTTCAGGTTATAGTTGGTAGCTTTCTTGTGGACGGGAAAAAGCTAGGAGCCAGTATACAGAAATCTGGGCCATCGTCTACATCTCCTAATATGTTAAACTTTGGTACACCCGTGGCAGCAGGCTGCCCCTCTGAAGGCGCATCAAATAATTCATCCGACGACAATGGTGGTAGCCCTTTAAGCCGGGGGCCTGGAATGTACACCAATGCCAACCAACCAATTCATAATATGCAGATGTATCAACAACTATGGGCTAGCCGAAATCAATAATGAAGCTGCTTTGCTCAACTTAACAGTGTAGTGCATTGGGTGTCGAAGTGGTTAGTGTTTTGCATCCCGATGTATAGAGGTAGCTCTTGAAGCAAACGACGAATTACTATGGTCATCCATCATATATCATATTGTGTCTAATCATTTGCATTTCATTTGCTACTGACCCTATTAGACTTGTAAAATTTGCATTTGAAATCATAGATTGTTCCCTAATTGTGTACCAATTGAATGCCGAACATAGACCTTCACTATTATTATGTATGTCGTTTTGTACCCAAGCTAACGAACAATGGTTACATGATGATAACCTTTTTTTATACTTTCCCTATAATGTACTTAGAATTGTTGTGTAATCTTTGAAAATGATTTTTTTTAATTGAAAAAACTAAACCTTTCCCCATTAAATGTTTTGTTTTAGTTTCAAACTATTGACTTTGTTTCACTTTGTTATTGATTGATGGTATTGTGTGTTATTAG ATGGATTCACGGGAGAGGTCGATGCCTTCTGTTCATCAACATCATCAACAATCAACTCCACCCAACAGGATGATCCCCAACAACGCTTCTTATTCCGCTAATATGCCAAATTCCAACAATACTTCCCCTTTGATCAACCCCAATTCCGCTGCTGCTCAAATGATGTCTTCCGCTTCCCGATTTCCCTTCAACTCCATGATGGGTTCCTCTTCTAAGCCTTCCGAATCTCCCAATGCAGCTTCTTATGATGGATCCCAGTCTGAATTGCGTACTGGTGGCTTTAACATTGATTCTGGGAAGAAGAAGAGAGGCCGTCCCAGGAAGTATTCTCCTGATGGGAATATCGCCTTGGGTTTATCACCAACCCCCATCACTTCTTCCGCCGTTCCTGCCGATTCCGCCGGCATGCACTCCCCAGATCCTCGCCCTAAGAAGAACAGAGGACGGCCGCCCGGTACAGGGAAGAAGCAAATGGATGCTTTGGGGACCGGCGGTGTTGGTTTTACTCCTCATGTCATTCTTGTGAAACCAGGAGAGGACATTGCCTCAAAAGTTATGGCATTTTCACAGCAGGGGCCACGGACTGTTTGTATTCTCTCTGCCCATGGGGCTGTCTGCAATGTTACCCTTCAACCCGCATTGTCATCTGGTAGTGTGTCATACGAGGGCCGCTATGAAATCATATCTCTATCAGGTTCCTTTTTGATTTCTGAAAATAATGGTAATCGGAGTCGAAGTGGTGGTTTAAGTGTGTCTCTAGCAAGTGCAGATGGACAAGTTCTTGGTGGAATTACCAACATGCTAACGGCAGCATCGACAGTTCAGGTTATAGTTGGTAGCTTTCTTGTGGACGGGAAAAAGCTAGGAGCCAGTATACAGAAATCTGGGCCATCGTCTACATCTCCTAATATGTTAAACTTTGGTACACCCGTGGCAGCAGGCTGCCCCTCTGAAGGCGCATCAAATAATTCATCCGACGACAATGGTGGTAGCCCTTTAAGCCGGGGGCCTGGAATGTACACCAATGCCAACCAACCAATTCATAATATGCAGATGTATCAACAACTATGGGCTAGCCGAAATCAATAA MDSRERSMPSVHQHHQQSTPPNRMIPNNASYSANMPNSNNTSPLINPNSAAAQMMSSASRFPFNSMMGSSSKPSESPNAASYDGSQSELRTGGFNIDSGKKKRGRPRKYSPDGNIALGLSPTPITSSAVPADSAGMHSPDPRPKKNRGRPPGTGKKQMDALGTGGVGFTPHVILVKPGEDIASKVMAFSQQGPRTVCILSAHGAVCNVTLQPALSSGSVSYEGRYEIISLSGSFLISENNGNRSRSGGLSVSLASADGQVLGGITNMLTAASTVQVIVGSFLVDGKKLGASIQKSGPSSTSPNMLNFGTPVAAGCPSEGASNNSSDDNGGSPLSRGPGMYTNANQPIHNMQMYQQLWASRNQ Homology
BLAST of Cmc06g0178321 vs. NCBI nr
Match: XP_008448696.1 (PREDICTED: AT-hook motif nuclear-localized protein 13 [Cucumis melo] >TYK11503.1 AT-hook motif nuclear-localized protein 13 [Cucumis melo var. makuwa]) HSP 1 Score: 691.0 bits (1782), Expect = 5.4e-195 Identity = 362/362 (100.00%), Postives = 362/362 (100.00%), Query Frame = 0
BLAST of Cmc06g0178321 vs. NCBI nr
