Lsi06G006810 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi06G006810
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionVacuolar protein sorting-associated protein, putative
Locationchr06 : 10604476 .. 10634147 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAAACAAATTCTGTTGGGGCCATCGGCTGGGTGGGCGAGAGGAAGCCAGGTCAATAAACTCGTGGAGATCGTAGGCTTGGAAATTTATTGTTCATGTGAAACTGCTGTTGATGTGGAGGAATGCAAAGAAACAAGTGGGACTAAAGTGAGCGCATTGGAAGAAAAAACTGACTTTATATTAGCTCCATGTGATGCAGTCTTGTCACTTATGGTCAACAGATCAGGAAAGCTCGATAGTAGTACTCCACAATATTCTGTTAAAGCTGACTTAAGTAGCCTGGTTTTCACTTTGAATGACATTCAGTTGCAACAAATATTGGATTTATGGGATTATCTTTCCATATGCAGATTAAGAGATAAGTATGGAAGATTTCGCCCCTGGTGCTCCCCCCTCTCAAGGAAAGTAAAGGGTTGGCAAATATTATGGTGGCATTATGCACAACAATCTGTCTTGTTAGATGTACGAAAGAAATTAAAGAAATGTTCATGGAGATATCTTGGACAGAGACTACTCTATCGTCGGAGGTATGTCAACTTTTACAAGAAAAAGTTGGAGTTTCTTCACAATGACCAGTCAATTGATGATCACATTCTCAAAGAATTGGAGGTATTGGAGAAAGAATCAGATATAGAAGATATTTTAAGTTACAGATCGGCTGCTGAATGTGAGTTACAGCATCTATTTGGCAGTTTGAAACCAGAAATGGTAATGACTGGTACACAAACAGCTGTTGAGAAGTCACAAGTTGATGATCGTGCAATGGGAAAACCTCGAGGATGGCTTAACTGGCTATCCCTTGGTATGTTAGGTGCTGGGGGTACTGAAGATTCAAGTCAATTTTCTGGTGTCATTTCAGATGATGTTGTAAAGGATATATATGAGGCTACAAAATTCCACCCTTTGGTTTCATCTAATGTCAGTGCGGCTGATGAAGAAAGGATCTGTTTTAGTGCCATCAAAATTGACATTCATCAGATCTCAGCAACTTTGCTTAGCAAATTGACAAATGGGCTATCTTTTGGGCAGGGCAGTGACAAAAAAATAGCTTCAGTAACAGACCACGACGGCGACGGCAACAGTTTCAAAACTGGGCAGTGA

Coding sequence (CDS)

ATGAAACAAATTCTGTTGGGGCCATCGGCTGGGTGGGCGAGAGGAAGCCAGGTCAATAAACTCGTGGAGATCGTAGGCTTGGAAATTTATTGTTCATGTGAAACTGCTGTTGATGTGGAGGAATGCAAAGAAACAAGTGGGACTAAAGTGAGCGCATTGGAAGAAAAAACTGACTTTATATTAGCTCCATGTGATGCAGTCTTGTCACTTATGGTCAACAGATCAGGAAAGCTCGATAGTAGTACTCCACAATATTCTGTTAAAGCTGACTTAAGTAGCCTGGTTTTCACTTTGAATGACATTCAGTTGCAACAAATATTGGATTTATGGGATTATCTTTCCATATGCAGATTAAGAGATAAGTATGGAAGATTTCGCCCCTGGTGCTCCCCCCTCTCAAGGAAAGTAAAGGGTTGGCAAATATTATGGTGGCATTATGCACAACAATCTGTCTTGTTAGATGTACGAAAGAAATTAAAGAAATGTTCATGGAGATATCTTGGACAGAGACTACTCTATCGTCGGAGGTATGTCAACTTTTACAAGAAAAAGTTGGAGTTTCTTCACAATGACCAGTCAATTGATGATCACATTCTCAAAGAATTGGAGGTATTGGAGAAAGAATCAGATATAGAAGATATTTTAAGTTACAGATCGGCTGCTGAATGTGAGTTACAGCATCTATTTGGCAGTTTGAAACCAGAAATGGTAATGACTGGTACACAAACAGCTGTTGAGAAGTCACAAGTTGATGATCGTGCAATGGGAAAACCTCGAGGATGGCTTAACTGGCTATCCCTTGGTATGTTAGGTGCTGGGGGTACTGAAGATTCAAGTCAATTTTCTGGTGTCATTTCAGATGATGTTGTAAAGGATATATATGAGGCTACAAAATTCCACCCTTTGGTTTCATCTAATGTCAGTGCGGCTGATGAAGAAAGGATCTGTTTTAGTGCCATCAAAATTGACATTCATCAGATCTCAGCAACTTTGCTTAGCAAATTGACAAATGGGCTATCTTTTGGGCAGGGCAGTGACAAAAAAATAGCTTCAGTAACAGACCACGACGGCGACGGCAACAGTTTCAAAACTGGGCAGTGA

Protein sequence

MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCETAVDVEECKETSGTKVSALEEKTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTGTQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFHPLVSSNVSAADEERICFSAIKIDIHQISATLLSKLTNGLSFGQGSDKKIASVTDHDGDGNSFKTGQ
Homology
[Close]
BLAST of Lsi06G006810 vs. Swiss-Prot
Match: VP13A_DICDI (Putative vacuolar protein sorting-associated protein 13A OS=Dictyostelium discoideum GN=vps13A PE=2 SV=1)

