Tan0009585 (gene) Snake gourd v1

Overview
NameTan0009585
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionGTP-binding protein hflx, putative
LocationLG01: 94220 .. 127395 (-)
RNA-Seq ExpressionTan0009585
SyntenyTan0009585
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACACATATTTTGGACCAGGGACTGTGGATGCCATAAAATGCCATTTGAATGCGGCAGAGTCTAAGAGTGAAGTTGATGCTATTTTTGTAAATGCCACTCTCTCTCGCATTCAGCAAAGGAATCTGGAGCGAGCATGGGATAAACCTGTATTGGACCGCATGGGTCTCATAATAGAGATATTCAATGCTCATGCCTACACGAAAGAGGCGAAATTACAGGCTGAACTGGCTGCTTTAATGTATAAAAAGTCGAGACTCGTTCGTGTACGTGGCCTTGATGGACGTTTTACGTTTGGTGCCACGGGAGATGCTGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAGCTCCAGCAGCGGAGAATTTTGGAACGAAGAAATCATCTATTATCTCAAATTGAAGAGGTTCGTCGTACACGTGCTTTGCAGCGTTCTTCTCGAAAGAGGCACGGAAGCTCAAATGGCCAACATTTAGCTACTGTTTCTGTTGTTGGGTATACTAATGCTGGGAAGTCGACATTAGTCAGTGCACTTTCAGACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTTGATCCCAGATTAAGAAGTGTTTTTCTTCCTTCTGGGAGAAAAGTACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTTGAAGCATTTCATGCAACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACCGCCCCCAACCTTGATGAGCACCGATGGACTGTTTTCCAAGTTCTTCAGCAAATAGGAGTTTCTAAAATGAAGCTTCAAGATATGATTGAAGTTTGGAACAAGATTGATTGTCATGAAGAAGGCGAGGCTGGCAATTCGTCAGGAGGAGATAGTATAATGGGAAAGCTATCATCTAGAACAGATACTGAAACTAACAATTTTATTAGAATGGAAAAGGATGATACTACGAAAAAACAAGCAACTAGAGAAGTCAGTCGATTCCCCTTTGGAAATGTCAGCCAGTTTTCTCAAGAAAATCTTGGAAACACAATGGAGGGACAGGAGAGCGATTGCTCTGAAGACTGGTTGGCAGATGACGATGATGAAACGTCATGGGTTGATGAAAATGGTTACTCTGAGGCCCAGGGGGCCTCAGAAAGCCAGGGGATGAGAAAGGATGTACAACCTCCAGGTAGTCAATTTGGTCCACATGTCAGAATATCAGCTATGTTTGGAGTTGGTTTGGGAGAGTTGTTAGAACTCATAGATGACAAACTGAAGGTTCAGGATGAGAGGCTGAAAACTCGAGATGTTTTAGAGCGGAGTATTTTTGAACGTAAATGGAGGCCATCGCAGATAGAGGCAAACGTTGCGGCTGAACAGGAGATTGATTTTTAGAAGATTGTGGTTCCTTGCAACTGCAACGAAGCATGGTTAGTTGCAATATAGATTTATGTTTCCCTAGTGTATGGCAATCATCCCCACGAAGCACTGAAATATTAGACATATTATAATTATTAGGATACCTTTGGGCCTTGTCGTATTTTTAATAAGTTAAATGCATTAATAAATAATATGCTGGTACCGTTTTTAATTAAAATAATAAAAATCAATAAGAAAAAATCATTTTTGTCTCTTAAA

Coding sequence (CDS)

