Pay0014815 (gene) Melon (Payzawat) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TAGAAACTATATAAAAACTTATATCGTCTAGTTCATTTACGCGCGCAGGAAACCCTATCGCGTCGAATCAGCAAGGTAATCCGCTTGTGTTTGATTTGAATGTTTTCGAAATCTCAGTTGTTTCCGTTCGTATGGTCAGCAATTTGGGATTTTGTGTTGCCTGTAATGATCGAATCTCAGTTACAACTTTATCATTCCTCTGTTCGAGATTCGATTCCCCATTTCTTTCTTCAGCATTCTTCTATATTATCGTTGCCTTTTCTACACTCTACTACAATTCACATCGACTGCGTATACTCTATTTAATCGGTGATAAATTTCTTCAACATGATTTTGTTATTTCCCCCTCATTTCACAATGATTCTGAAACTTTAGGCTGCTGCACGAGAAACTTGCAAGTTTAAGCTCTTTTACTTGTTATTTCCCCTTCATTTGACAGTTTTTGCTTTTGTTTCCTACATTAGGCTTGGAGTTTATCAATATGGATAGGTTTTGCATCTTTCTGATGTGTTGTAGAATTTCGTATTTATCAGGAATCAGGAAAATGTGAAATCTGCCTACCTATGGGTAATGAAGGATTACTTAGTTGAAATCTTAAGGAATCTGGAATTGTAACTAGATTAACTTTAATCGTATTTTTTTTTTCCAAAGCTAAAATTTGAGTTAATATGTTGAAAGGGAATTCGTCTCCTGTCAATACATCGTTCTGTTTTTTATTTAGATTGCGGTACCTGGTCACCTCAATGCCTTATGCATGTATTTAATGTGGCAGATGAAGAACGTGGTCTTGGCAGAACCTAGATGACTCCAGATTTAAGATACCTCCATGGTTAGTTTGAGTTCTGTTTCTGAATAGACACTTTCTAATTCCTTAAGATTTTCTATTTATCTCTCGTGTTGTATCCTGGACCATCGGCCATAAATTTTGTCTACAATCTACTGATGATGCATTCTTTTTTGTGAAAGCGGGTTAGATTTAAGCAAAATGTTAATGGAGTGGTAAATTATATGTCAATTTTGGTAGGTTGCATGGGTAGTGAATAGCCTATGAAGTAGTTTTGAAATGCCTTTTGGAAATAATCCTATGAGGGAGGAATTAATGAAACCAGTTTAAGAGATGATTTTTTGCCTTTGGGGATATTGCCATGATGTAAGAACTCGTTGAATTCCAAAATGTTCATGCTAGTCCTGATTCAATTGGTTAGTCCTTTTCAACATACATTTTATATGTTTTACTGTAATTTGAGTGCAGTGGCTTTGAAAATAAATTGGTAGTGTCATCAACAGTCTGTACTGTAGTTTATATCTTTTCTTGTTTGTAAAGATGTAAACTACTGGAAGATGGCTTGCTGTTAGACACTCTGGAATGTATATGTACCATACTCTCCTTGATCTCAGTAAAACTTGCCTTCAAGATGAACTTTTCATTGATGTTTCTTTGTTATTTTTTCCTGTCAATATTTCATGGAAATGAGGCATTCATTTATGTATGGATTTATCTTTCGGCGTGGATCTTTACAAGAAAGTTAATAAAAGCTCTATCGTGTTTGAAGGATCAAAATATTGAAGGACTGCCAGATTACAAAGATATCAAACAAAATGAATTTTGTTATCGGAAGTAAGATATTTTAACCATTTTCACCATCTCCTTCTTTTCAATATTTTGTATAATTCAATGAATTTTTTCATGAGTTTTATTGTACTTAATAAACATGGTTTTTCTTAAGTGGGACAAAACAGTTGTAGCCATCAACCATATCTAATTTGACAATGAGACAACTCTTTTCTCACTCACCTCAAACGACGAATTTCTTTAGTCTTCATCAACTTTCTTTCAGTTATTCTTGTTTGTGGCTGAATGTCAACTTGCATAAAACAAAAATTAAGTATCTCCTCCAAATTTGAATGCAAAGAGAATTTCTGAACTCTTATTGTAACAAAATAAAGAAAAAGAGAAAATAAAAGAAAAACCTAGTAGCTATCAACCACCTAATTGGTATACTGCGTGTGCAAGGCTAGTTATAAACCTGGAGACGATCACTTCATCGACTATTGGCATTTTGTATCAAGTTCCTTTAGCTGGTTGATTGCCTCACCTTGCAACATCAAAAGCCTTGTCATCTTTTAACTATGGAGCATGAAGCTTGTGGCTGAATTTTATGAGCATTTTTTGATGGTAATGATAGACCTCCCATTATACTACAATATAGCAGAAGAGGCAAAAGAAGCATCGCACCTGTGAGTAGCTTAGCTGTTAATGAGCTGTAGGTTATTAGTTAGGTAAGTCGGTGAGGGGAAAGGTATAAATAGTAGTTTGTTAGGCGGGAAGGGCAGTTATGTTTTGAGATAGAATTGTTTAGACTTGTTCATTCTGAGAGATGGAAGAACAAGGAGTTTCACCCTAGTCAATTGAATTGAGGCATTCTCAATTCAATTATTCTGTAATTCTTACTACTTTAAATCAATAGAATCAGAATTCCTATTCTACAAATTCGGATTCCATCAGGTAACCAAGGCCTTTTATCCGCATCTCATCTAATTTCTAGAGAACTTGTTTGACCATATAAACATCTAGTTAAGAAATTAAAGGTTTAGATATACAAGCACCAAGTGTAAAAAAAAAAAAGAAATGCCAGGCACGGTGTCACTTGTGCCCATATTTTAGAATCACATAACTCTTTTAGCTTGCTTGATTGAGTATCAGGCCAACCAATGGTAGTATAGTTATCCCAAATCGTTTAATATTTGTAGTTGATCCTTTTCTTTTTGCTAATAGGAAATCTTGAAAAAACTTGAACTCCCTTGCCTTGTTTTGAGGTTTGCGTCACTCCTTTTTGGATATTTTGTCATTTTAATGAAAATGTTTTTTGTATTAAAAGAAAGGTTTGATCGAAAAGTATATGAGTTTTGATTTTTTTTCTTCTCCATAGACACAAGAAGCAGAAGGAGGAGGATATTGCAGTCTGCGAATGCAAGTTTGATGCTAACGATAACGATAGTGCTTGTGGGGAGGGGTGCTTGAATGTATTAACCAGCACTGAGTGTACTCCTGGACATTGTCCCTCTGGTGTTCATTGCAGGAACCAGGTAACCATGAAGCTATTGTTTATGTATAAAATCTTTTTTTCTCTCTTTCTTTTCTATATATGTGTATATACAAACTATAAATTTTTTGATAGATATAGTACTTCATATTATAAACTTGTTTCATTTTTAGCTAAATTATATTTAAGTATAATAAAATAGAATCTACAAAAAAATGTTAAATGTATAACATAAAGCATGTCTATAAATTAACTAATATTGGTCGAGATTCAACCTAATATTTAGTTGTAAACTAGAACTATTTTTAACATGTATAAATATATTATTTGATACATTGAACAATTATTTAAATTAGGATCTAGTTTCTAAATATGCTACCAAACACATACAAAAACATGGAAAATAGGAAACACAACTCTATTTTCATCCAATTCTTTGTTTCCCAATTTCAATAACCAAGCATGCTGTTCTATAATTTAATTTTACAATTGGTTGTCATTGAAAACATCTGTTATATCGTTACATTAGAATGGTGACTTGCATCCTTGACTTCTTGAGCTGAACTAAATTACGTTACCAATATGTAACAGAGATTCCAGAAATGTGAATATGCAAAAACAAAGTTGTTCAAAACAGAAGGCCGTGGGTGGGGCCTTTTAGCTGATGAGAACATCAAGGTATTTAATTTTACTTGACAAGGTAGATAGATGTATTTTTTAAATATCTCATTTAGATTGTTGTGTTCTTACATGTCACTTTGGACCATTACTGTTCTTAGGTTATTACCTTTAAGATAAATAACAATATATAGATGATGTGGAAGCAAAATAACAATATATTGATGACGCTGAAGCAATTTCTTGAAAAGAGGAAAACTAAACTTTCACTAAAAATAGAATACTGAAACACTGTTACATATAGACGCGGAAGCAGAATTGAGTTTCCATATGGCATGTCACAGACTATTCTCTATCGCTCGCCAGCTTTCCTCTCCTGAAATATTAAACATAGAAAATGATGAAAATAAACATATACTCAGTAAAGGACTCACTGCTAGTCCCACTAGGTGTATATTAACTTTTTATTAGGGTCCCGTAAGGAAGTATCCCTAAAATGGCGTGTTTTCGAACACATACAATCTAGTGATCTTGTAGGAACATATCTGGTATTCGGTGAACTCAAAGGAACAAACACCTAGGACAAATTGGTCTTTGATGACTCGAATGAACACCTAAGACAATCGGGCTGTAAGTGATCCCATCGGACCACTCATAAACATAACATATCATGACAGGTTGGTGGTCCTGTCGAACCACACAGTCATATAAACGTGGTGATTCCAATGAACACTCATATGGCTACGACCTTAATAGACAAAGTTAACAAAACATTTATCCATAACATGTAGCGTATCATAAACATGGCATAAATATTAATCATAATGTCTTTAATCATGTGATTAATATATCATGCATCATCATCAATGTAAATCAGTTGTCATCATCAACATAAGTCATCAACATTAACACTTTATGCATCTTAGCTACATCAATGCATAATGAAAAAAATTACATGCAAGCTCTTAACTTCAGTTTTAAGGTCTAGTAGGAAAATCTCTTATCTGGAGATTTTACCCAAACAAAATACTTCGACAGTAAAAATTCAGCAATTAATTTGATTCTAATCATAGAAGGAAGTTTCAGTATCTTAATTAATAAAATTAGCAATTGGTTATCATCTAAAATTTTTTCAAAATTAATTAACTTCCAAAAAATAATTTGGGGTCGAAATTAATTCAACCTTTAAAGAAACCCCAATTAGATCCAAAATTAAATTAACAAATTATTAATTTAATTTACTTAGCTTACCAAGTTTACCCAAATAGAGGTTGAAAAAATTATGGAAAATTCAATCATAACTGGAACTGGTGAGAGGCGGTGACAACTAAAAATCAATCCAAATAATAACAATAGTATTTATTTATTATTATTTCATTTTCTTTTAGTGATATATATATATATATATATAATATCCAATATAGGGCTCCCAATCTTGAAAAATCATGTGAAGATCATAATTAGGAAAGAGCATTTAAGGACTCCCGCAAAGAGGCATAAAACCCAACCCCTTGCTTATCCTTATTAGATCTTTCAACTTTTCCAGAAATTATATCATCTCTCAAACAAAATACCCCAAACAATAGCAAGATACTCACTTGCCACAACACATGTGGGCACACGAAAGGGCGAACACAAGAAAACTTTCTTATCTTCATAGAGAAGCAAAGCCAGCTGCACACCAAAAGTCCTTGACCATCCAAACTATTTAAGATCATGTTGTAGCTTTATTGGTTTTTGGGTATCCAACTCACTTTTTTTTCTTCCTAGTTTTCTTATATTAGTGAAAAATTAATTTGGTTCTGAAACAGGATGCAGTTGGTGATTTAAAATTTTTAAATAGTAAATATCTCTCCCTTGTGGCATTATATTCTTTGAGCAGTATCCTCTTTTCATTTATTCAATAAAAAGTTTTCTTTCTTGTTAAAAATAAAAGAGTAACCAACTTTAAATGCAGCTTTCGCACCAACTAGATTTTAGTATCAATATTATGGGATCTTTGAAGTCCTATTATTTATATTTACTGTATTTATTAAGATTGCTTCTGCATAGGTATTCTTGTGCCAACAACAAGGGACTTAAATGAGGGGCCTTCAATTGTAAATTTATCTTCACTAACTAAATCGAACCTTCTTCTCTAAAGATTGCTTTTCATTTTTTTTGTTTCTTGGGGACAATGTAGAACGGACAATTTATTATTGAATATTGTGGGGAAGTTATTTCTTGGAAGGAAGCAAAACGGAGATCTCACACTTATGAAAATCAGGGTAACATATCAATTTTATCAAAGTTGTATCTGTAATGATATATAGTATAAATAAATTTAGATCGTCATTTTCTATACCTTTATGGTAGGGCTCAAAGATGCTTACATCATCTCGCTCAATGCCTCTGAATCAATTGATGCCACTAGAAAGGGAAGTCTTGCTAGATTTATCAATCATTCTTGGTAAGTTTATGCTGAATATTGCCATATATTTATATGGTATGTATACCAGGGGAAGGGAAAGAAAGTATGACAGTAAACATACCTACCTTTTATTTGTTCGTTGTTGCCGTCAATTATTTTTTTGTAAGCTTGCAGCTTCCCAAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTTCCATAGGGACTGAGTTGGCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTTTGTGGTGCGAGCAGCTGTTCAGGATTCCTTGGTGCCAAGTCTCGTGGCTTCCTGGTAATTTTTTATTTATGAAGTAGTTTTACTTTTAATATAAGGAACACAAGATGATATATGACCAGGGTTCCTGGTGAGGGGGTAAACGTAAATTCATCACAAAATGGAAACTGCAAGTTATTATTATTATTTGTTTTGTATTTGCTGAAAGTACATCGATCTTGTTTTCCCTGTCAGGAGGACACCTATTTGTGGGAAGATGACGATGATAGGTAAAACCTCTTCTATGCCTCTGGCCTTCAGCATATCTACCCCCTACCAGTTTTTAAAGCTTGCCTTTTCCTAAATGGTCAATGTTAGAGAATAGGTTTGGGTACTAACAGACTGTCGGCCAAGTGAGAAAACTTCACATTCTGTAGCCAGATTGTAGTTAGGTTATGTACAAAGGAAAATAATAAGAAAAGGGTCCCAATTATATCCATTGATTAATTGTGTGGATGGTCAAATGCTAAGAAGCACACACTCCAATGCTTGTCGACATTAGTTTTACAAAGTTGAAATAGGACCAATCTTTGTTAGACATGCGTCAAACATTTGTTACATATACTAAAATAGGCACATATATGACAAAAATAATAAAAGAAGAGCAAAATACATCAAACTAATTTTTTGATCATATAAATATATTAACTCACTGACTTTGAATTTTCTTCTGATTAGATATGATAGATATTTTAGAAAATGTATGTTTTATTGAATGTGTCCTGGTCGTTTCCTCCATGTCTTGGATTTCAATGAAATAGTGTATCATTGTCTCTGTGTCATGCCATATCTATGTATCATATCCGTATTTGTGCTTCTTATGAAGGTGTCCGGGAAAGCGATTATGATTTTTGAGACAATACCCCAAAGTCTCTGGTCTTTATGTATACATAGAATTGAAATTTGGATGTTAACCTGATTATATTTACTAAGAGTTGGGAAACATGAAATGCTTAATAGCTCGTGTAGGTGGGTAACGACTGAAATGATCTTGAACTCCTGACCAGACTGCAGATCAGAAGCATTTTATTACTATGCCAACCTATGTATATTGTTAAGTCCCAATCAGTCAACACCATTTCGGCTATCTATATGGATTTATTTCTTTATTTTAGTTGTTACAAGCTCCTCTTGCTTCTGTTCTCATGAACCAACAGTTAACCGTTCTGCTCGGTTTTAGGTATTCTGTTGAGAAAATTCCACTTTACGACTCTGCAGAGGATGAGCCTTCCGTTATGCTCCACACAGCATTGAATAACACATATTCTGAGTTTGAAGGTTACCTGAAAAATGAGGACCCAATAATCGTGGACGACGATTTGGGAGCTGAACAGCAGCTGGGATCCACTGCATTTATTGATACCTCAAAGGATATAGTTCAATTGCAAAATATAGTTGTAGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGATCATCCACAAAATACGCAGCAGAACTTTTCTCATCAAAATGCAATGATATCTCGTATTCGAAGTAATACTGCTTGCCATAACTATCGCATTGGACCTAGACCCGTGGCCAAGAAACGATCAAGAAACTTATCTAATGGAAGGACAAAAAACTTTTCTCTGAAGCAAGTAGATGCAAAATATGTCGCTCAACTGTTAGAGATGAAAGAAGCACAGGACGAAGTCTTGCAGTATGAGGTAATAAATGCGTTTTACCTGTCTTTGTTGGCACAATCCTTTCTTTTCACATCTTAGGGCATGTTTAAGAGTGGTTTTGGAATGGTCAAAATCTCATTTGTCGTGTTTAAAACTACTTTGAAACACATTTAATTACTTAAAATCAATTCAACGTTTAATGGTGCAATTTTAAATGTTTTCATATTATTAAAGTTTATTTAAAAATATTAAGTACATGTTTGGGGATGATACTGAAACCATTAAAGTCATTTTCTTCAGATTCAAAATTACCAGGAAGTATGTATTTTGTCACTCAAAATTACTTTCATTTTTAATTTTCATTTATGCAATTTTCCTATCATCTAAATTGGTTTTAAATAATTGGAACCCTGTTTCATAGAAATTTTAAAAATGAATAATGTGATTTTAACTATTTCAGATTTATTCTCAAATGTCGAATGATTTTGAAAATGAAAAAAAAGAAAAAAAGATTTTAATCATCACTCCCACACATGAGTAAAAGAAAACAATTCTCTACGCTTCAAAACCATAGCTTTGCTGATACATCGAAGTCTTGTCGTGCAGGAAACAAAGAAAAAAGTGACTGCCGAACTTGATTCGTTGTACAATGAAATACGACCTGCCATTGAAGAATATGAAAGAGATAGCCAAGACAGTGTAGCTACAAGTGTGGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTTAAGGCAGAATTTGATCTTTATTCTTCTATAGTAAGAAATGTTGCTTGCACACCTTTAAGGTCATGTGTCTCTACTGAACCTCAAGCTCTCGAAGCAGACGTCGACAACGACCTGAAATTGTTAACTAATTAGACTGCTCATCTCTGATAATATGGAACTGAATTAGTTACTTTAGTAAACCATTTTCCGTCATATATTAGCTGATGATTGAGGGACACGAATTCTCGTCGGAGCCAGCCTACAAGGAATGCGGAGCAATTCTTGTTGAAGCGTTTTCAGGTTAGAGGTAATCAAAGCCTTCAATTATGAGCTTATTTCTCATTCTATTCTTTAAGGATTTTTGTTTGCTGCTTGCTACCTATTGCTGCACTCGTTTGAAATGACCACTTAATCTGATCTACTTTATGGTCAAAATACCATTTTTGTCCATTAGCCTTGGTTTCACATGTCCAATTTTCGTCATAAAATTAGGTCATCCTTCATATCGTCCTTCTATTAGCATTGCCTTAGAAAATGTATTCATATTAGGTTTTTATTGTATGATTTGCTCTCTCTTTTTTGACAAAGTATGATATTTATTATTGTTTAACCGATTTTGATAAAAATTAATTTAAGGTTTATTGAAAGTACCGTGACTTAATTTTAGATTTGTTGAAAGTATATAGACTAATTTAGACATGTTTGGGAGAGATTTTACAAAATCAATTGTCAGGTTCATACGTACTCTGAAACATGATTTTAGTAATTCAAAATCAATTTTTAAAATCACATTTATTAGACCCTACCCAGATTTTGTGTAAATTAAAGCATATTTTAGGGTGCTTTTGAATATGATAAAAATGATTTTAATCACTCCAAATTTCTTTTCAAACATGTACTTAGAGAG