HSP 1 Score: 79.0 bits (193), Expect = 1.2e-13
Identity = 50/168 (29.76%), Postives = 87/168 (51.79%), Query Frame = 1 

Query: 59  FILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRL 118
           +I+ P  + L L +N+S  ++ S P+  V+  +S +  TL+  Q Q IL + ++ +    
Sbjct: 258 YIIKPISSQLKLNINKSDIIEKSIPKILVECVMSQITCTLSSGQYQNILSILNFTNEYLR 317

Query: 119 RDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYV 178
             KY +FRP       KV     LWW Y  Q ++  +R+K    SW ++ QR   R  Y+
Sbjct: 318 DIKYLKFRPIV-----KVSENPKLWWRYVGQVIVEQIREKRFSRSWEFIAQRRRARLAYI 377

Query: 179 NFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQ 227
             +K+ +  +   Q ++ H L++L  LE+    EDI+ +RS A  E++
Sbjct: 378 PLFKRNIPKVDWLQPLNKHELEQLNQLEERLSFEDIVYFRSLAYAEIK 420

[Close]
BLAST of Lsi06G006810 vs. Swiss-Prot
Match: VP13A_MOUSE (Vacuolar protein sorting-associated protein 13A OS=Mus musculus GN=Vps13a PE=1 SV=1)

HSP 1 Score: 74.7 bits (182), Expect = 2.3e-12
Identity = 61/212 (28.77%), Postives = 89/212 (41.98%), Query Frame = 1 

Query: 55  EKTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLS 114
           E  DF+  P  A   L +NR    D S P+ ++  DL ++    N  Q   +++L + + 
Sbjct: 247 EGYDFVFRPISASAKLQMNRRSDFDFSDPKINLAVDLHTIAIEFNKPQYFSLMELLESID 306

Query: 115 ICRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVL-LDVRKKLKKCSWRYLGQRLLY 174
           +      Y +F+P   PL    K W    W YA  S+L ++V   L+  SW ++      
Sbjct: 307 MMTQNQPYRKFKP-SVPLHLHAKEW----WAYAIHSILEVNVCPSLRMWSWEHIRNHRYK 366

Query: 175 RRRYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLK 234
            +RY  FYKKKL      +     IL  LE LEK  D+ +I   R  AE E +     + 
Sbjct: 367 MKRYREFYKKKL----TSKKPSPEILMSLEELEKTLDVFNITIARQQAEVEAKKAGYKIY 426

Query: 235 PEMVMTGTQTAVEKSQVDDRAMGKPRGWLNWL 266
            E V             +D A     GW  WL
Sbjct: 427 KEGV----------KDPEDNA-----GWFGWL 434

[Close]
BLAST of Lsi06G006810 vs. Swiss-Prot
Match: VP13E_DICDI (Putative vacuolar protein sorting-associated protein 13E OS=Dictyostelium discoideum GN=vps13E PE=3 SV=1)

HSP 1 Score: 69.7 bits (169), Expect = 7.5e-11
Identity = 50/177 (28.25%), Postives = 87/177 (49.15%), Query Frame = 1 

Query: 59  FILAPCDAVLSLM--------VNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLW 118
           +IL P    L +         VN+ G  +S    ++V   L  +   L DIQ + +L+L 
Sbjct: 399 YILQPISGFLKICLTEDSIESVNKEGVFNSIANNFNVSIGLKQIDLQLMDIQYRDMLNLL 458

Query: 119 DYLSICRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQR 178
            +    R   +Y +FRP C     +VKG   +WWH+A +S++ D R K  + +W+ +   
Sbjct: 459 SFYQDWRRVLRYHKFRPHC-----RVKGNARIWWHFAFRSIISDFRSKKTEMTWKEIEDS 518

Query: 179 LLYRRRYVNFYKKKLEFLHNDQS-IDDHILKELEVLEKESDIEDILSYRSAAECELQ 227
              R  Y+  Y +K  F+      +D +++ E   +EK+   EDI+ +R+ AE +L+
Sbjct: 519 KRVRECYIKLYTEK--FIKGKLGRLDQNLIDE---IEKKVTYEDIVLFRTIAEKDLK 565

[Close]
BLAST of Lsi06G006810 vs. Swiss-Prot
Match: VP13A_HUMAN (Vacuolar protein sorting-associated protein 13A OS=Homo sapiens GN=VPS13A PE=1 SV=2)

HSP 1 Score: 65.5 bits (158), Expect = 1.4e-09
Identity = 57/212 (26.89%), Postives = 94/212 (44.34%), Query Frame = 1 

Query: 55  EKTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLS 114
           E  DF+  P  A   L++NR    D S P+ +++ +L ++    N  Q   I++L + + 
Sbjct: 247 EGYDFVFRPISANAKLVMNRRSDFDFSAPKINLEIELHNIAIEFNKPQYFSIMELLESVD 306

Query: 115 ICRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVL-LDVRKKLKKCSWRYLGQRLLY 174
           +      Y +F+P   PL    + W    W YA   VL ++V  +L   SW+++ +    
Sbjct: 307 MMAQNLPYRKFKPDV-PLHHHAREW----WAYAIHGVLEVNVCPRLWMWSWKHIRKHRQK 366