ATGGGTCTCATAATAGAGATATTCAATGCTCATGCCTACACGAAAGAGGCGAAATTACAGGCTGAACTGGCTGCTTTAATGTATAAAAAGTCGAGACTCGTTCGTGTACGTGGCCTTGATGGACGTTTTACGTTTGGTGCCACGGGAGATGCTGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGGGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAACTTCAGCTCCAGCAGCGGAGAATTTTGGAACGAAGAAATCATCTATTATCTCAAATTGAAGAGGTTCGTCGTACACGTGCTTTGCAGCGTTCTTCTCGAAAGAGGCACGGAAGCTCAAATGGCCAACATTTAGCTACTGTTTCTGTTGTTGGGTATACTAATGCTGGGAAGTCGACATTAGTCAGTGCACTTTCAGACAATGATCTCTATAGTGATTCTAGATTGTTTGCAACTGTTGATCCCAGATTAAGAAGTGTTTTTCTTCCTTCTGGGAGAAAAGTACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTTGAAGCATTTCATGCAACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACCGCCCCCAACCTTGATGAGCACCGATGGACTGTTTTCCAAGTTCTTCAGCAAATAGGAGTTTCTAAAATGAAGCTTCAAGATATGATTGAAGTTTGGAACAAGATTGATTGTCATGAAGAAGGCGAGGCTGGCAATTCGTCAGGAGGAGATAGTATAATGGGAAAGCTATCATCTAGAACAGATACTGAAACTAACAATTTTATTAGAATGGAAAAGGATGATACTACGAAAAAACAAGCAACTAGAGAAGTCAGTCGATTCCCCTTTGGAAATGTCAGCCAGTTTTCTCAAGAAAATCTTGGAAACACAATGGAGGGACAGGAGAGCGATTGCTCTGAAGACTGGTTGGCAGATGACGATGATGAAACGTCATGGGTTGATGAAAATGGTTACTCTGAGGCCCAGGGGGCCTCAGAAAGCCAGGGGATGAGAAAGGATGTACAACCTCCAGGTAGTCAATTTGGTCCACATGTCAGAATATCAGCTATGTTTGGAGTTGGTTTGGGAGAGTTGTTAGAACTCATAGATGACAAACTGAAGGTTCAGGATGAGAGGCTGAAAACTCGAGATGTTTTAGAGCGGAGTATTTTTGAACGTAAATGGAGGCCATCGCAGATAGAGGCAAACGTTGCGGCTGAACAGGAGATTGATTTTTAG

Protein sequence

MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGSGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATVSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWNKIDCHEEGEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQATREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLADDDDETSWVDENGYSEAQGASESQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERSIFERKWRPSQIEANVAAEQEIDF
Homology
[Close]
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match: Q0WTB4 (GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At3g49725 PE=2 SV=2)

HSP 1 Score: 354.4 bits (908), Expect = 1.8e-96
Identity = 224/416 (53.85%), Postives = 281/416 (67.55%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGR- 60
           +GLIIEIFNAHA+TKEAKLQAELAALMY KSRLVRVRG DGR TFG  G+AEVVSARGR 
Sbjct: 225 VGLIIEIFNAHAHTKEAKLQAELAALMYNKSRLVRVRGTDGRHTFGQFGEAEVVSARGRA 284

Query: 61  ---GSGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQ 120
              G+GG GF+ GAGETELQLQ+RRI +RR  LLSQI+E +RTR LQR+ RK+     G+
Sbjct: 285 GSKGTGG-GFVGGAGETELQLQRRRISDRRIRLLSQIKEAQRTRLLQRAGRKKRVGLEGE 344

Query: 121 HLATVSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGF 180
              T++VVGYTNAGKSTL+SAL+   LY + RLFAT+DP L+S  LPSG  VLLSDTVGF
Sbjct: 345 SSGTIAVVGYTNAGKSTLISALTKTALYCNERLFATLDPTLKSAHLPSGNFVLLSDTVGF 404

Query: 181 ISDLPVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDM 240
           ISDLP+QLV+AF +TLEEVVEADLL+HVVD TAPN++EHR TV  VL QIGV + KLQ+M
Sbjct: 405 ISDLPIQLVKAFQSTLEEVVEADLLLHVVDSTAPNIEEHRSTVLHVLNQIGVPEEKLQNM 464

Query: 241 IEVWNKIDCHEEGEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQATREVSRFP 300
           IEVWNKID +EE E       D   G             +  E +D    +A   V    
Sbjct: 465 IEVWNKID-YEEDEVEEEKYLDDGEG-------------VGEEDEDEADLKAEETV---- 524