TAGAAACTATATAAAAACTTATATCGTCTAGTTCATTTACGCGCGCAGGAAACCCTATCGCGTCGAATCAGCAAGATGAAGAACGTGGTCTTGGCAGAACCTAGATGACTCCAGATTTAAGATACCTCCATGGATCAAAATATTGAAGGACTGCCAGATTACAAAGATATCAAACAAAATGAATTTTGTTATCGGAAACACAAGAAGCAGAAGGAGGAGGATATTGCAGTCTGCGAATGCAAGTTTGATGCTAACGATAACGATAGTGCTTGTGGGGAGGGGTGCTTGAATGTATTAACCAGCACTGAGTGTACTCCTGGACATTGTCCCTCTGGTGTTCATTGCAGGAACCAGAGATTCCAGAAATGTGAATATGCAAAAACAAAGTTGTTCAAAACAGAAGGCCGTGGGTGGGGCCTTTTAGCTGATGAGAACATCAAGAACGGACAATTTATTATTGAATATTGTGGGGAAGTTATTTCTTGGAAGGAAGCAAAACGGAGATCTCACACTTATGAAAATCAGGGGCTCAAAGATGCTTACATCATCTCGCTCAATGCCTCTGAATCAATTGATGCCACTAGAAAGGGAAGTCTTGCTAGATTTATCAATCATTCTTGCTTCCCAAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTTCCATAGGGACTGAGTTGGCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTTTGTGGTGCGAGCAGCTGTTCAGGATTCCTTGGTGCCAAGTCTCGTGGCTTCCTGGAGGACACCTATTTGTGGGAAGATGACGATGATAGGTATTCTGTTGAGAAAATTCCACTTTACGACTCTGCAGAGGATGAGCCTTCCGTTATGCTCCACACAGCATTGAATAACACATATTCTGAGTTTGAAGGTTACCTGAAAAATGAGGACCCAATAATCGTGGACGACGATTTGGGAGCTGAACAGCAGCTGGGATCCACTGCATTTATTGATACCTCAAAGGATATAGTTCAATTGCAAAATATAGTTGTAGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGATCATCCACAAAATACGCAGCAGAACTTTTCTCATCAAAATGCAATGATATCTCGTATTCGAAGTAATACTGCTTGCCATAACTATCGCATTGGACCTAGACCCGTGGCCAAGAAACGATCAAGAAACTTATCTAATGGAAGGACAAAAAACTTTTCTCTGAAGCAAGTAGATGCAAAATATGTCGCTCAACTGTTAGAGATGAAAGAAGCACAGGACGAAGTCTTGCAGTATGAGGAAACAAAGAAAAAAGTGACTGCCGAACTTGATTCGTTGTACAATGAAATACGACCTGCCATTGAAGAATATGAAAGAGATAGCCAAGACAGTGTAGCTACAAGTGTGGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTTAAGGCAGAATTTGATCTTTATTCTTCTATAGTAAGAAATGTTGCTTGCACACCTTTAAGGTCATGTGTCTCTACTGAACCTCAAGCTCTCGAAGCAGACGTCGACAACGACCTGAAATTGTTAACTAATTAGACTGCTCATCTCTGATAATATGGAACTGAATTAGTTACTTTAGTAAACCATTTTCCGTCATATATTAGCTGATGATTGAGGGACACGAATTCTCGTCGGAGCCAGCCTACAAGGAATGCGGAGCAATTCTTGTTGAAGCGTTTTCAGGTTAGAGGTAATCAAAGCCTTCAATTATGAGCTTATTTCTCATTCTATTCTTTAAGGATTTTTGTTTGCTGCTTGCTACCTATTGCTGCACTCGTTTGAAATGACCACTTAATCTGATCTACTTTATGGTCAAAATACCATTTTTGTCCATTAGCCTTGGTTTCACATGTCCAATTTTCGTCATAAAATTAGGTCATCCTTCATATCGTCCTTCTATTAGCATTGCCTTAGAAAATGTATTCATATTAGGTTTTTATTGTATGATTTGCTCTCTCTTTTTTGACAAAGTATGATATTTATTATTGTTTAACCGATTTTGATAAAAATTAATTTAAGGTTTATTGAAAGTACCGTGACTTAATTTTAGATTTGTTGAAAGTATATAGACTAATTTAGACATGTTTGGGAGAGATTTTACAAAATCAATTGTCAGGTTCATACGTACTCTGAAACATGATTTTAGTAATTCAAAATCAATTTTTAAAATCACATTTATTAGACCCTACCCAGATTTTGTGTAAATTAAAGCATATTTTAGGGTGCTTTTGAATATGATAAAAATGATTTTAATCACTCCAAATTTCTTTTCAAACATGTACTTAGAGAG ATGGATCAAAATATTGAAGGACTGCCAGATTACAAAGATATCAAACAAAATGAATTTTGTTATCGGAAACACAAGAAGCAGAAGGAGGAGGATATTGCAGTCTGCGAATGCAAGTTTGATGCTAACGATAACGATAGTGCTTGTGGGGAGGGGTGCTTGAATGTATTAACCAGCACTGAGTGTACTCCTGGACATTGTCCCTCTGGTGTTCATTGCAGGAACCAGAGATTCCAGAAATGTGAATATGCAAAAACAAAGTTGTTCAAAACAGAAGGCCGTGGGTGGGGCCTTTTAGCTGATGAGAACATCAAGAACGGACAATTTATTATTGAATATTGTGGGGAAGTTATTTCTTGGAAGGAAGCAAAACGGAGATCTCACACTTATGAAAATCAGGGGCTCAAAGATGCTTACATCATCTCGCTCAATGCCTCTGAATCAATTGATGCCACTAGAAAGGGAAGTCTTGCTAGATTTATCAATCATTCTTGCTTCCCAAACTGTGAGACAAGGAAGTGGAATGTGTTGGGTGAAATAAGGGTTGGAATATTTGCAAAGCAAGACATTTCCATAGGGACTGAGTTGGCATATGATTATAATTTCGAATGGTATGGAGGTGCCAAGGTTCGCTGCCTTTGTGGTGCGAGCAGCTGTTCAGGATTCCTTGGTGCCAAGTCTCGTGGCTTCCTGGAGGACACCTATTTGTGGGAAGATGACGATGATAGGTATTCTGTTGAGAAAATTCCACTTTACGACTCTGCAGAGGATGAGCCTTCCGTTATGCTCCACACAGCATTGAATAACACATATTCTGAGTTTGAAGGTTACCTGAAAAATGAGGACCCAATAATCGTGGACGACGATTTGGGAGCTGAACAGCAGCTGGGATCCACTGCATTTATTGATACCTCAAAGGATATAGTTCAATTGCAAAATATAGTTGTAGGAGAAATTAAAAATGAAGCAAAAGAGGAGCCAGAAGATCATCCACAAAATACGCAGCAGAACTTTTCTCATCAAAATGCAATGATATCTCGTATTCGAAGTAATACTGCTTGCCATAACTATCGCATTGGACCTAGACCCGTGGCCAAGAAACGATCAAGAAACTTATCTAATGGAAGGACAAAAAACTTTTCTCTGAAGCAAGTAGATGCAAAATATGTCGCTCAACTGTTAGAGATGAAAGAAGCACAGGACGAAGTCTTGCAGTATGAGGAAACAAAGAAAAAAGTGACTGCCGAACTTGATTCGTTGTACAATGAAATACGACCTGCCATTGAAGAATATGAAAGAGATAGCCAAGACAGTGTAGCTACAAGTGTGGCGGAAAAGTGGATAGAAGCAAGCTGTTTGAAACTTAAGGCAGAATTTGATCTTTATTCTTCTATAGTAAGAAATGTTGCTTGCACACCTTTAAGGTCATGTGTCTCTACTGAACCTCAAGCTCTCGAAGCAGACGTCGACAACGACCTGAAATTGTTAACTAATTAG MDQNIEGLPDYKDIKQNEFCYRKHKKQKEEDIAVCECKFDANDNDSACGEGCLNVLTSTECTPGHCPSGVHCRNQRFQKCEYAKTKLFKTEGRGWGLLADENIKNGQFIIEYCGEVISWKEAKRRSHTYENQGLKDAYIISLNASESIDATRKGSLARFINHSCFPNCETRKWNVLGEIRVGIFAKQDISIGTELAYDYNFEWYGGAKVRCLCGASSCSGFLGAKSRGFLEDTYLWEDDDDRYSVEKIPLYDSAEDEPSVMLHTALNNTYSEFEGYLKNEDPIIVDDDLGAEQQLGSTAFIDTSKDIVQLQNIVVGEIKNEAKEEPEDHPQNTQQNFSHQNAMISRIRSNTACHNYRIGPRPVAKKRSRNLSNGRTKNFSLKQVDAKYVAQLLEMKEAQDEVLQYEETKKKVTAELDSLYNEIRPAIEEYERDSQDSVATSVAEKWIEASCLKLKAEFDLYSSIVRNVACTPLRSCVSTEPQALEADVDNDLKLLTN Homology
BLAST of Pay0014815 vs. ExPASy Swiss-Prot
Match: Q84WW6 (Histone-lysine N-methyltransferase ASHH1 OS=Arabidopsis thaliana OX=3702 GN=ASHH1 PE=1 SV=1) HSP 1 Score: 604.0 bits (1556), Expect = 1.5e-171 Identity = 313/499 (62.73%), Postives = 373/499 (74.75%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy Swiss-Prot
Match: Q2LAE1 (Histone-lysine N-methyltransferase ASHH2 OS=Arabidopsis thaliana OX=3702 GN=ASHH2 PE=1 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 1.1e-52 Identity = 104/234 (44.44%), Postives = 143/234 (61.11%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy Swiss-Prot
Match: Q9BYW2 (Histone-lysine N-methyltransferase SETD2 OS=Homo sapiens OX=9606 GN=SETD2 PE=1 SV=3) HSP 1 Score: 193.4 bits (490), Expect = 6.3e-48 Identity = 94/227 (41.41%), Postives = 140/227 (61.67%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy Swiss-Prot
