Lsi09G005340 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi09G005340
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionGluconokinase
Locationchr09 : 5583118 .. 5613640 (+)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAAAAAAATGTCAAAAGGAATCCCTCTCTCAGACGAAGATCGAATACCATGGCTCGAGAAGATTCGAGATACATTGAGAGAGAACATAGCATGTAGAAGAAGTGTAGTTCTTGGTTGTTCAGCTCTACAAAAACAGTATAGAGAGATTTTGAGATCAGGTGATCCAAATTATGAAAAAATGGGGAAAATTAGATGTGTGGTGAAGTTTGTTCTTTTGGATGCTCCAGCTGAAGTGATTGCTTCAAGATTAGAGAAAAGAGCCAAAGAAGGGAACCATTTCATGGCTTCTACTCTTTTGAAATCTCAATTGGATTTGTTGCAAATTGATGATAGTGAAGGAATTTTAAAAGTTGATGCAACTCTTACTCCACAAGCAATTGTAAGTAATATTCTTAAGTTGGTTTTTGGATCTAGTTTGGTTTTAACTAACAATGAGAAATCATAGTTTTGATTTTCTCATCCCTCTTTTTTCTTATCATATTTCTTGTTTCTTGCTTTTGGAAAAACAAAAACAACAAGGGAAATTTTCAGTCAAATTATTTACAGAAAATAGCAAAAAAA

Coding sequence (CDS)

ATGAAAAAAATGTCAAAAGGAATCCCTCTCTCAGACGAAGATCGAATACCATGGCTCGAGAAGATTCGAGATACATTGAGAGAGAACATAGCATGTAGAAGAAGTGTAGTTCTTGGTTGTTCAGCTCTACAAAAACAGTATAGAGAGATTTTGAGATCAGGTGATCCAAATTATGAAAAAATGGGGAAAATTAGATGTGTGGTGAAGTTTGTTCTTTTGGATGCTCCAGCTGAAGTGATTGCTTCAAGATTAGAGAAAAGAGCCAAAGAAGGGAACCATTTCATGGCTTCTACTCTTTTGAAATCTCAATTGGATTTGTTGCAAATTGATGATAGTGAAGGAATTTTAAAAGTTGATGCAACTCTTACTCCACAAGCAATTGTAAGTAATATTCTTAAGTTGGTTTTTGGATCTAGTTTGGTTTTAACTAACAATGAGAAATCATAG

Protein sequence

MKKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKMGKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDATLTPQAIVSNILKLVFGSSLVLTNNEKS
Homology
[Close]
BLAST of Lsi09G005340 vs. Swiss-Prot
Match: IDNK_ECOLI (Thermosensitive gluconokinase OS=Escherichia coli (strain K12) GN=idnK PE=3 SV=1)

HSP 1 Score: 89.0 bits (219), Expect = 4.8e-17
Identity = 50/119 (42.02%), Postives = 71/119 (59.66%), Query Frame = 1 

Query: 3   KMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKMG 62
           KMS+GIPLSDEDR+PWLE++ D          +  + CS+L+KQYR+ILR G P+     
Sbjct: 45  KMSQGIPLSDEDRLPWLERLNDASYSLYKKNETGFIVCSSLKKQYRDILRKGSPH----- 104

Query: 63  KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQID--DSEGILKVD 120
                V F+ LD   E I +R+++RA    HFM   LLKSQ + L+    D + I+++D
Sbjct: 105 -----VHFLWLDGDYETILARMQRRA---GHFMPVALLKSQFEALERPQADEQDIVRID 150

[Close]
BLAST of Lsi09G005340 vs. Swiss-Prot
Match: GCNK_GLUOX (Gluconokinase OS=Gluconobacter oxydans (strain 621H) GN=GOX1709 PE=1 SV=1)

HSP 1 Score: 84.0 bits (206), Expect = 1.6e-15
Identity = 50/134 (37.31%), Postives = 74/134 (55.22%), Query Frame = 1 

