PI0013725 (gene) Melon (PI 482460) v1

Overview
NamePI0013725
Typegene
OrganismCucumis metuliferus (Melon (PI 482460) v1)
DescriptionPAP_fibrillin domain-containing protein
Locationchr02: 11469059 .. 11494024 (+)
RNA-Seq ExpressionPI0013725
SyntenyPI0013725
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATAAACTAGTACAAAAAAACGGAAGCGGAGCGCAAAAATGGCAACGGTTTTTCTTTAGTAGAGAAAAAATGGCTATGGCTGTGGCCTTATCTTCATCTACTGTTACTCCGACCACCAAACTCTGGCCTCCTTCAACATCGCAACCACCCAGGTTTCTCCTTCCTATTATTCCCTCAAACCCATCTTCAAACACTAACCTCCTCACTTCTTCACCTTCTCACAAGTGGAGGCTCAGAATCTCTTTCTTTCCTGCCTTTTTGAACAAAGGAAAAGGAAATAATGTTACTGCTCTTAAACAGGAACTTCTTCAGGCAATTGCCCCCCTTGATCGAGGAGCTGAGGCCACTCCTGAAGATCAGGAAATGGTTGATCAGATATCACGCAAGCTTGAAGCAGCCAGCCCTATAAAGGAACCACTCAAATCTGATTTACTAAATGGAAAATGGGAGCTCATATATACTACTTCAAGATCAATTCTGCAAACTGAGAGGCCCAAGTTTTTAAGATCAAGAATAAACTATCAAGGAATCAATGTAGATACTCTTAGAGCTCAAAATATGGAATCTTGGCCGTTCTTCAATCAGGTCACAGCAAACTTGAAGCCTTTAAATTCAAGAAAAGTAGCTGTTCAATTTGACACATTCAAAATTCTTGGTCTGATACCGGTCAAAGCACCTGGAAGAGCCCGCGGTGAACTGGACATCACATATTTGGATGAAGAGTTGCGAATATCCAGAGGTGACAAAGGGAACCTCTTTATCTTGAAGATGACCGATCCTTCTTATCGAGTACCTGTCTGGAAGAAAGAAAGAGAAGATGAAGAAAGAAAGAAAGAAAAAGAAGATGAATAAAAATAGAAGAAAAAAAATATAGAAGAAGAGTTGAAGAAATTTGGAAAAGAAGATGAATAAATCGCAAAGAAGAAGAAGAAGAAAGAGAAGTGACGAATCGTCCGCAATATCAAGGGCAAATCTGAAATTTATGAAAATATTTTACCGACTTCTTAGACTTTTTGATTTTGTTACAC

Coding sequence (CDS)

ATGGCTATGGCTGTGGCCTTATCTTCATCTACTGTTACTCCGACCACCAAACTCTGGCCTCCTTCAACATCGCAACCACCCAGGTTTCTCCTTCCTATTATTCCCTCAAACCCATCTTCAAACACTAACCTCCTCACTTCTTCACCTTCTCACAAGTGGAGGCTCAGAATCTCTTTCTTTCCTGCCTTTTTGAACAAAGGAAAAGGAAATAATGTTACTGCTCTTAAACAGGAACTTCTTCAGGCAATTGCCCCCCTTGATCGAGGAGCTGAGGCCACTCCTGAAGATCAGGAAATGGTTGATCAGATATCACGCAAGCTTGAAGCAGCCAGCCCTATAAAGGAACCACTCAAATCTGATTTACTAAATGGAAAATGGGAGCTCATATATACTACTTCAAGATCAATTCTGCAAACTGAGAGGCCCAAGTTTTTAAGATCAAGAATAAACTATCAAGGAATCAATGTAGATACTCTTAGAGCTCAAAATATGGAATCTTGGCCGTTCTTCAATCAGGTCACAGCAAACTTGAAGCCTTTAAATTCAAGAAAAGTAGCTGTTCAATTTGACACATTCAAAATTCTTGGTCTGATACCGGTCAAAGCACCTGGAAGAGCCCGCGGTGAACTGGACATCACATATTTGGATGAAGAGTTGCGAATATCCAGAGGTGACAAAGGGAACCTCTTTATCTTGAAGATGACCGATCCTTCTTATCGAGTACCTGTCTGGAAGAAAGAAAGAGAAGATGAAGAAAGAAAGAAAGAAAAAGAAGATGAATAA

Protein sequence

MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFFPAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYRVPVWKKEREDEERKKEKEDE
Homology
[Close]
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match: Q9LU85 (Probable plastid-lipid-associated protein 4, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP4 PE=1 SV=1)

HSP 1 Score: 272.3 bits (695), Expect = 5.6e-72
Identity = 133/207 (64.25%), Postives = 166/207 (80.19%), Query Frame = 0 

