Lcy09g009020 (gene) Sponge gourd (P93075) v1

Overview
NameLcy09g009020
Typegene
OrganismLuffa cylindrica cv. P93075 (Sponge gourd (P93075) v1)
DescriptionCTP_transf_like domain-containing protein
LocationChr09: 8796617 .. 8818474 (-)
RNA-Seq ExpressionLcy09g009020
SyntenyLcy09g009020
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTGGCGTCGTTTTGAGGGGAGGAAACTGGAAGAGAGTGGTGAGTGGTAGAAGGAGAAGCGATGGCGGATACGTGGGTCAGAGCTGCCGTCGATGCCATTCACTTGAATCCGATTCAGGCTGTTCTCTACCTTTCCGGCGGCGCTTCTCAGGCTGTTGGATGGTTGCTCTCAGTTCCTGGAGCTTCCGGCACAGTCCTCGAGGCCGTCGTCCCTTACTCCAGGCATTCCATGAACCAGTTACTCGGCAAGGTCCCCTCTCAATTTTGCAGCCGAAAAACTGCAGAGGAAATGGCTTTGCTGGCCTATAATCGTGCTCTGAAGCTATCTAGGCCAGGTTATCCTGTTCTTGGTGTTGGTTTTACTGGTTCTTTGGCTACCACACATCCAAAATTTGGTGATCACAGGATGCATATGTCAACAAGATCATCTAACCGACACTGGGTTTCCACAATCACACTATCAAAGGGTTTACGTACTCGGGAGCAAGAGGAGTTACTCGCAAGTCATCTTTTGCTTAAGGCAATTGCAAACGCTTGTAAAGTTCCTGGAACCTTTGTTTCAGATTTGACTCAATCTGATTTATTAGAAGAATGTGAAACGCTATTCACTGAGGATGAAGAATTAGAGCAACTTATAAGGGGGGAAGTTTGCTTTAAGGTCTATCCATTTTTTAGTGAGACCTGTACATTAGATGCCGAAAGAAAAATAATACTTTCGGGTTCTTTTAATCCTTTACATGATGGTCACCTCAAGCTTTTAGAGGTTGCAACCAGCATCTGTGGTGATGGGTATCCTTGTTTTGAAATATCAGCCGTGAATGCTGATAAACCACCACTGTCAGTATCTCAAATCAAGGATCGTGTGGAGCAATTTAAAAAAGTTGGAAAGTCAGTAATCATTTCTAATCAGCCTTACTTTTACAAGAAAGCCGAACTTTTTCCTGGTAGTGCTTTTGTAATTGGTGCTGACACTGCAGTAAGGTTGATAGATCCCAAATACTATGATGGGAATTACATGAAGATGCTCGAAATTTTGCTTCGAATAAAAAACACAGGGTGCACTTTCCTTGTGGGTGGTCGAAATATAAATGGTGTTTTCAAAGTTCTTGAAGATGTTGACATTCCAGAAGAGATAAGAGACATGTTTATCTCAATACCTGCAGACAAATTTCGTATGGACATTTCCTCCACCCAAATAAGAAAACAACTTGAAATTTAATCTTCTAGGTGACTTATTGCTGCCAGAGCTTGGAAGTGACAGGCAATGCTCCATTTCGATCAGGAAATTGTTATGTTGAGCTAAAACGAGAATTTGGAGTTAATCGGGTGCTCGGAACGCTAAAAGGAGGCAAAAGAAATTAATTAAAAAGGAATTAGAAGCTGTCCAATCCGAGAAGGAAGTATGCTGGAATTTGGCGTAGCGTCGCGACGCTCTCGGTTTTCCTTATTCAGAATATGCGGCAAAGGCACAGTGTCGCGACGCTATGTCCATAGCGTCGCGATGCTATCGGCAGATTTCCTATAAAATATTCTTTTTGAGCTACGGATTGAAGGAGCCCAATTGGTTAGATTTTAGC

Coding sequence (CDS)