Query: 1   MKKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEK 60
           ++KMS G PL+D DR PWL    D LRE +      VL CSAL++ YRE LR  D     
Sbjct: 52  VEKMSTGQPLTDADRAPWLALCHDWLREQVKAGHGAVLTCSALKRSYREQLRGDD----- 111

Query: 61  MGKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQI-DDSEGILKVD 120
                  ++FV +D     +A RL++R  EG HFM ++LL SQL  L++  D E +++V 
Sbjct: 112 -----LPIEFVHIDTSTGELADRLQRR--EG-HFMPASLLPSQLATLEVPGDDEPVIRVS 171

Query: 121 ATLTPQAIVSNILK 134
               P  ++  +++
Sbjct: 172 GEKHPDVVLEELIR 172

[Close]
BLAST of Lsi09G005340 vs. Swiss-Prot
Match: GNTK_HUMAN (Probable gluconokinase OS=Homo sapiens GN=IDNK PE=1 SV=1)

HSP 1 Score: 82.0 bits (201), Expect = 5.9e-15
Identity = 55/141 (39.01%), Postives = 78/141 (55.32%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNY--- 61
           +KM KGIPL+D+DRIPWL  + D L  ++A  + VVL CSAL+K YR+IL  G       
Sbjct: 45  RKMGKGIPLNDQDRIPWLCNLHDILLRDVASGQRVVLACSALKKTYRDILTQGKDGVALK 104

Query: 62  -EKMGK----IRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDS- 121
            E+ GK        +  V L    EVI+ RL KR  EG HFM   LL+SQ + L+   + 
Sbjct: 105 CEESGKEAKQAEMQLLVVHLSGSFEVISGRLLKR--EG-HFMPPELLQSQFETLEPPAAP 164

Query: 122 EGILKVDATLTPQAIVSNILK 134
           E  +++        I++ I++
Sbjct: 165 ENFIQISVDKNVSEIIATIME 182

[Close]
BLAST of Lsi09G005340 vs. Swiss-Prot
Match: GNTK_XENTR (Probable gluconokinase OS=Xenopus tropicalis GN=idnk PE=2 SV=1)

HSP 1 Score: 78.2 bits (191), Expect = 8.5e-14
Identity = 49/136 (36.03%), Postives = 73/136 (53.68%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGD-----P 61
           +KMS+G PL+D+DR PWL ++ + +    A  + VVL CSAL++ YR  L +G       
Sbjct: 41  EKMSQGTPLNDQDRHPWLCELHEIMMREKALGQHVVLACSALKRAYRSTLLTGSTPHWPE 100

Query: 62  NYEKMGKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDS-EGI 121
           NY++   +     FV L    E+++ RL +R     HFM  TLL SQ+D L+   + E  
Sbjct: 101 NYQENDDLSSDTLFVHLHGSLEILSRRLLERK---GHFMPRTLLDSQIDTLEPPSAPERF 160

Query: 122 LKVDATLTPQAIVSNI 132
           + +D       IVS I
Sbjct: 161 IAIDVDKDISVIVSEI 173

[Close]
BLAST of Lsi09G005340 vs. Swiss-Prot
Match: GNTK_RAT (Probable gluconokinase OS=Rattus norvegicus GN=Idnk PE=2 SV=1)

HSP 1 Score: 77.8 bits (190), Expect = 1.1e-13
Identity = 48/114 (42.11%), Postives = 67/114 (58.77%), Query Frame = 1 

Query: 3   KMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSG----DPNY 62
           KM KG+PL+D+DRIPWL  + D L  ++A  +SVVL CSAL+K YR+IL  G     P  
Sbjct: 46  KMGKGVPLNDQDRIPWLCSLHDILLRDVASGQSVVLACSALKKMYRDILNRGGSDVPPRS 105

Query: 63  EKMGKIRCVV--KFVL--LDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQ 109
           ++  K   +   KF++  L    E+I  RL +R     HFM   LL+SQ  +L+
Sbjct: 106 DESAKEEPLAGGKFLVVHLCGSFELIYGRLLQRR---GHFMPPELLQSQFSILE 156

[Close]
BLAST of Lsi09G005340 vs. TrEMBL
Match: A0A0A0KN86_CUCSA (Gluconokinase OS=Cucumis sativus GN=Csa_5G169050 PE=3 SV=1)