Query: 42  TNLLTSSPSHKWRLRI----SFFPAFLNK-GKGNNVTALKQELLQAIAPLDRGAEATPED 101
           T L ++    + RLR+    SF PAFL + G+      LKQELL+AI PL+RGA A+P+D
Sbjct: 36  TKLQSTRKGDRERLRVQAIFSFPPAFLTRNGRAEKQKQLKQELLEAIEPLERGATASPDD 95

Query: 102 QEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINV 161
           Q  +DQ++RK+EA +P KEPLKSDL+NGKWELIYTTS SILQ ++P+FLRS  NYQ INV
Sbjct: 96  QLRIDQLARKVEAVNPTKEPLKSDLVNGKWELIYTTSASILQAKKPRFLRSITNYQSINV 155

Query: 162 DTLRAQNMESWPFFNQVTANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLD 221
           DTL+ QNME+WPF+N VT ++KPLNS+KVAV+   FKILG IP+KAP  ARGEL+ITY+D
Sbjct: 156 DTLKVQNMETWPFYNSVTGDIKPLNSKKVAVKLQVFKILGFIPIKAPDSARGELEITYVD 215

Query: 222 EELRISRGDKGNLFILKMTDPSYRVPV 244
           EELR+SRGDKGNLFILKM DP+YR+P+
Sbjct: 216 EELRLSRGDKGNLFILKMFDPTYRIPL 242

[Close]
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match: Q6DBN2 (Probable plastid-lipid-associated protein 5, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP5 PE=2 SV=1)

HSP 1 Score: 242.7 bits (618), Expect = 4.7e-63
Identity = 123/204 (60.29%), Postives = 154/204 (75.49%), Query Frame = 0 

Query: 42  TNLLTSSPSHKWRLRISFFPAF-LNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMV 101
           T LL+     + RLRI    +F    G       LK EL++AI PL+RGA A+P+DQ ++
Sbjct: 31  TKLLSIRKGDRERLRIQAVFSFPPRNGGAEKRKQLKHELVEAIEPLERGATASPDDQLLI 90

Query: 102 DQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLR 161
           DQ++RK+EA +P KEPLKSDL+NGKWELIYTTS +ILQ ++P+FLRS  NYQ IN+DTL+
Sbjct: 91  DQLARKVEAVNPTKEPLKSDLINGKWELIYTTSAAILQAKKPRFLRSLTNYQCINMDTLK 150

Query: 162 AQNMESWPFFNQVTANLKPLNSRKVAVQFDTFKILGLIPVKAP-GRARGELDITYLDEEL 221
            Q ME+WPF+N VT +L PLNS+ VAV+   FKILG IPVKAP G ARGEL+ITY+DEEL
Sbjct: 151 VQRMETWPFYNSVTGDLTPLNSKTVAVKLQVFKILGFIPVKAPDGTARGELEITYVDEEL 210

Query: 222 RISRGDKGNLFILKMTDPSYRVPV 244
           RISRG    LFILKM DP+YR+P+
Sbjct: 211 RISRGKGNLLFILKMFDPTYRIPL 234

[Close]
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match: Q941D3 (Probable plastid-lipid-associated protein 8, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP8 PE=1 SV=1)

HSP 1 Score: 66.6 bits (161), Expect = 4.7e-10
Identity = 51/169 (30.18%), Postives = 92/169 (54.44%), Query Frame = 0 

Query: 79  LLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTS----- 138
           LL  +A  D G   +PE  + V Q++ +L+    +KEP+K+ L+ G WE++Y +      
Sbjct: 72  LLSKVANSDGGVTLSPEQHKEVAQVAGELQKYC-VKEPVKNPLIFGDWEVVYCSRPTSPG 131

Query: 139 ---RSILQTERPKFLRSRINYQGINV-DTLRAQ-NMESWPFFN---QVTANLKPLNSRKV 198
              RS++      F +++   Q I+  D +R + ++ ++ F +    +T  LK L+S  V
Sbjct: 132 GGYRSVIGR---LFFKTKEMIQAIDAPDIVRNKVSINAFGFLDGDVSLTGKLKALDSEWV 191

Query: 199 AVQFDTFKI-LGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILK 234
            V F+  +I +G +  K    +  +L ITY+DE+LR+  G KG+LF+ +
Sbjct: 192 QVIFEPPEIKVGSLEFKYGFESEVKLRITYVDEKLRLGLGSKGSLFVFR 236

[Close]
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match: Q0JD85 (Fibrillin protein 5 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=FBN5 PE=1 SV=1)

HSP 1 Score: 61.2 bits (147), Expect = 2.0e-08
Identity = 60/192 (31.25%), Postives = 90/192 (46.88%), Query Frame = 0 