Query: 175 RRRYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLK 234
            ++Y   YKKKL      +     +L  LE LEK  D+ +I   R  AE E++     + 
Sbjct: 367 VKQYKELYKKKL----TSKKPPGELLVSLEELEKTLDVFNITIARQTAEVEVKKAGYKIY 426

Query: 235 PEMVMTGTQTAVEKSQVDDRAMGKPRGWLNWL 266
            E V         K   D+      +GW +WL
Sbjct: 427 KEGV---------KDPEDN------KGWFSWL 434

[Close]
BLAST of Lsi06G006810 vs. Swiss-Prot
Match: VP13F_DICDI (Putative vacuolar protein sorting-associated protein 13F OS=Dictyostelium discoideum GN=vps13F PE=3 SV=1)

HSP 1 Score: 58.2 bits (139), Expect = 2.3e-07
Identity = 44/174 (25.29%), Postives = 86/174 (49.43%), Query Frame = 1 

Query: 53  LEEKTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDY 112
           ++ + +++L P    L L++N+S   +   P Y+   +   +   L   Q   IL L D+
Sbjct: 425 IKPQHNYLLHPVCGSLKLLINKSIIPNKYIPLYTANFEFDEINLELESKQYSGILALVDW 484

Query: 113 LSICRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLL 172
            +  +  ++Y +F+   S    K    +   W +A + +L DVR K++K + ++  +R  
Sbjct: 485 FTTQKKGERYRKFKTKESGGVLKTAKDR---WEFAGKCILADVRDKIRKWTPQFFDKRRK 544

Query: 173 YRRRYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQ 227
            R  Y++ YK K       +++ D    +L  LEKE   ED++ +RS A+ +L+
Sbjct: 545 DRLDYIHLYKLK----KRKKTLSDLNTTKLNSLEKEYSFEDLVYFRSLADAQLK 591

[Close]
BLAST of Lsi06G006810 vs. TrEMBL
Match: A0A061DJI1_THECC (Vacuolar protein sorting-associated protein 13A, putative OS=Theobroma cacao GN=TCM_001701 PE=4 SV=1)

HSP 1 Score: 346.7 bits (888), Expect = 3.5e-92
Identity = 192/325 (59.08%), Postives = 236/325 (72.62%), Query Frame = 1 

Query: 14  RGSQVNKLVEIVGLEIYCSC-ETAVDVEECKETSGTKVSA----LEEKTDFILAPCDAVL 73
           R  QV+K+VEI GLEIYCS  + A +V    +   +K       + +K+D IL P +  L
Sbjct: 188 RMGQVSKIVEIEGLEIYCSISKEAANVLSLNQVEDSKPWCNSHFVGDKSDHILEPVNVSL 247

Query: 74  SLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRDKYGRFRPW 133
           SL+VNRSGKL+   PQYS+ A ++ LV +LN+IQLQQIL L DYLS  +LR+KYGR+RPW
Sbjct: 248 SLLVNRSGKLND-LPQYSISAKITCLVVSLNEIQLQQILILSDYLSTSQLREKYGRYRPW 307

Query: 134 CSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNFYKKKLEFL 193
             PLSRK  GWQ LWWHYAQ+S+L DVR+KLKK SWRYLGQRL  RR+YVN YK KLEFL
Sbjct: 308 YCPLSRKEDGWQKLWWHYAQESILSDVREKLKKTSWRYLGQRLSNRRKYVNLYKTKLEFL 367

Query: 194 HNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTGTQTAVEKS 253
             DQ ID+ I++ELE +EKESDI+DILSYRSAAE ELQ +    KP    +    +VEKS
Sbjct: 368 QQDQPIDESIIRELEQMEKESDIDDILSYRSAAEHELQEVLS--KP----STANISVEKS 427

Query: 254 QVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFHPLVSSNVS 313
           + D ++ GK RGWLNWLS GMLGAGGT+DSSQFSGV+SD+ V+DIYEATKF+P V S V 
Sbjct: 428 RQDGQSSGKSRGWLNWLSRGMLGAGGTDDSSQFSGVVSDEDVQDIYEATKFYPPVFSAVD 487

Query: 314 AADEERICFSAIKIDIHQISATLLS 334
           A   E++    I+  I +ISATL S
Sbjct: 488 ADTNEKMYTRVIEFSIDEISATLWS 505

[Close]
BLAST of Lsi06G006810 vs. TrEMBL
Match: A0A067EH17_CITSI (Uncharacterized protein (Fragment) OS=Citrus sinensis GN=CISIN_1g0000282mg PE=4 SV=1)

HSP 1 Score: 345.5 bits (885), Expect = 7.9e-92
Identity = 189/334 (56.59%), Postives = 236/334 (70.66%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYC-SCETAVDVEECKETSGTKVSALEEKTDF 60
           MKQ   G S G ARG QVNKLVEI GL IYC + ++ V++              +   D 
Sbjct: 180 MKQNPAGSSGGRARGGQVNKLVEIQGLGIYCRTFQSDVNLMSFDNNG-------DSNFDH 239