ATGGCGGATACGTGGGTCAGAGCTGCCGTCGATGCCATTCACTTGAATCCGATTCAGGCTGTTCTCTACCTTTCCGGCGGCGCTTCTCAGGCTGTTGGATGGTTGCTCTCAGTTCCTGGAGCTTCCGGCACAGTCCTCGAGGCCGTCGTCCCTTACTCCAGGCATTCCATGAACCAGTTACTCGGCAAGGTCCCCTCTCAATTTTGCAGCCGAAAAACTGCAGAGGAAATGGCTTTGCTGGCCTATAATCGTGCTCTGAAGCTATCTAGGCCAGGTTATCCTGTTCTTGGTGTTGGTTTTACTGGTTCTTTGGCTACCACACATCCAAAATTTGGTGATCACAGGATGCATATGTCAACAAGATCATCTAACCGACACTGGGTTTCCACAATCACACTATCAAAGGGTTTACGTACTCGGGAGCAAGAGGAGTTACTCGCAAGTCATCTTTTGCTTAAGGCAATTGCAAACGCTTGTAAAGTTCCTGGAACCTTTGTTTCAGATTTGACTCAATCTGATTTATTAGAAGAATGTGAAACGCTATTCACTGAGGATGAAGAATTAGAGCAACTTATAAGGGGGGAAGTTTGCTTTAAGGTCTATCCATTTTTTAGTGAGACCTGTACATTAGATGCCGAAAGAAAAATAATACTTTCGGGTTCTTTTAATCCTTTACATGATGGTCACCTCAAGCTTTTAGAGGTTGCAACCAGCATCTGTGGTGATGGGTATCCTTGTTTTGAAATATCAGCCGTGAATGCTGATAAACCACCACTGTCAGTATCTCAAATCAAGGATCGTGTGGAGCAATTTAAAAAAGTTGGAAAGTCAGTAATCATTTCTAATCAGCCTTACTTTTACAAGAAAGCCGAACTTTTTCCTGGTAGTGCTTTTGTAATTGGTGCTGACACTGCAGTAAGGTTGATAGATCCCAAATACTATGATGGGAATTACATGAAGATGCTCGAAATTTTGCTTCGAATAAAAAACACAGGGTGCACTTTCCTTGTGGGTGGTCGAAATATAAATGGTGTTTTCAAAGTTCTTGAAGATGTTGACATTCCAGAAGAGATAAGAGACATGTTTATCTCAATACCTGCAGACAAATTTCGTATGGACATTTCCTCCACCCAAATAAGAAAACAACTTGAAATTTAA

Protein sequence

MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQLLGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMSTRSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECETLFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSICGDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVIGADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRDMFISIPADKFRMDISSTQIRKQLEI
Homology
[Close]
BLAST of Lcy09g009020 vs. ExPASy Swiss-Prot
Match: Q7NE64 (Probable nicotinate-nucleotide adenylyltransferase OS=Gloeobacter violaceus (strain ATCC 29082 / PCC 7421) OX=251221 GN=nadD PE=3 SV=1)

HSP 1 Score: 52.8 bits (125), Expect = 1.0e-05
Identity = 52/191 (27.23%), Postives = 83/191 (43.46%), Query Frame = 0 

Query: 213 ERKIILSGSFNPLHDGHLKLLEVATSICGDGYPCFEISAVNADKPPLSVSQIKDRVEQFK 272
           ER  I  G+FNP+H GHL +   A   CG     +  +A    KP    + I DRVE  +
Sbjct: 3   ERLGIFGGTFNPVHRGHLAMARAARDRCGLDQILWVPAAQPPHKPLAGGASIGDRVEMVR 62

Query: 273 -----KVGKSVIISNQPYFYKKAELFPGSAFVIGADTAVRLIDPKY----------YDG- 332
                + G ++ + +           PG ++ I  DT +RL++ +Y           DG 
Sbjct: 63  LAIAGEAGMALSLVDARR--------PGPSYAI--DT-LRLLEEQYPQAQWHWLLGQDGL 122

Query: 333 ----NYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRDMFISIPADKFRM 384
                + +  E++ R     C ++V  R  +G        D+ E    +F  +P   F  
Sbjct: 123 ADLPGWYRAAELIPR-----CRWIVVPRPGSGADPKQAMADLTERFGAVF--VPLSDFEC 175

[Close]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match: A0A5D3BLW5 (CTP_transf_2 domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1728G00050 PE=4 SV=1)

HSP 1 Score: 707.2 bits (1824), Expect = 3.7e-200
Identity = 349/385 (90.65%), Postives = 367/385 (95.32%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MADTW RAA DAIHL P QAVLYLSGGASQA+GWLLSVPGASGTVLEA+VPYSR+SM QL
Sbjct: 1   MADTWARAAADAIHLTPTQAVLYLSGGASQAIGWLLSVPGASGTVLEALVPYSRNSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQFCSR+TAEEMALLAYNRALKLSRPGYPVLGV FTGSLATTHPK GDHRMHMST
Sbjct: 61  LGKVPSQFCSRRTAEEMALLAYNRALKLSRPGYPVLGVSFTGSLATTHPKLGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           RSSNRHWVSTITLSKGLRTREQEE+L+ HLLLKAIANACKVPGTFVSDLTQSDL+EECET
Sbjct: 121 RSSNRHWVSTITLSKGLRTREQEEILSGHLLLKAIANACKVPGTFVSDLTQSDLVEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LFTEDEELEQLI+GEVCFKVYPF SET T DAE+KIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFTEDEELEQLIKGEVCFKVYPFLSETLTSDAEKKIILSGSFNPLHDGHIKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
            DGYPCFE+SAVNADKPPLSVSQIKDRVEQFKK+GKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 SDGYPCFELSAVNADKPPLSVSQIKDRVEQFKKIGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEIL+RIKNT  TFLV GR+INGVFKVLED+DIP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILIRIKNTEVTFLVAGRDINGVFKVLEDIDIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFI IPADKFRMDISSTQIRKQL I
Sbjct: 361 MFIPIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match: A0A1S3CSY7 (uncharacterized protein LOC103504595 OS=Cucumis melo OX=3656 GN=LOC103504595 PE=4 SV=1)