Query: 76  KQELLQAIAPLDRGA-EATPEDQEMVDQISRKLEAASPIKEPLK--SDLLNGKWELIYTT 135
           K  L  A+  ++RG    T E +  +  +   LE+ +P  EP     D ++G W L+Y+T
Sbjct: 89  KDALYAALEGMNRGIFGMTSEKRSEIHALVELLESKNPTPEPTDKLQDKVDGCWRLVYST 148

Query: 136 SRSILQTERPKF-LRSRIN----YQGINVDTLRAQNMESWP------FFNQVT--ANLKP 195
             SIL  +R K  LR  I+    +Q I+V   +A N+  +          Q+T  A+ K 
Sbjct: 149 I-SILGKKRTKLGLRDFISLGDFFQMIDVKEEKAVNVIKFSARALKILSGQLTIEASYKI 208

Query: 196 LNSRKVAVQFDTFKILG-------------LIPVKAPGRARGELDITYLDEELRISRGDK 239
               KV +  D+  I               L+ +  P    G L+ITY+DE LRI R DK
Sbjct: 209 TTKTKVDITLDSSTITPDQLMNIFQKNYDMLLAIFNP---EGWLEITYVDESLRIGRDDK 268

[Close]
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match: Q8LAP6 (Probable plastid-lipid-associated protein 12, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP12 PE=1 SV=1)

HSP 1 Score: 57.8 bits (138), Expect = 2.2e-07
Identity = 46/166 (27.71%), Postives = 72/166 (43.37%), Query Frame = 0 

Query: 88  RGAEATPEDQEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRS 147
           RG  A+P+    V+   + LE    I+ P  SDL+ G+W L++TT        +  F   
Sbjct: 88  RGKSASPKQLNDVESAVKVLEGLEGIQNPTDSDLIEGRWRLMFTTRPGTASPIQRTFTGV 147

Query: 148 RI--NYQGINVDTLRAQNMESWPFFNQVTANLKP------LNSRKVAVQFDTFKI-LGLI 207
            +   +Q + +       + +   F+     LK        + ++V  +FD     L  +
Sbjct: 148 DVFTVFQDVYLKATNDPRVSNIVKFSDFIGELKVEAVASIKDGKRVLFRFDRAAFDLKFL 207

Query: 208 PVKAP---------GRARGELDITYLDE--ELRISRGDKGNLFILK 234
           P K P           A+G LD TYL     LRISRG+KG  F+L+
Sbjct: 208 PFKVPYPVPFRLLGDEAKGWLDTTYLSPSGNLRISRGNKGTTFVLQ 253

[Close]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match: A0A0A0M3B4 (PAP_fibrillin domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G665380 PE=3 SV=1)

HSP 1 Score: 463.8 bits (1192), Expect = 4.8e-127
Identity = 232/243 (95.47%), Postives = 238/243 (97.94%), Query Frame = 0 

Query: 1   MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60
           MAMAVALSSST TPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF
Sbjct: 1   MAMAVALSSSTATPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60

Query: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 120
           PAFLNKGKGNNVTALKQELLQAI PLDRGAEATPEDQEMVDQISRKLEA +P KEPLKSD
Sbjct: 61  PAFLNKGKGNNVTALKQELLQAIEPLDRGAEATPEDQEMVDQISRKLEAVNPTKEPLKSD 120

Query: 121 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 180
           LLNGKWELIYTTSRSILQTERPKFLRS++NYQGINVD+LRAQNMESWPFFNQVTA+LKPL
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFLRSKLNYQGINVDSLRAQNMESWPFFNQVTADLKPL 180

Query: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 240
           NSRKVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMIDPSYR 240

Query: 241 VPV 244
           VPV
Sbjct: 241 VPV 243

[Close]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match: A0A1S3B9I8 (probable plastid-lipid-associated protein 4, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103487254 PE=3 SV=1)

HSP 1 Score: 461.5 bits (1186), Expect = 2.4e-126
Identity = 234/243 (96.30%), Postives = 237/243 (97.53%), Query Frame = 0 

Query: 1   MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60
           MAMAVALSSSTVTPT K WPPSTSQPPRF LPIIPSNPSSNTNLLTSSPSHKWRLRISFF
Sbjct: 1   MAMAVALSSSTVTPTAKFWPPSTSQPPRF-LPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60

Query: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 120
           PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEA +PIKEPLKSD
Sbjct: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAVNPIKEPLKSD 120

Query: 121 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 180
           LLNGKWELIYTTSRSILQTERPKF RSRINYQGINVD+LRAQNMESWPFFNQVTA+LKPL
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFFRSRINYQGINVDSLRAQNMESWPFFNQVTADLKPL 180

Query: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 240
           NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMIDPSYR 240

Query: 241 VPV 244
           VPV
Sbjct: 241 VPV 242

[Close]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match: A0A6J1EIS7 (probable plastid-lipid-associated protein 4, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111434655 PE=3 SV=1)