Query: 61  ILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLR 120
           IL P D  +SLM+NRSG+LD+  PQYSV A+L+ LV +L+++QLQQI  L DYL   +L+
Sbjct: 240 ILKPLDLSVSLMLNRSGQLDTDLPQYSVNAELTKLVLSLDEVQLQQIFILLDYLCTSQLK 299

Query: 121 DKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVN 180
           +KYGR+RP  SPLS+K  GWQILWW YAQQSVL DVR+KLKK SWRYL QRL  RR+Y+N
Sbjct: 300 EKYGRYRPRYSPLSKKPDGWQILWWQYAQQSVLSDVREKLKKTSWRYLAQRLSNRRKYIN 359

Query: 181 FYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMT 240
            YK KL  L  +Q+ID+ +++ELE +EKESD++DILSYRSAAE ELQ +  S    + M 
Sbjct: 360 LYKAKLYCLQQEQAIDESVVRELEQMEKESDVDDILSYRSAAERELQEVVYSSNSNVGMN 419

Query: 241 GTQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKF 300
           G     EKS+ D+R   +  GWLNWLS GMLGAGGT+DSSQFSGV+SD+VVKDIYEATKF
Sbjct: 420 G---GAEKSRNDERLSSRSGGWLNWLSRGMLGAGGTDDSSQFSGVVSDEVVKDIYEATKF 479

Query: 301 HPLVSSNVSAADEERICFSAIKIDIHQISATLLS 334
            PLVSS++ A   ++    AIK+ I +ISA L S
Sbjct: 480 DPLVSSSIVADANDKFHTCAIKLSIAEISAALQS 503

[Close]
BLAST of Lsi06G006810 vs. TrEMBL
Match: B9RXC4_RICCO (Vacuolar protein sorting-associated protein, putative OS=Ricinus communis GN=RCOM_0902510 PE=4 SV=1)

HSP 1 Score: 344.7 bits (883), Expect = 1.3e-91
Identity = 187/345 (54.20%), Postives = 249/345 (72.17%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSC-ETAVDVEECKETSGTKVSALEEKT-- 60
           +KQ L+G S G   G QVNK V+I GLEIY +  + A++     + + + + + E     
Sbjct: 179 IKQSLVGSSGGKMAGGQVNKTVDIEGLEIYSTTLKGAIESTSWNDAACSTIWSSERSEGL 238

Query: 61  --DFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSI 120
             + +L P D  +SL+VNR+GKLD+   QYS++A+++ L  +L+++QLQQIL L DY+SI
Sbjct: 239 TLEHLLHPFDVTISLVVNRAGKLDNDMAQYSIRAEITGLKISLDEVQLQQILILSDYISI 298

Query: 121 CRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRR 180
            RLR+KYGR+RP    LSRK  GWQILWWHYAQ+SVL DVR+KL+K SW YLGQRL  RR
Sbjct: 299 SRLREKYGRYRPSGHSLSRKQTGWQILWWHYAQESVLSDVRRKLRKTSWGYLGQRLNSRR 358

Query: 181 RYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLF-GSLKP 240
           +Y+N YK KL+FL  +Q+ID+ I +ELE +EKE DI+DIL+YRSAAE ELQ +   S   
Sbjct: 359 KYINLYKIKLDFLQQEQAIDEFIFRELEQMEKEFDIDDILNYRSAAERELQEVLPDSSAS 418

Query: 241 EMVMTGTQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY 300
            M + G   +++KS+ D+R +G+ RGWLNWLS GMLGAGGT+DS+QFSGV+SD+VVKDIY
Sbjct: 419 NMGVNGIDISLKKSRNDERLLGRSRGWLNWLSRGMLGAGGTDDSTQFSGVVSDEVVKDIY 478

Query: 301 EATKFHPLVSSN--VSAADEERICFSAIKIDIHQISATLLSKLTN 338
           EATKFHP V S+  V A D+  IC  AIK+ I QI+A L SK ++
Sbjct: 479 EATKFHPSVFSSGVVDATDKMFIC--AIKLSIGQITAALYSKYSS 521

[Close]
BLAST of Lsi06G006810 vs. TrEMBL
Match: A0A0D2V0U0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_012G024100 PE=4 SV=1)

HSP 1 Score: 341.7 bits (875), Expect = 1.1e-90
Identity = 187/326 (57.36%), Postives = 240/326 (73.62%), Query Frame = 1 

Query: 14  RGSQVNKLVEIVGLEIYCSC--ETAVDVEECKETSGTKV----SALEEKTDFILAPCDAV 73
           R  QV+K+VE+ GLEIYCS   +TA D+     T G++       + +K++ I+ P +  
Sbjct: 189 RMGQVSKVVEVEGLEIYCSICKDTAKDLS-LSHTGGSESWFNSHCVGDKSEHIVEPFNVS 248

Query: 74  LSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRDKYGRFRP 133
           LSL+VNRS KL+   PQYS+ A ++ LV +LN+IQLQQIL L DYLS  +LR+KYGR+RP
Sbjct: 249 LSLLVNRSEKLND-LPQYSISAKMTCLVLSLNEIQLQQILILSDYLSTSQLREKYGRYRP 308

