Lsi06G002020 (gene) Bottle gourd (USVL1VR-Ls) v1

Overview
NameLsi06G002020
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls) v1)
Descriptionprotein MON2 homolog isoform X2
Locationchr06: 2224477 .. 2242515 (+)
RNA-Seq ExpressionLsi06G002020
SyntenyLsi06G002020
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.
ATGGCAAAGGTGAAGAAGGAAGGCTCCACCAATCACTCCAAAAGGAGCTGCAACAACCCAAAACACACACAGTGACTGGAACGGTACCAAAAAGTAAATTTCAACCAGTGCTTGTTGAAAAAATGCTGGATAGAAGCTTGTTACTTCCATTTCCATCTATCTTGTGTTTTACAGAAATGCTCCCCCCTCTCTCCTCTCTCCCAATCTAACCTTCCATAACTGTCCCTCCGCCATGGTTTCCACCGTGCAACTGCCGTCTGCCTCCTATCCCAGCCGTTCCATCCTCATTGATCGGAAAGTCTTCACGCTGCATTGTGATAAAACAACTAACGGCCAATCGGTGATAATCACTGAACAAGGAACATCATCCACACAATCCCTCAGCCTCTCTTTGAAAGCACTTGATTGGCTGGTCTCCTCGTTCAATTCTCTCCATCGAGACCCATGCAATTACAAGTTCTTCAAGAAGTTCAATGATGTTGATGCTACTCTTTGGCTGGAAAAACAAATCAACGAAAGTGGCTACTTTGTTGAATTAACCCACCTATACCACATAAGGCATCGAACCAAATTATTTATCCCATGAGAAGATAAGAAACAGGGCTGGTTCTCATTTTTCTCTCCCCCCCTAGTCACAAGACTGTGGTCCAATCAAAACCCATTGGTAAAGCATCTCCAAGGATTCAATTGCCGAAAGGCACTCCACTGCCCTCTATCTCAACAACCAATGCTCATTATCTTCCTCAATTTGATTGGTCTTCTATGGTGGTGGTGCAACGACATAAATTATAGGATTCCTGGTCAGACATGGTTGAAGATTCAATTCTCGCTGGGAACTCGTTGTACTATCAACCCATTCCTTGATGAAAAGGATCTGTTACTTGTCTACGACTCACAGATTGTTTGAAAGAAACCAAAGAGTGTTTCACGATAAGTCAACTCCATGGTTAGATCGACTGGAGATTGCTAGGCTCAATGCCTCCTCTTGGTGTTCCCTCTCCAAAGAATATGCGGATTTCTCACTACAAGATATTAGCCTTAATTGGAAGGCTTTTATTGTTCCAGCTCAATAATTGTGATATGTAACAGAGAGTATGCTTTAAATTTGTTCTAGTATGGATGTTTGTAATTTTTGGTTGGTGATGTGTATTTTCCAGCATAGTAATTTGTTCAATACTTGGGCTGGAAGTGTTTTTTAGTTGTGTCCCATTGTATTTGGGATGTCTTTTCTTATACATTTGAACTTCTATGTGGTATTGGTTCGTGGTGTTCTTATTAAAAATGAACGAGGTTTGCTCTCTTTATTTTGTTTTGGATATGATGAAGAGTGCTATGGGAGTGTCAACATAGTTGAGATGTCCGGGTGCACTTGCTGATCCTAAGGTGTTTATATTGGTACCCCTCATTGTAACTTGAGCATTAGTCTCATTTCATTACTTCAATGAAGATACTTGTTTCCTTTGAAAAAAAAAAAAAAAAACCAACCAAGACTTATTTAAAAAGACCAATCTGGGACCATCAACAACCTTCTTTCGAAGAGCTTCAACTATACAATCAAGAAATACTATTCCAGGATCTACTTCCAATCAACCGACCAAGAAGGATGATCCAAATGCTAAGCAACCGAATACAGAAGGAGCTGAGTCTAATCTTCCAAAGAGAAATCCGAATCCTTGCAATCGTCCAACCTTGGGCAAGTTCTTTCGATGTGGTCAACAAGGCCACCTCTCTAATGAATGTCCCCAACGCAGAACCTTGGCAATTCAAGAAGAAAAGCAGATGATGAAGATGGCATTGTTGATGAGAACACAAATGGGCTTGCATACGACCAAATGACGACGACTAGCTTTCATGTGTTCTTCAAAGAGTTATGTTGATCATTGATAGTGGGAGCAGCGAAACTATTGTATCCAAGAAGCTCGTTTCTGCCCTTAATTTGAAAGCTGAGCCACATTCGAATTCGTATAAGGTGAGTTGGATAAAAGGGGGGGGGGGGTGGCTTCTGTCTAAGAGATTTGCACAGTGCCCCTGTCTATAGGAAATTTGTACGAAGCTCAAATTACACGCGATGTCTTGGAAATGGATGCCTGTCACCTACTCTTGGGTCGCCCATGGCAATATGACAACAAGACATTCCACAATGGTGGAGACAATACATATGAATTCAGTTAGATGAGTAAGAAAGTGGTTCTACTTCCCCTCAGTAAGTCTACCACAACAAGTAAGGTACCTTCTTCTACAAAAAAGCAACTTTTTCTTTTATCTCCCGGCATAGATCTTTTATACTTTAAAGAGCAATCTCTTTTAGTGTTTGTTGTTAAAAAAAGATCCTTGTGAAACATCTAACCAAAACCAATTAGATCCCCAGATTTCCCATATTAAAAGAGTTCCCATCCCTCTTAGAAGAACCTAAGACTTTACCTCCACTAAGAAATATTCAACATCATATAGACTTAATATCGGGCGGTACCTTACCTAATTTACCACATTATTGTATGAGTCCTAAGGAATATGAAGCATTGCACACACAAATACATATTCTAGACAAAGAACATATACAACCTAGTCTTAGCCCATGTGCTATGCCCACATTACTTGCACCTAAAAAGGATGGCTCTTGGCGACTTTGTGTAGATAATAGGGCAATCAACAAAATCATAATCAAATATAGGTTTCCTATCCCATGTGTATTAGATTTATTAGATCAATTAGGAGGAGCATCAATTTTTTGTGGTGTGTGGGGTGTGCACGATCTTATGGGTTTTATGTGGTGAGCAAAATAGTAGAGTGTTTAGGGGAGTGGATAGGGATCCTTTGGATATTTGGTCCCTGGTTCATTTTCATGATTCATTGTGGGCTTCTGCTTTGTTCTCGAAGATTTTTTGCAATTATACTATTGACATGATTTTGCATAGTTGGAACTTGGAATCCCTTCTTGTAATGGGAGCTTCCCTTTTTTGTGAGCTTGTTTTTTGTATGCCCGTGTATTCTTTTGGAGTTGTAGCCTGGAGAGCATTACTTTTAGTGGCTGATTAGTAATCCAGTATTCCTCTCAAGATTCAAGATTACAACCTACTGTCAAAGTGCCAACTTTGAATTTGTCTGCAGTTCCTATGAGATATTGCAGAAGAAATGAATTTCCAAGGACTCTCCCACTAAAGCCAAATGTTTTATTAATACAAAAAGATTTTTTCCTCCTCCTAGGGGTTTTCCATTTCTCATATAATATGATAATAAAATCACTATTTTTAACTCATAATTGAGTTTCTAGTTATGTATGTATGTTTAATCATATATGTGTGTGTATATATGTATATATCAAGAAACAAAACTTTTCATTGATGGAAGGAAAAGAAGATTAAGTTTCTTTTTTCATATCTTTATTTATTTATTTATTTTTGTGGTACCAAAATTTAGTCACTTCTGTTGTAGGTAAGCAATACAATTTTTAGCTTCTTATGGAAAGGCTTTGAACAGCATTATACTGCTGCTCCATTTGTCTACATTAAAGCTTAGACTTCAAGAGAATCTGTCTACTGTATAACTATAGTTTTCCTTTTTTTTTTACCAAATGCAGGTTTTCCTCAGTATGTTATTGAAGGTTACTTTTCTTGATCTACCATTGTGGCATAGGATTCTTGTTCTTGAAAATTTGAGGGTAACTGTAATTAAGTAGAGTATATGTGAATTTGCGGTTATCTTAGATATATATATTTTGGGTAGAAGTTTCTAATAATTTGAATTTGTTGATCCTAATAGGGTTTTTGCATGGAGGCTAGAACTTTGCAGGTTCTTTTCCAGAACTTTGATATGTAAGCTTACTAACTCCAGTTTATTTTATATATTGTACATTCAATACACAATAGAAAATGCATGTTCATAAAGTTTAAAATCTTCGAAAATGCTATATAGTTATATAATTAAAAGAATTTATTTGGATCTCATGGAAAATATTGTAAAACATATGTGAGAGTACTAGTTAGGGATATATGGAGAAGATTAGTATGATACTAGTAAAGCTCATAATAAGTAATTAACTAGTAGTGTCTTGGGTATAAATAAGGGGAGTGTTGGACCTTAGAGGGTGTGGATGCTTTTGGTGGAGTTTCCATTGTGTGACTTTGGGAGAGACATAGTCATCTCAAAAGGCTATTGGTATATGGTAACTTCTCTTGATATTGCAATATATTGCTATCTTTGTATTCTTTGTGCTTCTTTGAGTTTTCTCATTAGGTGATATCCTGCAATTTAATAAAATAAATTGAAAAATAGTAATACTTCTTTTTTGGTTGAGGAGGATCTTCAGAATCTTTGATAACAATCATCTTCCTTGGCTTGCGCTCTTTGAATCTGCAAGTCTGAAAGCTTTCTATACGGGTTATCTATCCAACCTTTAGGCTTTTATTTTGCAAGATTGTCTGGATTGCGCTTAATTGGTTATCAATCCACCTTTGGCTCCAAAATCCAATCTTTTGTGGTCTTTTGCTGTTAAAACTTTTCATTATGAGTTACGTTTTGAAACAAATCAAAGCATCTTCCATATCAAACTCCTCAAAACCACTGTTTCCAACTGATACCAGATCATGTTAGTGATTTTAGCCTTCTTTTTTCAGCTTCAATTTCCAAGAATCTTCTTTATCCCTGCATTGAAATTTTTTTTCGGGGGGGGGGGGGGGGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTAAATTGGAAAGTTGAGCCCATCCTTTTTAAGCGACAAGGCAAATAAGGATGGACATTCATCCTTAAGAATCAGATTGTCCAACTATGAATCCATAAAAAAACTGAGTTTTGTTTTCCCTACCGGCATTGTGAGTGTCGACGTTGGGCTTGTAAAGGATTTGAAGAGGTTGTAATTCGAATTGATTAGAGGTTGATTGCTTTTAGTGGGAAGGACCTTGTGGAAGGTTCAGATCTCTTGACCTTTGTTTCCACAATTCTCCTACCGGCATTGTGAGTGATATTGTTGTAAACGTGGACACTGGACATTTACTTTATCAATATACTTTCAAGGCCCTTTAGCCAACTTTTTCTTGTTTTTTAAATGTAAAAACAATTGCGATGATTTGGTTGTTACATTCTTGGCACTTTTTCCCTTTAGAAATGGAATACTCAACGGTCATTGATTTTTTTCCATCCTGATTAGTAAATTTGATTTTTCTCAATAGTTTTTACAAAGATGTCAATTAGTGCTTCAGGATGAAGGCTTAGCATGGAAGAACCTTTTAGGTTTTCTTTTTTCTTGGGGGAGGCATCTGTATATTTTAGAGTATATTAATTACTGATTTTCATTGGTTTTGCAGGCATCCGAAAAACACAAATGTTGTTGAAGGCATCGTTAAATCCCTCGCTAGAGTTGTCTCCAATGTACAGGTATTTATTTAGATTGCTTGCCATTATCACCTTTTCAGGTAGCTTTGTGGCTGGGAGCCTGAGATAAATTAGTAAAAGGAGCAAAGCAAAAAATAGATGGAGAAAATGGGAAATTGAGAGTGGTTGAGAGAAAGGAATGAACACGAGGACACTGGATCGACCATTTGGTGTCCTTGTATTTTTTGCTTTAAGTATTCTCTATGTTGCGTCTGTATGTTTGGTTAGTGTTTCCTGTTCCTAAGGGGTTTAGCTTTTGGCCTATTGGTTCTCTTTTTACTATATACTAATCAAAAGATGTAAATATTGTAGGTCCACGAGACGAGTGAAGAAAGCTTGGCAGCTGTCGCAGGAATGTTTAGTAGCAAGGCCAAAGGTAACTATTTTCTTTATTTAACTTGCCTTGTTAATTCAAATTATCCCCTCTCTACGGGAACCCTGTTAGTTGTATTTTGCTTTCTTTTCCCACCATACGTCTGTTGCTACAATAAATCTCTCTTGGTCTATTATATTTTGTGCACATCTTTGTCTGGGAAGTTGTTTTTCCTCCATGTCATGTAATGAGAAGTATAAACTTTTGGGCGATAAACATTTCAGACATGCTAATCCTAATGAATTTTTAACTGCATGTAATTGATAATGCTAAACATCTAAACTAATTTATATGTTTTCTCAATCAAAATCTTTTAACTGCGTGTAATGAGGAGTATAAACTTATGGGCGAAGAATATTTCAGACATGGTAATCCTAATAAAATTGTAACTGCATGTACTTGATAATGCTAAACATCTAAACTTATTTCTATGTTTTCTCAATCAAAATTAAAGTACTCGATAAAATTCATTCTCAAATATGATATGGAGATTGTACTTTCTTACTCTAGCTAATATTTTGTTAAGGATTTAAAATTCTTCTATATATATGGATTTGTTCGGTCTAGATCAGAGTGACTCAAACTGTAGTCTACTGTTATACCTCTATTTGCCATCAGTGCTTACTATTCAGTCTTTTTTTTTAATCAGAAAAAGAATTCTACATGCCCTTCACTTATTATCCATGGAATCTGTTCTAGAGATTAAATTGGAATGTCAGGATATTTATTTTTTTAGTAAAAGAAACAATTTCATTGATAAATGAAAGTAGGGGAAATACTCCAAATACCAAGAGGTGATTACATCAAAGAACGCCAATTACTGACTAAAAAGGATGAGTTGAAATGACTAAAAGGGTGTTTAGTTTTACACCAAGAAAAAGCAGTAAACAAGACAGATTCCATAAAACGGTTGAAAGGAGTAAAAGAGTCATTGAAGAGCCGACTGTTTCGTTCACCCCACAATCTCGAGAAGAAAGCACGCAAAGGGCCAACCAAACTATCTCTTTTGTACCACCAAAAGGATGACCCACCAATAAAGAAGCCAGTGCATCAGAGATGGAATTAGGGCAAATGAAAGACCATCCAAAAGTAGACAAAACAAGATCCCAAAAGTTGGCAGCAAATGGACATTGCAAAAACAAGTGAACAGGGGATTCGACATGTTGTCGACACATGATGCACCAAGAAGGAGAAATACACATATAGGGAAATCGTCGCTGCAAACGATCAGCAGTGTTAATGGCACCCCAACTAAGCTCCCAAAGAAAAATTTTAATTTTCTTTGGATAGTGGTCCTTCCAAATCAACGCATACAGATCAGATAAAACAGAATCAGTAGCACCCACCAGATCAGTCATAAGTGATTTAACTGTAAAAGTCATAGATGAATCCAGAGGCCAAATCCAAGAATCAGGATAGGAGCGCAACCTGACAGAAGCCAAATGGTGTGACAAAGTAGCCCATTCTGCAATTTCCAATTCAGTAAGACTGCGACGAAGATTTAAGTTCCAGGCACTAGAGGAGGCAACCCACACATTAGCCACAGCAGTCTTCGGTTGCCAAGCAAGGTGAAAAAGCCTCGGAAACACAGTTGAAAGGACACCACAACTAAGCCAAGGATCATTCCAAAAAGAGGTAGTAGTACCATCACCAAGCCGACGATGAATACGATCAGCAACCAAATCAATGTATTGGCAAATACCTCCAAGGGGCTTTAGAAGGAGCACGAGAGATAGGAGTAGGCCACATACTATCAATAGGATAATATTTAGCCACAATAAATGTTTGCCATAAAGCATCTCGCTCGGAAAGAAACCACCAAGTCCACTTTGCAAGAAGGGAGGAATTACGGTGTTTGAAGTTTCCAATATCAAGACCTCTCGAAACTTGAGGGCGTTGAGAGATCCCCCAATTCACGTTATGCATACCACCATCCCCATGAGCACCTTCCCAAAAGAAATCACGAACCATCTTATCAAGGCAATTGATAACAGAGGAGGGAGCTTTGAACAAAGATAAATAATACGTGGGGCGATTAGATAGAGTAGCCTGAATGAGAGTGTGCCTACCACCTTTCGAGATATAAGCATATTTCCAATTATGAAGCTTGTGCTGAATTCTCTCCACCACCGGCTGCCAGAAATTGATAGAATTGGAGTTACCACGCAAAGGAAGCCCGAGATAAGTAGATGGCCAAAAACCCCTTTTGCAACCAAAAGAGTTCACCAACCATTCAAAATCTAAGTCCGGAACATGGATCCCAAGGAGCCCACTCTTTGCAAAATTAATTTTCAGCCCATAAGCAACTTCAAAGATATGGACAACATCAATCAAATTTTGAAGGGCAGGATGCTCAGCAGTGGAGAATAACGAAGTATCATATGCAAACTGTAAATGATTCAAAGAAAAAGTCGAGTTTCCAATAGGGTGTGCAACAGTGAGACCAAGCGAAGCACTATGATAAAGAAGGCGACTCAGGCAATCAACAACAATAATAAATAAGAAAGGGGAGAGAGGATCGCCTTGTCTAATACCCCTTGATGGAACAATCTTCCCCCGAGGACGACCATTAATAATAATAGAGTGATTAGCACTAGTGACACAACCTCTGATCCATGTATGCCAAAGATTACTAAAACTCTTAGCCTTGAGAATAGAGTCAAGAAGGCCTTCTCCAAATCAAGCTTCAGAACGACCCCTGCCTTCTTGTTGGAGGACCAATCATTAATAAGCTCGTTAGCCATCAAAGAGGTATCAAGAATTTGTCTGTTTGTCACAAATGCAAGCTGATTGGCTGCAATTGTAGAAGGGAGGAGCAACTTGAGACAATTCGATAAAACACAGGCCACAATCTTATTGCACATGGAATGAGACTAATAGGTCGGTAGTCAGAAACTGATTTAGAATCCACTTTTTTGGAATCAAACAAATATAAGTCTCATTCAACTTAACATTAACAACCCCAGAGGTATAAAAATCCTGTATCAACATCATCATGTCAGATTTAATGGTGGACCATAAAAATTTGAAAAATTCAGCTGTAAAACCATCCAGACCAGGAGATTTTCTTGTGTCAAGAGAGGAGATAGCTATATACACTTCCTCTTCTGTAAAAGGATGCTCCAAATCAGTAGTTTGTGTGGAAGAAATAGGACTCCAATCAAGGTTGGTTGGAAGGAAGCGCTGATGATTATCCTTTTTGAAAAGGGTAGAGTAAAAACCCAAGAATTCAGCCTCTATGTCTTGATCAATCAATAGACTAGTACCATTCCTGGAGAGAATTTCAATGATAGAACTTTTACGACGCCTAGCAGCAATGATTCTGTGAAAAAAACGGGTATTTTCCTCCCCTTCAAGAAGCCATTTAAGCTTACATCGTTGTTGCCAATGGATATGATCTTGAACAGTCAAATTTTAAATCTGTTCTCGAAGTAATCGACGCCTGATTATCTGTTCATTGCTAAGAGGACCGCGGTCTTCCATATCATCTAGTTGTGACAGTTGTGTTACAAGAGTGGGAAGTTTTGATGCTTCAGTACGTTGTGTAGCATTCCATTCACGGATAATCAATTTCAGACCTTGTAATTTCATCATAAAACCATGTCCTAGCCAGTCAGTAATAAGGTGAAGGTTCCACCAATTCTCTACTAAAGTGCGGAAACAAGGAATTTTAAGCCATGAGTTTTCAAATCTGAAGGAACAAGGACCCGAAGCAATACTTCCCATAGAAAGAGCCAAAGGAAAGTGATCAGAGGTAATTCGATCCAGGCGTTTGAGAGCAACATTTCCAAATTTGTGGAGACAATTCTCTGTAAGAAGGAAACGAGCCAAAAGAGAGAGATATTGGGTAGGACCCGAGCTAGACCTTGTAAAGCAACCATTCGCCAAAGGAATATCATGCAATTGATAATTAGAAATCCATTGATTAAAAGTTCTCATACCGGAAGAGATTGTATTATCATGAGATTTTCATGGTTCAGATGTAGAATCAATTGTCAGTGCCAACAGTGAAGAGTTTGAGGGCTATGATGAAGATGATATACAGGAAGTTGTAAAGGCTTCAGAAGATTTTAGCACAGAATTAAAAGAATTGCTACAAGGGGAAGACATTCATGAATCTGAAGCAGGTGAAGGTTTCTCTAATGTACCCTTATCAAAGAATGTTATCCCTTAGAAGCTTCATTCTATTCTGGAAGATTGTGACATAAGTCTTGGTTGAGTAAGGAAAATCATGGAAGTCAACTTTGCTTATACATCATTTTGATAAGTGTAAATCTAAGATGAAGATTATTTCATGTAACATTAGAGGAATTGGTGATTCTTCAAAAAGATTGGCACTGAAAAGACTTTTGAAGAAATTTACTTCGGATATTGTTATAATTCAAGAAACCAAGCGAGCCTCTTTTGATAGAGAACTGATAAAGAAATTATGGAGCTCCAAGGATGTCGGATGTGTTTTTGTGGAAGCAAATGGACGATCTGGGGGAATTTATCAATGTGGGATGAAGGTAAGATTGATGTGATTGATGTGCATGAGGTGCTGAAAGGAGATCACTCCTTATCAATTAAATGCTCGACTATTTGTAAAAAAATCTTCTGGATTACAAATGTTTATGGCCCTTCAGATTATAGAGAAAGATGCAATTTGTGGTCTGAATTGTCTTCTCTAGCTGATCATTTCCTAGATCCATGGTGTATTGGAGGGGATTTTAACATTACTCGCCGAAGATTGGAGCGCTTTCCTCTAAGAAGAGTAACAAGAGGTATGAGGAAATTCAATAAATTTATATGTGATACAAATTTGATAGAGATACCTCTATCCAACGGAAGATTTACCTGGTCTCGTGAAGGGTCGTCGGTATCAAGATCTCTTCTTGATAGATTTTTAGTTTCAAAAAATTGGGAGGATTTGTTCGAAAACTCTAGGGTGGTTAGACAAGTACGTACATTGTCTGATCATTTTCCCCTCTTATTTGAAGTGGGAGGTTTTGAATGGGGACCAACGCCATTCAGATTCTGTAATAGCTGGTTGAAAATTAAGGAATGTTGCAGCCTGATGGAGAGAAGTTTAAAAGTGGTGGGACAACAAGGGTGGTCTGGATTTGTTATTTGTTCTAGATTAAGAACTTTAAAATATGCCTTGAAAAGATGGTTTATTGAATATGAGAAAAATAAGAGAGCTCAAGAAGAGTTTTTACTGAAAGAAATAGAAAGAAGAGATCTTGAGCTTGAGTTTGAGTTTGAAAATGTAGCCACCACAGAAGATTCTTTATTGGAGGAAGGAATTAGAGTTTCTCTGAAAGCAGAGCTTATGTCCTTATATAGAATGGATGAAAGAAACCTAATGCAGAAAAGTAAATTAATGTGGTTAAATTTGGGGGATGAAAACACTGCTTTTTTTCATCGGTTCCTTGCAACAAAGAAAAGAAAGAATTTGATATCAGAATTGATTAATGATCAAGGTATCCCAACAAAATCTTTTCAAGAAATTGAAGATTTAATTTTGGGATTCTACTCCTCCCTTTACTCCAAACCAGATGAGGTTAGAGCTATTCTCATTAACCTTGAGTGGCCAAAAGTTACTAGGGATCAAAATCTGTTGCTAGTGGCAAGGTTTAATCAAGAGGAGATTAGAAAGGCAGTTAAAGATTTGGGGAAGAATAAAGCTCCTGGATCAGATGACTTCACACCAGAATTTATTCTTAAGTTTTGGGATTTGCTCAAGGACAACTTTTTAAAATTATTTGAGGAATTCTTCAAAAATGGGAAGTTGAATTCATGTGTCAAAGAAAACTTCATTTTCCTAATACAAAAGAAAGAAGATGCAATGTTAGTCAAGGATTTTAGACCCATAAACCTAACCTCTCTTATCTATAAGATAATTGCAAAGGTTCTGGCCGAAAGACTTAAAAGAATTATGTCACATATCATTGCTCCCACACAAAGTGCGTTCATTGAAGGACGACAAATCTTAGATCTTGTTTTGATTGCTAACGAAGCAGTGGAGGAATATAGAGCCAAGAAGAAAAAAGGTTGGGTGTTAAAGCTAGATTTAGAAAAGGCCTTCGACCGTGTGGATTGGGACTTTCTTCAAAAAGTCATGCAAAGAAAGAATTTTGACCCAAGATGGATTTCTTGGATTATGGGGTTTATTTCTAATCCAAAATTTTCCATATTCATAAATGGTAGACTAAGAGGAAGAATCCAAGCCACTAGAGGACTTAGGCAAGGTGATCCCCTTTCACCTTTTCTATTTCTTTTAGTTAGTAAGGTTTTAAGTGCTTTAATCAAAAGAATCTATGAAAAAGGCAAATATGAAGGCTTTATTGTGGGAAATGACAAGATCCATGTTTCCATCCTTCAATTTGTGGATGACACCTTGCTGTTTTGTAAGGATGTTGATGATATGATTGATTGCTTAAAGAAAACTATTGAAATCTTTGAATGGTGCTCTGGTAAGAAAATTAATTGGGAAAAGTCAACTCTTTGTGGGATAAATATTGAAGATAACAAACTGTTTTCAATTGCTGCAAGGCTAAAGTGCAAAGTTGAAAGTCTTCCTTTTTAGTATTTAGGTCTTCCTTTGGGAGGATGCCCCAAAATTGTGTCTTTCTGGCAACCGGTTATTGATAAGGTGCAAGGGAAGCTTGACAAATGGAAAAGATACAACCTTTCCAGAGGAGGGAGAGGTACTCTTTGTAAGTCAGTTCTCTCCAATTTGCCTACTTATTATGTCTTCCTTTTTGATGCCAGAAAAAGTTCTTTCTATTATTGAAAGAATTATGAGGAATTTCTTTTGGGAGAGGAACAAAGGTAGCAAGATTAATCATTTAGCAAAATGGGAGCTGGTTTCTAAAGCCTTGGAAGATGGATGGCTTGGCTTCGGTGGCCTAAGAAACAGAAATTTGGCACTATTGGCAAAGTGGGGTTGGAGATTAACATTTGAAGTAAATTCCTAATGGAGCCAAGTGGTTTTGAGCATTCACGGGAGAGGTAAATTTGATTGGCATACCTCCGGAAAGGATGGTTTAAGCCTTCGCAGCTCATGGATAAGTATTTCTCGATCCTGGCTCAAAGTGGAAGCATTGGCGGTCTATAAACTTGGAGATGGAAGTCGAATTAGTTTTTGGCAGGATCCCTGGGTAGAAAATGTGGCATTTATGAGCAGATTTCCAGATTTGTTTAGCCTTGCAATTAATCCTTTAGGGTCGGTTCTAGATTATTGGGATCAAGGCACTTCTTCTTGGTCCATTGTTTTCAGAAGATTATTGAAGGAAGATGAAATTTCTGCTTTTCAGAATTTATTGGGTTTAATTTCCACAAAGCAAAGGCGTGATTGTCCGGATAAAAGAACATAGTCGATTCAAGCTGGTGGATCATTCATGGTAAAATCTGTAGTTAATCATCTCTCTTTATCATCCCCTTTGGACCGTCTTTTGAAAAAAGCTTTGTGGAAGACAAAAAGCCCTCAGCGTATCAATATTTCAACCTGGATCATGCTTTTTGGGCTTTTAAACTGTTCGGATGTCATGCAACGAAAGCTGCCCTCATATAGTATTTCTCCAAGCATGTGTCCACTTTGTAAAGCAAATGGGGAAGATTTACAACATCTCTTTTTTGAATGCTGTTATGCATCAAAATGTTGGCAGCATTTGTTCGGTTGTTTCAGTTTATGTTGGGTCTTTGGGCAAAATTTTAGGGATAATGTTTTACAGCTACTTGTGGGTCCAAAGTTCAAGAAAATCCTGAATCTTCTGTGGACTAATTCTGTTAAAGCAATGCTTGCTGAATTATGGTGTGAAAGAAATCAAAGAGTGTTCCAAGACAAGGAAACTTCTTGGTGTTCGCGCCTAGAGACAACAAAGTTGAAAGCTTCCTCATGGTGTTCCTTATCTAAGGCGTCTGTGGGCTATTCTATCCAAGACATTTGTTTGAATTGGCAGTTCTTCATATTTCAAGATCATTAGCCTTTGCTGCTGCTTATAGTTGAAGTTGTTCTTGTTCTTTAATTCAGTCTTGTTTAGTTATCCTTAGAGGATTAAGCTTTGTCAGCTTTGGATATTTTAGTTGTACTGATGTTTTTGTATTTTGATATTACTGTAATGACTTTAAGGACTCGCAGGTTGGGGTGTGTTTTGCCCTTGGTTTGGTATGATTTTTTTTTTTTTTTTGTAGGATATGATGATGGGGCTAAGGGGATGTTTGTTGAGATGCCCAGGTGCACCGGTGATCCTTGGATTGCTTCCTATTGTATCTTGATCTTTTGTATCTTTTCATTTTCTTAATGAAGAGGTTCCGTCTTTTGTTTCAAAAAAAAATTATCATGAGATTTCTCCCAAGACCATCTAGTGACATTGAAGTCACCACAAATAACCCAATTATCGCCACCCAAGCCTACCAGATCATCAAGTTCTTGCCAAAAATCAGGTTGGAAAGCGTTATCAAATGGACCATAAACTGCAGAAAGCCAAAAACAATATCCGTCGACCAAGGAGACATGAATCGAAATAGTATAATGACCCTGAATGACCTCAAGGATTGTAAAATCAGGTTCACTCCAAAGAATAAGTATACCGCCAACTATATCAATGGCGTCTAATGCAGTCTAACCAATGTACGAGGAGCTCCAGATAGACTTAATCAAGAAAGAATCAATAGATGGCGGTTTGGTTTCTTGGAGGAGAACAATACTAGGATTATGTTGCTGTATAAGTTTCTTGACCAAAGTTCTTTTCCTCCAAGAATTTAGCTCACGAACATTATGAGAGAAACTTCATTGATGACCCGAGGTACCCTCCCTAATAGCCAAGGTAGCTGATTTGTCTTAGTGGATAGATGAATATAGGCCATGTAGTTCTCTCTGTAGTTTTGGTTTCTTGTTGACTGTGGTGATAGATTTCTTGGTTTTATTAAGTGGGGGATTGGTTGGGATTGCTATAACACATAATCCATGTTTTGACAACAAGGAGGCCAAGTCGTTAAGGCTGAAAGGAAGGGAGGGTGAGGTTTGTGGGTGCTGTTGGATAAATGATGAAGGGGTAGGGGATAGAGGGCCAATTGCCGAGGGGGAAGAATTCAAAATAACTTCAGTTGGAGATGGGATTTCGTGGTCAGGGCTTAGGTCAGTTGGGAGAAGAGGGAGGGAATAAAGCGACAGTAGGTTTGATTCATCTGGATGGTCTCCAAAGACAGTCGTATCAAGGGGCAAATTGGTAAAGTGGTAGGGCTGGAGAGGTATACTTCTGTATCGGAGCCAACAAAAGGAAGATTTGGTAAATTTTCTGAGGTGGAAAAGGTTTTACCAGCGTGGAGGGAGGTGGGCCCCTCAAGGAAAGTAACTGTGGAGAGAGATGGTTGAGAAAAAGATGGGGAGGAAGATGTGGTATGGCTAGGGTTTTCGAGTCTGGAAGCTAAAAGATGGGGATGGTTTAGTTAAGATTTGGGATGGTGTTGGTGTTGGTTCATTTAATGAAGGAGAGGTGGATGGATCGGCTGATGGTGGGAGAAGAATTGGTTCGGTTACTTGATGAGAGCTTGGAGAAATAGATGTATTAAGGTGGGGAGGCGACTCCTTAAAATTAGGAGAAAATAAAGGGGTTGCTGGTTGGTTGACTAAAGGGGAGAGAGAAGAATTTTGATTTGTTATCTCCTTAAATGTAGGAGATTCATTTGAAGATTTCAAATAAGGTGAGAGAGAAGGAGAATCCGATTGCATTGAAGATTTACCTTTTTCAGTTGCCCTAGATTTAATGAGATCCACAATCACAACACCCTCATCAATGCTATTCTCATCCGACGGTTTCAATTCTTGTCGGCGGCCTCTCTGTCCATCGTTCATGGCCTGAATTCTGACGGTGATGTCACCACCGGTCAGTTCCTTGGGAAGATGAACCTCATATGGTATAAATCTCCTGTTATTTCCTTTGATCTTCAAACGGGCAAAAGATAGATTGAGACCTCTTTCAGTTTGATTGGACGGGTGAAGATAACCACCACAAGAATCACCAATGTGCTTGAAGATCTTGTCTGTCCACAACGTAGGAAGGAGATTGTAAATATCAATCCATCCACCATATGAGGCAACGATGGGTTGCTTAAATGATACAGGGGAAGAAGGTGGGAGGAATTTTAGTCTCTTTTTGTCGATAGTTAGTTACCCAATCAGTGTTTTTACAAAGATTTGCTGAGATCTCCGTGTTGTAGACATGCAACAAAGCTTTGTCATCAGATAAAGGATTGATCGTGCATCGGATCGAGAGGGATGATTGAATTGATTCATGAATAGATGGCCAAGAATCACCAAGGGAGCATCATTGGGCAATCACCATGGCATCCCAATCAGATTGAGGATAAACCAGGATTTGTGTCGGGGAGGTGCTATCTCGTATTGGAGATATTGTGGCCTTGTTGAGTAGCAAAGGTTGACTGGTGGTTGTTTGGACAGCAGCTCTGTATGACAGTGGTTTGGAAGGGATGGCAGTGGTATTTTGGCTTGGTTTTTTATGGTATTCCAAAACCAGTGAGAAAAAGGAGAACCATCCTAATTTATTTTCCATAGACAGAATAAGGATGTTGGTGCGGCGGCCAGATTGCTCCAGTAGGGTGAGCTCAACAAAGTATCCATTTTTGTTGTTGTGTTTTTGAAGCCAAAGGGTGTCCTCTTCATCGTCCAATTTCCTAAAGAATTTGTGGTTGTATGATTCCATAAAAAGGGAATTGAAAGATGAAGCAAGCCAATCGAGGGTCTTCCATGAAACATAGATGCAATGGATGTTTGAGCGGCTTTGTTCAGATAGTTTGTAGTGCTTCCCATTGGACGATACATATGGTGAGAGAGAGAAGATTTTACGATCAATGTGAATTGATCGGGTGGTAGCAAAGGAGGAGGTGGTGGATGAGGGAGGAGGCATGGTGGCCAGAGATAATTATGGAAAGGAAGGGGGAGGAAGGGAGAGAGCCTCAATGCATTAAAACAAATTACATAAAATAAAATGCTTTGTTAGAGAGAGAAGAAAAAAAAATGACAGTAACTCAATAGCTTTCTATAGTTCAAATTTTGTGCTAATATTAGACTGGAATGTCAGGATATTTAGTTACTTTAGTTTACTTTTACAAACATTGGGCAAGTATTGAAAACTATCCTTGCATGACATGATATATTAATACTCATTAGTTGTTTAATTTGGATATGTCCCTTCTACATGTGTTCATGCTTTTGATTCTGATGGAGATTCTGAAAATAGTATGAGTAGTGCGGAGTAGGGGTGTTCACGGTTTGGTTCGAATCGAACCACACATATTCGGTTTGGTTCAGTTTACTTTTTTTCTTTTTTCCTTCTCCCTCTTGAACCAACAAGCCCAAAGAAAAAGAAAAGTTACCAAATTAAATATTAAGGATTCAATTCAAAGCAGAACCTTAATTAAAACTGAACCCAAACATTCAAGCAAACATAAATCCTCAAACCAAATTCTTAAAAAAATTGTAAATTTTACAGAAGAATCAACCTATAAGGAGCTTGATGTAATTAGAGGTTAA