HSP 1 Score: 707.2 bits (1824), Expect = 3.7e-200
Identity = 349/385 (90.65%), Postives = 367/385 (95.32%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MADTW RAA DAIHL P QAVLYLSGGASQA+GWLLSVPGASGTVLEA+VPYSR+SM QL
Sbjct: 1   MADTWARAAADAIHLTPTQAVLYLSGGASQAIGWLLSVPGASGTVLEALVPYSRNSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQFCSR+TAEEMALLAYNRALKLSRPGYPVLGV FTGSLATTHPK GDHRMHMST
Sbjct: 61  LGKVPSQFCSRRTAEEMALLAYNRALKLSRPGYPVLGVSFTGSLATTHPKLGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           RSSNRHWVSTITLSKGLRTREQEE+L+ HLLLKAIANACKVPGTFVSDLTQSDL+EECET
Sbjct: 121 RSSNRHWVSTITLSKGLRTREQEEILSGHLLLKAIANACKVPGTFVSDLTQSDLVEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LFTEDEELEQLI+GEVCFKVYPF SET T DAE+KIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFTEDEELEQLIKGEVCFKVYPFLSETLTSDAEKKIILSGSFNPLHDGHIKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
            DGYPCFE+SAVNADKPPLSVSQIKDRVEQFKK+GKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 SDGYPCFELSAVNADKPPLSVSQIKDRVEQFKKIGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEIL+RIKNT  TFLV GR+INGVFKVLED+DIP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILIRIKNTEVTFLVAGRDINGVFKVLEDIDIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFI IPADKFRMDISSTQIRKQL I
Sbjct: 361 MFIPIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match: A0A6J1FHZ1 (uncharacterized protein LOC111445506 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111445506 PE=4 SV=1)

HSP 1 Score: 701.0 bits (1808), Expect = 2.7e-198
Identity = 352/385 (91.43%), Postives = 367/385 (95.32%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M DT V+AAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSR SM QL
Sbjct: 1   MTDTLVKAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRPSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQ CSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 61  LGKVPSQCCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R +NR WVSTITLSKGLRTREQEE+L+SHLLLKAIA+ACKVPGTFVSDLT+SDLLEECET
Sbjct: 121 RLANRRWVSTITLSKGLRTREQEEILSSHLLLKAIASACKVPGTFVSDLTRSDLLEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LF+EDEELEQL  GEVCFKVYPF  ET T DAERKIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFSEDEELEQLKSGEVCFKVYPFLRETFTTDAERKIILSGSFNPLHDGHVKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFE+SAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 GGGYPCFELSAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIKNTG TFLVGGRNINGVFKVLEDV+IP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILLRIKNTGATFLVGGRNINGVFKVLEDVEIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 361 MFISIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match: A0A6J1JW61 (uncharacterized protein LOC111489421 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111489421 PE=4 SV=1)

HSP 1 Score: 700.3 bits (1806), Expect = 4.5e-198
Identity = 350/385 (90.91%), Postives = 367/385 (95.32%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M DT V+AAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSR SM QL
Sbjct: 1   MTDTLVKAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRPSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQ CSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 61  LGKVPSQCCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R +NR WVSTITLSKGLRTREQEE+L+SHLLL+AIA+ACKVPGTFVSDLT+SDLLEECET
Sbjct: 121 RLANRRWVSTITLSKGLRTREQEEILSSHLLLEAIASACKVPGTFVSDLTRSDLLEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LF+EDEELEQLI GEVCFKVYPF  ET T DAERK+ILSGSFNPLHDGH+KLLEVAT IC
Sbjct: 181 LFSEDEELEQLISGEVCFKVYPFLRETFTTDAERKVILSGSFNPLHDGHVKLLEVATGIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFE+SAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 GGGYPCFELSAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIKNTG TFLVGGRNINGVFKVLEDV+IP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILLRIKNTGATFLVGGRNINGVFKVLEDVEIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 361 MFISIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match: A0A6J1DHD5 (uncharacterized protein LOC111020072 OS=Momordica charantia OX=3673 GN=LOC111020072 PE=4 SV=1)

HSP 1 Score: 696.4 bits (1796), Expect = 6.6e-197
Identity = 345/384 (89.84%), Postives = 362/384 (94.27%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MADTWVRAAVDA+H NP QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSRHSM QL
Sbjct: 1   MADTWVRAAVDAVHSNPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRHSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQFCS KT EEMALLAYNRALKLS PGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 61  LGKVPSQFCSLKTTEEMALLAYNRALKLSSPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           RSSNRHWVST+TLSKGLRTR+QEE+L+ HLLLKAIANACKVPGTFV DLTQSDLL+ECET
Sbjct: 121 RSSNRHWVSTVTLSKGLRTRQQEEILSGHLLLKAIANACKVPGTFVPDLTQSDLLDECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LFTED+ELEQ+IRGEVCFKVYPF SE    +AERKIILSGSFNPLHDGHLKLLEVATSIC
Sbjct: 181 LFTEDQELEQIIRGEVCFKVYPFLSEEYASNAERKIILSGSFNPLHDGHLKLLEVATSIC 240

Query: 241 G-DGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFV 300
           G DGYPCFEISAVNADKPPLSVSQIKDRVE+FK VGKSVIISNQPYFYKKAELFPGSAFV
Sbjct: 241 GDDGYPCFEISAVNADKPPLSVSQIKDRVEKFKNVGKSVIISNQPYFYKKAELFPGSAFV 300

Query: 301 IGADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIR 360
           IGADTA RLIDPKYYDG+Y KML+IL+R K+TGCTFLVGGRNI+GVFKVLED  IPEE+R
Sbjct: 301 IGADTAARLIDPKYYDGDYKKMLDILVRCKSTGCTFLVGGRNIDGVFKVLEDFKIPEELR 360

Query: 361 DMFISIPADKFRMDISSTQIRKQL 384
           DMFI IP DKFRMDISSTQIRKQL
Sbjct: 361 DMFIPIPPDKFRMDISSTQIRKQL 384

[Close]
BLAST of Lcy09g009020 vs. NCBI nr
Match: XP_038906633.1 (uncharacterized protein LOC120092580 isoform X1 [Benincasa hispida])

HSP 1 Score: 713.4 bits (1840), Expect = 1.1e-201
Identity = 350/385 (90.91%), Postives = 372/385 (96.62%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MADTW RAAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEA+VPYSRHSM QL
Sbjct: 1   MADTWARAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEALVPYSRHSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQFCSR+T EE+ALLAYNRALKLSRPGYPVLGVGFTGSLATTHPK GDHRMHMST
Sbjct: 61  LGKVPSQFCSRRTVEELALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKIGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           RSSNRHWVSTITLSKGLRTREQEE+L+ HLL+KAIA+ACKVPGTFVSDLT+SDLLE+ ET
Sbjct: 121 RSSNRHWVSTITLSKGLRTREQEEILSGHLLIKAIADACKVPGTFVSDLTESDLLEDSET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LFTEDEELEQLI+GEVCFKVYPF SET T DAERKIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFTEDEELEQLIKGEVCFKVYPFLSETFTSDAERKIILSGSFNPLHDGHVKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           GDGYPCFEISAVNADKPPLSVSQIKDR+EQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 GDGYPCFEISAVNADKPPLSVSQIKDRIEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIK+TG TFLVGGRN+NG+FKVLED+DIP+E++D
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILLRIKSTGSTFLVGGRNVNGIFKVLEDIDIPQELKD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 361 MFISIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. NCBI nr
Match: XP_008467184.1 (PREDICTED: uncharacterized protein LOC103504595 [Cucumis melo] >TYK00264.1 CTP_transf_2 domain-containing protein [Cucumis melo var. makuwa])