Query: 134 WCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNFYKKKLEF 193
           W SPLSRK  GWQ LWWHYAQ+S+L DVR+KLKK SWRYLGQRL  RR+YVN YK KLE 
Sbjct: 309 WSSPLSRKEDGWQRLWWHYAQESILSDVREKLKKTSWRYLGQRLSNRRKYVNLYKTKLEL 368

Query: 194 LHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTGTQTAVEK 253
           L  DQ ID+ ++++LE +EKESDI+DILSYRSAAE ELQ +   LK    +     +VEK
Sbjct: 369 LRQDQPIDESLIRDLEQMEKESDIDDILSYRSAAEHELQEVL--LKSSTAI----FSVEK 428

Query: 254 SQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFHPLVSSNV 313
           S++D ++ GK RGWLNWLS GMLGAGGT+DSSQFSGV+SD+ V+DIYEATKF+P V S +
Sbjct: 429 SRLDGQSSGKSRGWLNWLSRGMLGAGGTDDSSQFSGVVSDEDVQDIYEATKFYPPVLSGI 488

Query: 314 SAADEERICFSAIKIDIHQISATLLS 334
            A   ++I   AI+  I++ISAT+ S
Sbjct: 489 DADTNDKIYSRAIEFSINEISATIWS 506

[Close]
BLAST of Lsi06G006810 vs. TrEMBL
Match: A0A0D2VUJ9_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_012G024100 PE=4 SV=1)

HSP 1 Score: 341.7 bits (875), Expect = 1.1e-90
Identity = 187/326 (57.36%), Postives = 240/326 (73.62%), Query Frame = 1 

Query: 14  RGSQVNKLVEIVGLEIYCSC--ETAVDVEECKETSGTKV----SALEEKTDFILAPCDAV 73
           R  QV+K+VE+ GLEIYCS   +TA D+     T G++       + +K++ I+ P +  
Sbjct: 189 RMGQVSKVVEVEGLEIYCSICKDTAKDLS-LSHTGGSESWFNSHCVGDKSEHIVEPFNVS 248

Query: 74  LSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRDKYGRFRP 133
           LSL+VNRS KL+   PQYS+ A ++ LV +LN+IQLQQIL L DYLS  +LR+KYGR+RP
Sbjct: 249 LSLLVNRSEKLND-LPQYSISAKMTCLVLSLNEIQLQQILILSDYLSTSQLREKYGRYRP 308

Query: 134 WCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNFYKKKLEF 193
           W SPLSRK  GWQ LWWHYAQ+S+L DVR+KLKK SWRYLGQRL  RR+YVN YK KLE 
Sbjct: 309 WSSPLSRKEDGWQRLWWHYAQESILSDVREKLKKTSWRYLGQRLSNRRKYVNLYKTKLEL 368

Query: 194 LHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTGTQTAVEK 253
           L  DQ ID+ ++++LE +EKESDI+DILSYRSAAE ELQ +   LK    +     +VEK
Sbjct: 369 LRQDQPIDESLIRDLEQMEKESDIDDILSYRSAAEHELQEVL--LKSSTAI----FSVEK 428

Query: 254 SQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFHPLVSSNV 313
           S++D ++ GK RGWLNWLS GMLGAGGT+DSSQFSGV+SD+ V+DIYEATKF+P V S +
Sbjct: 429 SRLDGQSSGKSRGWLNWLSRGMLGAGGTDDSSQFSGVVSDEDVQDIYEATKFYPPVLSGI 488

Query: 314 SAADEERICFSAIKIDIHQISATLLS 334
            A   ++I   AI+  I++ISAT+ S
Sbjct: 489 DADTNDKIYSRAIEFSINEISATIWS 506

[Close]
BLAST of Lsi06G006810 vs. TAIR10
Match: AT5G24740.1 (AT5G24740.1 Protein of unknown function (DUF1162))

HSP 1 Score: 248.1 bits (632), Expect = 8.7e-66
Identity = 155/342 (45.32%), Postives = 196/342 (57.31%), Query Frame = 1 

Query: 2   KQILLGPSAGWARGSQVNKLVEIVGLEIYCSC-ETAVDVEECKETSG----TKVSALEEK 61
           KQ  +GPS G  RG QVN LVE+ GLEIYC   E  +D     E  G     +      +
Sbjct: 184 KQNSVGPSVGRVRGGQVNILVEVEGLEIYCDMYEGNMDFPSVNEKIGFDNWCQSRLQSNR 243

Query: 62  TDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSIC 121
             ++L P    ++L+VNRSG+L    PQYS+ A+L+ +V TLN+ QLQQIL L DYL   
Sbjct: 244 FGYLLKPVHVSVTLLVNRSGELYDDLPQYSISAELTDVVVTLNEFQLQQILILLDYLQTS 303

Query: 122 RLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLD-VRKKLKKCSWRYLGQRLLYRR 181
           +LR++YGR+RP  + LSRK  GWQ LWWHYAQ SVL D + K ++      LG       
Sbjct: 304 QLRERYGRYRPCSTSLSRKPPGWQKLWWHYAQNSVLSDSIDKSIR------LG------- 363

Query: 182 RYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPE 241
                    LE L     IDD IL                 YRSAAE E+Q     L   
Sbjct: 364 ---------LEELEKKSDIDD-ILS----------------YRSAAEGEMQEACSELTVN 423