HSP 1 Score: 395.2 bits (1014), Expect = 2.1e-106
Identity = 208/246 (84.55%), Postives = 220/246 (89.43%), Query Frame = 0 

Query: 3   MAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSN-----PSSNTNLLTSSPSHKWRLRI 62
           MA+ALSSST+TPT KL PP TSQP R LL  IPSN     P+S   LLT++PS KWRLRI
Sbjct: 1   MAMALSSSTITPTLKLSPPPTSQPARLLLR-IPSNTNSAAPTSINKLLTAAPSDKWRLRI 60

Query: 63  SFFPAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPL 122
           SFFPAFL KGK  +V ALK+ELL+AIAPLDRGAEATPEDQEMVDQI+RKLEA +PIKEPL
Sbjct: 61  SFFPAFLKKGK--DVGALKEELLEAIAPLDRGAEATPEDQEMVDQIARKLEAVNPIKEPL 120

Query: 123 KSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANL 182
           KSDLLNGKWELIYTTSRSILQTERPK LRSR NYQGIN DTLRAQNMESWPFFNQVTANL
Sbjct: 121 KSDLLNGKWELIYTTSRSILQTERPKLLRSRTNYQGINADTLRAQNMESWPFFNQVTANL 180

Query: 183 KPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDP 242
           KPLN+ KVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DP
Sbjct: 181 KPLNTTKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMNDP 240

Query: 243 SYRVPV 244
           SYRVPV
Sbjct: 241 SYRVPV 243

[Close]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match: A0A6J1JGL8 (probable plastid-lipid-associated protein 4, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111486716 PE=3 SV=1)

HSP 1 Score: 390.2 bits (1001), Expect = 6.8e-105
Identity = 206/246 (83.74%), Postives = 218/246 (88.62%), Query Frame = 0 

Query: 3   MAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSN-----PSSNTNLLTSSPSHKWRLRI 62
           MA+ALSSST+TPT KL PP  SQP R LL  IPSN     P+S   LLT +PS KWRLRI
Sbjct: 1   MAMALSSSTITPTLKLSPPPKSQPARLLLR-IPSNTNSTAPTSINKLLTVAPSDKWRLRI 60

Query: 63  SFFPAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPL 122
           SFFPAFL KGK  +V ALK+ELL+AIAPLDRGAEATPEDQEMVDQISRKLEA +P+KEPL
Sbjct: 61  SFFPAFLKKGK--DVGALKEELLEAIAPLDRGAEATPEDQEMVDQISRKLEAVNPMKEPL 120

Query: 123 KSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANL 182
           KSDLLNGKWELIYTTS SILQTERPK LRSR NYQGINVDTLRAQNMESWPFFNQVTANL
Sbjct: 121 KSDLLNGKWELIYTTSTSILQTERPKLLRSRTNYQGINVDTLRAQNMESWPFFNQVTANL 180

Query: 183 KPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDP 242
           KPLN+ KVAVQFDTFKILGLIP+KAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DP
Sbjct: 181 KPLNTTKVAVQFDTFKILGLIPIKAPGRARGELEITYLDEELRISRGDKGNLFILKMIDP 240

Query: 243 SYRVPV 244
           SYRVPV
Sbjct: 241 SYRVPV 243

[Close]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match: A0A6J1DS61 (probable plastid-lipid-associated protein 4, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111023791 PE=3 SV=1)

HSP 1 Score: 384.4 bits (986), Expect = 3.7e-103
Identity = 202/243 (83.13%), Postives = 221/243 (90.95%), Query Frame = 0 

Query: 3   MAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSN--TNLLTSSPSHKWRLRISFF 62
           MA+ LSS +VTP  KL PP TSQPPR L   +PSNP++   T++LTS+PS KWR+RISFF
Sbjct: 1   MAMPLSSPSVTPALKLSPPLTSQPPRLLR--LPSNPTTTAPTSVLTSAPSAKWRVRISFF 60

Query: 63  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 122
           PAFLNK K  +V+ALKQELL+AIAPLDRGAEATPED+EMV+QIS KLEAA+P+KEPLKS+
Sbjct: 61  PAFLNKRK--DVSALKQELLEAIAPLDRGAEATPEDREMVNQISCKLEAANPVKEPLKSN 120

Query: 123 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 182
           LLNGKWELIYTTSRSILQTERPKFLRSR NYQGINVDTLRAQNMES PFFNQVTANL PL
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFLRSRTNYQGINVDTLRAQNMESGPFFNQVTANLMPL 180

Query: 183 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 242
           N+RKVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 NTRKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMIDPSYR 239

Query: 243 VPV 244
           VPV
Sbjct: 241 VPV 239

[Close]
BLAST of PI0013725 vs. NCBI nr
Match: XP_011660249.1 (probable plastid-lipid-associated protein 4, chloroplastic isoform X1 [Cucumis sativus] >KGN66726.1 hypothetical protein Csa_007176 [Cucumis sativus])