HSP 1 Score: 707.2 bits (1824), Expect = 7.7e-200
Identity = 349/385 (90.65%), Postives = 367/385 (95.32%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MADTW RAA DAIHL P QAVLYLSGGASQA+GWLLSVPGASGTVLEA+VPYSR+SM QL
Sbjct: 1   MADTWARAAADAIHLTPTQAVLYLSGGASQAIGWLLSVPGASGTVLEALVPYSRNSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQFCSR+TAEEMALLAYNRALKLSRPGYPVLGV FTGSLATTHPK GDHRMHMST
Sbjct: 61  LGKVPSQFCSRRTAEEMALLAYNRALKLSRPGYPVLGVSFTGSLATTHPKLGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           RSSNRHWVSTITLSKGLRTREQEE+L+ HLLLKAIANACKVPGTFVSDLTQSDL+EECET
Sbjct: 121 RSSNRHWVSTITLSKGLRTREQEEILSGHLLLKAIANACKVPGTFVSDLTQSDLVEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LFTEDEELEQLI+GEVCFKVYPF SET T DAE+KIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFTEDEELEQLIKGEVCFKVYPFLSETLTSDAEKKIILSGSFNPLHDGHIKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
            DGYPCFE+SAVNADKPPLSVSQIKDRVEQFKK+GKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 SDGYPCFELSAVNADKPPLSVSQIKDRVEQFKKIGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEIL+RIKNT  TFLV GR+INGVFKVLED+DIP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILIRIKNTEVTFLVAGRDINGVFKVLEDIDIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFI IPADKFRMDISSTQIRKQL I
Sbjct: 361 MFIPIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. NCBI nr
Match: XP_023550267.1 (uncharacterized protein LOC111808493 isoform X1 [Cucurbita pepo subsp. pepo] >XP_023550268.1 uncharacterized protein LOC111808493 isoform X1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 703.4 bits (1814), Expect = 1.1e-198
Identity = 353/385 (91.69%), Postives = 368/385 (95.58%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M DT V+AAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSR SM QL
Sbjct: 1   MTDTLVKAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRPSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQ CSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 61  LGKVPSQCCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R SNR WVSTITLSKGLRTREQEE+L+SHLLL+AIA+ACKVPGTFVSDLT+SDLLEECET
Sbjct: 121 RLSNRRWVSTITLSKGLRTREQEEILSSHLLLEAIASACKVPGTFVSDLTRSDLLEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LF+EDEELEQLI GEVCFKVYPF  ET T DAERKIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFSEDEELEQLISGEVCFKVYPFLRETFTTDAERKIILSGSFNPLHDGHVKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFE+SAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 GGGYPCFELSAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIKNTG TFLVGGRNINGVFKVLEDV+IP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILLRIKNTGATFLVGGRNINGVFKVLEDVEIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 361 MFISIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. NCBI nr
Match: KAG7016735.1 (hypothetical protein SDJN02_21845 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 703.4 bits (1814), Expect = 1.1e-198
Identity = 352/385 (91.43%), Postives = 368/385 (95.58%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M DT V+AAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSR SM QL
Sbjct: 1   MTDTLVKAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRPSMIQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQ CSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 61  LGKVPSQCCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R +NR WVSTITLSKGLRTREQEE+L+SHLLLKAIA+ACKVPGTFVSDLT+SDLLEECET
Sbjct: 121 RLANRRWVSTITLSKGLRTREQEEILSSHLLLKAIASACKVPGTFVSDLTRSDLLEECET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LF+EDEELEQLI GEVCFKVYPF  ET T DAERKIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 181 LFSEDEELEQLISGEVCFKVYPFLRETFTTDAERKIILSGSFNPLHDGHVKLLEVATSIC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFE+SAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 241 GGGYPCFELSAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIKNTG TFLVGGRNING+FKVLEDV+IP+E+RD
Sbjct: 301 GADTAVRLIDPKYYDGDYKKMLEILLRIKNTGATFLVGGRNINGIFKVLEDVEIPQELRD 360

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 361 MFISIPADKFRMDISSTQIRKQLGI 385

[Close]
BLAST of Lcy09g009020 vs. NCBI nr
Match: KAG6579222.1 (hypothetical protein SDJN03_23670, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 702.2 bits (1811), Expect = 2.5e-198
Identity = 352/385 (91.43%), Postives = 368/385 (95.58%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M DT V+AAVDAIHL+P QAVLYLSGGASQA+GWLLSVPGASGTVLEAVVPYSR SM QL
Sbjct: 43  MTDTLVKAAVDAIHLSPTQAVLYLSGGASQAIGWLLSVPGASGTVLEAVVPYSRPSMIQL 102

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LGKVPSQ CSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST
Sbjct: 103 LGKVPSQCCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 162

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R +NR WVSTITLSKGLRTREQEE+L+SHLLLKAIA+ACKVPGTFVSDLT+SDLLEECET
Sbjct: 163 RLANRRWVSTITLSKGLRTREQEEILSSHLLLKAIASACKVPGTFVSDLTRSDLLEECET 222

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
           LF+EDEEL+QLI GEVCFKVYPF  ET T DAERKIILSGSFNPLHDGH+KLLEVATSIC
Sbjct: 223 LFSEDEELKQLISGEVCFKVYPFLRETFTTDAERKIILSGSFNPLHDGHVKLLEVATSIC 282

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFE+SAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI
Sbjct: 283 GGGYPCFELSAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 342