Query: 242 MVMTGT------QTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDV 301
           M  TG       Q+A EK   DD  + K RGWLNWLS GMLGAGGTEDSSQFSGV+SD+V
Sbjct: 424 MGATGATRSEKEQSAPEKEPSDDPTLNKSRGWLNWLSRGMLGAGGTEDSSQFSGVVSDEV 483

Query: 302 VKDIYEATKFHPLVSSNVSAADEERICFSAIKIDIHQISATL 332
           VKDI++ATKF+PL SS  + +   +IC  +I++++ + SATL
Sbjct: 484 VKDIHKATKFYPLSSSPRNTSATGKICTCSIRLNVRKFSATL 486

[Close]
BLAST of Lsi06G006810 vs. NCBI nr
Match: gi|659085896|ref|XP_008443663.1| (PREDICTED: putative vacuolar protein sorting-associated protein 13A [Cucumis melo])

HSP 1 Score: 606.7 bits (1563), Expect = 2.7e-170
Identity = 300/334 (89.82%), Postives = 315/334 (94.31%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCETAVDVEECKETSGTKVSALEEKTDFI 60
           MKQIL    AGW RGSQVNKLVEI+GLEIYCSC++AVDVE CKE  G KVS LEEK+DFI
Sbjct: 180 MKQIL--SLAGWGRGSQVNKLVEIIGLEIYCSCQSAVDVEGCKEARGAKVSTLEEKSDFI 239

Query: 61  LAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRD 120
           LAPCDAVLSLMVNRSGKLD+STPQYSVKADLSSLVFTLND+QLQQIL+LWDYLSICRLRD
Sbjct: 240 LAPCDAVLSLMVNRSGKLDNSTPQYSVKADLSSLVFTLNDVQLQQILNLWDYLSICRLRD 299

Query: 121 KYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNF 180
           KYGRFRPWCSPLSRKVKGWQ+LWWHYAQQSVLLDVRKKLKKCSW+YLGQRLLYRRRYV F
Sbjct: 300 KYGRFRPWCSPLSRKVKGWQMLWWHYAQQSVLLDVRKKLKKCSWKYLGQRLLYRRRYVEF 359

Query: 181 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTG 240
           YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRS AECELQHLFGSL+PEMVMTG
Sbjct: 360 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSTAECELQHLFGSLRPEMVMTG 419

Query: 241 TQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFH 300
           TQT VEKSQVDDRA+GKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY+AT+FH
Sbjct: 420 TQTTVEKSQVDDRAVGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYKATEFH 479

Query: 301 PLVSSNVSAADEERICFSAIKIDIHQISATLLSK 335
           P V  NVSAADE RICF AI+ DIHQISATL+SK
Sbjct: 480 PSVFPNVSAADEGRICFCAIEFDIHQISATLMSK 511

[Close]
BLAST of Lsi06G006810 vs. NCBI nr
Match: gi|778664064|ref|XP_011660209.1| (PREDICTED: uncharacterized protein LOC101204937 isoform X1 [Cucumis sativus])

HSP 1 Score: 601.7 bits (1550), Expect = 8.7e-169
Identity = 298/334 (89.22%), Postives = 310/334 (92.81%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCETAVDVEECKETSGTKVSALEEKTDFI 60
           MKQIL    AGW RGSQVNKLVEI+GLEIYCSC+  VDVE C E  GTKVS LEEK+DFI
Sbjct: 180 MKQIL--SLAGWGRGSQVNKLVEIIGLEIYCSCQNTVDVEGCNEARGTKVSTLEEKSDFI 239

Query: 61  LAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRD 120
           LAPCDAVLSLMVNRSGKLD+STPQYSVKADLSSLVFTLND+QLQQIL+LWDYLSICRLRD
Sbjct: 240 LAPCDAVLSLMVNRSGKLDNSTPQYSVKADLSSLVFTLNDVQLQQILNLWDYLSICRLRD 299

Query: 121 KYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNF 180
           KYGRFRPWC PLSRKVKGWQ+LWWHYAQQSVLLDVRK+LKKCSWRYLGQRLLYRRRYV F
Sbjct: 300 KYGRFRPWCFPLSRKVKGWQMLWWHYAQQSVLLDVRKRLKKCSWRYLGQRLLYRRRYVEF 359

Query: 181 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTG 240
           YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRS AECELQHLFGSLKPEM MTG
Sbjct: 360 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSTAECELQHLFGSLKPEMAMTG 419

Query: 241 TQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFH 300
            QT VEKSQVDDRA+GKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY+ATKFH
Sbjct: 420 AQTTVEKSQVDDRAVGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYKATKFH 479

Query: 301 PLVSSNVSAADEERICFSAIKIDIHQISATLLSK 335
           P V SNVSAADE RICF AI+ DIH ISATL+SK
Sbjct: 480 PSVFSNVSAADEGRICFCAIEFDIHHISATLMSK 511

[Close]
BLAST of Lsi06G006810 vs. NCBI nr
Match: gi|778664067|ref|XP_011660210.1| (PREDICTED: uncharacterized protein LOC101204937 isoform X2 [Cucumis sativus])