HSP 1 Score: 463.8 bits (1192), Expect = 1.0e-126
Identity = 232/243 (95.47%), Postives = 238/243 (97.94%), Query Frame = 0 

Query: 1   MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60
           MAMAVALSSST TPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF
Sbjct: 1   MAMAVALSSSTATPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60

Query: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 120
           PAFLNKGKGNNVTALKQELLQAI PLDRGAEATPEDQEMVDQISRKLEA +P KEPLKSD
Sbjct: 61  PAFLNKGKGNNVTALKQELLQAIEPLDRGAEATPEDQEMVDQISRKLEAVNPTKEPLKSD 120

Query: 121 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 180
           LLNGKWELIYTTSRSILQTERPKFLRS++NYQGINVD+LRAQNMESWPFFNQVTA+LKPL
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFLRSKLNYQGINVDSLRAQNMESWPFFNQVTADLKPL 180

Query: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 240
           NSRKVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMIDPSYR 240

Query: 241 VPV 244
           VPV
Sbjct: 241 VPV 243

[Close]
BLAST of PI0013725 vs. NCBI nr
Match: XP_008443741.1 (PREDICTED: probable plastid-lipid-associated protein 4, chloroplastic isoform X1 [Cucumis melo])

HSP 1 Score: 461.5 bits (1186), Expect = 5.0e-126
Identity = 234/243 (96.30%), Postives = 237/243 (97.53%), Query Frame = 0 

Query: 1   MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60
           MAMAVALSSSTVTPT K WPPSTSQPPRF LPIIPSNPSSNTNLLTSSPSHKWRLRISFF
Sbjct: 1   MAMAVALSSSTVTPTAKFWPPSTSQPPRF-LPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60

Query: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 120
           PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEA +PIKEPLKSD
Sbjct: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAVNPIKEPLKSD 120

Query: 121 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 180
           LLNGKWELIYTTSRSILQTERPKF RSRINYQGINVD+LRAQNMESWPFFNQVTA+LKPL
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFFRSRINYQGINVDSLRAQNMESWPFFNQVTADLKPL 180

Query: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 240
           NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMIDPSYR 240

Query: 241 VPV 244
           VPV
Sbjct: 241 VPV 242

[Close]
BLAST of PI0013725 vs. NCBI nr
Match: XP_038887592.1 (probable plastid-lipid-associated protein 4, chloroplastic [Benincasa hispida])

HSP 1 Score: 416.4 bits (1069), Expect = 1.8e-112
Identity = 220/250 (88.00%), Postives = 228/250 (91.20%), Query Frame = 0 

Query: 3   MAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSN-----PSSNTNLLTSSPSHKWRLRI 62
           MA+ALSSST+TPT KL PPSTSQ PRFLL  IPSN     PSSNT  LT+SPSHKWR+RI
Sbjct: 1   MAMALSSSTLTPTIKLSPPSTSQQPRFLLR-IPSNPISAAPSSNTKFLTASPSHKWRIRI 60

Query: 63  SFFPAFLN----KGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPI 122
           SFFP FLN    KGKG +VTALK+ELLQAIAPLDRGAEATPEDQEMVDQISRKLEAA+PI
Sbjct: 61  SFFPTFLNKGKGKGKGKDVTALKEELLQAIAPLDRGAEATPEDQEMVDQISRKLEAANPI 120

Query: 123 KEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQV 182
            EPLKSDLLNGKWELIYTTSRSILQTERPKFLRSR NYQGINVDTLRAQNMES PFFNQV
Sbjct: 121 NEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRTNYQGINVDTLRAQNMESGPFFNQV 180

Query: 183 TANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILK 242
           TANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILK
Sbjct: 181 TANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILK 240

Query: 243 MTDPSYRVPV 244
           M DPSYRVPV
Sbjct: 241 MIDPSYRVPV 249

[Close]
BLAST of PI0013725 vs. NCBI nr
Match: XP_031745469.1 (probable plastid-lipid-associated protein 4, chloroplastic isoform X2 [Cucumis sativus])

HSP 1 Score: 403.7 bits (1036), Expect = 1.2e-108
Identity = 208/243 (85.60%), Postives = 213/243 (87.65%), Query Frame = 0 

Query: 1   MAMAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60
           MAMAVALSSST TPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF
Sbjct: 1   MAMAVALSSSTATPTTKLWPPSTSQPPRFLLPIIPSNPSSNTNLLTSSPSHKWRLRISFF 60

Query: 61  PAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSD 120
           PAFLNKGKGNNVTALKQELLQAI PLDRGAEATPEDQEMVDQISRKLEA +P KEPLKSD
Sbjct: 61  PAFLNKGKGNNVTALKQELLQAIEPLDRGAEATPEDQEMVDQISRKLEAVNPTKEPLKSD 120