mRNA sequence

ATGGCAAAGGTTTTCCTCAGTATGTTATTGAAGGTTACTTTTCTTGATCTACCATTGTGGCATAGGATTCTTGTTCTTGAAAATTTGAGGGGTTTTTGCATGGAGGCTAGAACTTTGCAGGTTCTTTTCCAGAACTTTGATATGCATCCGAAAAACACAAATGTTGTTGAAGGCATCGTTAAATCCCTCGCTAGAGTTGTCTCCAATGTACAGGTCCACGAGACGAGTGAAGAAAGCTTGGCAGCTGTCGCAGGAATGTTTAGTAGCAAGGCCAAAGAAGAATCAACCTATAAGGAGCTTGATGTAATTAGAGGTTAA

Coding sequence (CDS)

ATGGCAAAGGTTTTCCTCAGTATGTTATTGAAGGTTACTTTTCTTGATCTACCATTGTGGCATAGGATTCTTGTTCTTGAAAATTTGAGGGGTTTTTGCATGGAGGCTAGAACTTTGCAGGTTCTTTTCCAGAACTTTGATATGCATCCGAAAAACACAAATGTTGTTGAAGGCATCGTTAAATCCCTCGCTAGAGTTGTCTCCAATGTACAGGTCCACGAGACGAGTGAAGAAAGCTTGGCAGCTGTCGCAGGAATGTTTAGTAGCAAGGCCAAAGAAGAATCAACCTATAAGGAGCTTGATGTAATTAGAGGTTAA

Protein sequence

MAKVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKSLARVVSNVQVHETSEESLAAVAGMFSSKAKEESTYKELDVIRG
Homology
[Close]
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match: A0A1S3BPZ4 (LOW QUALITY PROTEIN: protein MON2 homolog OS=Cucumis melo OX=3656 GN=LOC103492245 PE=4 SV=1)

HSP 1 Score: 169.9 bits (429), Expect = 5.8e-39
Identity = 88/90 (97.78%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 334 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 393

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEE+LAAVAGMFSSKAK
Sbjct: 394 LARVVSNVQVHETSEENLAAVAGMFSSKAK 423

[Close]
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match: A0A6J1HQ18 (protein MON2 homolog isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111465638 PE=4 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 3.8e-38
Identity = 87/90 (96.67%), Postives = 88/90 (97.78%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 333 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 392

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHE SEESL AVAGMFSSKAK
Sbjct: 393 LARVVSNVQVHEMSEESLVAVAGMFSSKAK 422

[Close]
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match: A0A6J1HLJ3 (protein MON2 homolog isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111465638 PE=4 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 3.8e-38
Identity = 87/90 (96.67%), Postives = 88/90 (97.78%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 333 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 392

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHE SEESL AVAGMFSSKAK
Sbjct: 393 LARVVSNVQVHEMSEESLVAVAGMFSSKAK 422

[Close]
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match: A0A6J1EX82 (protein MON2 homolog isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439021 PE=4 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 3.8e-38
Identity = 87/90 (96.67%), Postives = 88/90 (97.78%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 333 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 392

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHE SEESL AVAGMFSSKAK
Sbjct: 393 LARVVSNVQVHEMSEESLVAVAGMFSSKAK 422

[Close]
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match: A0A6J1EWL3 (protein MON2 homolog isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111439021 PE=4 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 3.8e-38
Identity = 87/90 (96.67%), Postives = 88/90 (97.78%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 333 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 392

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHE SEESL AVAGMFSSKAK
Sbjct: 393 LARVVSNVQVHEMSEESLVAVAGMFSSKAK 422

[Close]
BLAST of Lsi06G002020 vs. NCBI nr
Match: XP_038879344.1 (protein MON2 homolog isoform X1 [Benincasa hispida])

HSP 1 Score: 171.0 bits (432), Expect = 5.4e-39
Identity = 89/90 (98.89%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 334 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 393

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEESLAAVAGMFSSKAK
Sbjct: 394 LARVVSNVQVHETSEESLAAVAGMFSSKAK 423