Match: XP_004148734.1 (AT-hook motif nuclear-localized protein 13 [Cucumis sativus] >KGN55770.1 hypothetical protein Csa_010123 [Cucumis sativus]) HSP 1 Score: 689.9 bits (1779), Expect = 1.2e-194 Identity = 361/362 (99.72%), Postives = 362/362 (100.00%), Query Frame = 0
BLAST of Cmc06g0178321 vs. NCBI nr
Match: KAA0053048.1 (AT-hook motif nuclear-localized protein 13 [Cucumis melo var. makuwa]) HSP 1 Score: 677.6 bits (1747), Expect = 6.1e-191 Identity = 358/362 (98.90%), Postives = 358/362 (98.90%), Query Frame = 0
BLAST of Cmc06g0178321 vs. NCBI nr
Match: XP_038904793.1 (AT-hook motif nuclear-localized protein 13-like [Benincasa hispida]) HSP 1 Score: 654.8 bits (1688), Expect = 4.2e-184 Identity = 345/363 (95.04%), Postives = 355/363 (97.80%), Query Frame = 0
BLAST of Cmc06g0178321 vs. NCBI nr
Match: XP_022923504.1 (AT-hook motif nuclear-localized protein 8-like [Cucurbita moschata] >XP_022965087.1 AT-hook motif nuclear-localized protein 8-like [Cucurbita maxima] >KAG6577699.1 AT-hook motif nuclear-localized protein 13, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 615.5 bits (1586), Expect = 2.9e-172 Identity = 326/363 (89.81%), Postives = 346/363 (95.32%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy Swiss-Prot
Match: Q940I0 (AT-hook motif nuclear-localized protein 13 OS=Arabidopsis thaliana OX=3702 GN=AHL13 PE=1 SV=1) HSP 1 Score: 232.3 bits (591), Expect = 8.9e-60 Identity = 183/421 (43.47%), Postives = 245/421 (58.19%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy Swiss-Prot
Match: Q9FIR1 (AT-hook motif nuclear-localized protein 8 OS=Arabidopsis thaliana OX=3702 GN=AHL8 PE=2 SV=1) HSP 1 Score: 224.6 bits (571), Expect = 1.9e-57 Identity = 180/404 (44.55%), Postives = 231/404 (57.18%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy Swiss-Prot
Match: O22812 (AT-hook motif nuclear-localized protein 10 OS=Arabidopsis thaliana OX=3702 GN=AHL10 PE=1 SV=2) HSP 1 Score: 186.8 bits (473), Expect = 4.3e-46 Identity = 135/296 (45.61%), Postives = 178/296 (60.14%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy Swiss-Prot
Match: Q8GXB3 (AT-hook motif nuclear-localized protein 5 OS=Arabidopsis thaliana OX=3702 GN=AHL5 PE=1 SV=1) HSP 1 Score: 174.9 bits (442), Expect = 1.7e-42 Identity = 117/260 (45.00%), Postives = 157/260 (60.38%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy Swiss-Prot
Match: O80834 (AT-hook motif nuclear-localized protein 9 OS=Arabidopsis thaliana OX=3702 GN=AHL9 PE=2 SV=1) HSP 1 Score: 164.1 bits (414), Expect = 3.0e-39 Identity = 121/299 (40.47%), Postives = 170/299 (56.86%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy TrEMBL