Query: 121 LLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANLKPL 180
           LLNGKWELIYTTSRSILQTERPKFLRS++NYQGINVD+LRAQNMESWPFFNQ        
Sbjct: 121 LLNGKWELIYTTSRSILQTERPKFLRSKLNYQGINVDSLRAQNMESWPFFNQ-------- 180

Query: 181 NSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDPSYR 240
                            IPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DPSYR
Sbjct: 181 -----------------IPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMIDPSYR 218

Query: 241 VPV 244
           VPV
Sbjct: 241 VPV 218

[Close]
BLAST of PI0013725 vs. NCBI nr
Match: XP_022927890.1 (probable plastid-lipid-associated protein 4, chloroplastic [Cucurbita moschata] >XP_022927891.1 probable plastid-lipid-associated protein 4, chloroplastic [Cucurbita moschata])

HSP 1 Score: 395.2 bits (1014), Expect = 4.4e-106
Identity = 208/246 (84.55%), Postives = 220/246 (89.43%), Query Frame = 0 

Query: 3   MAVALSSSTVTPTTKLWPPSTSQPPRFLLPIIPSN-----PSSNTNLLTSSPSHKWRLRI 62
           MA+ALSSST+TPT KL PP TSQP R LL  IPSN     P+S   LLT++PS KWRLRI
Sbjct: 1   MAMALSSSTITPTLKLSPPPTSQPARLLLR-IPSNTNSAAPTSINKLLTAAPSDKWRLRI 60

Query: 63  SFFPAFLNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPL 122
           SFFPAFL KGK  +V ALK+ELL+AIAPLDRGAEATPEDQEMVDQI+RKLEA +PIKEPL
Sbjct: 61  SFFPAFLKKGK--DVGALKEELLEAIAPLDRGAEATPEDQEMVDQIARKLEAVNPIKEPL 120

Query: 123 KSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLRAQNMESWPFFNQVTANL 182
           KSDLLNGKWELIYTTSRSILQTERPK LRSR NYQGIN DTLRAQNMESWPFFNQVTANL
Sbjct: 121 KSDLLNGKWELIYTTSRSILQTERPKLLRSRTNYQGINADTLRAQNMESWPFFNQVTANL 180

Query: 183 KPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILKMTDP 242
           KPLN+ KVAVQFDTFKILGLIPVKAPGRARGEL+ITYLDEELRISRGDKGNLFILKM DP
Sbjct: 181 KPLNTTKVAVQFDTFKILGLIPVKAPGRARGELEITYLDEELRISRGDKGNLFILKMNDP 240

Query: 243 SYRVPV 244
           SYRVPV
Sbjct: 241 SYRVPV 243

[Close]
BLAST of PI0013725 vs. TAIR 10
Match: AT3G26070.1 (Plastid-lipid associated protein PAP / fibrillin family protein )

HSP 1 Score: 272.3 bits (695), Expect = 4.0e-73
Identity = 133/207 (64.25%), Postives = 166/207 (80.19%), Query Frame = 0 

Query: 42  TNLLTSSPSHKWRLRI----SFFPAFLNK-GKGNNVTALKQELLQAIAPLDRGAEATPED 101
           T L ++    + RLR+    SF PAFL + G+      LKQELL+AI PL+RGA A+P+D
Sbjct: 36  TKLQSTRKGDRERLRVQAIFSFPPAFLTRNGRAEKQKQLKQELLEAIEPLERGATASPDD 95

Query: 102 QEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINV 161
           Q  +DQ++RK+EA +P KEPLKSDL+NGKWELIYTTS SILQ ++P+FLRS  NYQ INV
Sbjct: 96  QLRIDQLARKVEAVNPTKEPLKSDLVNGKWELIYTTSASILQAKKPRFLRSITNYQSINV 155

Query: 162 DTLRAQNMESWPFFNQVTANLKPLNSRKVAVQFDTFKILGLIPVKAPGRARGELDITYLD 221
           DTL+ QNME+WPF+N VT ++KPLNS+KVAV+   FKILG IP+KAP  ARGEL+ITY+D
Sbjct: 156 DTLKVQNMETWPFYNSVTGDIKPLNSKKVAVKLQVFKILGFIPIKAPDSARGELEITYVD 215

Query: 222 EELRISRGDKGNLFILKMTDPSYRVPV 244
           EELR+SRGDKGNLFILKM DP+YR+P+
Sbjct: 216 EELRLSRGDKGNLFILKMFDPTYRIPL 242

[Close]
BLAST of PI0013725 vs. TAIR 10
Match: AT3G26080.1 (plastid-lipid associated protein PAP / fibrillin family protein )