HSP 1 Score: 226.5 bits (576), Expect = 2.2e-56
Identity = 115/135 (85.19%), Postives = 125/135 (92.59%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KMSKGIPLSDEDR+PWLEKIRDTLRENIAC+ SVVLGCSALQK YREILRS DPNYEK+
Sbjct: 46  EKMSKGIPLSDEDRMPWLEKIRDTLRENIACKSSVVLGCSALQKHYREILRSSDPNYEKV 105

Query: 62  G-KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDA 121
           G  ++CVVKFVLLDAPAEVIA RLEKRAKEGNHFM S LLKSQLDLLQI+D+EGI+KVDA
Sbjct: 106 GITMKCVVKFVLLDAPAEVIALRLEKRAKEGNHFMPSALLKSQLDLLQIEDTEGIVKVDA 165

Query: 122 TLTPQAIVSNILKLV 136
           T TPQAI+SNIL LV
Sbjct: 166 TQTPQAILSNILNLV 180

[Close]
BLAST of Lsi09G005340 vs. TrEMBL
Match: M5XKV9_PRUPE (Gluconokinase OS=Prunus persica GN=PRUPE_ppa012010mg PE=3 SV=1)

HSP 1 Score: 179.5 bits (454), Expect = 3.0e-42
Identity = 91/135 (67.41%), Postives = 111/135 (82.22%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KM KGIPLS+EDR+PWLE +R+ LRE +    +V+LGCSALQK+YRE+LRS DPNYE +
Sbjct: 48  EKMRKGIPLSEEDRMPWLETLRNALREKLVDGGTVILGCSALQKRYREVLRSADPNYE-L 107

Query: 62  GKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDAT 121
           G    +VKFVLLDA AEV+A+RLEKR  EG HFM+  LL+SQL LLQIDDSEGILKVDAT
Sbjct: 108 GSHVSLVKFVLLDAQAEVLAARLEKRIAEGKHFMSPALLQSQLGLLQIDDSEGILKVDAT 167

Query: 122 LTPQAIVSNILKLVF 137
           L+PQ IV+ I +L+F
Sbjct: 168 LSPQDIVNTIQRLIF 181

[Close]
BLAST of Lsi09G005340 vs. TrEMBL
Match: K4HV53_MALDO (Gluconokinase OS=Malus domestica GN=GK PE=2 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 6.7e-42
Identity = 91/135 (67.41%), Postives = 110/135 (81.48%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KM KGIPL++EDR+PWLEK+R+ +R+ +    +V+LGCSALQK+YREILRS DPNY K 
Sbjct: 49  EKMRKGIPLTEEDRMPWLEKLRNGVRDKLLGGGTVILGCSALQKRYREILRSADPNY-KP 108

Query: 62  GKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDAT 121
           G    +VKFVLLDA AEV+A+RLEKR  EG HFM+  LL+SQL LLQIDDSEGILKVDAT
Sbjct: 109 GSCVSLVKFVLLDAQAEVLAARLEKRITEGKHFMSPALLQSQLGLLQIDDSEGILKVDAT 168

Query: 122 LTPQAIVSNILKLVF 137
           LTPQ IV  I +L+F
Sbjct: 169 LTPQEIVKTIQRLIF 182

[Close]
BLAST of Lsi09G005340 vs. TrEMBL
Match: W9R0G9_9ROSA (Thermosensitive gluconokinase OS=Morus notabilis GN=L484_013567 PE=4 SV=1)

HSP 1 Score: 176.8 bits (447), Expect = 2.0e-41
Identity = 90/132 (68.18%), Postives = 107/132 (81.06%), Query Frame = 1 

Query: 4   MSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKMGK 63
           M  GIPLS+EDRIPWLE +RD L E++  RRSV++GCSALQK+YREILR  DPNYE    
Sbjct: 1   MQNGIPLSEEDRIPWLETLRDALGESLVNRRSVIVGCSALQKRYREILRCADPNYEPASY 60

