Lcy06g012120 (gene) Sponge gourd (P93075) v1

Overview
NameLcy06g012120
Typegene
OrganismLuffa cylindrica cv. P93075 (Sponge gourd (P93075) v1)
DescriptionFUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: inflorescence meristem, flower, cultured cell; EXPRESSED DURING: petal differentiation and expansion stage; BEST Arabidopsis thaliana protein match is: glycine-rich protein .
LocationChr06: 15025481 .. 15042643 (+)
RNA-Seq ExpressionLcy06g012120
SyntenyLcy06g012120
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTGGGGTAGGGAGCTCTTTGAAAAGGGTTATAGGTGGCAAGTCGGAAATGAGATTAATATTGAAGCTGTGAAGGACCCATGGATCCCAAAGGAGGGCTCATATGTTGAGTACAGATCGTGCGACTGCTGGATACTGCCACTGAAGGGAACATGGAAATTTAATAGTGATGCGGCGTGGAACGAGAAGAGACAGCAAGGAGGTATCGGTCTTGATGATCTGGAATATGAGTGCACTGCTGATGTGTACTGTTTTTATTCCCTCTGTTTGCTGGCTGTTATTCTCCCATGTGCAGGGTTTCTCCACACTTTCCCTCTCGCTTCGTCTGAAATTTCGCCGTCGTCTCGTCCGATTTTGACCAGGAGGAAGAAATCCTTGACGCCGATGGAGATGACTCTAGCTACACTTCTGACCTTAAACTCTTCGTCAAAAATCTTCCTTTCAACGTCGACAGTGCTCAACTCGCCGGCTTGTTCGAAAGCGCCGGACAAGTTGAAAGGGTCGAGAGAGTTTGGTGGATTTCAATCTTATCTATTTTCATGTCACTCCACTGTGTTCTTTGCATATTACACTTCCACTAGAACTAGAAGGGTAGACAATGAGGGAGTATTACTTGAAGAGACAAAAGAAGCAGATAAGACAACAGGACAGACCACTGATAGGATCTCTAGAGGAATTCATGATAAAGGTCATTCAGTCACAAGGAAACTGAACCCAGATGGTAATGTGGACATATTGCAGACTCCGCACAATTTGAATGAAGAAGAGCTTGTTGGTTTTGACCAAGCATGGGAAGGTAGCTTTCAAGGGCATAAACAAGTTCCTAAAGGTGGATTTCATATGTGTGCCAATTCAGAATCTAGTGGCAGTAGAAACAGTTAG

Coding sequence (CDS)

ATGTGGGGTAGGGAGCTCTTTGAAAAGGGTTATAGGTGGCAAGTCGGAAATGAGATTAATATTGAAGCTGTGAAGGACCCATGGATCCCAAAGGAGGGCTCATATGTTGAGTACAGATCGTGCGACTGCTGGATACTGCCACTGAAGGGAACATGGAAATTTAATAGTGATGCGGCGTGGAACGAGAAGAGACAGCAAGGAGGTATCGGTCTTGATGATCTGGAATATGAGTGCACTGCTGATGTGTACTGTTTTTATTCCCTCTGTTTGCTGGCTGTTATTCTCCCATGTGCAGGGTTTCTCCACACTTTCCCTCTCGCTTCGTCTGAAATTTCGCCGTCGTCTCGTCCGATTTTGACCAGGAGGAAGAAATCCTTGACGCCGATGGAGATGACTCTAGCTACACTTCTGACCTTAAACTCTTCGTCAAAAATCTTCCTTTCAACGTCGACAGTGCTCAACTCGCCGGCTTGTTCGAAAGCGCCGGACAAGTTGAAAGGGTCGAGAGAGTTTGGTGGATTTCAATCTTATCTATTTTCATGTCACTCCACTGTGTTCTTTGCATATTACACTTCCACTAGAACTAGAAGGGTAGACAATGAGGGAGTATTACTTGAAGAGACAAAAGAAGCAGATAAGACAACAGGACAGACCACTGATAGGATCTCTAGAGGAATTCATGATAAAGGTCATTCAGTCACAAGGAAACTGAACCCAGATGGTAATGTGGACATATTGCAGACTCCGCACAATTTGAATGAAGAAGAGCTTGTTGGTTTTGACCAAGCATGGGAAGGTAGCTTTCAAGGGCATAAACAAGTTCCTAAAGGTGGATTTCATATGTGTGCCAATTCAGAATCTAGTGGCAGTAGAAACAGTTAG