HSP 1 Score: 242.7 bits (618), Expect = 3.4e-64
Identity = 123/204 (60.29%), Postives = 154/204 (75.49%), Query Frame = 0 

Query: 42  TNLLTSSPSHKWRLRISFFPAF-LNKGKGNNVTALKQELLQAIAPLDRGAEATPEDQEMV 101
           T LL+     + RLRI    +F    G       LK EL++AI PL+RGA A+P+DQ ++
Sbjct: 31  TKLLSIRKGDRERLRIQAVFSFPPRNGGAEKRKQLKHELVEAIEPLERGATASPDDQLLI 90

Query: 102 DQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRSRINYQGINVDTLR 161
           DQ++RK+EA +P KEPLKSDL+NGKWELIYTTS +ILQ ++P+FLRS  NYQ IN+DTL+
Sbjct: 91  DQLARKVEAVNPTKEPLKSDLINGKWELIYTTSAAILQAKKPRFLRSLTNYQCINMDTLK 150

Query: 162 AQNMESWPFFNQVTANLKPLNSRKVAVQFDTFKILGLIPVKAP-GRARGELDITYLDEEL 221
            Q ME+WPF+N VT +L PLNS+ VAV+   FKILG IPVKAP G ARGEL+ITY+DEEL
Sbjct: 151 VQRMETWPFYNSVTGDLTPLNSKTVAVKLQVFKILGFIPVKAPDGTARGELEITYVDEEL 210

Query: 222 RISRGDKGNLFILKMTDPSYRVPV 244
           RISRG    LFILKM DP+YR+P+
Sbjct: 211 RISRGKGNLLFILKMFDPTYRIPL 234

[Close]
BLAST of PI0013725 vs. TAIR 10
Match: AT5G19940.1 (Plastid-lipid associated protein PAP / fibrillin family protein )

HSP 1 Score: 66.6 bits (161), Expect = 3.3e-11
Identity = 51/169 (30.18%), Postives = 92/169 (54.44%), Query Frame = 0 

Query: 79  LLQAIAPLDRGAEATPEDQEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTS----- 138
           LL  +A  D G   +PE  + V Q++ +L+    +KEP+K+ L+ G WE++Y +      
Sbjct: 72  LLSKVANSDGGVTLSPEQHKEVAQVAGELQKYC-VKEPVKNPLIFGDWEVVYCSRPTSPG 131

Query: 139 ---RSILQTERPKFLRSRINYQGINV-DTLRAQ-NMESWPFFN---QVTANLKPLNSRKV 198
              RS++      F +++   Q I+  D +R + ++ ++ F +    +T  LK L+S  V
Sbjct: 132 GGYRSVIGR---LFFKTKEMIQAIDAPDIVRNKVSINAFGFLDGDVSLTGKLKALDSEWV 191

Query: 199 AVQFDTFKI-LGLIPVKAPGRARGELDITYLDEELRISRGDKGNLFILK 234
            V F+  +I +G +  K    +  +L ITY+DE+LR+  G KG+LF+ +
Sbjct: 192 QVIFEPPEIKVGSLEFKYGFESEVKLRITYVDEKLRLGLGSKGSLFVFR 236

[Close]
BLAST of PI0013725 vs. TAIR 10
Match: AT3G23400.1 (Plastid-lipid associated protein PAP / fibrillin family protein )

HSP 1 Score: 60.8 bits (146), Expect = 1.8e-09
Identity = 57/202 (28.22%), Postives = 92/202 (45.54%), Query Frame = 0 

Query: 67  GKGNNVTALKQELLQAIAPLDRGAEATPEDQEMVDQISRKLE-AASPIKEPLKSDLLNGK 126
           G    +  LK +LL  ++ L+RG  A+ +D E  +  +++LE A  P+      D L GK
Sbjct: 79  GDDKQIALLKLKLLSVVSGLNRGLVASVDDLERAEVAAKELETAGGPVDLTDDLDKLQGK 138

Query: 127 WELIYTT--SRSILQTERPKFLRSRI-------NYQGINVDTLRAQNMES------WPFF 186
           W L+Y++  S   L   RP     R+        +Q I+V +    N+        WPF 
Sbjct: 139 WRLLYSSAFSSRSLGGSRPGLPTGRLIPVTLGQVFQRIDVFSKDFDNIAEVELGAPWPFP 198

Query: 187 N-QVTANL----KPLNSRKVAVQFD--TFKILGLI----------------PVKAPGRAR 230
             + TA L    + L + K+ + F+  T K  G +                P   PG   
Sbjct: 199 PLEATATLAHKFELLGTCKIKITFEKTTVKTSGNLSQIPPFDIPRLPDSFRPSSNPG--T 258

[Close]
BLAST of PI0013725 vs. TAIR 10
Match: AT1G51110.1 (Plastid-lipid associated protein PAP / fibrillin family protein )