[Close]
BLAST of Lsi06G002020 vs. NCBI nr
Match: XP_031740015.1 (protein MON2 homolog isoform X2 [Cucumis sativus])

HSP 1 Score: 171.0 bits (432), Expect = 5.4e-39
Identity = 89/90 (98.89%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 43  EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 102

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEESLAAVAGMFSSKAK
Sbjct: 103 LARVVSNVQVHETSEESLAAVAGMFSSKAK 132

[Close]
BLAST of Lsi06G002020 vs. NCBI nr
Match: XP_038879345.1 (protein MON2 homolog isoform X2 [Benincasa hispida])

HSP 1 Score: 171.0 bits (432), Expect = 5.4e-39
Identity = 89/90 (98.89%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 300 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 359

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEESLAAVAGMFSSKAK
Sbjct: 360 LARVVSNVQVHETSEESLAAVAGMFSSKAK 389

[Close]
BLAST of Lsi06G002020 vs. NCBI nr
Match: XP_038879346.1 (protein MON2 homolog isoform X3 [Benincasa hispida])

HSP 1 Score: 171.0 bits (432), Expect = 5.4e-39
Identity = 89/90 (98.89%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 184 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 243

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEESLAAVAGMFSSKAK
Sbjct: 244 LARVVSNVQVHETSEESLAAVAGMFSSKAK 273

[Close]
BLAST of Lsi06G002020 vs. NCBI nr
Match: XP_011659942.1 (protein MON2 homolog isoform X1 [Cucumis sativus] >KAE8653396.1 hypothetical protein Csa_007592 [Cucumis sativus])

HSP 1 Score: 171.0 bits (432), Expect = 5.4e-39
Identity = 89/90 (98.89%), Postives = 90/90 (100.00%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS
Sbjct: 334 EVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 393

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVSNVQVHETSEESLAAVAGMFSSKAK
Sbjct: 394 LARVVSNVQVHETSEESLAAVAGMFSSKAK 423

[Close]
BLAST of Lsi06G002020 vs. TAIR 10
Match: AT5G27970.1 (ARM repeat superfamily protein )

HSP 1 Score: 149.4 bits (376), Expect = 1.6e-36
Identity = 76/90 (84.44%), Postives = 85/90 (94.44%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDMHPKNTNVVEGIVKS 62
           +VFLSML+K TFLDLPLWHRILVLE LRGFC+EARTL++LFQNFDMHPKNTNVVE +VK+
Sbjct: 345 EVFLSMLVKATFLDLPLWHRILVLEILRGFCVEARTLRILFQNFDMHPKNTNVVESMVKA 404

Query: 63  LARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           LARVVS++Q  ETSEESLAAVAGMFSSKAK
Sbjct: 405 LARVVSSIQFQETSEESLAAVAGMFSSKAK 434

[Close]
BLAST of Lsi06G002020 vs. TAIR 10
Match: AT5G27970.2 (ARM repeat superfamily protein )

HSP 1 Score: 139.8 bits (351), Expect = 1.2e-33
Identity = 76/104 (73.08%), Postives = 85/104 (81.73%), Query Frame = 0 

Query: 3   KVFLSMLLKVTFLDLPLWHRILVLENLRGFCMEARTLQVLFQNFDM-------------- 62
           +VFLSML+K TFLDLPLWHRILVLE LRGFC+EARTL++LFQNFDM              
Sbjct: 332 EVFLSMLVKATFLDLPLWHRILVLEILRGFCVEARTLRILFQNFDMKLPSRSFFTLQLKK 391

Query: 63  HPKNTNVVEGIVKSLARVVSNVQVHETSEESLAAVAGMFSSKAK 93
           HPKNTNVVE +VK+LARVVS++Q  ETSEESLAAVAGMFSSKAK
Sbjct: 392 HPKNTNVVESMVKALARVVSSIQFQETSEESLAAVAGMFSSKAK 435

The following BLAST results are available for this feature:
BLAST of Lsi06G002020 vs.
Match NameE-valueIdentityDescription
BLAST of Lsi06G002020 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BPZ45.8e-3997.78LOW QUALITY PROTEIN: protein MON2 homolog OS=Cucumis melo OX=3656 GN=LOC10349224... [more]
A0A6J1HQ183.8e-3896.67protein MON2 homolog isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111465638 PE=4... [more]
A0A6J1HLJ33.8e-3896.67protein MON2 homolog isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111465638 PE=4... [more]
A0A6J1EX823.8e-3896.67protein MON2 homolog isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439021 PE... [more]
A0A6J1EWL33.8e-3896.67protein MON2 homolog isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111439021 PE... [more]
BLAST of Lsi06G002020 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038879344.15.4e-3998.89protein MON2 homolog isoform X1 [Benincasa hispida][more]
XP_031740015.15.4e-3998.89protein MON2 homolog isoform X2 [Cucumis sativus][more]
XP_038879345.15.4e-3998.89protein MON2 homolog isoform X2 [Benincasa hispida][more]
XP_038879346.15.4e-3998.89protein MON2 homolog isoform X3 [Benincasa hispida][more]
XP_011659942.15.4e-3998.89protein MON2 homolog isoform X1 [Cucumis sativus] >KAE8653396.1 hypothetical pro... [more]
BLAST of Lsi06G002020 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G27970.11.6e-3684.44ARM repeat superfamily protein [more]
AT5G27970.21.2e-3373.08ARM repeat superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (USVL1VR-Ls) v1
Date Performed: 2021-10-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR032691Guanine nucleotide exchange factor, N-terminalPFAMPF12783Sec7_Ncoord: 3..55
e-value: 1.4E-11
score: 44.6
IPR026829Protein Mon2-likePANTHERPTHR10663:SF333PROTEIN MON2 HOMOLOGcoord: 3..78
NoneNo IPR availablePANTHERPTHR10663GUANYL-NUCLEOTIDE EXCHANGE FACTORcoord: 3..78

Relationships

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

Feature NameUnique NameType
Lsi06G002020.1Lsi06G002020.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0015031 protein transport
cellular_component GO:0005737 cytoplasm