HSP 1 Score: 601.7 bits (1550), Expect = 8.7e-169
Identity = 298/334 (89.22%), Postives = 310/334 (92.81%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCETAVDVEECKETSGTKVSALEEKTDFI 60
           MKQIL    AGW RGSQVNKLVEI+GLEIYCSC+  VDVE C E  GTKVS LEEK+DFI
Sbjct: 180 MKQIL--SLAGWGRGSQVNKLVEIIGLEIYCSCQNTVDVEGCNEARGTKVSTLEEKSDFI 239

Query: 61  LAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSICRLRD 120
           LAPCDAVLSLMVNRSGKLD+STPQYSVKADLSSLVFTLND+QLQQIL+LWDYLSICRLRD
Sbjct: 240 LAPCDAVLSLMVNRSGKLDNSTPQYSVKADLSSLVFTLNDVQLQQILNLWDYLSICRLRD 299

Query: 121 KYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRRRYVNF 180
           KYGRFRPWC PLSRKVKGWQ+LWWHYAQQSVLLDVRK+LKKCSWRYLGQRLLYRRRYV F
Sbjct: 300 KYGRFRPWCFPLSRKVKGWQMLWWHYAQQSVLLDVRKRLKKCSWRYLGQRLLYRRRYVEF 359

Query: 181 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQHLFGSLKPEMVMTG 240
           YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRS AECELQHLFGSLKPEM MTG
Sbjct: 360 YKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSTAECELQHLFGSLKPEMAMTG 419

Query: 241 TQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYEATKFH 300
            QT VEKSQVDDRA+GKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY+ATKFH
Sbjct: 420 AQTTVEKSQVDDRAVGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIYKATKFH 479

Query: 301 PLVSSNVSAADEERICFSAIKIDIHQISATLLSK 335
           P V SNVSAADE RICF AI+ DIH ISATL+SK
Sbjct: 480 PSVFSNVSAADEGRICFCAIEFDIHHISATLMSK 511

[Close]
BLAST of Lsi06G006810 vs. NCBI nr
Match: gi|731419932|ref|XP_010661190.1| (PREDICTED: uncharacterized protein LOC100245550 isoform X1 [Vitis vinifera])

HSP 1 Score: 369.4 bits (947), Expect = 7.3e-99
Identity = 193/337 (57.27%), Postives = 245/337 (72.70%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCE----TAVDVEECKETSGTKVSALE-E 60
           MKQ  +G   G  RG QVNK VEI+GLEIYCS      + + +++  ++     + LE  
Sbjct: 180 MKQNPVGSFNGKVRGGQVNKTVEILGLEIYCSTSQGTLSLIAIDDAADSKLGGDARLEGN 239

Query: 61  KTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSI 120
           K D+ILAP D  ++L+VNRSGKL++  PQYS+ A+L+SLV +L+++QLQQIL L DYL  
Sbjct: 240 KNDYILAPFDVSMTLLVNRSGKLENDAPQYSINAELTSLVMSLDEVQLQQILSLCDYLCT 299

Query: 121 CRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRR 180
            RLR+KYGR+RP  + LSRKV+GWQ +WWHYAQ SVL DVRKKLK+ SW Y GQRL  RR
Sbjct: 300 SRLREKYGRYRPSSNLLSRKVEGWQKMWWHYAQASVLSDVRKKLKRTSWTYFGQRLSCRR 359

Query: 181 RYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQ-HLFGSLKP 240
           +YVN YK KL+FL  ++ ID+HIL+ELE +EKES I++IL+YRS AE ELQ  L  S   
Sbjct: 360 KYVNLYKTKLDFLRQEKPIDEHILRELEKIEKESGIDEILNYRSTAESELQDFLLTSSTS 419

Query: 241 EMVMTGTQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY 300
            M  +     VEK   D+R+  + RGWLNWLSLGMLGAGGT+DS +FSGV+SD+V+KDIY
Sbjct: 420 TMGTSSANATVEKLPNDERSSSRSRGWLNWLSLGMLGAGGTDDSGEFSGVVSDEVIKDIY 479

Query: 301 EATKFHPLVSSNVSAADEERICFSAIKIDIHQISATL 332
           EATKFHP++ SNV AA  + I  S +K  IHQISATL
Sbjct: 480 EATKFHPVLLSNVDAAAADEIYLSTVKFSIHQISATL 516

[Close]
BLAST of Lsi06G006810 vs. NCBI nr
Match: gi|731419934|ref|XP_010661192.1| (PREDICTED: putative vacuolar protein sorting-associated protein 13A isoform X2 [Vitis vinifera])

HSP 1 Score: 369.4 bits (947), Expect = 7.3e-99
Identity = 193/337 (57.27%), Postives = 245/337 (72.70%), Query Frame = 1 

Query: 1   MKQILLGPSAGWARGSQVNKLVEIVGLEIYCSCE----TAVDVEECKETSGTKVSALE-E 60
           MKQ  +G   G  RG QVNK VEI+GLEIYCS      + + +++  ++     + LE  
Sbjct: 180 MKQNPVGSFNGKVRGGQVNKTVEILGLEIYCSTSQGTLSLIAIDDAADSKLGGDARLEGN 239

Query: 61  KTDFILAPCDAVLSLMVNRSGKLDSSTPQYSVKADLSSLVFTLNDIQLQQILDLWDYLSI 120
           K D+ILAP D  ++L+VNRSGKL++  PQYS+ A+L+SLV +L+++QLQQIL L DYL  
Sbjct: 240 KNDYILAPFDVSMTLLVNRSGKLENDAPQYSINAELTSLVMSLDEVQLQQILSLCDYLCT 299