Match: A0A5D3CHX0 (AT-hook motif nuclear-localized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold139G001670 PE=4 SV=1) HSP 1 Score: 691.0 bits (1782), Expect = 2.6e-195 Identity = 362/362 (100.00%), Postives = 362/362 (100.00%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy TrEMBL
Match: A0A1S3BL68 (AT-hook motif nuclear-localized protein OS=Cucumis melo OX=3656 GN=LOC103490790 PE=4 SV=1) HSP 1 Score: 691.0 bits (1782), Expect = 2.6e-195 Identity = 362/362 (100.00%), Postives = 362/362 (100.00%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy TrEMBL
Match: A0A0A0L1A5 (AT-hook motif nuclear-localized protein OS=Cucumis sativus OX=3659 GN=Csa_3G011720 PE=4 SV=1) HSP 1 Score: 689.9 bits (1779), Expect = 5.8e-195 Identity = 361/362 (99.72%), Postives = 362/362 (100.00%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy TrEMBL
Match: A0A5A7UCX6 (AT-hook motif nuclear-localized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold344G001640 PE=4 SV=1) HSP 1 Score: 677.6 bits (1747), Expect = 3.0e-191 Identity = 358/362 (98.90%), Postives = 358/362 (98.90%), Query Frame = 0
BLAST of Cmc06g0178321 vs. ExPASy TrEMBL
Match: A0A6J1HJE2 (AT-hook motif nuclear-localized protein OS=Cucurbita maxima OX=3661 GN=LOC111465055 PE=4 SV=1) HSP 1 Score: 615.5 bits (1586), Expect = 1.4e-172 Identity = 326/363 (89.81%), Postives = 346/363 (95.32%), Query Frame = 0
BLAST of Cmc06g0178321 vs. TAIR 10
Match: AT4G17950.1 (AT hook motif DNA-binding family protein ) HSP 1 Score: 232.3 bits (591), Expect = 6.3e-61 Identity = 183/421 (43.47%), Postives = 245/421 (58.19%), Query Frame = 0
BLAST of Cmc06g0178321 vs. TAIR 10
Match: AT5G46640.1 (AT hook motif DNA-binding family protein ) HSP 1 Score: 224.6 bits (571), Expect = 1.3e-58 Identity = 180/404 (44.55%), Postives = 231/404 (57.18%), Query Frame = 0
BLAST of Cmc06g0178321 vs. TAIR 10
Match: AT2G33620.1 (AT hook motif DNA-binding family protein ) HSP 1 Score: 186.8 bits (473), Expect = 3.1e-47 Identity = 135/296 (45.61%), Postives = 178/296 (60.14%), Query Frame = 0
BLAST of Cmc06g0178321 vs. TAIR 10
Match: AT2G33620.2 (AT hook motif DNA-binding family protein ) HSP 1 Score: 186.8 bits (473), Expect = 3.1e-47 Identity = 135/296 (45.61%), Postives = 178/296 (60.14%), Query Frame = 0
BLAST of Cmc06g0178321 vs. TAIR 10
Match: AT2G33620.3 (AT hook motif DNA-binding family protein ) HSP 1 Score: 186.8 bits (473), Expect = 3.1e-47 Identity = 135/296 (45.61%), Postives = 178/296 (60.14%), 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:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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