Protein sequence

MWGRELFEKGYRWQVGNEINIEAVKDPWIPKEGSYVEYRSCDCWILPLKGTWKFNSDAAWNEKRQQGGIGLDDLEYECTADVYCFYSLCLLAVILPCAGFLHTFPLASSEISPSSRPILTRRKKSLTPMEMTLATLLTLNSSSKIFLSTSTVLNSPACSKAPDKLKGSREFGGFQSYLFSCHSTVFFAYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQTPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRNS
Homology
BLAST of Lcy06g012120 vs. ExPASy TrEMBL
Match: A0A6J1KXU0 (uncharacterized protein LOC111499178 OS=Cucurbita maxima OX=3661 GN=LOC111499178 PE=3 SV=1)

HSP 1 Score: 184.9 bits (468), Expect = 4.9e-43
Identity = 89/105 (84.76%), Postives = 97/105 (92.38%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VD+LQ
Sbjct: 165 AYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDVLQ 224

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM  ++ESSGSRN
Sbjct: 225 TLHNLNEEELAGFEKAWKGNFQGHQSVPKGGFHMDPSAESSGSRN 269

BLAST of Lcy06g012120 vs. ExPASy TrEMBL
Match: A0A6J1H4K0 (uncharacterized protein LOC111459979 OS=Cucurbita moschata OX=3662 GN=LOC111459979 PE=3 SV=1)

HSP 1 Score: 184.9 bits (468), Expect = 4.9e-43
Identity = 89/105 (84.76%), Postives = 97/105 (92.38%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VD+LQ
Sbjct: 165 AYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDVLQ 224

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM  ++ESSGSRN
Sbjct: 225 TLHNLNEEELAGFEKAWKGNFQGHQNVPKGGFHMDPSAESSGSRN 269

BLAST of Lcy06g012120 vs. ExPASy TrEMBL
Match: A0A0A0KBL3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G077410 PE=3 SV=1)

HSP 1 Score: 172.2 bits (435), Expect = 3.3e-39
Identity = 90/123 (73.17%), Postives = 101/123 (82.11%), Query Frame = 0

Query: 175 QSYLFSCHST---VFFAYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGH 234
           +S + SC  T   V  AYY+STRTRRVDNEGVLLEETKEADKTTGQ T R+SRGIHDKGH
Sbjct: 146 KSSIHSCKVTYGGVDGAYYSSTRTRRVDNEGVLLEETKEADKTTGQATHRVSRGIHDKGH 205

Query: 235 SVTRKLNPDGNVDILQTPHNLNEEELVGFDQAWEGSFQGHKQVPKGGF-HMCANSESSGS 294
           SVTRKLNPDG VD++QT HNL+E EL GF+QAW G+FQGH+QVP  GF HM  N +SSGS
Sbjct: 206 SVTRKLNPDGKVDVVQTLHNLDEGELPGFEQAWNGNFQGHRQVPNAGFHHMDPNFDSSGS 265

BLAST of Lcy06g012120 vs. ExPASy TrEMBL
Match: A0A6J1DCR4 (uncharacterized protein LOC111019539 OS=Momordica charantia OX=3673 GN=LOC111019539 PE=3 SV=1)