Query: 121 CRLRDKYGRFRPWCSPLSRKVKGWQILWWHYAQQSVLLDVRKKLKKCSWRYLGQRLLYRR 180
            RLR+KYGR+RP  + LSRKV+GWQ +WWHYAQ SVL DVRKKLK+ SW Y GQRL  RR
Sbjct: 300 SRLREKYGRYRPSSNLLSRKVEGWQKMWWHYAQASVLSDVRKKLKRTSWTYFGQRLSCRR 359

Query: 181 RYVNFYKKKLEFLHNDQSIDDHILKELEVLEKESDIEDILSYRSAAECELQ-HLFGSLKP 240
           +YVN YK KL+FL  ++ ID+HIL+ELE +EKES I++IL+YRS AE ELQ  L  S   
Sbjct: 360 KYVNLYKTKLDFLRQEKPIDEHILRELEKIEKESGIDEILNYRSTAESELQDFLLTSSTS 419

Query: 241 EMVMTGTQTAVEKSQVDDRAMGKPRGWLNWLSLGMLGAGGTEDSSQFSGVISDDVVKDIY 300
            M  +     VEK   D+R+  + RGWLNWLSLGMLGAGGT+DS +FSGV+SD+V+KDIY
Sbjct: 420 TMGTSSANATVEKLPNDERSSSRSRGWLNWLSLGMLGAGGTDDSGEFSGVVSDEVIKDIY 479

Query: 301 EATKFHPLVSSNVSAADEERICFSAIKIDIHQISATL 332
           EATKFHP++ SNV AA  + I  S +K  IHQISATL
Sbjct: 480 EATKFHPVLLSNVDAAAADEIYLSTVKFSIHQISATL 516

The following BLAST results are available for this feature:
BLAST of Lsi06G006810 vs. Swiss-Prot
Match NameE-valueIdentityDescription
VP13A_DICDI1.2e-1329.76Putative vacuolar protein sorting-associated protein 13A OS=Dictyostelium discoi... [more]
VP13A_MOUSE2.3e-1228.77Vacuolar protein sorting-associated protein 13A OS=Mus musculus GN=Vps13a PE=1 S... [more]
VP13E_DICDI7.5e-1128.25Putative vacuolar protein sorting-associated protein 13E OS=Dictyostelium discoi... [more]
VP13A_HUMAN1.4e-0926.89Vacuolar protein sorting-associated protein 13A OS=Homo sapiens GN=VPS13A PE=1 S... [more]
VP13F_DICDI2.3e-0725.29Putative vacuolar protein sorting-associated protein 13F OS=Dictyostelium discoi... [more]
BLAST of Lsi06G006810 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A061DJI1_THECC3.5e-9259.08Vacuolar protein sorting-associated protein 13A, putative OS=Theobroma cacao GN=... [more]
A0A067EH17_CITSI7.9e-9256.59Uncharacterized protein (Fragment) OS=Citrus sinensis GN=CISIN_1g0000282mg PE=4 ... [more]
B9RXC4_RICCO1.3e-9154.20Vacuolar protein sorting-associated protein, putative OS=Ricinus communis GN=RCO... [more]
A0A0D2V0U0_GOSRA1.1e-9057.36Uncharacterized protein OS=Gossypium raimondii GN=B456_012G024100 PE=4 SV=1[more]
A0A0D2VUJ9_GOSRA1.1e-9057.36Uncharacterized protein OS=Gossypium raimondii GN=B456_012G024100 PE=4 SV=1[more]
BLAST of Lsi06G006810 vs. TAIR10
Match NameE-valueIdentityDescription
AT5G24740.18.7e-6645.32 Protein of unknown function (DUF1162)[more]
BLAST of Lsi06G006810 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|659085896|ref|XP_008443663.1|2.7e-17089.82PREDICTED: putative vacuolar protein sorting-associated protein 13A [Cucumis mel... [more]
gi|778664064|ref|XP_011660209.1|8.7e-16989.22PREDICTED: uncharacterized protein LOC101204937 isoform X1 [Cucumis sativus][more]
gi|778664067|ref|XP_011660210.1|8.7e-16989.22PREDICTED: uncharacterized protein LOC101204937 isoform X2 [Cucumis sativus][more]
gi|731419932|ref|XP_010661190.1|7.3e-9957.27PREDICTED: uncharacterized protein LOC100245550 isoform X1 [Vitis vinifera][more]
gi|731419934|ref|XP_010661192.1|7.3e-9957.27PREDICTED: putative vacuolar protein sorting-associated protein 13A isoform X2 [... [more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR026847VPS13
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008150 biological_process
cellular_component GO:0005575 cellular_component
molecular_function GO:0003674 molecular_function
Relationships

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

Feature NameUnique NameType
Lsi06G006810.1Lsi06G006810.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR026847Vacuolar protein sorting-associated protein 13PANTHERPTHR16166VACUOLAR PROTEIN SORTING-ASSOCIATED PROTEIN VPS13coord: 2..333
score: 3.0
NoneNo IPR availablePANTHERPTHR16166:SF100SUBFAMILY NOT NAMEDcoord: 2..333
score: 3.0