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTAVRLIDPKYYDG+Y KMLEILLRIKNTG TFLVGGRNINGVFKVLEDV+IP+E+RD
Sbjct: 343 GADTAVRLIDPKYYDGDYKKMLEILLRIKNTGATFLVGGRNINGVFKVLEDVEIPQELRD 402

Query: 361 MFISIPADKFRMDISSTQIRKQLEI 386
           MFISIPADKFRMDISSTQIRKQL I
Sbjct: 403 MFISIPADKFRMDISSTQIRKQLGI 427

[Close]
BLAST of Lcy09g009020 vs. TAIR 10
Match: AT2G01220.2 (Nucleotidylyl transferase superfamily protein )

HSP 1 Score: 540.0 bits (1390), Expect = 1.5e-153
Identity = 265/382 (69.37%), Postives = 322/382 (84.29%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M D  +R  V+AIH +P QAV+YL GGAS A+GWL+SVPGAS T+LE+VVPYSR SM QL
Sbjct: 1   MGDAAIRTVVEAIHSSPTQAVVYLCGGASLALGWLMSVPGASNTLLESVVPYSRVSMVQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LG+VPSQ CS+  A+EMALLAYNRALKLS+PGYPVLGVGFTGSL T+ PK GDHR  +S 
Sbjct: 61  LGRVPSQHCSQALAKEMALLAYNRALKLSKPGYPVLGVGFTGSLVTSRPKRGDHRFFLSM 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R+S+R   S++TL+K LR+RE+E+ ++S  L++A+A AC+V GT  S LT+S++  E ET
Sbjct: 121 RASDRILESSVTLTKNLRSREEEDKVSSCALIQAMAKACQVSGTLDSGLTESEVPYESET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
            FTE++ELEQLI G +C K+YPF  E    D +RKIIL GSFNPLH+GHLKLLEVA S+C
Sbjct: 181 HFTEEQELEQLINGHLCCKIYPFSGEAHGSDEDRKIILPGSFNPLHEGHLKLLEVAMSVC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFEISA+NADKPPL+++QIKDRV+QF+ VGK++I+SNQPYFYKKAELFPGS+FVI
Sbjct: 241 GGGYPCFEISAINADKPPLTIAQIKDRVKQFEVVGKTIIVSNQPYFYKKAELFPGSSFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTA RL++PKYY+G+  +MLEIL   K TGCTFLVGGRN++GVFKVLEDVDIPEEI D
Sbjct: 301 GADTAARLVNPKYYEGSIKRMLEILGDCKRTGCTFLVGGRNVDGVFKVLEDVDIPEEIID 360

Query: 361 MFISIPADKFRMDISSTQIRKQ 383
           MFISIPAD FRMDISST+IRK+
Sbjct: 361 MFISIPADIFRMDISSTEIRKK 382

[Close]
BLAST of Lcy09g009020 vs. TAIR 10
Match: AT2G01220.1 (Nucleotidylyl transferase superfamily protein )

HSP 1 Score: 535.0 bits (1377), Expect = 4.9e-152
Identity = 265/382 (69.37%), Postives = 322/382 (84.29%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           M D  +R  V+AIH +P QAV+YL GGAS A+GWL+SVPGAS T+LE+VVPYSR SM QL
Sbjct: 1   MGDAAIRTVVEAIHSSPTQAVVYLCGGASLALGWLMSVPGASNTLLESVVPYSRVSMVQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LG+VPSQ CS+  A+EMALLAYNRALKLS+PGYPVLGVGFTGSL T+ PK GDHR  +S 
Sbjct: 61  LGRVPSQHCSQALAKEMALLAYNRALKLSKPGYPVLGVGFTGSLVTSRPKRGDHRFFLSM 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R+S+R   S++TL+K LR+RE+E+ ++S  L++A+A AC+V GT  S LT+S++  E ET
Sbjct: 121 RASDRILESSVTLTKNLRSREEEDKVSSCALIQAMAKACQVSGTLDSGLTESEVPYESET 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
            FTE++ELEQLI G +C K+YP FS     D +RKIIL GSFNPLH+GHLKLLEVA S+C
Sbjct: 181 HFTEEQELEQLINGHLCCKIYP-FSGAHGSDEDRKIILPGSFNPLHEGHLKLLEVAMSVC 240

Query: 241 GDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFVI 300
           G GYPCFEISA+NADKPPL+++QIKDRV+QF+ VGK++I+SNQPYFYKKAELFPGS+FVI
Sbjct: 241 GGGYPCFEISAINADKPPLTIAQIKDRVKQFEVVGKTIIVSNQPYFYKKAELFPGSSFVI 300