Query: 64  IRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDATLT 123
           +  VVKFVLLDA A+V+A+RLEKRA EG HFM S+LL+SQL+LL+IDDSE ILKVDATL+
Sbjct: 61  V-SVVKFVLLDAEADVLAARLEKRAAEGKHFMPSSLLRSQLELLRIDDSEEILKVDATLS 120

Query: 124 PQAIVSNILKLV 136
           PQ IV  I  L+
Sbjct: 121 PQVIVETIQALI 131

[Close]
BLAST of Lsi09G005340 vs. TrEMBL
Match: D7T7U3_VITVI (Gluconokinase OS=Vitis vinifera GN=VIT_16s0039g02500 PE=3 SV=1)

HSP 1 Score: 173.7 bits (439), Expect = 1.7e-40
Identity = 90/134 (67.16%), Postives = 104/134 (77.61%), Query Frame = 1 

Query: 3   KMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKMG 62
           KM +GI LSD+DRIPWLE +R+ LRE++    +VVLGCSALQK YREILRS DPNYE  G
Sbjct: 52  KMKRGIALSDKDRIPWLETLRNALREHLLSNNTVVLGCSALQKNYREILRSADPNYEH-G 111

Query: 63  KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDATL 122
               +VKFVLLDA AEVIA+RLEKRA EGNHFM   LL+SQLD LQ+D SEGILKVDAT 
Sbjct: 112 SFESMVKFVLLDARAEVIAARLEKRAAEGNHFMPPNLLQSQLDSLQLDPSEGILKVDATQ 171

Query: 123 TPQAIVSNILKLVF 137
           +P   V+ I  L+F
Sbjct: 172 SPDDTVNGIQALIF 184

[Close]
BLAST of Lsi09G005340 vs. TAIR10
Match: AT2G16790.1 (AT2G16790.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein)

HSP 1 Score: 151.8 bits (382), Expect = 3.4e-37
Identity = 76/136 (55.88%), Postives = 99/136 (72.79%), Query Frame = 1 

Query: 3   KMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKMG 62
           KM +GI LSDEDR+PWLEKI+++LR+ +    +VVL CS+L+KQYREILR  DP+Y+   
Sbjct: 51  KMRQGIALSDEDRMPWLEKIQESLRKRLLDGETVVLACSSLRKQYREILRGSDPDYKPGS 110

Query: 63  KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDATL 122
              C V FVLL+  AEVIA+RL+KRA E  HFM  TLL+SQ DLLQ D+ E I K+   L
Sbjct: 111 YTSCKVTFVLLEGNAEVIAARLQKRASEEEHFMPLTLLQSQFDLLQADECEKIFKISVVL 170

Query: 123 TPQAIVSNILKLVFGS 139
           +P+ IV+ IL++V  S
Sbjct: 171 SPEVIVNTILEMVANS 186

[Close]
BLAST of Lsi09G005340 vs. NCBI nr
Match: gi|659073188|ref|XP_008467300.1| (PREDICTED: probable gluconokinase isoform X1 [Cucumis melo])

HSP 1 Score: 228.0 bits (580), Expect = 1.1e-56
Identity = 117/135 (86.67%), Postives = 125/135 (92.59%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KMSKGIPLSDEDR+PWLEKIRDTLRENIA +RSVV+GCSALQK YREILRS DPNYEKM
Sbjct: 46  EKMSKGIPLSDEDRMPWLEKIRDTLRENIASKRSVVVGCSALQKHYREILRSSDPNYEKM 105

Query: 62  G-KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDA 121
           G  ++CVVKFVLLDAPAEVIA RLEKRAKEGNHFM S LLKSQLDLLQIDDSEGI+KVDA
Sbjct: 106 GITMKCVVKFVLLDAPAEVIALRLEKRAKEGNHFMPSALLKSQLDLLQIDDSEGIVKVDA 165

Query: 122 TLTPQAIVSNILKLV 136
           T TPQAI+SNIL LV
Sbjct: 166 TQTPQAILSNILNLV 180

[Close]
BLAST of Lsi09G005340 vs. NCBI nr
Match: gi|449451827|ref|XP_004143662.1| (PREDICTED: probable gluconokinase [Cucumis sativus])