Match: E9Q5F9 (Histone-lysine N-methyltransferase SETD2 OS=Mus musculus OX=10090 GN=Setd2 PE=1 SV=1) HSP 1 Score: 193.4 bits (490), Expect = 6.3e-48 Identity = 94/227 (41.41%), Postives = 140/227 (61.67%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy Swiss-Prot
Match: O14026 (Histone-lysine N-methyltransferase, H3 lysine-36 specific OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=set2 PE=1 SV=1) HSP 1 Score: 190.3 bits (482), Expect = 5.3e-47 Identity = 93/225 (41.33%), Postives = 137/225 (60.89%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy TrEMBL
Match: A0A1S3B348 (histone-lysine N-methyltransferase ASHH1 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103485603 PE=4 SV=1) HSP 1 Score: 1011.5 bits (2614), Expect = 1.2e-291 Identity = 497/497 (100.00%), Postives = 497/497 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy TrEMBL
Match: A0A1S3B3K3 (histone-lysine N-methyltransferase ASHH1 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103485603 PE=4 SV=1) HSP 1 Score: 963.4 bits (2489), Expect = 3.7e-277 Identity = 474/475 (99.79%), Postives = 475/475 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy TrEMBL
Match: A0A1S4DTW1 (histone-lysine N-methyltransferase ASHH1 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103485603 PE=4 SV=1) HSP 1 Score: 963.4 bits (2489), Expect = 3.7e-277 Identity = 474/475 (99.79%), Postives = 475/475 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy TrEMBL
Match: A0A1S4DTW9 (histone-lysine N-methyltransferase ASHH1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103485603 PE=4 SV=1) HSP 1 Score: 962.6 bits (2487), Expect = 6.3e-277 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. ExPASy TrEMBL
Match: A0A5A7UND3 (Histone-lysine N-methyltransferase ASHH1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold43052G001250 PE=4 SV=1) HSP 1 Score: 962.6 bits (2487), Expect = 6.3e-277 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. NCBI nr
Match: XP_008441496.1 (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X3 [Cucumis melo] >XP_008441498.1 PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X3 [Cucumis melo] >XP_016899438.1 PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X3 [Cucumis melo]) HSP 1 Score: 1011.5 bits (2614), Expect = 2.5e-291 Identity = 497/497 (100.00%), Postives = 497/497 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. NCBI nr
Match: XP_008441499.1 (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X4 [Cucumis melo]) HSP 1 Score: 963.4 bits (2489), Expect = 7.7e-277 Identity = 474/475 (99.79%), Postives = 475/475 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. NCBI nr