Query: 301 GADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIRD 360
           GADTA RL++PKYY+G+  +MLEIL   K TGCTFLVGGRN++GVFKVLEDVDIPEEI D
Sbjct: 301 GADTAARLVNPKYYEGSIKRMLEILGDCKRTGCTFLVGGRNVDGVFKVLEDVDIPEEIID 360

Query: 361 MFISIPADKFRMDISSTQIRKQ 383
           MFISIPAD FRMDISST+IRK+
Sbjct: 361 MFISIPADIFRMDISSTEIRKK 381

[Close]
BLAST of Lcy09g009020 vs. TAIR 10
Match: AT3G27610.1 (Nucleotidylyl transferase superfamily protein )

HSP 1 Score: 495.7 bits (1275), Expect = 3.3e-140
Identity = 244/382 (63.87%), Postives = 313/382 (81.94%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MA++ +R  V++IH +P QAV+YLSGGASQ++GWL+SVPGAS T+LEAVVPYS  SM QL
Sbjct: 1   MAESAIRTIVESIHSSPTQAVVYLSGGASQSLGWLMSVPGASNTLLEAVVPYSMISMVQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LG+VP+Q CS+  A EMALLAYNRALKLS+PG  VLGVGFTG+LAT+ PK GDHR  +S 
Sbjct: 61  LGRVPNQHCSQSMANEMALLAYNRALKLSKPGCAVLGVGFTGTLATSRPKRGDHRFFLSI 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R+SNR W +++TL+KG R+RE+E+ +AS +L++A+A AC+V  T  S LT S++L E   
Sbjct: 121 RASNRIWETSVTLTKGKRSREEEDKVASSVLIQAMAKACQVSETLDSGLTDSEVLNESVI 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFFSETCTLDAERKIILSGSFNPLHDGHLKLLEVATSIC 240
            F+E+EELEQLI G++C K+YPF  E+   D +RKIIL GSFNPLHDG LKLLE A S+ 
Sbjct: 181 QFSEEEELEQLIDGQICSKIYPFSKESYGSDKDRKIILPGSFNPLHDGDLKLLEAAMSVS 240

Query: 241 GD-GYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAFV 300
            + GYPCFEISA+NADKP L+V++IKDRV+QF+ + K+VI+SNQP+FYKKAELFPGS+FV
Sbjct: 241 EEGGYPCFEISALNADKPSLTVTEIKDRVKQFEVLEKTVIVSNQPFFYKKAELFPGSSFV 300

Query: 301 IGADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEIR 360
           IGADTA R+++PKYY+G++ +MLE+L   K TGC FLVGGRN++ VFKVL+D +IP+EI 
Sbjct: 301 IGADTAARIVNPKYYEGSHKRMLEVLGDCKRTGCKFLVGGRNVDSVFKVLDDHEIPKEIS 360

Query: 361 DMFISIPADKFRMDISSTQIRK 382
            MF SI AD FRMDISST++RK
Sbjct: 361 TMFTSISADTFRMDISSTELRK 382

[Close]
BLAST of Lcy09g009020 vs. TAIR 10
Match: AT3G27610.2 (Nucleotidylyl transferase superfamily protein )

HSP 1 Score: 491.5 bits (1264), Expect = 6.2e-139
Identity = 244/383 (63.71%), Postives = 314/383 (81.98%), Query Frame = 0 

Query: 1   MADTWVRAAVDAIHLNPIQAVLYLSGGASQAVGWLLSVPGASGTVLEAVVPYSRHSMNQL 60
           MA++ +R  V++IH +P QAV+YLSGGASQ++GWL+SVPGAS T+LEAVVPYS  SM QL
Sbjct: 1   MAESAIRTIVESIHSSPTQAVVYLSGGASQSLGWLMSVPGASNTLLEAVVPYSMISMVQL 60

Query: 61  LGKVPSQFCSRKTAEEMALLAYNRALKLSRPGYPVLGVGFTGSLATTHPKFGDHRMHMST 120
           LG+VP+Q CS+  A EMALLAYNRALKLS+PG  VLGVGFTG+LAT+ PK GDHR  +S 
Sbjct: 61  LGRVPNQHCSQSMANEMALLAYNRALKLSKPGCAVLGVGFTGTLATSRPKRGDHRFFLSI 120

Query: 121 RSSNRHWVSTITLSKGLRTREQEELLASHLLLKAIANACKVPGTFVSDLTQSDLLEECET 180
           R+SNR W +++TL+KG R+RE+E+ +AS +L++A+A AC+V  T  S LT S++L E   
Sbjct: 121 RASNRIWETSVTLTKGKRSREEEDKVASSVLIQAMAKACQVSETLDSGLTDSEVLNESVI 180