HSP 1 Score: 57.8 bits (138), Expect = 1.5e-08
Identity = 46/166 (27.71%), Postives = 72/166 (43.37%), Query Frame = 0 

Query: 88  RGAEATPEDQEMVDQISRKLEAASPIKEPLKSDLLNGKWELIYTTSRSILQTERPKFLRS 147
           RG  A+P+    V+   + LE    I+ P  SDL+ G+W L++TT        +  F   
Sbjct: 88  RGKSASPKQLNDVESAVKVLEGLEGIQNPTDSDLIEGRWRLMFTTRPGTASPIQRTFTGV 147

Query: 148 RI--NYQGINVDTLRAQNMESWPFFNQVTANLKP------LNSRKVAVQFDTFKI-LGLI 207
            +   +Q + +       + +   F+     LK        + ++V  +FD     L  +
Sbjct: 148 DVFTVFQDVYLKATNDPRVSNIVKFSDFIGELKVEAVASIKDGKRVLFRFDRAAFDLKFL 207

Query: 208 PVKAP---------GRARGELDITYLDE--ELRISRGDKGNLFILK 234
           P K P           A+G LD TYL     LRISRG+KG  F+L+
Sbjct: 208 PFKVPYPVPFRLLGDEAKGWLDTTYLSPSGNLRISRGNKGTTFVLQ 253

The following BLAST results are available for this feature:
BLAST of PI0013725 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9LU855.6e-7264.25Probable plastid-lipid-associated protein 4, chloroplastic OS=Arabidopsis thalia... [more]
Q6DBN24.7e-6360.29Probable plastid-lipid-associated protein 5, chloroplastic OS=Arabidopsis thalia... [more]
Q941D34.7e-1030.18Probable plastid-lipid-associated protein 8, chloroplastic OS=Arabidopsis thalia... [more]
Q0JD852.0e-0831.25Fibrillin protein 5 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=FBN5 PE=... [more]
Q8LAP62.2e-0727.71Probable plastid-lipid-associated protein 12, chloroplastic OS=Arabidopsis thali... [more]
BLAST of PI0013725 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0M3B44.8e-12795.47PAP_fibrillin domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G6653... [more]
A0A1S3B9I82.4e-12696.30probable plastid-lipid-associated protein 4, chloroplastic isoform X1 OS=Cucumis... [more]
A0A6J1EIS72.1e-10684.55probable plastid-lipid-associated protein 4, chloroplastic OS=Cucurbita moschata... [more]
A0A6J1JGL86.8e-10583.74probable plastid-lipid-associated protein 4, chloroplastic OS=Cucurbita maxima O... [more]
A0A6J1DS613.7e-10383.13probable plastid-lipid-associated protein 4, chloroplastic OS=Momordica charanti... [more]
BLAST of PI0013725 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_011660249.11.0e-12695.47probable plastid-lipid-associated protein 4, chloroplastic isoform X1 [Cucumis s... [more]
XP_008443741.15.0e-12696.30PREDICTED: probable plastid-lipid-associated protein 4, chloroplastic isoform X1... [more]
XP_038887592.11.8e-11288.00probable plastid-lipid-associated protein 4, chloroplastic [Benincasa hispida][more]
XP_031745469.11.2e-10885.60probable plastid-lipid-associated protein 4, chloroplastic isoform X2 [Cucumis s... [more]
XP_022927890.14.4e-10684.55probable plastid-lipid-associated protein 4, chloroplastic [Cucurbita moschata] ... [more]
BLAST of PI0013725 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G26070.14.0e-7364.25Plastid-lipid associated protein PAP / fibrillin family protein [more]
AT3G26080.13.4e-6460.29plastid-lipid associated protein PAP / fibrillin family protein [more]
AT5G19940.13.3e-1130.18Plastid-lipid associated protein PAP / fibrillin family protein [more]
AT3G23400.11.8e-0928.22Plastid-lipid associated protein PAP / fibrillin family protein [more]
AT1G51110.11.5e-0827.71Plastid-lipid associated protein PAP / fibrillin family protein [more]
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR006843Plastid lipid-associated protein/fibrillin conserved domainPFAMPF04755PAP_fibrillincoord: 74..233
e-value: 2.2E-36
score: 125.7
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..24
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..23
NoneNo IPR availablePANTHERPTHR31906:SF14PLASTID-LIPID-ASSOCIATED PROTEIN 4, CHLOROPLASTIC-RELATEDcoord: 14..243
IPR039633Plastid-lipid-associated proteinPANTHERPTHR31906FAMILY NOT NAMEDcoord: 14..243
IPR019825Legume lectin, beta chain, Mn/Ca-binding sitePROSITEPS00307LECTIN_LEGUME_BETAcoord: 185..191

Relationships

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

Feature NameUnique NameType
PI0013725.4PI0013725.4mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane