MELO.jh010184.1 (gene) Melon (Harukei-3) v1.41

Overview
NameMELO.jh010184.1
Typegene
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
DescriptionGCV_T domain-containing protein
Locationchr05: 3233330 .. 3255174 (-)
RNA-Seq ExpressionMELO.jh010184.1
SyntenyMELO.jh010184.1
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonpolypeptideCDSstart_codonstop_codon
Hold the cursor over a type above to highlight its positions in the sequence below.
ACAATGTCGGCTTCTTACTGCGGCTATGGATTCTTCGTCTCAGATTCTACAGTTCCCTCTACTAGCAGAGCTTTCATCTCTAACTCATGCCATTGGGACCTTTCCATCTCTTCTTTTTCCCACCCCCATCGCCTTCAACTCCCTCCATTTCGACCTCCAAACATTAAGAAACCGCATAGCAATGCGAACAGAAAAAGTACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCCCCTCCAATCGATGAGGACCTCCTTGTAAGTCTTTTTCCTCTATTTAGTCCAATTTGTTGTTTTACTACCCAAGTTTATTGCTGAAATTCTTTATGCTGATTTGATTCTGGGGTTACGAAGTGAACTGAGATGTATTTTTAATTCATGAATTGAAGACACATGCATTCATTTACGAAAGAGGGAACAAAGGACATAAAGTGTGTTGGTAGGCTTGATTTAAGAGAAATGATTTTTTTATTCTTGTTTGGTGAGAACTTGCATTGTATTACTATTGGAGATTGAGAACGGTCTCTCATTTCCCTTTTTTCAAGACTGTATCATTAGCATTGCTGAATACTAACTGTTGTATCACACGCTAAGTTCTAAACAATTTGGATATCTACAACGGGCAGGAGGCTGCGGCCGTTGAAGGTGCACGGATTTCTGATGATGGGATCATTGAAACTTTTCATAACGATGAACAGGCGCTGGATGCAGCCAATAATGGGGTTGCTGTATGTAGTCTTTCAACATCTTTCTTATTGATGTCTTTTTTCTTTTTGCTTTGCTTAGTTTGGAAACTGGTGATATCTTCCTTTTGAAAGAAAACACTATTTGCATCTCTAAGTGTGTGTGCTGTAGAAGTCTAGATGGTAAGAATTTTGATAAGTTGATCATCTGGAAGCTCACCCATGTGACACCCTCCTAGAAAAGATTGCATGGGGCATCGTAGTTGGCCTTGGGCTGTTTGTGATAAAAAGCATGCTTTTGATAAGCTTTTCGATTCTATTATTATCTTTTTACCTCACGGAACTTATTTATTTATACTTTGTATGAGATAAAAAAAAATAGGAAGTTACAACTTACAAAAGAGAGGGGAAGATAAACTCATCCAATGAAATCCCAAAAAACTTCAATGGGCTATAAAGGAAGATGATCCGCAGTTACAAAATAAAGCGACAATTTTCACCAAATCAAAGCCAAATAAGCAAAGGAATTCAAAAAAATTCAGTGAAATAGTTCTCCTTGTCTTCGAAATTTCTGAAATTCCTTCCGGACCGTACAGATCAGAAAGAAGCCCTGGAGTTGATCGATGGGGACTTCTTTTGCATCGAGGAGGCTGAGGGAAAGTAGAATTTTGTTTCTTTTGGAATTTTTTTTTCAAAGCAGCCATGCTCATGGTGTAAATTGTCTCCACTTTTTCGTTTTTATATAGCTCGTAGATATTCTATACTCGTGTCTGTTAGGCCTCAAATTATTCATCAATACGTGAAGAAGGGCAAGAAGGGGAAATCACCCGAGATTACAGTGGGTTGAGATTTGGGGTATGTGTTTTCAGTTATGGAGTTGGGGTCCACTGAAAGAAGGTTTAAGAAGGGTTTTGGAATAAGAAGAAAGGGGTGGATATTTTATGGTTAAATCACCAATAAGAGGAGAGGGGCGCTCTAGAACACGCCATTACTGGTTCTTCATTTCTTTGTGCACTTTACTTTCTGTTTTGATATCATGGCTTGTTTAGTTGCATTGTAATGGTTGAAGACTTTCGTTAAATTCCAATATAATTTAGTATCAGGAAGTTGTTCCTCTGTTTTTGAGCTATCTTGCTTGTTGGGACCTAACAATGTCCTATTAGAGAAGTTTCTTGTTCTGTTACTCACTTAGCTTGGGGTTTTTCTACCCTATTTTTTAATTTCATAGATCAATAAAATTGTTCCTTGACTAGAAAAAGAAAAGATATATATTGCAAATGAGTTGATGTTTTCATATTTTGTTGTTAATTGTTAGGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGGTAATTTTCTTCTTTCTGTCTACTTGTCTCTTTTCATGTTCTATTACTTTTGAGTCCACTCTTAATAGAATGCTTGTAAAAGTTTTCCCACCCTTCTTTAAAGCATTCCGCATATAATAATTGAGATTCATGGCTGCTTCATGGTGTATTTCTAGGCCTCCAATATTGCTGAAATACTCATGCAGGGTTTAAAAGTGGAACTCGGCGTGAAAGTTAGTTAGTTAGTTAGCATTGGGTGGATCACAAAGAGAACGCGTGGGAGTGAGTGTGGTCAATATATATAATAACATGTTGTGTGTTGGGAAATTTACCGTTTTCTTCGTGTAGAAAAGTAGTTGTGAGAGTGTGACACACGCAAGTATACTCATCGTGTTTAGAATGTTCAGTATACTAAAACGGTCAAGAGAAAAAACTCAATCGGCATCCTTGACGTTGGTTTGGTTGAGAGAAAATGTGGGGGAAGATAGTGGCCTTCCTCCTCATTGCTTTTCTCATCTTCTTTCCTTTTTCTGAATCCTTCTGATAATGGCATCGAACGCCCTTGCTGGCATTCAATCTAAGAAAAACTTAGCTGTATCTGAGCAAGTTTTCTGAGAGTGCTCGGATGACAAGGTTTGTTCGGAAGCCAGTAGAGATGAAGAACTGGAATGCCCTTTCGGTACTTTGTGCAGGGAATTTTCCTGTCAGCAAGGAACCTCCTCATTGTCCAATTTTGCTTGACTTTGAGCTTAGCAAGAAGTTAGCAACCACCATGGAACAACCACTGGCAAAGACGTTTTTAGCCGCTGCAGAGGTTTGGATGACATTATTGTTTTCTTCACATTTATCTTCTACCGTTTGATCTCTCTCAAGCAAAATTGTGCAAATGGTGATCGCTAATTAAGAACAATCCACAAACAAAAGTGAAATCTTTTCACATTATTGGCCGACTAAGGGGTAATTTTCTTCTTTCTGTCTACTTGTCTCTTTTCATGTTCTATTACTTTTGAGTCCACTCTTAATAGAATGCTTATAAAAGTTTTCCCACCCTTCTTTAAAGCATTCCACGTATAATAATTGAGATTCATGGCTGCTTCATGGTGTATTTCTAGGCCTCCAATATTGCTGAAATACTCATGCAGGGTTTAAAAGTGGAACTCGGCGTGAAAGTTAGTTAGTTAGTTAGCATTGGGTGGATCACAAAGAGAACGCGTGGGAGTGAGTGTGGTCAATATATATAATAACATGTTGTGTGTTGGGAAATTTACCGTTTTTTGTGAGAGTGTGACACACGCAAGTATACTCATCGTGTTAAGAATGTTCAGTATACTAAAACGGTTAAGAGAAAAAACTCAATCGGCATCCTTGACATTGGTTTGGTTGAGAGAAAGTGATGGGGGAAGATAATGGCCTTCCTCCTCATTGCTTTTCTCATCTTCTTTTCTTTTTCTGAATCCTTCTGATATTCATCCAAAGGCATCGAACACCCTTGCTGGCATTCAATCTAAGAAAAACTTAGTTGTATCTGAGCAAGTTTTCTGGGAGTGCTCGGATGACAAGGTTTGTTCGGAAGCCAGTAGAGATGAAGAACTGGAATGCCCTTTCGGTACTTTGTGCAGGCAATTTTCTTGTCAGCAAGGAACCTCCTCATTGTCCAATTTTGCTTGACTTTGAGCTTACCAAGAAGTTAGCAACCGCCATGGAACAACCACTGGCAAAGACGTTTTTAGCCGTTGCAGAGGTTTGGATGACATTATTGTTTTCTTCACATTTATCTTCTAACGTTTGATCTCTCTCAAGCAAAATTGTGCAAATGGTGATCGCTAATTAAGAACAATCCACAAACAAAAGTGAAATCTATCTAAACCCTAGAACTACTAACAAATCAAGCACTCATTTTCAATAAAATCGTATTGAACATGTATAGTTTATGTAAAGAGAATAAATAGAGCAAGAGAAAATTATCTGTTGATCACGATTCGTCCTGGGCACCGTCCACGTTGTTCTCTCGATCTTTACGTTCAGCTATGAAAAATCCTCTGAATAGCAGCCTCTCAACCTCTGTGGAATGCCCTAGGTGAACTCAAATCGATATTTCTTTCAAATGACAGCAAAACAATGATTTAATAGGGTAAATGAACCGCAATCACGACACCATTAAAAAATAACGCGCGTGAGCATCCTGTAGCGCTTCATGCCTCTGTGCTGCACTCTTACGATTCTGGCAGATCTTTTCTGCTCTTTTTGACCCCTTTACATCTTTTTCTTACCCTCAAGCTCACTTGAATTTGTTTACAAGCATGAACTTATGGCTATAATTTTGGCTATGCAACACTGGAGTTTGTATTTGGTGTGGATCAAGTTGTAACTTTTTTATCAAAGAACTCTCTGCCTCTAATTGCTGAGAGAGTGTGTATTTATTGATGAATTTTAGGTAGTTACTATGGGTAGTTACAAGTAGTTAGAGAGCTGGATAACTAATCAGCTACATATGATTAGTTGGCTTTTTTTAACAGTCTTTTAACAACTTATCAATAGACTGTTTAATAGCTATTCTAATTACATTATTTACATCATTCCACCCCCTTAGAATGGACTTGCCCTGAAGTTCATTAGTGTGCAAGCTTGAACTCGTCCATAGTAAGGCTTTATATCGACAACGTTGAACACTGGGTGTATGTTCATATCTGGTGGGAGTTCCACTTTGAAAGCTTTTCCTCATATTTTTCTAGGATTCGTACTAGGCCATCTGTCTATCTTTTCAATTTGCTATAAGTATCGGATGGGAATCTACTCTTCTTTAGGTGCACCATTACTAGGTCTCCCTTAGCAAATTTAGCTTGCCTTCTTTTCATATCGGCTGTCTTTTTGTAAGAATTTGTCGTTTTATGAGGTGATCGTGGACTTCCTTGTGTAGTTGTTCAAGTTTCTCTACCATGCTTTCAGCTTCTTGACTAATATCCACTGTTGTAGGGAGGGAAGCAAGGTCAAAGGTCAACCTTGGCTGTTTAGTATAGACTATTTCAAAGGGGCATTTACTTGTCGACCGATTCCTCATGTTATTAAATGCGAACTTTGCTTGTGTTAGTGATGAATCCCATTGCTTAGGCTTAGATCCATCGAGGCATCGTATGAGATTTCCTAATGTTCTGTTTGTCACCTCTGTTTGGCCGTCTGTTTAAGGATGAGCTGTGGTGCTATATTTGAGTGTGGTATCAAACTTCCTCCATAGAGTTCTCCAGAAATGACTTAGAAATTTTACATCTCTGTCAGAGACGATTGTCTTAGGTATCCCATGTAGTCGTACTATCTCTTTAAAGAAGATATTAGCGATATATATAGCATCGTTTGTCTTTTTACAAGCAACAAAATGGGTCATTTTACTGAACCGGTCTACTACGACCATCACAGAGTCATAGTTTCTTTGAGTCTTAGGGAGGCCAAGCACAAAATCAATGGAAAGATCTTCCCATATGGTTTTTGGGATAGGTAATGGGCAGTATAGGCCGGCATTAGTGCTTGATCCTTTTGCCTTTTGACAGATGGAGCATCTTCTGACAAAATTATTGGAATTCCTTCTTAGCTGTGGCCAGTAGTATCTTTTAGACACTAAATCAAACGTTTTATCCTGGTCAAAGTGGTCAGATAAGCCTCCTGAGTGAGCTTCTTTAAGTAGTGCTTCTTGTAGGGAGGTGTGTAAAGAGAAAGCCCTCTACGATATGGTAATCATCAGCCTTTAAATAATTTTTGCATTTGTACCACGTTTCTGCAAAATCAACGTCTTCTTTATAAAGATCAGGGAGATGTTTAAAGGCTATAATTTCTTAAGATAGTAGTGTAAGGAGGGAACTCTTTCTACTAAGGGCGTCAGCCACTTTGTTTTCCTGTCCGGCCTGATGTTTGATAACAAAATCAAATCTCTGTAAGAAGGAGATCCATCGAGCGTGCATCTTGCTGATGCTCTTTTGTGAGTGAAGATATTTTAGTGAAAAGTGATCGGTTAGGAGGATAAATTCTCTAGACAGTAGATAATGCTCCCACTATTTTAATGCTCAGATAAAAGCATACAATTCCTGCTCGTATGTGTTCCATGACTGTCTAGATGTGCTGAGCTTTTCACTAAAAAATTCAACTGGGTGCCCTTTTTGAGAGAGAACAACTCCAATTCCCATGCCACATGCATCGACTGCAACTTCAAAAGGTGAATTGAAGTCTGGAAGTTGTAATATAGGGCTAGAAGTCAATTTCTTCTTGATGTTATTGAAGCTTTCTTGCTGCTGTGTATTCCACTTAAAGTTCCCCTTCTTTAAGCAATCGATAAGTGGAGCAACAATAGAACTGAAATTTCTTATAAACTTCCTGTAAAAAGAAACTAATCCAAGAAAGGCTTGGATTTCTTTGATAGAAGCTGGGATTGGCCAAGTTCGAATTGCTTCAGTTTTCTTAGGTTCCATACTGATTCGATGATGAACCCAAAAAAAGAAATTTCTTCCTTTAGAAAGACGCATTTCTTCTGGTTAATATATAATTCTGTTTCAGTCAACACTTGAAACAGTTTCTGAGATACAGCGTATGTTCATCCTTTCCATTGTTGTAAACAAGTATATCATCGAAGTAGACTACTATAAATTTTTTGAGGAAAGGATGGAGCACTTGATTCATCAATCTCATGAAGGTGCTGGGTGCGTTGGATAATCCAAATGGCATGACCATCCATTTGAGCCCTCATTAGTTTTAAATATTGTTTTCCATTCATCTCCCGGTCTAATACGTATATGATGGTGGCCACTTCTTAGATCAATCTTTGAAAAGATAGTAGCCTTGTCAATTGATCTAAAAGATCACAAATTCGAGGAATAGGGAACCTGTATTTTACAGTTATCCGATTAATTGCCCTGTTGTCTACACACATCCTCCAACTTCCATCTTTAGGTGTGAGTAGAGCTGGTACTGCACAGGGGCTTAGGCTTGGTTTAATATGTCCTTTCTTCAACGGTTCTTCAATGTGTTCATGAAGAATCTGATATTTGTGAGGACTCATTCGATAATGGGCCAGATTCGGCAAAGATGCTCTTAGAATCAAGTCTATTTGGTGCTGAATATCTCGCAGAGGTGGTAAGCCATGTGGTTCTCTTTTCAAGTGGGGAGATTCAGCAAATAATTGCTGTAGTTTAGGTTCTAGGATTCCCGGCTGTTCTCCTATGGACTTATCAACAACAACCAGCCCTAGGATGTCTCTTTCTCTTTCACTGATCAATTTCTTTCCACTGACAGTGGTGAATAGCTGCCCCTTGATCTTCATATGCTTTGCTCCCTCATTATATTTCAATAAAGGATGTAGAACAATCTTCTTCCCCATCCAATAGAACTCATAGGTGTTTTCTCTCCCCTTATGCAAGGTTTGAGTGGTGTTGCCATGGCCTTCCTAGGAGCATATGACATACATCCATGTCTATTACTTCGCAGACAATTTGATCCTTGTATCCACTTCCAATGGAAAGTGGCACGGTGCAAATCTCACTCACTAGAATTTCTTCACCCTTCTTTACCCAACCAATTTTGTAGGGGTTAGGATGTGCTTCTGTCTTTAGATTTAGAGTGATTACAAGCCTCTTTGCTACAAAATTTTTGCTGCTTCCGCTGTCAATAATCACGTCACGCACCTCCCATTAATCGTACATCTGGTCTTGAACAAGCAGTGGCGTTGAGGATTGGTTTCTTCTTTAGGTGCAATTAGGACTCTCTGTATAACACAGGATATGCTGTCACCATCATCAGCTTCAATCAATTCAGTTTCTTCTTCTATTGTTTTGCTGTCATCACTTGCTGCATCATACTCTTCATCAGCCAAGGCTACTGTTTTTCGCTAAGGACAAGTATTAGATAAATGACCAGTTTGGCCACACATAAAGCACTTGCCTAATGATGGCCGATTGTAATTATTTTGAACCTTTCCCTTGCCTGCGTTTTCTTTTTTCTTGGCTGCCTTCTGTGCTTCAACATCTTTGCCTTTTTCTGCAGTAGATGTTGATGGTTGCTCATTCGTTTTACTGCAGTAAGGTTATTTCTTGGAAAAACTTGTTTCCCATGTATTCTTTCTATTAGTATTCCTCAATCTTGCTGCCATCATTTCTTCTACAGTTTCTGCAAGAGAAATACCTTTTCCTTTATATCAAATATTAGGCCACCAATGAACCGTGCAATCTGATGTTGTTCATTCTTACCCAGATTGGTTCTAGCACTCAACCTATGGAATTCTTTAATATACTCTGCTATTGACTTACTTCCTTGGCGGCAGTTTTAATATTGGTTGTATAAGGTTTGTTCATAGTTTGGAGGTAGAAAGCATGCCTTCAAAAGTCTTTTCATCTTCTCCCATGAACGAATAGGTGGCTTGCGGTATCTTTGTTTGTTTATTTCAAGTTGATCCCACCATGCCGAAGTTCCTCCACGTAGTTTTAGAGCCATTAGGTGCACCTTCTTTCTATCGGGAGTGTCCATGTATTTGAAGAAGTTTTCAGTGTTTTTAATCCTATCCAAGAAAGATTCAATATCACACTTACCGTTATAGGTTGGAAGATCAAGTTTCATCTTGTAGTCATGATGAACTTCCCTTCGTGCTTCGTGTCCTCTGTAAGCTTGTCTCATTTGAATGTCTCCATTGTCATCCCAAATATTTCCTCGTTCATCGCCACTGGAAGAATCATATTCTTGCCTATTTTGCCAAGCATCACCTTTTTCCAGAGAATCGTCATCAGCATAACGCAGTGGCATCTCCATTGGCCTTCTTATTTGGTCATTTCTTTGATTGGGCATGTTACTGAAATTCCTTTGAGCTCGCCGGCCTCCTCTGTTTCTCTCATTTCGGTCAATGTTCATGTTGGCTTCAATTCTTGCTGGTGCTGGTAGCCCATCCATCCTTTGAGTCAACGTCTCCAAACTATCCATCATCCTATTAAATTTCTCGTGTAAATCTCCCAAGAAGTCTTTGACGGCCAGCAAGCGCACCGTGGATGTCCTTGGAGAGAGAGTGGCGATCGCTTCCACCTCTTCTTGCTCACGGTTGTCCCCCGCGGCAGGGATTCCTCCTCTCCGGTCAGCCATCCGTTCGAAGATCGGGGCTGCTCTGATACCACTTTGGTGTGGATCAAGTTGGTAACTTTTTTATTAAAGAACTCTCTGCTCTAGTTGCTGAGAGAATGTGTATTTATCTATGAATTTTAGGTAGTTACTAGGGGTAGTTACAAGTAGTTAGACAGCTGGATAACTAATCAGCTAACTAATCAGTTGTAGCTGATTAGTTGGCTTTTTTTAACAGTCTTTTAACAACTTGTCAATAGCTATTCTAATTACATTATTTACATCAATATTCTCTTGGGTCAGTGATCTATAGTTCATTATGATCAGAATGCCTTGAAATTCTTAATAAGTGTGGTGCTCCCTAAGTATCAAAAATGGGTCCCAAAGCTTTAGCATGTGTAACAGATTATAGTTTATTTTTTGAAAGAATACATCTTTCTTCTTTGGCTTTTGTTAATTAAGAGAGAAAAATTGGCAGATGAATTTATTTTTTCGCCCACATTCTCCTGTTGTACGCGAAGTATTGGGCCGAGCTGGATTTGAACCAACGTAGACATATTGCCAACGAATTTACAGTCCATCCCCAATAACCGCTCGGGCATCGACCCGGGAAGAATCAATATCAACAAGGAAACTTATCTTCCAATGGACCTTGTCCGAGAAACCACAGCCCACATGATCTCAAGCCTTGACGATCACATCCCCTTCTTTGTTTGTGCAGTTAAGACTTCGTCGAGGATTTGTCCTGTAGACATCATGTCTTTTTAATTTTCTTGTTATTTTTATACAATCATCTTCTGCACTGAACTTGTTATGCTTCTTTACTGGTATTTGAGATTGCCCCACAAATCTAGAATGCTACGGTATTTTGTGTTTTACATACGACCATTTTTTTTGGGTAATTATTGAAAATGATGCATGTATGTATATGAAGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACGTCAAGGACAAGTAAGTTTTTACTAGACACACCATGATATCATATTCTAACCATGCTTGGTTAACTTTAAATTCTTTTAGAATGGAGTTGTACTATTAAAAGATTAATATTTTATGCCATTTTTTGTTAACTATAGGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGGTAATGCTACAAGCTTGTATTTCTCTTTGGTCATTGGTTTCCTGTATCCCAACTTGTTTCGATTTCGTTTTAAAATTCATTTGTTATGCATGCTGCTAACAGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTAGGTGTTATTGTAAGTTTTAATTGTCCTCTCGTGGGTTTAGTGCTTTTTTTTGCTTTTACTTCTTGGTTCCATTATGTTATTTTGATACTATCCTTGCACAAGAGCCAACATGAGATTAGTTATAATGGAACATCGATACGAACTGAAAAAGCTGAGGGAAAGCCTCTCAATCAGATTTAATCTCAAAAGATGAGTAATTGGAAAAAGCTTATGATGCATTGAAATTGGGACAGTAATTTTCTGAATAATACTTCTGAAATTGAATCAATTAAAAATTGAGGGAGGAGGAGATTTCGTAGCTTCCTAACCAACTCCAAAGGTCAAAAGATATAGCCCGAGTACAAAAGGTTATAGCTAACCCAATTACAAACAACAATAAAGCCTAAGTATTATTGTATAGTTATTCTAATTACATCAATTTCCCTCCCTCTAAGAGAAAACTCACCCTCGAGTTCATGTTGAAATTTGTAGTTGGTCTGGAGGTAAATATTCGGAGATATCAGCTATATTGAAGATAGGATTGTCATGTAGATCGTCATGTAGTTCAATCTTGTAAGCGTTGTCACCAAATCTTTTCAAGATTCTAAAAGGACCGTTTTTGGCTGAAATTTCCTGTATTTTCCAGCTGGTAGTCTAGCTTTTCGAAGAAAGATTAGGACCAAATCCCCTTCTTTGAACTTTTTGAATCTTCGTTGCCTGTCGGCTTCATCCTTTCCTTGTATTTTGAATTCATCTTTTCAAGTTGGTTTGTTACTTCTTCACACAGTTTTGCTTTCCATTCAGCCATGGTTTTTATCTTCAAGCTAAGATCAACGCTAGACGAGTCGGTAGGTTAGCAAGATCGACAATTAGCCTAGGTAATTTAATATAAACAATCTCAGAGGTGACTTCCTTGTGGATCTATAATCTATTCTTCATATGGTTGTAGGCAAACTCCGCGTGTTCTAAAAGAGATCCCATTACTTAGGTTTTCTCCTCCAATACAACGTATGAGATTAGCAAGTGTCCTATTCGTGAGGTTTGTTCTCTCCCCTCCCCTTCACCTTTCTCCCCAATACTCCTTCCTGGCAACTACTCTTACTGATAGAGCAGTTCATCCTTCACCTCTCGTCTTGCAATTTTTATCAACTTGGAGGAACCCATGAAAGTGGTAAACAACAAAGTAGTTAATTCCTACCTATTGCTTCTGGTTTGAAAACGGGTTATTCAACATTGAGGATGTAGATTTCAACAAAAGCCTCCAAGTCAACCATCATGGATTGGCCTAGTGGTAAAAAGTGAGACATTGTCTCAATATCTAACTAAGAGGTCATGAGTTCATTTTATGGTGGCCACCTACATAGGAATTAATTTCCCACGAATGTCCTTGACACCCAAATGTTGTAGGGTCAGGCGGGTTGTCCCATGAGATTAGTCGAGGTGCACGTAAGCTGGACGGATTGAGAGAATAAATTCTTTCTTAGAAATGGCGAGGATTTGAGTGGAGCCACGTGATTGATGAAATTCCGTGCAACGTTAGGATGGGTTTTAAGGTGTGTCGTCCGACCAACCTCTGGTTACCCATCCTAAGTTCATATTTTCTCAGGGCAAGACAAGGAGGACTGGCAATCTTTTTTAAAAATGGTAAAAAGCTTCCTTATGAAACAACATTACTTGCTTGGCAATCTCCATTACCCCGGCAAGATACATAGATTCCCATACCAATTTGCCATGTTCAAGCTACGCGAAAAAGGTGAGGAACTAAAGTAAAAGGCTTACTCTATTTCTCGATCAGCAAAACGGAGCTTATCCCCTAGCATTCCCTTGAAAAAGGAGGGTGAGTTTTAACGAAAACCAAGGGAGAAATTTTTTTGATCTTGTGCGTGAATGAAATCAAAGAGTGAATGGGCGTGAACGAACAAAATCGAAGAGTGAATGTGGGGAGAAATCGATTTGAAGAGAGGATCGAATGAGGGTGGGGCGTGAAGGAATGAAAACAAAATCTAATAAAAATGAAAAGGGCCATGGGGGGAGCATATGTGGCAAACCCTAAAAATAAATTAAATTCGAAAGTAACAAGATACTCCAGCTTAGAAGAAATGGTTCATCCCGAACTGCAATATACTCGATTCGAACACTGCCTGTACCACCGGAGAAATACCTAGTGACATTATCATCTACCCAACTCTTGGCAGCTTTCAGGAAGAGTTTAAGAGCTTGAGCATTGGATTGGGAATGCTGATGGTGAGTTGAACATTGGAACTGGATAGTTTCCAGAGGACGAGGGGATTGGGATTTGGGATTGAGGAGCTTGATTTTGGAGATGTTGGAGTTTAAGAGTTCGACAACCTTGAGCAGCGGAAGAGGGTGGGATGCCACCGTGCTTCAGTTAAAGATGATGACTGAGACAGAGAAATGGTTAGAAGAGAACAAAGAAAGCCCTACAAGTTATCCAAACAACTATCCCTGGTTTATATATTCACAATAAGACACATTTTAACGTTCATACAAGAGCAATAACCAGAAATGTAGTAAGAAGAGAATAACATGAAAGTAACAAGATACTCCAGCAAATTATAGAGTGCTGGCTCTCTCCCGTCATCTATCATTCTTCAAATGATCAATCACAGAGTTCCAGCAATTAAATGTGATATCTTTCTTTCACCTTGAAACTTTCTGAAAAAAATGTTTCTTTATTTCATCTGGACTTAACAGAAAGTGGAAGGTAAAATTATAGTAATCTAGATGACTGACCAACACTGCTTTGCATAGAATTTTCCATCCACTACCTCTGCATAATACATACATAAACTGAATATTGATTGCATGGGAAAGGGATTACTACTTATTTTGATTTGCAGCATTATTCCTTGGAACACCAATGAGAAAAGGAATTGTTTATTTATTATTAATTTGTTATTACTTTTATTCTTTTGCTTTTAGAAGTTGATTTGATCCATTTATTAAACTCAAGATAGGAAAATAACATAAACTCAACATATGAATGCATGTTTGTTTTCTAGATATCCCATTTACGATTCATGACTTTACAAATGAATTTTAACCAGGTACATTTTTTTAGCTGACAAGGTAGAGATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAGTAAAATATCACTATGCAGTTCTCATTAGAACAAAATTGTTTTTATTTCTTATTACTGGTTTACATGTACTAATTATATTAACCCTCAAATGCAAGCGCAGACCATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACACACCAGCACTTTAGTGTAAGCTTTTGTTAGCTACTTGAGTTTTCAGGCGTTACTTGCTTTTTATGATGAGAATTGTTGTAGTTCTAATATTAGAGACATTCTCTTATTGTAAATAACTTTGATATGTTTTTCTTTTTATGGTCTTTTCTACACTTCCCTTCTTTGGTCACTCTTGTACCTTGTATTTATATTTCTTTAGTGCATGGAGTAGGCAATTTTGATTCTGTCAAACCTAATTCTTTTACATGGTACTAGAGCGTTCCAAAAAATTAGGTTTTTGAGAATTTAGAACCCTTATGTGGAGTAGGTGGATTTATACTTTTGTGCAACGCCACCGTTCTTGGTTTGTTTGGCATCGTCAGCCGCTGCTGCCAGAAGTTTGGTCTCTTTTTCTTCATTATTTTTCGACACCACCCAGTCCAACGAGGAGCCCAGACGTCGATCTATAGAATTCCTTCTAAGCGCGTGAAGCTCACACGCTGCCACTTCCTCTGTCGCTACATCCTCGTGCTGATGCGTGTAGGTGTGCGCGCCCCCTTTCTTGTTCATCTTCTGTGGGGCTTGTCGGAGTTGTTTCCCCACTTCGGTGTGTTGTTTGTTTGGGCTATATACTCATTGTTTTTGGTTCATTCAAGGAAAAACCCTTTTGGTGAATTAGGGTTTGCTTCTACACAACTTTCCTTGAGATTTTAATTTATATTTTGTCTTTTTTTTTTTTTTGAGGTAATGGCTGACAAGAAACCAGTAGTCATCGAAGATGATTCCTATGATGTCAAAAGTAATTGAACACAAGTTGAATGGATCCAATTACTATTCATGAAGATCAAATGTTCACTACTTTATTAGGAGCATTGAGAAGAATGAATGTTTCAAGGAAGAGCCACCAGCTGATGATACTAAAAAGATTTGGTGGCGGACGATTCAAGAATGCTTCTACGAATAAAAAACTCTATTGACAGTGAAATCGTTGAGTAATTCACTGCAAATTTGTCAAAGAACTACCGAATACCTGGATTTTCTTTATTCTGGGAAAGAAAACATTAATAGAGTTTTTGATGATTGTAAGGCTCTATATCAACCTGATGAAGGAGAAAAATCTCTCACAAGTTACTTTATGGAGGTCAAAAATACGCGTGCAAAATGCTGATCTTGTTTTATGCTCTTTGAAAAAAAAATACGTGTGCAGAATTCAATTTCTTGATGCCAATTAGCACTGATCCAAAAGTTGTCATGGCTCAATGTGAATAGTTCATCATAAGTTTCTTAGTTGGTCTGGTACGTAATCATGAGATGGTCAAAGATCAAGTTTTGTCAAGCTAGAAAATCTTGTTATTGGAAGAAGCTTATACTCGAATACCTTTAAAAGAGAACCCACAAGCAATTATGTCATCTGATTCTTGCTTTGATTGGGCGCACAAATGACTATATAGGTAACAAGGGGATTGGATCAAATAGCTCCAAAGGTTATTCCAATAACCAACCAACAAATTTGGGTGATGTTTGCTATTGCTGTTGTAAACCTGACCATACAAAACGCAAGTGCAAAAAACTATTGAATATGGTTCAAAAGGTGCCATCTGCACTTGTTGCTTCTACTCTTGATAATCTTGATAAGTCATTTATGATTTTTGTGAAGGAGTTTGCTAAATTTCAATAGTATCATGCGTCATTGATGGCATCAACTTCTACTCCCATTATTGCCATCACGAAGGCAAGTAACATCTCTAAATGCCTTCTTCCCTCCACTTCGAAATGAGTCATTGGCTCTGGTGCTACAGACCATATGACAGATAACCCCAATTTATTCTCTAACCTTTGTACATCTACCTCTTCACCTAATGTCACTATAGCTGATGGAAGCTCCACTCTTGTTTTAGGATTGGGAACCATCCATCTTACTAAATCAATTTCTTTGTCCTTTGTTTTGAATTTACCACACTTCTCTTTTAATTTGATTTTCGTCAGTAAACTCGTGATCTTTATTGTTGTGGCTGCTTTTTTCCTTGTTATTGCTTATTTCAGGATCTTATGACGAAGTAAACTATTGGTAAAGGCCGTGAATTTGGAGTTCTTTACATCTTTGAACCACAAATACCTACGGCCATCACATGTTTCAGCATGTCATCTCCCTTTGAAGAACATTGTCGAATGGTTCACCCGTTTGTCTTTTTCTTGAGGAGTCTTCGTCCCCAGTTTCAGCATTTGTCTTCCTTAGATTGTGAGGCATGTCAGTTTGCTAATTTTTATCGTTTTAGTTTGTATCCTCGAGTCTATAAAACGAGCTAGTGCTCCATCTAAATTAGTTCATTCTGATGTTTGGGGTCTATGTCCTATTGAGTCCAAAGGTGGGTTTCGGTATTTTGTGACATTCTTCAATGACTATTCTTGTGTAATGTGGTTATATTTAATGAAAAATCATTCCGAGTCACTTTCTCATTTTTGTAACTTTTATGCTGAAATTCGAACTTAGTTTAGTGGTGCTCTTAAAATCTTACGAAGTGGTAATGCTAAATAATATTTCTTTCATGCACTTAAGTCTTATTTAGATTCTCATGGTTTTCTTCATCAATCTTCTTGTGTTGATTCTCTTTCACAAAATGGGTTGCAGAACAAAAGAATCATCATCTTATTGAAACAGGCAGAGCCTTAATGTTTTAGATGCATGTTTCAAAACTTTTTTGGGTTGATGCTGTTTTTACAACTCATTTCTTAATAATCAATCACATGTTCTTTTCATTCTTAAGTTTCAGAGACCTTTTTGTTCCTTACGCCCTAAACAACATTTGTTTTCCATTCCACCTGAAATATTTGGTTGTACTTTCTTTGTTCGAGATTTTCGGCCTCCACATACAAAATTGGATCTAAAGGCCTTAAAAAGTATCTTCCTTGATTATTCTTGTGTTCAGAAAGGGTATCGGTGTTATTGTCCCAGTCTAAATAAATATCTTGCCTCTCTCAATGTCTCATTTTCTTAACATTTCTCCTTTAATTCCTCACAATATAACTTTTCGTATACGAGTGGGGAGCATAAGGTGTCAGAGGATGATTTACTTGTCTACAAATTTGTTTTTCCTTTTGGTCCTCTTCTAGATTCATCTCTACCTATGTCTACCTCCATTTGTCCATCTGTCATTAAGGTCTATGATTGATGACAACCTCCTTCGGATCCATGCCCTACACCTGAGGCTTCTTCCTCTCTTTTAGTTCCATGCCCTGTACCAGAGGCTTCTTCGTCATTGGATCTGAAAACGAACGAGGATCTTCCTATTGCTCTTCGTAAAGGTAACATAAGTGCACTAACCCTATTTCCTCTTTTGTTTCGTAGAATCATTTGTTGTCTTCTCCATGTTCTTTCATTGCATCATTAGAGTCTATATCCATCCTTAAAACTGTTCATGAAGCCTTGTCTCATCTTGGTTGGTGTGTTGCAATGGTGGAGGAGATGACTCATTTTAGATGACAATTGTACTTGGGATTTAGTCTTTTCCGGTAGGAAAGAAACACATGGGCTGTAAGTGGTTATTTGTGGTTAAAATTAATCTTGATGGTTTTTTCGTTGGGTTAAAAGCATGTCTTGTAGTGAAAGGCTACCCATAAGTCGTTGACTATGCTTATACTTTTTCTCTAGTACCAAAAATGATATTTGTGAGGTTGTTTATTTCGTTAGCTTCAATCAATTACTGAACTTTACACCAACTTGTTATTAAAAATGCATTTCTTCATGGTGACCTTTAAGAAGAGATGTACATGGAATGAACTTAGCTCAACTAGCATTTATTACAATACATTTTTAAAAAAAGAAGAGGTGTAGCCACCAGGATTTGTTGCTCAAGAGAAGAAGAGAATGATATGTTGCCTTCGTAAATCTTTGTATGGTTTGAAATAGAGTCCACAGACTTGGTTTGGCAAATTTAGTCAGGTGATTGAAAGCTTTAGAATGCAAAAGAGCACGTTGGATCAATTGGTCTTTTTTAAGAGATTTGAGAGTGTTGTCATTCTGTTAGTTCTATATGTAGATGATATTGTGATTAATGGTGATGATGCTTTAGGTATCCAGTCCCTAAAGACTTTTCTCCGTTGCCAATTCCAAACAAAAAGTTTGGGCATGTTGAAATACTTCTTAGGAATTGAGGTAATAAGAAGCAAGAAAGGAATATTATTATTTACAAAGAGATGTACTTGACTTGTTGACCGAAACAAGGAAGCTAGGGCCTAAGCCATGTACTAAGTACCCCAATGATGCCTGACTTACAGCTCAAAAAAGATGAAGAATTGCTAAAAGATTCGGAAAGAAATAGGAGGTTAGTGGGAAAACTTAATTACCTTACAGTGACTTGACCCGACATAGCTTATTAAGTGAGAGTATTACGAGCTAGTATATGTCATGCCCCTCAGTTGATCGTTGGAGTGCTTGACAGATTTTGTGTTATCTGAAGGTTGTTCCTGAGTGTGGTTCGTTGTATAAGAATTATGGTCATATTAATATTGAATGTTTCTCAGACATCAATCGGGCAGGATCTAAGAAAGACAAAAAATTAAATTCAAGATATTGTGTTTCTGTTGATGGTAATTTGATTTCTTGAAAGAGTAAGAAGCAAAATGTGGTGTCACATTCAAGTGTGGAATCAAAATATAGAGGAATGACACAGTCCATGTGTGAATTGATTTGGATAACTTCTTGTTGAGTTGAGATTTGAAATCACCACACTGACAAAATTTTGGTGTGATAATCAAACAACACTAAATATCGCATCTAATCCAATGTTCCATGAGAGGGGACTAAACATATTAAAGTTGATTGTAATTTTGTACGTACGAAAATTCAACAAGGTCTGGTATCTACAGGATATGTGAAAATTGGAGAACAATTAGAAGAATCTTCACGAAACCATTGAATGGAACATGTATAGATTCTCTATGTAACAAGTTGGGCATGATTAACATATATGCTCCAACTTTAGGGGGTGTTATAATTCTAATATTAGTTATATTCTCTTATTGTAAATATCTTTGTTATATTTTCCTTTTGTGACTTTTTCTACACTTTCCTTCTTTGGTTACTCTTGTACCTTGTATATATATTTCTTTAGTGAATGCTATAAGCAATTTTGATTCTCTCGAACCTCAAGTGTTTTACGAGAATCAACAGTTTTATTAAATATTTATGAAAAGCATTATTGAAAGCATGACAGAAACTCTCCCCTATCTTGTAAGGGCTGAAAATATGAAAAACAAAAATTAAGTTTGTTCTATCAGTGCCAATTTAGATTAAAAAATTCCAGTGTGGAAATGTATGAGATAATAATTTTTGGACTTTGTTATGCAGGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTTGCTGGACCAGTTTGGAAAGCTTTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGTGTGCATTTTTTATGTTTTTCTGCTCTTTGATTTGCTGGTTCGCTATTGTCTCATGCACTTGAAATTTCAATGCCATATATGATCATATTGATTCTTTACGATGGATGAAGTTAATAGTGGAATTTACGTAACATGACTTTGCAATCTTTATATCATGATATCATGTTAAATATTCGGTTGAACCTGTCCTGTGTTTTGCAATATTTTTTTATTTTATAATGCTTGAGAGAAAAGTACGTTTAAACAGATAAGTACATCGCCCGAGGTATTAGTATCTGGTAGAGCATGAAGGTAGAATTCTCAAGAAGGTTAAACTTTTGTTTGGCAAATCCTTCATGAAAGAGTCAAGACGTTGTATTTGGTTTTGAAGAAGTCAATTAGTTTGATAGGCTGTAGTATTGTATCCTTGGATGGGGCTTAGGATGTTGACCTCTTCCTATGGAGATGTGGTTATGATTTTCCGACAGAGTTATTCTTTAGTTTATTTTGAATTTTGATATGTTTGGTTTCCTCTTAGATTAACCTAGAGGGCGTAGTTTTATAGTCATTTTCTTTGCCCTGTTGGCATTTATGACTTTGTGGTTCCTTCCGGAGGTTGGGAGGTGTTTGGAACTTTGAGTTAGAAGTCTAGAGTTAATGGGTAGAAGTCTGTATTTGGAGTGTAGAGTTGTTTAGTATGGAGGTAGGAGACATTAGAGGGAAGGGGGGAGAGAGAAAAATGAAGTTCTATGCAAACTTCAATAATAAACACTTTTGTAGTTATTGGAGTTGAGTTATTTAACGCTCATTTATGGAGCCGGTGGGCCAAACACTCCCAGAAAAGAATGTCTGGAGGGGTCAAGGGACACTGAATCTGTTAATCCCCTGTTCGATTACAATTTTCATGCATCCCTAAGTTTTGATGTTCAAGGATTTTTGTAGTTATTTGTTTGAACTTATTTTGCTTGATTAACTCCCTTCTTGTTTTATTTTGCTCCTTTTGTATGGAGTTTTATTTTATATTATTTTTTGTAATTTTTCAATTTTCTCTCCTATCAAAGAAAAACGATTTTGAAACTTGTGGTTAGGACGGAATGCTCAGATCTTCACTGGAAGCAACAAGACATCAATTGGTTCATTGAATCCGCGTATAGAAACACCTTTTGTCACCTTTTGTAATCATTAAGAATTAATCCCCCAGCTGCCTCCTTTCTGTAACTATAGTTTATCATCTATTTTCTATCATTTGGGGTATTGTTTATAATTATCCACATATAGAAACACCTTTTGTCTTCATTTCATGATAAAAATTTAAAAAGAAAAGAAAAGAAAAGAAAAAGTAAAACCATTTTATTTAATGCTGTTACTCCGGGAATCTTGGATGGCCTGATGATTGGCTCGAGTCTTGCAGGAATGCCATCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTACTCATTTCTTGCCTCTCTCTCTCTCTTTTTTATTTTATTTTATTTATTTTATTATTATTTTTGACCTATGATTGATCGAACACTCAAATTTTAATCTCTATAGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTGAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTACCTATTTCTTTCTATTTTAGATTTAATTTTTTTTATGGAAATTGAAATATTTTGTCAAATACTCCCCTAATCACGAACCTTCCTTTATTTTGTGAAGAGACTGATTATATAGGATTTGAATGTTCTCCAGAACTTCTCTCTGGAGTATTAAAATCTGATGAACTGTCACTGAAAAATTTCTCCTCGCCTCGAACATCAAACTTCCAAACTCACTAACAGATTCTCCCCTCGACAGTATGAGCATGTTTTCGGTTGAATGTTTATGCATTTTGATCCATGCCAAGAAAATTTGTGTAGGTGGGAAAACTTACAAGCTATGCACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCATTGGAGATACTGTAATTGTTGGAGAAGACACCACTGGTATGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCACCAAGTAGCACTCCTGAAAGCAGTGCACAATAGTTGTTTTTTATTACTATTTCAATGGGGTTGAGTTGAACCACAGCTCTATATTTTCTTTAATAATTTTAGATATGGATGCTAAGGACGATGGTTTTTGAACCCTGTTTGTGCATATCATCAGGGGTTTTCTTTGTTGTTCAACCGTATTTTTAATGCAAAATCACATTTGGTGTATATATTGTAAGGTCTTCAAGGATTCTCGTATGAGAATTTTGTACATTGTTTCCCCTTTGGTTGACCACGTTGGATATGAAGGGTTCCCTTAGGGGGTGCGTTAAGCCCAAAATGTTGGGAGTGTACGAGTTGGGGGTTGAGCTATAAACTTCACTCCTTTTGACTTGAGGAGTTTGTAGACCTTACTAATAAAAAATATCGATTTTATACCT

mRNA sequence

ACAATGTCGGCTTCTTACTGCGGCTATGGATTCTTCGTCTCAGATTCTACAGTTCCCTCTACTAGCAGAGCTTTCATCTCTAACTCATGCCATTGGGACCTTTCCATCTCTTCTTTTTCCCACCCCCATCGCCTTCAACTCCCTCCATTTCGACCTCCAAACATTAAGAAACCGCATAGCAATGCGAACAGAAAAAGTACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCCCCTCCAATCGATGAGGACCTCCTTGAGGCTGCGGCCGTTGAAGGTGCACGGATTTCTGATGATGGGATCATTGAAACTTTTCATAACGATGAACAGGCGCTGGATGCAGCCAATAATGGGGTTGCTGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACGTCAAGGACAAGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTACATTTTTTTAGCTGACAAGGTAGAGATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAACCATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACACACCAGCACTTTAGTGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTTGCTGGACCAGTTTGGAAAGCTTTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGAATGCCATCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTGAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATGCACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCATTGGAGATACTGTAATTGTTGGAGAAGACACCACTGGTATGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCACCAAGTAGCACTCCTGAAAGCAGTGCACAATAGTTGTTTTTTATTACTATTTCAATGGGGTTGAGTTGAACCACAGCTCTATATTTTCTTTAATAATTTTAGATATGGATGCTAAGGACGATGGTTTTTGAACCCTGTTTGTGCATATCATCAGGGGTTTTCTTTGTTGTTCAACCGTATTTTTAATGCAAAATCACATTTGGTGTATATATTGTAAGGTCTTCAAGGATTCTCGTATGAGAATTTTGTACATTGTTTCCCCTTTGGTTGACCACGTTGGATATGAAGGGTTCCCTTAGGGGGTGCGTTAAGCCCAAAATGTTGGGAGTGTACGAGTTGGGGGTTGAGCTATAAACTTCACTCCTTTTGACTTGAGGAGTTTGTAGACCTTACTAATAAAAAATATCGATTTTATACCT

Coding sequence (CDS)

ATGTCGGCTTCTTACTGCGGCTATGGATTCTTCGTCTCAGATTCTACAGTTCCCTCTACTAGCAGAGCTTTCATCTCTAACTCATGCCATTGGGACCTTTCCATCTCTTCTTTTTCCCACCCCCATCGCCTTCAACTCCCTCCATTTCGACCTCCAAACATTAAGAAACCGCATAGCAATGCGAACAGAAAAAGTACTTCCTTCTCTGCCCTGCCTTTCGATCTTTCTCCCCCTCCAATCGATGAGGACCTCCTTGAGGCTGCGGCCGTTGAAGGTGCACGGATTTCTGATGATGGGATCATTGAAACTTTTCATAACGATGAACAGGCGCTGGATGCAGCCAATAATGGGGTTGCTGTCGTGGATCTTTCTCATTTTGGCCGACTAAGGGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACGTCAAGGACAAGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCACCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTACATTTTTTTAGCTGACAAGGTAGAGATTCAAGATATTACCAATCAAACATCTTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAACCATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAACCTTATGGAACACACCAGCACTTTAGTGTCAATGGCATGCCAATTACTGTGGGGGTGGGAAATGTCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTTGCTGGACCAGTTTGGAAAGCTTTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGAATGCCATCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACGATATCTCGATTAATAACTTATGATGGAGTGAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCGGTGGAACCTGGCAGCCCAATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATGCACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATAAAGAAGAAAGCTGCTTCCATTGGAGATACTGTAATTGTTGGAGAAGACACCACTGGTATGGTGGTGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCTCACCAAGTAGCACTCCTGAAAGCAGTGCACAATAG

Protein sequence

MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEVPFLARQQPLSNSSPSSTPESSAQ
Homology
BLAST of MELO.jh010184.1 vs. NCBI nr
Match: TYK13394.1 (putative transferase [Cucumis melo var. makuwa])

HSP 1 Score: 870 bits (2249), Expect = 0.0
Identity = 441/445 (99.10%), Postives = 442/445 (99.33%), Query Frame = 0

Query: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60
           MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN
Sbjct: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60

Query: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120
           ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV
Sbjct: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120

Query: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180
           VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA
Sbjct: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180

Query: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAG 240
           ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQ MEDLNLGSIAG
Sbjct: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAG 240

Query: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300
           EPYGTHQHFSVNGMPITVGVG+VISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK
Sbjct: 241 EPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300

Query: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360
           LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL
Sbjct: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360

Query: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVV 420
           SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTG VV
Sbjct: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGTVV 420

Query: 421 EVPFLARQQPLSNSSPSSTPESSAQ 445
           EVPFLARQQPLSNSSPSSTPESS Q
Sbjct: 421 EVPFLARQQPLSNSSPSSTPESSVQ 445

BLAST of MELO.jh010184.1 vs. NCBI nr
Match: XP_004140110.1 (putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN47936.1 hypothetical protein Csa_003267 [Cucumis sativus])

HSP 1 Score: 828 bits (2138), Expect = 1.45e-301
Identity = 420/445 (94.38%), Postives = 432/445 (97.08%), Query Frame = 0

Query: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60
           MS+SYCGYGFFVSDST+PSTSRAFISNS H +LSISSFSHPHRL LPPFRPP+IKKPH  
Sbjct: 1   MSSSYCGYGFFVSDSTIPSTSRAFISNSWHSNLSISSFSHPHRLHLPPFRPPHIKKPHIK 60

Query: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120
           A+R  TSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDE+ALDAANNGVAV
Sbjct: 61  ASRTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAV 120

Query: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180
           VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA
Sbjct: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180

Query: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAG 240
           ITLIVSPVTRESIIRMLNKYIF+ADKVEIQDITNQTSLLVLVGPKSNQ MEDLNLGSIAG
Sbjct: 181 ITLIVSPVTRESIIRMLNKYIFVADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAG 240

Query: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300
           EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK
Sbjct: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300

Query: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360
           LRI QGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL
Sbjct: 301 LRISQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360

Query: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVV 420
           SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAAS+GD+VIVGE+T G VV
Sbjct: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASVGDSVIVGENTIGKVV 420

Query: 421 EVPFLARQQPLSNSSPSSTPESSAQ 445
           EVPFLARQQPLSNSS S+TPESS Q
Sbjct: 421 EVPFLARQQPLSNSSSSNTPESSVQ 445

BLAST of MELO.jh010184.1 vs. NCBI nr
Match: XP_038887599.1 (putative transferase At1g60990, chloroplastic [Benincasa hispida])

HSP 1 Score: 796 bits (2057), Expect = 2.96e-289
Identity = 404/443 (91.20%), Postives = 420/443 (94.81%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           +SYCGYGF VSD+T+PSTSRAFISN  HWDLS SSFSHPHRL  P FRP NI+ P+S A+
Sbjct: 2   SSYCGYGFSVSDATIPSTSRAFISNPWHWDLSTSSFSHPHRLHFPAFRPRNIRNPYSKAS 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
              TSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDE+ALDAANNGVAVVD
Sbjct: 62  GTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGR+RVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKN IT
Sbjct: 122 LSHFGRIRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNGIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESIIRMLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQ MEDLNLGSIAGEP
Sbjct: 182 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEDLNLGSIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAG VWKALVSLGAVPMGS+AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGQVWKALVSLGAVPMGSKAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IFQGMP+PQKEL+DEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFQGMPAPQKELSDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGSPITIDGKRVGKLTSY PGRKESEHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASNGDTVIVGENTIGKVVEV 421

Query: 423 PFLARQQPLSNSSPSSTPESSAQ 445
           PFLARQQP+SNSS S+TP+SS Q
Sbjct: 422 PFLARQQPISNSS-SNTPQSSVQ 443

BLAST of MELO.jh010184.1 vs. NCBI nr
Match: XP_022158902.1 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic [Momordica charantia])

HSP 1 Score: 748 bits (1931), Expect = 4.62e-270
Identity = 383/433 (88.45%), Postives = 396/433 (91.45%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           ASY  YG  +SDST+PSTSRAFIS+  HW LS SSFS PHRLQ   FR  NIKK  S AN
Sbjct: 2   ASYWSYGQSLSDSTIPSTSRAFISSPWHWGLSASSFSQPHRLQFTAFRARNIKKIDSKAN 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
           R +T FSALPFDLSPPPID+DLLE A +EGARISDDGIIETFHND++ALDAANNGVAVVD
Sbjct: 62  RLTTFFSALPFDLSPPPIDQDLLETAEIEGARISDDGIIETFHNDDEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGRLRVSG+DR QFLHNQSTANFESLRQGQGCST FVTPTARTIDIAQAWIMKNAIT
Sbjct: 122 LSHFGRLRVSGEDRYQFLHNQSTANFESLRQGQGCSTAFVTPTARTIDIAQAWIMKNAIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESIIRMLNKYIFLADKVEIQDIT  TSLLVLVGPKSNQ ME LNLG IAGEP
Sbjct: 182 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKHTSLLVLVGPKSNQIMEALNLGDIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGNVISEEGFSLL+SPAVAGPVWK LVSLGAVPMGS AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNVISEEGFSLLVSPAVAGPVWKTLVSLGAVPMGSEAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IFQGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFQGMPTPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGS ITIDGKRVGKLTSY PGRK  EHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSSITIDGKRVGKLTSYTPGRKGLEHFGLGYIKKRAASNGDTVIVGENTIGXVVEV 421

Query: 423 PFLARQQPLSNSS 435
           PFLARQQPLSNSS
Sbjct: 422 PFLARQQPLSNSS 434

BLAST of MELO.jh010184.1 vs. NCBI nr
Match: KAG7022574.1 (putative transferase, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 731 bits (1886), Expect = 2.19e-263
Identity = 379/443 (85.55%), Postives = 399/443 (90.07%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           ASY  YGF VSD+ +PSTSRAFISN             P RL+LP FRP NI+KPH+ AN
Sbjct: 2   ASYWSYGFSVSDAAIPSTSRAFISNP-----------RPCRLRLPAFRPRNIRKPHTKAN 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
           R  TSFSALPFDLSPPPIDEDLLEAA  EGARISDDGIIETFHND++ALDAANNGVAVVD
Sbjct: 62  RIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGR+RVSG+DR QFL NQSTANFESL QGQGCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 122 LSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESII+MLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQ ME LNLGSIAGEP
Sbjct: 182 LIVSPVTRESIIQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGN+ISEEGFSLLISPAV+GPVWK LVSLGAVPMGS AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVSGPVWKTLVSLGAVPMGSDAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IF+GMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFEGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGSPITIDG++VGKLTSY PGRK  EHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSPITIDGRKVGKLTSYTPGRKGLEHFGLGYIKKRAASSGDTVIVGENTIGRVVEV 421

Query: 423 PFLARQQPLSNSSPSSTPESSAQ 445
           PFLARQ PLSN+S S+ P SS Q
Sbjct: 422 PFLARQPPLSNTS-SNLPRSSVQ 432

BLAST of MELO.jh010184.1 vs. ExPASy Swiss-Prot
Match: Q681Y3 (Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At1g60990 PE=1 SV=1)

HSP 1 Score: 536.2 bits (1380), Expect = 3.6e-151
Identity = 262/373 (70.24%), Postives = 308/373 (82.57%), Query Frame = 0

Query: 65  STSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVDLS 124
           S S  +L FD SPPPID D L+  +V G ++S+DG++E+F ND++ALDA +NGV VVDLS
Sbjct: 60  SASSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDDEALDAFDNGVVVVDLS 119

Query: 125 HFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLI 184
           HFGR+RVSGDDR  FLHNQ+TANFESL +GQGC TVFVTPTARTIDIA AWIMKNAI L 
Sbjct: 120 HFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTARTIDIAHAWIMKNAILLT 179

Query: 185 VSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEPYG 244
           VSP T +SII MLNKYIF ADKVEI+DIT QT L  L GPKSNQ M  LNLG + G+PYG
Sbjct: 180 VSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQIMSKLNLGDLIGQPYG 239

Query: 245 THQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIF 304
            HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ GA+PMGS AWEKLRI 
Sbjct: 240 RHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEGAIPMGSVAWEKLRIT 299

Query: 305 QGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSV 364
           QG P+P++EL+ EFNVLEAGLWNSISLNKGCYKGQETI+RL+TYDG+KQRL GL LS   
Sbjct: 300 QGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTYDGIKQRLCGLNLSAPS 359

Query: 365 EPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEVPF 424
           EPGS IT+DGK+VGKLTSY  G+  S HFGLGYIKK+AASIG+TV VGED +G+V EVP+
Sbjct: 360 EPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNTVTVGEDISGIVSEVPY 419

Query: 425 LARQQPLSNSSPS 438
           LARQ P S +S S
Sbjct: 420 LARQHPPSANSSS 432

BLAST of MELO.jh010184.1 vs. ExPASy Swiss-Prot
Match: Q1AR89 (Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129 / PRD-1) OX=266117 GN=gcvT PE=3 SV=1)

HSP 1 Score: 106.3 bits (264), Expect = 9.1e-22
Identity = 82/321 (25.55%), Postives = 139/321 (43.30%), Query Frame = 0

Query: 112 DAANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDI 171
           +A      + D+SH G +   G D  + L    T +   L +GQ         +  T+D 
Sbjct: 45  EAVRTRAGLFDVSHMGEVAFRGPDAERALQRLLTRDVSRLGEGQAGYAAVCLESGGTVDD 104

Query: 172 AQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTME 231
             A+       ++V+   RE  +    ++    D VEI D T + +LL L GP++ + ++
Sbjct: 105 VIAYRRGEGFLVVVNAANREKDLAHFRRHTADLD-VEISDETEEWALLALQGPEAERLLQ 164

Query: 232 DLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAV 291
               G ++           V+G    V       E+GF + + PA A  +W+ LV  GA 
Sbjct: 165 PFVAGDLSALGRYRFLETHVDGGEAIVARTGYTGEDGFEVFLRPAEAPSLWRRLVEAGAA 224

Query: 292 PMGSRAWEKLRIFQGMPSPQKELTDEFNVLEAGLWNSISLNK-GCYKGQETISRLITYDG 351
           P G  A + LR+  GM     EL +E   LEAG+  ++ L+K   + GQ  + R     G
Sbjct: 225 PAGLGARDTLRLEAGMCLYGNELDEETTPLEAGISFAVHLHKEEEFVGQRALQRQ-RERG 284

Query: 352 VKQRLWGLQLSDS--VEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDT 411
           ++++L G +L        G P+ + G+R G +TS           GL Y+  +     + 
Sbjct: 285 LRKKLVGFELEGRGIARHGYPVAVGGERAGVVTSGTMSPTLGRAIGLAYVPPETEGGFEV 344

Query: 412 VIVGEDTTGMVVEVPFLARQQ 430
           +I        +V +PF  R++
Sbjct: 345 LIRERPVPARIVPLPFYRRKR 363

BLAST of MELO.jh010184.1 vs. ExPASy Swiss-Prot
Match: Q5WF30 (Aminomethyltransferase OS=Bacillus clausii (strain KSM-K16) OX=66692 GN=gcvT PE=3 SV=1)

HSP 1 Score: 102.8 bits (255), Expect = 1.0e-20
Identity = 91/353 (25.78%), Postives = 161/353 (45.61%), Query Frame = 0

Query: 92  GARISDDGIIE---TFHNDEQALDAANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANF 151
           GA+  D G  E   +F   ++   A  N   + D+SH G L V G D    L    T + 
Sbjct: 18  GAKTVDFGGWELPVSFSGIKKEHHAVRNAAGLFDVSHMGELLVEGPDALNNLQALVTNDL 77

Query: 152 ESLRQGQGCSTVFVTPTARTIDIAQAWIM-KNAITLIVSPVTRESIIRMLNKYIFLADKV 211
             L+  Q       T +  T+D    +   +NA  L+++    +S I  +  ++  + +V
Sbjct: 78  SKLQDNQAQYNAMCTESGGTVDDLIVYRRNENAYLLVLNAANIQSDIEWIRAHV--SGQV 137

Query: 212 EIQDITNQTSLLVLVGPKS---NQTMEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVI 271
            + DI+N+T+LL + GPK+    QT+ D  L  I   P+   ++     +P+        
Sbjct: 138 TLTDISNETALLAVQGPKALAVLQTLTDEPLSEI--RPFRFKENVMFAAIPVLASRTGYT 197

Query: 272 SEEGFSLLISPAVAGPVWKALVS----LGAVPMGSRAWEKLRIFQGMPSPQKELTDEFNV 331
            E+GF L +    A  +W+A+++     G +P G  A + LR    +P   +ELT + + 
Sbjct: 198 GEDGFELYVKAGDAAELWRAILAAGEPFGLLPCGLGARDTLRFEARLPLYGQELTKDISP 257

Query: 332 LEAGLWNSISLNK-GCYKGQETISRLITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRV 391
           +EAG+  ++  +K   + GQ+ + +     G  ++L G+++ D   P  G  +   G+ V
Sbjct: 258 IEAGIGFAVKTDKQAAFIGQQALKKQ-KEQGPSRKLVGIEMVDRGIPRTGYRVFYQGQDV 317

Query: 392 GKLTSYAPGRKESEHFGLGYIKKKAASIG---DTVIVGEDTTGMVVEVPFLAR 428
           G +TS        ++ GL   K  AA+I    +  + G+     VV+ PF  R
Sbjct: 318 GFVTSGTQSPTLGKNVGLVLAKADAAAIDTELEVEVRGKRLRARVVKTPFYKR 365

BLAST of MELO.jh010184.1 vs. ExPASy Swiss-Prot
Match: B8D1D7 (Aminomethyltransferase OS=Halothermothrix orenii (strain H 168 / OCM 544 / DSM 9562) OX=373903 GN=gcvT PE=3 SV=1)