Query: 181 LFTEDEELEQLIRGEVCFKVYPFF-SETCTLDAERKIILSGSFNPLHDGHLKLLEVATSI 240
            F+E+EELEQLI G++C K+YPF  +E+   D +RKIIL GSFNPLHDG LKLLE A S+
Sbjct: 181 QFSEEEELEQLIDGQICSKIYPFSKAESYGSDKDRKIILPGSFNPLHDGDLKLLEAAMSV 240

Query: 241 CGD-GYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKAELFPGSAF 300
             + GYPCFEISA+NADKP L+V++IKDRV+QF+ + K+VI+SNQP+FYKKAELFPGS+F
Sbjct: 241 SEEGGYPCFEISALNADKPSLTVTEIKDRVKQFEVLEKTVIVSNQPFFYKKAELFPGSSF 300

Query: 301 VIGADTAVRLIDPKYYDGNYMKMLEILLRIKNTGCTFLVGGRNINGVFKVLEDVDIPEEI 360
           VIGADTA R+++PKYY+G++ +MLE+L   K TGC FLVGGRN++ VFKVL+D +IP+EI
Sbjct: 301 VIGADTAARIVNPKYYEGSHKRMLEVLGDCKRTGCKFLVGGRNVDSVFKVLDDHEIPKEI 360

Query: 361 RDMFISIPADKFRMDISSTQIRK 382
             MF SI AD FRMDISST++RK
Sbjct: 361 STMFTSISADTFRMDISSTELRK 383

The following BLAST results are available for this feature:
BLAST of Lcy09g009020 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q7NE641.0e-0527.23Probable nicotinate-nucleotide adenylyltransferase OS=Gloeobacter violaceus (str... [more]
BLAST of Lcy09g009020 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5D3BLW53.7e-20090.65CTP_transf_2 domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN... [more]
A0A1S3CSY73.7e-20090.65uncharacterized protein LOC103504595 OS=Cucumis melo OX=3656 GN=LOC103504595 PE=... [more]
A0A6J1FHZ12.7e-19891.43uncharacterized protein LOC111445506 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1JW614.5e-19890.91uncharacterized protein LOC111489421 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1DHD56.6e-19789.84uncharacterized protein LOC111020072 OS=Momordica charantia OX=3673 GN=LOC111020... [more]
BLAST of Lcy09g009020 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038906633.11.1e-20190.91uncharacterized protein LOC120092580 isoform X1 [Benincasa hispida][more]
XP_008467184.17.7e-20090.65PREDICTED: uncharacterized protein LOC103504595 [Cucumis melo] >TYK00264.1 CTP_t... [more]
XP_023550267.11.1e-19891.69uncharacterized protein LOC111808493 isoform X1 [Cucurbita pepo subsp. pepo] >XP... [more]
KAG7016735.11.1e-19891.43hypothetical protein SDJN02_21845 [Cucurbita argyrosperma subsp. argyrosperma][more]
KAG6579222.12.5e-19891.43hypothetical protein SDJN03_23670, partial [Cucurbita argyrosperma subsp. sorori... [more]
BLAST of Lcy09g009020 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G01220.21.5e-15369.37Nucleotidylyl transferase superfamily protein [more]
AT2G01220.14.9e-15269.37Nucleotidylyl transferase superfamily protein [more]
AT3G27610.13.3e-14063.87Nucleotidylyl transferase superfamily protein [more]
AT3G27610.26.2e-13963.71Nucleotidylyl transferase superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR004821Cytidyltransferase-like domainPFAMPF01467CTP_transf_likecoord: 218..381
e-value: 3.3E-9
score: 37.1
IPR014729Rossmann-like alpha/beta/alpha sandwich foldGENE3D3.40.50.620HUPscoord: 211..384
e-value: 2.9E-17
score: 64.8
IPR036653CinA-like, C-terminalGENE3D3.90.950.20coord: 23..160
e-value: 1.7E-6
score: 29.5
NoneNo IPR availablePANTHERPTHR31285NICOTINAMIDE MONONUCLEOTIDE ADENYLYLTRANSFERASEcoord: 6..383
NoneNo IPR availableSUPERFAMILY52374Nucleotidylyl transferasecoord: 214..383

Relationships

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

Feature NameUnique NameType
Lcy09g009020.1Lcy09g009020.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0034356 NAD biosynthesis via nicotinamide riboside salvage pathway
biological_process GO:0009058 biosynthetic process
cellular_component GO:0005737 cytoplasm
cellular_component GO:0005634 nucleus
molecular_function GO:0016887 ATP hydrolysis activity
molecular_function GO:0000309 nicotinamide-nucleotide adenylyltransferase activity
molecular_function GO:0003824 catalytic activity