HSP 1 Score: 172.2 bits (435), Expect = 3.3e-39
Identity = 84/105 (80.00%), Postives = 90/105 (85.71%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTR  DNEGVLLEETKEADKTTGQ   RISRGIHDKGHSVTRKLN DG VD LQ
Sbjct: 109 AYYTSTRTRTTDNEGVLLEETKEADKTTGQAIHRISRGIHDKGHSVTRKLNSDGKVDTLQ 168

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEE L GFD+AW+G+FQGHK VP+GGFH   N+ES+GSRN
Sbjct: 169 TLHNLNEEVLAGFDRAWKGNFQGHKHVPRGGFHTDGNAESNGSRN 213

BLAST of Lcy06g012120 vs. ExPASy TrEMBL
Match: A0A1S3CC93 (uncharacterized protein LOC103499022 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499022 PE=3 SV=1)

HSP 1 Score: 169.9 bits (429), Expect = 1.6e-38
Identity = 88/123 (71.54%), Postives = 100/123 (81.30%), Query Frame = 0

Query: 175 QSYLFSCHST---VFFAYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGH 234
           +S + SC  T   V  AYY+STRTRRVDNEGVLLEETKEADKTTGQ T R+SRGIHDKGH
Sbjct: 149 KSSVHSCKVTYGGVDGAYYSSTRTRRVDNEGVLLEETKEADKTTGQATHRVSRGIHDKGH 208

Query: 235 SVTRKLNPDGNVDILQTPHNLNEEELVGFDQAWEGSFQGHKQVPKGGF-HMCANSESSGS 294
           SVTRKLNPDG VD++QT HNL+EEEL GF+QAW G+FQGH+ +P  GF HM  N ES GS
Sbjct: 209 SVTRKLNPDGKVDVVQTLHNLDEEELPGFEQAWNGNFQGHRHIPDAGFHHMDPNFESRGS 268

BLAST of Lcy06g012120 vs. NCBI nr
Match: XP_038906615.1 (uncharacterized protein LOC120092566 [Benincasa hispida])

HSP 1 Score: 186.0 bits (471), Expect = 4.5e-43
Identity = 92/106 (86.79%), Postives = 96/106 (90.57%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYY+STRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VDI+Q
Sbjct: 122 AYYSSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDIVQ 181

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRNS 294
           T HNLNEEEL GFDQAW G+FQGHK VPKG FHM  N+ESSGSRNS
Sbjct: 182 TLHNLNEEELPGFDQAWNGNFQGHKHVPKGQFHMDPNAESSGSRNS 227

BLAST of Lcy06g012120 vs. NCBI nr
Match: XP_023547679.1 (uncharacterized protein LOC111806546 [Cucurbita pepo subsp. pepo] >XP_023547681.1 uncharacterized protein LOC111806546 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 185.7 bits (470), Expect = 5.9e-43
Identity = 95/121 (78.51%), Postives = 103/121 (85.12%), Query Frame = 0

Query: 175 QSYLFSCHST---VFFAYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGH 234
           +S L +C  T   V  AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGH
Sbjct: 149 KSSLHTCKVTYGGVDGAYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGH 208

Query: 235 SVTRKLNPDGNVDILQTPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSR 293
           SVTRKLNPDG VD+LQT HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM   SESSGSR
Sbjct: 209 SVTRKLNPDGKVDVLQTLHNLNEEELAGFEKAWKGNFQGHQNVPKGGFHMDPTSESSGSR 268

BLAST of Lcy06g012120 vs. NCBI nr
Match: XP_022958824.1 (uncharacterized protein LOC111459979 [Cucurbita moschata] >XP_022958825.1 uncharacterized protein LOC111459979 [Cucurbita moschata])

HSP 1 Score: 184.9 bits (468), Expect = 1.0e-42
Identity = 89/105 (84.76%), Postives = 97/105 (92.38%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VD+LQ
Sbjct: 165 AYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDVLQ 224

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM  ++ESSGSRN
Sbjct: 225 TLHNLNEEELAGFEKAWKGNFQGHQNVPKGGFHMDPSAESSGSRN 269