HSP 1 Score: 226.5 bits (576), Expect = 3.1e-56
Identity = 115/135 (85.19%), Postives = 125/135 (92.59%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KMSKGIPLSDEDR+PWLEKIRDTLRENIAC+ SVVLGCSALQK YREILRS DPNYEK+
Sbjct: 46  EKMSKGIPLSDEDRMPWLEKIRDTLRENIACKSSVVLGCSALQKHYREILRSSDPNYEKV 105

Query: 62  G-KIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDA 121
           G  ++CVVKFVLLDAPAEVIA RLEKRAKEGNHFM S LLKSQLDLLQI+D+EGI+KVDA
Sbjct: 106 GITMKCVVKFVLLDAPAEVIALRLEKRAKEGNHFMPSALLKSQLDLLQIEDTEGIVKVDA 165

Query: 122 TLTPQAIVSNILKLV 136
           T TPQAI+SNIL LV
Sbjct: 166 TQTPQAILSNILNLV 180

[Close]
BLAST of Lsi09G005340 vs. NCBI nr
Match: gi|1009157354|ref|XP_015896718.1| (PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba])

HSP 1 Score: 186.4 bits (472), Expect = 3.5e-44
Identity = 94/135 (69.63%), Postives = 111/135 (82.22%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KM  GIPLSDEDRIPWLE ++D L+E+I  +++V+LGCSALQK+YREILRSGDPNYE +
Sbjct: 66  EKMCNGIPLSDEDRIPWLEMLQDALKESIENKKTVILGCSALQKRYREILRSGDPNYE-L 125

Query: 62  GKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDAT 121
                VVKFVLLDA  EV+A+RLEKR  EG HFM +TLL+SQLDLLQIDD EGILKVDAT
Sbjct: 126 ESYASVVKFVLLDADVEVLAARLEKRVAEGKHFMPATLLQSQLDLLQIDDCEGILKVDAT 185

Query: 122 LTPQAIVSNILKLVF 137
           L+PQ IV  I  L+F
Sbjct: 186 LSPQVIVKTIQDLIF 199

[Close]
BLAST of Lsi09G005340 vs. NCBI nr
Match: gi|1009123341|ref|XP_015878489.1| (PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba])

HSP 1 Score: 186.4 bits (472), Expect = 3.5e-44
Identity = 94/135 (69.63%), Postives = 111/135 (82.22%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KM  GIPLSDEDRIPWLE ++D L+E+I  +++V+LGCSALQK+YREILRSGDPNYE +
Sbjct: 48  EKMCNGIPLSDEDRIPWLEMLQDALKESIENKKTVILGCSALQKRYREILRSGDPNYE-L 107

Query: 62  GKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDAT 121
                VVKFVLLDA  EV+A+RLEKR  EG HFM +TLL+SQLDLLQIDD EGILKVDAT
Sbjct: 108 ESYASVVKFVLLDADVEVLAARLEKRVAEGKHFMPATLLQSQLDLLQIDDCEGILKVDAT 167

Query: 122 LTPQAIVSNILKLVF 137
           L+PQ IV  I  L+F
Sbjct: 168 LSPQVIVKTIQDLIF 181

[Close]
BLAST of Lsi09G005340 vs. NCBI nr
Match: gi|1009123442|ref|XP_015878541.1| (PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba])

HSP 1 Score: 185.3 bits (469), Expect = 7.9e-44
Identity = 94/135 (69.63%), Postives = 111/135 (82.22%), Query Frame = 1 

Query: 2   KKMSKGIPLSDEDRIPWLEKIRDTLRENIACRRSVVLGCSALQKQYREILRSGDPNYEKM 61
           +KM  GIPLSDEDRIPWLE ++D L+E+I  +++V+LGCSALQK+YREILRSGDPNYE +
Sbjct: 48  EKMCNGIPLSDEDRIPWLEMLQDALKESIENKKTVILGCSALQKRYREILRSGDPNYE-L 107