HSP 1 Score: 98.2 bits (243), Expect = 2.5e-19
Identity = 82/326 (25.15%), Postives = 152/326 (46.63%), Query Frame = 0

Query: 113 AANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIA 172
           A  N   + D+SH G + V G    + L    T N   L++GQ   T         ID  
Sbjct: 38  AVRNQCGLFDVSHMGEILVEGPGALESLQKIVTNNVARLKKGQVLYTPMCKDDGGIIDDL 97

Query: 173 QAWIMKNAITLIVSPVTRESIIRMLNKYIFLAD----KVEIQDITNQTSLLVLVGPKSNQ 232
             + +     L+V  V   +I +  N   ++ D    + E+ + ++  +LL L GP S +
Sbjct: 98  LVYCLGQDKYLMV--VNASNIEKDFN---WVRDNSNQRTEVVNESDNYALLALQGPNSKK 157

Query: 233 TMEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALV-- 292
            +E ++  ++    +      ++ G  + +       E G+ L +SP  A  VW+AL+  
Sbjct: 158 ILEKVSSVNLDSLKFYNFTTGTLKGAEVLISRTGYTGELGYELYLSPDKAVEVWQALMEA 217

Query: 293 --SLGAVPMGSRAWEKLRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISR 352
              LG +P G  A + LR+ +G      ++ +  + LEAGL  ++  +K  + G+  + +
Sbjct: 218 GSDLGLIPAGLGARDTLRLEKGYCLYGNDIDENTHPLEAGLGWTVKFDKASFIGKRALLK 277

Query: 353 LITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKA 412
               +G+ ++L G +L     P  G PI  +G ++G +TS +     SE  G+GY++   
Sbjct: 278 -YKEEGLSRKLVGFKLKGRGIPRHGYPIKDNGDQIGVVTSGSMSPTLSEGIGMGYVRYDK 337

Query: 413 ASIGDTVIV---GEDTTGMVVEVPFL 426
           A+ G+++ +       TG VV++PF+
Sbjct: 338 ATPGESITIVVRNRAITGEVVKLPFI 357

BLAST of MELO.jh010184.1 vs. ExPASy Swiss-Prot
Match: Q65HF9 (Aminomethyltransferase OS=Bacillus licheniformis (strain ATCC 14580 / DSM 13 / JCM 2505 / NBRC 12200 / NCIMB 9375 / NRRL NRS-1264 / Gibson 46) OX=279010 GN=gcvT PE=3 SV=1)

HSP 1 Score: 96.7 bits (239), Expect = 7.2e-19
Identity = 79/337 (23.44%), Postives = 151/337 (44.81%), Query Frame = 0

Query: 104 FHNDEQALDAANNGVAVVDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVT 163
           F + ++  +A      + D+SH G + ++G D   FL    T +  +L++G    T    
Sbjct: 30  FSSIKEEHEAVRTKAGLFDVSHMGEVEITGTDSLPFLQKLLTNDVSTLKEGGAQYTAMCY 89

Query: 164 PTARTIDIAQAW-IMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLV 223
               TID    +    N   L+++    +  +  +NK+I     V +++++++ +LL L 
Sbjct: 90  EDGGTIDDLLVYKKAANVYMLVINAANIDKDVDWMNKHI--KGDVSVRNVSDEIALLALQ 149

Query: 224 GPKSNQTMEDLNLGSIAG-EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPV 283
           GPK+   ++ +    +A  +P+      +V  +   V       E+GF +      A  +
Sbjct: 150 GPKAEAILKQVADHDLAELKPFMFRDDAAVGSVQALVSRTGYTGEDGFEIYCRNEDAACI 209

Query: 284 WKALVSL----GAVPMGSRAWEKLRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYK 343
           WK L+      G VP G  A + LR    +P   +EL+ +   +EAG+  ++  NK    
Sbjct: 210 WKLLLETGKDSGLVPCGLGARDTLRFEAKLPLYGQELSKDITPIEAGIGFAVKTNKASDF 269

Query: 344 GQETISRLITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVGKLTSYAPGRKESEHFGL 403
             + +       G  ++L GL++ D   P  G  +   G++ G++T+        ++ GL
Sbjct: 270 IGKAVLASQKEHGADRKLVGLEMIDKGIPRHGYAVYYQGEQAGEVTTGTQSPTLKKNVGL 329

Query: 404 GYIKKKAASIGDTVIVGE----DTTGMVVEVPFLARQ 429
             +KK+A ++ DTV+  E         +V+ PF  RQ
Sbjct: 330 ALLKKEACAL-DTVVEVEIRNKRLKAKIVKTPFYKRQ 363

BLAST of MELO.jh010184.1 vs. ExPASy TrEMBL
Match: A0A5D3CQT8 (Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496G00010 PE=3 SV=1)

HSP 1 Score: 870 bits (2249), Expect = 0.0
Identity = 441/445 (99.10%), Postives = 442/445 (99.33%), Query Frame = 0

Query: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60
           MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN
Sbjct: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60

Query: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120
           ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV
Sbjct: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120

Query: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180
           VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA
Sbjct: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180

Query: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAG 240
           ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQ MEDLNLGSIAG
Sbjct: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAG 240

Query: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300
           EPYGTHQHFSVNGMPITVGVG+VISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK
Sbjct: 241 EPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300

Query: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360
           LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL
Sbjct: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360

Query: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVV 420
           SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTG VV
Sbjct: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGTVV 420

Query: 421 EVPFLARQQPLSNSSPSSTPESSAQ 445
           EVPFLARQQPLSNSSPSSTPESS Q
Sbjct: 421 EVPFLARQQPLSNSSPSSTPESSVQ 445

BLAST of MELO.jh010184.1 vs. ExPASy TrEMBL
Match: A0A0A0KJI9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1)

HSP 1 Score: 828 bits (2138), Expect = 7.04e-302
Identity = 420/445 (94.38%), Postives = 432/445 (97.08%), Query Frame = 0

Query: 1   MSASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSN 60
           MS+SYCGYGFFVSDST+PSTSRAFISNS H +LSISSFSHPHRL LPPFRPP+IKKPH  
Sbjct: 1   MSSSYCGYGFFVSDSTIPSTSRAFISNSWHSNLSISSFSHPHRLHLPPFRPPHIKKPHIK 60

Query: 61  ANRKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAV 120
           A+R  TSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDE+ALDAANNGVAV
Sbjct: 61  ASRTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAV 120

Query: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180
           VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA
Sbjct: 121 VDLSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNA 180

Query: 181 ITLIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAG 240
           ITLIVSPVTRESIIRMLNKYIF+ADKVEIQDITNQTSLLVLVGPKSNQ MEDLNLGSIAG
Sbjct: 181 ITLIVSPVTRESIIRMLNKYIFVADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAG 240

Query: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300
           EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK
Sbjct: 241 EPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEK 300

Query: 301 LRIFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360
           LRI QGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL
Sbjct: 301 LRISQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQL 360

Query: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVV 420
           SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAAS+GD+VIVGE+T G VV
Sbjct: 361 SDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASVGDSVIVGENTIGKVV 420

Query: 421 EVPFLARQQPLSNSSPSSTPESSAQ 445
           EVPFLARQQPLSNSS S+TPESS Q
Sbjct: 421 EVPFLARQQPLSNSSSSNTPESSVQ 445

BLAST of MELO.jh010184.1 vs. ExPASy TrEMBL
Match: A0A6J1DYD6 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111025359 PE=3 SV=1)

HSP 1 Score: 748 bits (1931), Expect = 2.24e-270
Identity = 383/433 (88.45%), Postives = 396/433 (91.45%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           ASY  YG  +SDST+PSTSRAFIS+  HW LS SSFS PHRLQ   FR  NIKK  S AN
Sbjct: 2   ASYWSYGQSLSDSTIPSTSRAFISSPWHWGLSASSFSQPHRLQFTAFRARNIKKIDSKAN 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
           R +T FSALPFDLSPPPID+DLLE A +EGARISDDGIIETFHND++ALDAANNGVAVVD
Sbjct: 62  RLTTFFSALPFDLSPPPIDQDLLETAEIEGARISDDGIIETFHNDDEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGRLRVSG+DR QFLHNQSTANFESLRQGQGCST FVTPTARTIDIAQAWIMKNAIT
Sbjct: 122 LSHFGRLRVSGEDRYQFLHNQSTANFESLRQGQGCSTAFVTPTARTIDIAQAWIMKNAIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESIIRMLNKYIFLADKVEIQDIT  TSLLVLVGPKSNQ ME LNLG IAGEP
Sbjct: 182 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKHTSLLVLVGPKSNQIMEALNLGDIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGNVISEEGFSLL+SPAVAGPVWK LVSLGAVPMGS AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNVISEEGFSLLVSPAVAGPVWKTLVSLGAVPMGSEAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IFQGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFQGMPTPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGS ITIDGKRVGKLTSY PGRK  EHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSSITIDGKRVGKLTSYTPGRKGLEHFGLGYIKKRAASNGDTVIVGENTIGXVVEV 421

Query: 423 PFLARQQPLSNSS 435
           PFLARQQPLSNSS
Sbjct: 422 PFLARQQPLSNSS 434

BLAST of MELO.jh010184.1 vs. ExPASy TrEMBL
Match: A0A6J1JI89 (putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111486027 PE=3 SV=1)

HSP 1 Score: 730 bits (1884), Expect = 2.13e-263
Identity = 380/443 (85.78%), Postives = 397/443 (89.62%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           ASY  YGF VSD+ +PSTSRAFISN             P RL+LP FRP NI+KPH+ AN
Sbjct: 2   ASYWSYGFSVSDAAIPSTSRAFISNL-----------QPCRLRLPAFRPRNIRKPHTKAN 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
           R  TSFSALPFDLSPPPIDEDLLEAA  EGARISDDGIIETFHND++ALDAANNGVAVVD
Sbjct: 62  RIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGR+RVSG+DR QFL NQSTANFESL QGQGCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 122 LSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESI +MLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQ ME LNLGSIAGEP
Sbjct: 182 LIVSPVTRESISQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGN+ISEEGFSLLISP V+GPVWK LVSLGAVPMGS AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNIISEEGFSLLISPVVSGPVWKTLVSLGAVPMGSGAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IFQGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGSPITIDGK+VGKLTSY PGRK  EHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLGYIKKRAASSGDTVIVGENTIGRVVEV 421

Query: 423 PFLARQQPLSNSSPSSTPESSAQ 445
           PFLARQ PLSNSS S+ P SS Q
Sbjct: 422 PFLARQPPLSNSS-SNLPRSSVQ 432

BLAST of MELO.jh010184.1 vs. ExPASy TrEMBL
Match: A0A6J1EI20 (putative transferase At1g60990, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111434553 PE=3 SV=1)

HSP 1 Score: 727 bits (1876), Expect = 3.53e-262
Identity = 379/443 (85.55%), Postives = 396/443 (89.39%), Query Frame = 0

Query: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62
           ASY  YGF VSD+ +PSTSRAFISN             P RL+LP FRP NI+KPH+ AN
Sbjct: 2   ASYWSYGFSVSDAAIPSTSRAFISNP-----------RPCRLRLPAFRPRNIRKPHTKAN 61

Query: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122
           R  TSFSALPFDLSPPPIDEDLLEAA  EGARISDDGIIETFHND++ALDAANNGVAVVD
Sbjct: 62  RIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVVD 121

Query: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182
           LSHFGR+RVSG+DR QFL NQSTANFESL QGQGCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 122 LSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 181

Query: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEP 242
           LIVSPVTRESII+MLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQ ME LNLGSIAGEP
Sbjct: 182 LIVSPVTRESIIQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 241

Query: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302
           YGTHQHFSVNGMPITVGVGN+ISEEGFSLLISPAV+G VWK LVSLGAVPMGS AWEKLR
Sbjct: 242 YGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVSGSVWKTLVSLGAVPMGSDAWEKLR 301

Query: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362
           IFQGMP+PQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD
Sbjct: 302 IFQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 361

Query: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEV 422
           SVEPGSPITIDGK+VGKLTSY PGRK  EHFGLGYIKK+AAS GDTVIVGE+T G VVEV
Sbjct: 362 SVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLGYIKKRAASCGDTVIVGENTIGRVVEV 421

Query: 423 PFLARQQPLSNSSPSSTPESSAQ 445
           PFLA Q PLSNSS S+ P  S Q
Sbjct: 422 PFLAGQPPLSNSS-SNLPRRSVQ 432

BLAST of MELO.jh010184.1 vs. TAIR 10
Match: AT1G60990.1 (Glycine cleavage T-protein family )

HSP 1 Score: 536.2 bits (1380), Expect = 2.5e-152
Identity = 262/373 (70.24%), Postives = 308/373 (82.57%), Query Frame = 0

Query: 65  STSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVDLS 124
           S S  +L FD SPPPID D L+  +V G ++S+DG++E+F ND++ALDA +NGV VVDLS
Sbjct: 60  SASSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDDEALDAFDNGVVVVDLS 119

Query: 125 HFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLI 184
           HFGR+RVSGDDR  FLHNQ+TANFESL +GQGC TVFVTPTARTIDIA AWIMKNAI L 
Sbjct: 120 HFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTARTIDIAHAWIMKNAILLT 179

Query: 185 VSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEPYG 244
           VSP T +SII MLNKYIF ADKVEI+DIT QT L  L GPKSNQ M  LNLG + G+PYG
Sbjct: 180 VSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQIMSKLNLGDLIGQPYG 239

Query: 245 THQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIF 304
            HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ GA+PMGS AWEKLRI 
Sbjct: 240 RHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEGAIPMGSVAWEKLRIT 299

Query: 305 QGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSV 364
           QG P+P++EL+ EFNVLEAGLWNSISLNKGCYKGQETI+RL+TYDG+KQRL GL LS   
Sbjct: 300 QGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTYDGIKQRLCGLNLSAPS 359

Query: 365 EPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEVPF 424
           EPGS IT+DGK+VGKLTSY  G+  S HFGLGYIKK+AASIG+TV VGED +G+V EVP+
Sbjct: 360 EPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNTVTVGEDISGIVSEVPY 419

Query: 425 LARQQPLSNSSPS 438
           LARQ P S +S S
Sbjct: 420 LARQHPPSANSSS 432

BLAST of MELO.jh010184.1 vs. TAIR 10
Match: AT1G60990.2 (Glycine cleavage T-protein family )

HSP 1 Score: 536.2 bits (1380), Expect = 2.5e-152
Identity = 262/373 (70.24%), Postives = 308/373 (82.57%), Query Frame = 0

Query: 65  STSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVDLS 124
           S S  +L FD SPPPID D L+  +V G ++S+DG++E+F ND++ALDA +NGV VVDLS
Sbjct: 60  SASSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDDEALDAFDNGVVVVDLS 119

Query: 125 HFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLI 184
           HFGR+RVSGDDR  FLHNQ+TANFESL +GQGC TVFVTPTARTIDIA AWIMKNAI L 
Sbjct: 120 HFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTARTIDIAHAWIMKNAILLT 179

Query: 185 VSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEPYG 244
           VSP T +SII MLNKYIF ADKVEI+DIT QT L  L GPKSNQ M  LNLG + G+PYG
Sbjct: 180 VSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQIMSKLNLGDLIGQPYG 239

Query: 245 THQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIF 304
            HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ GA+PMGS AWEKLRI 
Sbjct: 240 RHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEGAIPMGSVAWEKLRIT 299

Query: 305 QGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSV 364
           QG P+P++EL+ EFNVLEAGLWNSISLNKGCYKGQETI+RL+TYDG+KQRL GL LS   
Sbjct: 300 QGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTYDGIKQRLCGLNLSAPS 359

Query: 365 EPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEVPF 424
           EPGS IT+DGK+VGKLTSY  G+  S HFGLGYIKK+AASIG+TV VGED +G+V EVP+
Sbjct: 360 EPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNTVTVGEDISGIVSEVPY 419

Query: 425 LARQQPLSNSSPS 438
           LARQ P S +S S
Sbjct: 420 LARQHPPSANSSS 432

BLAST of MELO.jh010184.1 vs. TAIR 10
Match: AT1G60990.3 (Glycine cleavage T-protein family )

HSP 1 Score: 536.2 bits (1380), Expect = 2.5e-152
Identity = 262/373 (70.24%), Postives = 308/373 (82.57%), Query Frame = 0

Query: 65  STSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVDLS 124
           S S  +L FD SPPPID D L+  +V G ++S+DG++E+F ND++ALDA +NGV VVDLS
Sbjct: 60  SASSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDDEALDAFDNGVVVVDLS 119

Query: 125 HFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAITLI 184
           HFGR+RVSGDDR  FLHNQ+TANFESL +GQGC TVFVTPTARTIDIA AWIMKNAI L 
Sbjct: 120 HFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTARTIDIAHAWIMKNAILLT 179

Query: 185 VSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQTMEDLNLGSIAGEPYG 244
           VSP T +SII MLNKYIF ADKVEI+DIT QT L  L GPKSNQ M  LNLG + G+PYG
Sbjct: 180 VSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQIMSKLNLGDLIGQPYG 239

Query: 245 THQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIF 304
            HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ GA+PMGS AWEKLRI 
Sbjct: 240 RHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEGAIPMGSVAWEKLRIT 299

Query: 305 QGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSV 364
           QG P+P++EL+ EFNVLEAGLWNSISLNKGCYKGQETI+RL+TYDG+KQRL GL LS   
Sbjct: 300 QGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTYDGIKQRLCGLNLSAPS 359

Query: 365 EPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGMVVEVPF 424
           EPGS IT+DGK+VGKLTSY  G+  S HFGLGYIKK+AASIG+TV VGED +G+V EVP+
Sbjct: 360 EPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNTVTVGEDISGIVSEVPY 419

Query: 425 LARQQPLSNSSPS 438
           LARQ P S +S S
Sbjct: 420 LARQHPPSANSSS 432

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
TYK13394.10.099.10putative transferase [Cucumis melo var. makuwa][more]
XP_004140110.11.45e-30194.38putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN4... [more]
XP_038887599.12.96e-28991.20putative transferase At1g60990, chloroplastic [Benincasa hispida][more]
XP_022158902.14.62e-27088.45LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic [Momordica ch... [more]
KAG7022574.12.19e-26385.55putative transferase, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma][more]
Match NameE-valueIdentityDescription
Q681Y33.6e-15170.24Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN... [more]
Q1AR899.1e-2225.55Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129... [more]
Q5WF301.0e-2025.78Aminomethyltransferase OS=Bacillus clausii (strain KSM-K16) OX=66692 GN=gcvT PE=... [more]
B8D1D72.5e-1925.15Aminomethyltransferase OS=Halothermothrix orenii (strain H 168 / OCM 544 / DSM 9... [more]
Q65HF97.2e-1923.44Aminomethyltransferase OS=Bacillus licheniformis (strain ATCC 14580 / DSM 13 / J... [more]
Match NameE-valueIdentityDescription
A0A5D3CQT80.099.10Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496... [more]
A0A0A0KJI97.04e-30294.38Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1[more]
A0A6J1DYD62.24e-27088.45LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic OS=Momordica ... [more]
A0A6J1JI892.13e-26385.78putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC... [more]
A0A6J1EI203.53e-26285.55putative transferase At1g60990, chloroplastic OS=Cucurbita moschata OX=3662 GN=L... [more]
Match NameE-valueIdentityDescription
AT1G60990.12.5e-15270.24Glycine cleavage T-protein family [more]
AT1G60990.22.5e-15270.24Glycine cleavage T-protein family [more]
AT1G60990.32.5e-15270.24Glycine cleavage T-protein family [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR027266GTP-binding protein TrmE/Glycine cleavage system T protein, domain 1GENE3D3.30.1360.120Probable tRNA modification gtpase trme; domain 1coord: 98..414
e-value: 1.4E-68
score: 233.7
IPR006222Aminomethyltransferase, folate-binding domainPFAMPF01571GCV_Tcoord: 115..314
e-value: 1.1E-26
score: 93.7
IPR013977Glycine cleavage T-protein, C-terminal barrel domainPFAMPF08669GCV_T_Ccoord: 343..401
e-value: 1.0E-7
score: 31.7
IPR017703YgfZ/GcvT conserved siteTIGRFAMTIGR03317TIGR03317coord: 286..348
e-value: 1.9E-18
score: 64.2
NoneNo IPR availablePANTHERPTHR13847:SF262MALATE:QUINONE OXIDOREDUCTASEcoord: 120..423
NoneNo IPR availablePANTHERPTHR13847SARCOSINE DEHYDROGENASE-RELATEDcoord: 120..423
NoneNo IPR availableSUPERFAMILY103025Folate-binding domaincoord: 115..335
IPR029043Glycine cleavage T-protein/YgfZ, C-terminalSUPERFAMILY101790Aminomethyltransferase beta-barrel domaincoord: 343..414

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
MELO.jh010184.1.t1MELO.jh010184.1.t1mRNA
MELO.jh010184.1.t2MELO.jh010184.1.t2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005515 protein binding