BLAST of Lcy06g012120 vs. NCBI nr
Match: KAG7013376.1 (hypothetical protein SDJN02_23540 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 184.9 bits (468), Expect = 1.0e-42
Identity = 89/105 (84.76%), Postives = 97/105 (92.38%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VD+LQ
Sbjct: 165 AYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDVLQ 224

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM  ++ESSGSRN
Sbjct: 225 TLHNLNEEELAGFEKAWKGNFQGHQNVPKGGFHMDPSAESSGSRN 269

BLAST of Lcy06g012120 vs. NCBI nr
Match: XP_023006456.1 (uncharacterized protein LOC111499178 [Cucurbita maxima] >XP_023006457.1 uncharacterized protein LOC111499178 [Cucurbita maxima])

HSP 1 Score: 184.9 bits (468), Expect = 1.0e-42
Identity = 89/105 (84.76%), Postives = 97/105 (92.38%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRRVDNEGVLLEETKEADKTTGQ T RISRGIHDKGHSVTRKLNPDG VD+LQ
Sbjct: 165 AYYTSTRTRRVDNEGVLLEETKEADKTTGQATHRISRGIHDKGHSVTRKLNPDGKVDVLQ 224

Query: 248 TPHNLNEEELVGFDQAWEGSFQGHKQVPKGGFHMCANSESSGSRN 293
           T HNLNEEEL GF++AW+G+FQGH+ VPKGGFHM  ++ESSGSRN
Sbjct: 225 TLHNLNEEELAGFEKAWKGNFQGHQSVPKGGFHMDPSAESSGSRN 269

BLAST of Lcy06g012120 vs. TAIR 10
Match: AT2G45380.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: inflorescence meristem, flower, cultured cell; EXPRESSED DURING: petal differentiation and expansion stage; BEST Arabidopsis thaliana protein match is: Calcium-binding EF-hand family protein (TAIR:AT4G34070.1); Has 171 Blast hits to 170 proteins in 31 species: Archae - 2; Bacteria - 0; Metazoa - 68; Fungi - 0; Plants - 94; Viruses - 0; Other Eukaryotes - 7 (source: NCBI BLink). )

HSP 1 Score: 117.5 bits (293), Expect = 1.8e-26
Identity = 55/80 (68.75%), Postives = 69/80 (86.25%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRR D +G+++EE+KEADKTTG+ T RISRGI+DKGHSVTRKLN  G V+  Q
Sbjct: 362 AYYTSTRTRRKDGDGMVVEESKEADKTTGEATHRISRGINDKGHSVTRKLNSSGGVESTQ 421

Query: 248 TPHNLNEEELVGFDQAWEGS 268
           T HNL+E+EL GF++AW+G+
Sbjct: 422 TLHNLDEDELSGFEEAWKGN 441

BLAST of Lcy06g012120 vs. TAIR 10
Match: AT2G45380.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: inflorescence meristem, flower, cultured cell; EXPRESSED DURING: petal differentiation and expansion stage; BEST Arabidopsis thaliana protein match is: glycine-rich protein (TAIR:AT4G22740.2); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 117.5 bits (293), Expect = 1.8e-26
Identity = 55/80 (68.75%), Postives = 69/80 (86.25%), Query Frame = 0

Query: 188 AYYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQ 247
           AYYTSTRTRR D +G+++EE+KEADKTTG+ T RISRGI+DKGHSVTRKLN  G V+  Q
Sbjct: 54  AYYTSTRTRRKDGDGMVVEESKEADKTTGEATHRISRGINDKGHSVTRKLNSSGGVESTQ 113

Query: 248 TPHNLNEEELVGFDQAWEGS 268
           T HNL+E+EL GF++AW+G+
Sbjct: 114 TLHNLDEDELSGFEEAWKGN 133

BLAST of Lcy06g012120 vs. TAIR 10
Match: AT4G22740.1 (glycine-rich protein )

HSP 1 Score: 104.4 bits (259), Expect = 1.6e-22
Identity = 47/87 (54.02%), Postives = 65/87 (74.71%), Query Frame = 0