Query: 62  GKIRCVVKFVLLDAPAEVIASRLEKRAKEGNHFMASTLLKSQLDLLQIDDSEGILKVDAT 121
                VVKFVLLDA AEV+A+RLEKR  EG HFM +TLL+SQLDLLQI D EGILKVDAT
Sbjct: 108 ESYASVVKFVLLDADAEVLAARLEKRVAEGKHFMPATLLQSQLDLLQIGDCEGILKVDAT 167

Query: 122 LTPQAIVSNILKLVF 137
           L+PQ IV  I  L+F
Sbjct: 168 LSPQVIVETIQDLIF 181

The following BLAST results are available for this feature:
BLAST of Lsi09G005340 vs. Swiss-Prot
Match NameE-valueIdentityDescription
IDNK_ECOLI4.8e-1742.02Thermosensitive gluconokinase OS=Escherichia coli (strain K12) GN=idnK PE=3 SV=1[more]
GCNK_GLUOX1.6e-1537.31Gluconokinase OS=Gluconobacter oxydans (strain 621H) GN=GOX1709 PE=1 SV=1[more]
GNTK_HUMAN5.9e-1539.01Probable gluconokinase OS=Homo sapiens GN=IDNK PE=1 SV=1[more]
GNTK_XENTR8.5e-1436.03Probable gluconokinase OS=Xenopus tropicalis GN=idnk PE=2 SV=1[more]
GNTK_RAT1.1e-1342.11Probable gluconokinase OS=Rattus norvegicus GN=Idnk PE=2 SV=1[more]
BLAST of Lsi09G005340 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KN86_CUCSA2.2e-5685.19Gluconokinase OS=Cucumis sativus GN=Csa_5G169050 PE=3 SV=1[more]
M5XKV9_PRUPE3.0e-4267.41Gluconokinase OS=Prunus persica GN=PRUPE_ppa012010mg PE=3 SV=1[more]
K4HV53_MALDO6.7e-4267.41Gluconokinase OS=Malus domestica GN=GK PE=2 SV=1[more]
W9R0G9_9ROSA2.0e-4168.18Thermosensitive gluconokinase OS=Morus notabilis GN=L484_013567 PE=4 SV=1[more]
D7T7U3_VITVI1.7e-4067.16Gluconokinase OS=Vitis vinifera GN=VIT_16s0039g02500 PE=3 SV=1[more]
BLAST of Lsi09G005340 vs. TAIR10
Match NameE-valueIdentityDescription
AT2G16790.13.4e-3755.88 P-loop containing nucleoside triphosphate hydrolases superfamily pro... [more]
BLAST of Lsi09G005340 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|659073188|ref|XP_008467300.1|1.1e-5686.67PREDICTED: probable gluconokinase isoform X1 [Cucumis melo][more]
gi|449451827|ref|XP_004143662.1|3.1e-5685.19PREDICTED: probable gluconokinase [Cucumis sativus][more]
gi|1009157354|ref|XP_015896718.1|3.5e-4469.63PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba][more]
gi|1009123341|ref|XP_015878489.1|3.5e-4469.63PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba][more]
gi|1009123442|ref|XP_015878541.1|7.9e-4469.63PREDICTED: thermosensitive gluconokinase-like [Ziziphus jujuba][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR027417P-loop_NTPase
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0046177 D-gluconate catabolic process
biological_process GO:0006098 pentose-phosphate shunt
biological_process GO:0016310 phosphorylation
biological_process GO:0005975 carbohydrate metabolic process
cellular_component GO:0005575 cellular_component
molecular_function GO:0005524 ATP binding
molecular_function GO:0046316 gluconokinase activity
molecular_function GO:0016787 hydrolase activity
molecular_function GO:0016301 kinase activity
Relationships

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

Feature NameUnique NameType
Lsi09G005340.1Lsi09G005340.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3DG3DSA:3.40.50.300coord: 2..134
score: 6.6
IPR027417P-loop containing nucleoside triphosphate hydrolaseunknownSSF52540P-loop containing nucleoside triphosphate hydrolasescoord: 7..136
score: 3.59
NoneNo IPR availablePANTHERPTHR11603AAA FAMILY ATPASEcoord: 2..135
score: 2.3