Match: XP_016899437.1 (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X2 [Cucumis melo]) HSP 1 Score: 963.4 bits (2489), Expect = 7.7e-277 Identity = 474/475 (99.79%), Postives = 475/475 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. NCBI nr
Match: XP_008441493.1 (PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X1 [Cucumis melo] >XP_016899436.1 PREDICTED: histone-lysine N-methyltransferase ASHH1 isoform X1 [Cucumis melo] >KAA0054979.1 histone-lysine N-methyltransferase ASHH1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 962.6 bits (2487), Expect = 1.3e-276 Identity = 474/474 (100.00%), Postives = 474/474 (100.00%), Query Frame = 0
BLAST of Pay0014815 vs. NCBI nr
Match: XP_011656629.1 (histone-lysine N-methyltransferase ASHH1 [Cucumis sativus] >XP_031743528.1 histone-lysine N-methyltransferase ASHH1 [Cucumis sativus] >XP_031743529.1 histone-lysine N-methyltransferase ASHH1 [Cucumis sativus] >KGN46121.1 hypothetical protein Csa_005617 [Cucumis sativus]) HSP 1 Score: 959.9 bits (2480), Expect = 8.5e-276 Identity = 477/498 (95.78%), Postives = 484/498 (97.19%), Query Frame = 0
BLAST of Pay0014815 vs. TAIR 10
Match: AT1G76710.1 (SET domain group 26 ) HSP 1 Score: 604.0 bits (1556), Expect = 1.1e-172 Identity = 313/499 (62.73%), Postives = 373/499 (74.75%), Query Frame = 0
BLAST of Pay0014815 vs. TAIR 10
Match: AT1G76710.2 (SET domain group 26 ) HSP 1 Score: 604.0 bits (1556), Expect = 1.1e-172 Identity = 313/499 (62.73%), Postives = 373/499 (74.75%), Query Frame = 0
BLAST of Pay0014815 vs. TAIR 10
Match: AT1G77300.1 (histone methyltransferases(H3-K4 specific);histone methyltransferases(H3-K36 specific) ) HSP 1 Score: 209.1 bits (531), Expect = 7.9e-54 Identity = 104/234 (44.44%), Postives = 143/234 (61.11%), Query Frame = 0
BLAST of Pay0014815 vs. TAIR 10
Match: AT1G77300.2 (histone methyltransferases(H3-K4 specific);histone methyltransferases(H3-K36 specific) ) HSP 1 Score: 209.1 bits (531), Expect = 7.9e-54 Identity = 104/234 (44.44%), Postives = 143/234 (61.11%), Query Frame = 0
BLAST of Pay0014815 vs. TAIR 10
Match: AT4G30860.1 (SET domain group 4 ) HSP 1 Score: 158.7 bits (400), Expect = 1.2e-38 Identity = 83/222 (37.39%), Postives = 121/222 (54.50%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Payzawat) v1
Date Performed: 2021-10-25
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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