Query: 189 YYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQT 248
           YYTS++TRR  ++G+ LEE++EA+  T +    ISRG+H+KGH+V RKLN DG VD  QT
Sbjct: 221 YYTSSKTRRTGSDGLTLEESREANTATREAAHMISRGLHNKGHTVARKLNSDGRVDTTQT 280

Query: 249 PHNLNEEELVGFDQAWEGSFQGHKQVP 276
            HNLNE+EL GF+Q+W G+ +   Q+P
Sbjct: 281 LHNLNEDELAGFEQSWSGNARRQMQLP 307

BLAST of Lcy06g012120 vs. TAIR 10
Match: AT4G22740.2 (glycine-rich protein )

HSP 1 Score: 104.4 bits (259), Expect = 1.6e-22
Identity = 47/87 (54.02%), Postives = 65/87 (74.71%), Query Frame = 0

Query: 189 YYTSTRTRRVDNEGVLLEETKEADKTTGQTTDRISRGIHDKGHSVTRKLNPDGNVDILQT 248
           YYTS++TRR  ++G+ LEE++EA+  T +    ISRG+H+KGH+V RKLN DG VD  QT
Sbjct: 221 YYTSSKTRRTGSDGLTLEESREANTATREAAHMISRGLHNKGHTVARKLNSDGRVDTTQT 280

Query: 249 PHNLNEEELVGFDQAWEGSFQGHKQVP 276
            HNLNE+EL GF+Q+W G+ +   Q+P
Sbjct: 281 LHNLNEDELAGFEQSWSGNARRQMQLP 307

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
Match NameE-valueIdentityDescription
A0A6J1KXU04.9e-4384.76uncharacterized protein LOC111499178 OS=Cucurbita maxima OX=3661 GN=LOC111499178... [more]
A0A6J1H4K04.9e-4384.76uncharacterized protein LOC111459979 OS=Cucurbita moschata OX=3662 GN=LOC1114599... [more]
A0A0A0KBL33.3e-3973.17Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G077410 PE=3 SV=1[more]
A0A6J1DCR43.3e-3980.00uncharacterized protein LOC111019539 OS=Momordica charantia OX=3673 GN=LOC111019... [more]
A0A1S3CC931.6e-3871.54uncharacterized protein LOC103499022 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
Match NameE-valueIdentityDescription
XP_038906615.14.5e-4386.79uncharacterized protein LOC120092566 [Benincasa hispida][more]
XP_023547679.15.9e-4378.51uncharacterized protein LOC111806546 [Cucurbita pepo subsp. pepo] >XP_023547681.... [more]
XP_022958824.11.0e-4284.76uncharacterized protein LOC111459979 [Cucurbita moschata] >XP_022958825.1 unchar... [more]
KAG7013376.11.0e-4284.76hypothetical protein SDJN02_23540 [Cucurbita argyrosperma subsp. argyrosperma][more]
XP_023006456.11.0e-4284.76uncharacterized protein LOC111499178 [Cucurbita maxima] >XP_023006457.1 uncharac... [more]
Match NameE-valueIdentityDescription
AT2G45380.11.8e-2668.75FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknow... [more]
AT2G45380.21.8e-2668.75FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknow... [more]
AT4G22740.11.6e-2254.02glycine-rich protein [more]
AT4G22740.21.6e-2254.02glycine-rich protein [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR019376Myeloid leukemia factorPFAMPF10248Mlf1IPcoord: 189..265
e-value: 7.6E-11
score: 42.3
IPR019376Myeloid leukemia factorPANTHERPTHR13105MYELOID LEUKEMIA FACTORcoord: 188..289
NoneNo IPR availablePANTHERPTHR13105:SF16MYELOID LEUKEMIA FACTORcoord: 188..289

Relationships

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

Feature NameUnique NameType
Lcy06g012120.1Lcy06g012120.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0005737 cytoplasm