Query: 301 FGNVSQFSQENLGNTMEGQESDCSEDWLADDDDETSWVDENGYSEAQGASESQGMRKDVQ 360
             + S+ + +   + ++  + D ++ WL  +D+     D   +   + A      +K   
Sbjct: 525 --DASEATVDE--DQIQNGDGDDADGWLLSEDENAD--DPEFWKVPEVAKVDAANKK--- 584

Query: 361 PPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERS-IFERKWRP 412
                 GP VR+SA+ GVGL ELL LIDDK+K  +++LK+  ++ERS + +RKWRP
Sbjct: 585 ------GPDVRVSALTGVGLKELLYLIDDKMK--EKKLKSPTIVERSELHKRKWRP 604

[Close]
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match: C1F407 (GTPase HflX OS=Acidobacterium capsulatum (strain ATCC 51196 / DSM 11244 / JCM 7670 / NBRC 15755 / NCIMB 13165 / 161) OX=240015 GN=hflX PE=3 SV=1)

HSP 1 Score: 173.3 bits (438), Expect = 5.8e-42
Identity = 116/266 (43.61%), Postives = 155/266 (58.27%), Query Frame = 0 

Query: 3   LIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGSG 62
           LI++IF  HA T+E  LQ ELA L Y   RL              TG    +S  G G G
Sbjct: 118 LILDIFARHARTREGMLQVELAQLEYMLPRL--------------TGRGREMSRLGGGIG 177

Query: 63  GRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATVS 122
            R    G GET+L+  +RRI  R + L  ++E VRR R+ QR  R+         + TV+
Sbjct: 178 TR----GPGETQLETDRRRIQRRISTLKGELESVRRIRSQQRQRRE------AVPVPTVA 237

Query: 123 VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPV 182
           +VGYTNAGKSTL +AL+   + + SR+FAT+DP+LR++ LPS RKVLLSDTVGFI DLP 
Sbjct: 238 LVGYTNAGKSTLFNALTGAGVLASSRMFATLDPKLRAIVLPSRRKVLLSDTVGFIRDLPP 297

Query: 183 QLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWNK 242
            L+ +F ATLEEV +A++L+HV DC++   +EHR  V  VL ++G      +  IEV NK
Sbjct: 298 TLISSFRATLEEVQKAEVLLHVQDCSSATREEHRAEVKHVLAELGAGD---KPQIEVLNK 356

Query: 243 IDCHEEGEAGNSSGGDSIMGKLSSRT 269
           +D     E      G      +S+RT
Sbjct: 358 VDLLSPEEQEGLRSGHGRPMAISART 356

[Close]
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match: A0L4B2 (GTPase HflX OS=Magnetococcus marinus (strain ATCC BAA-1437 / JCM 17883 / MC-1) OX=156889 GN=hflX PE=3 SV=1)

HSP 1 Score: 172.6 bits (436), Expect = 9.9e-42
Identity = 112/243 (46.09%), Postives = 152/243 (62.55%), Query Frame = 0 

Query: 2   GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGS 61
           GLI+EIF A A T+E  +Q ELA+LMY++SRLVR                   +   R  
Sbjct: 108 GLILEIFAARARTREGIMQVELASLMYQQSRLVR-----------------SWTHLERQR 167

Query: 62  GGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATV 121
           GG G   G GE ++++ +R I ER + L  Q+EEV RTRALQR  R+         L TV
Sbjct: 168 GGVGLRGGPGERQIEVDRRLIRERIHKLKKQLEEVERTRALQRQPRQ------DIPLFTV 227

Query: 122 SVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLP 181
           ++VGYTNAGKSTL + L+   + ++ +LFAT+DP +R+V LP G ++LLSDTVGFI  LP
Sbjct: 228 ALVGYTNAGKSTLFNLLTRAGVLAEDKLFATLDPTMRAVDLPDGGRILLSDTVGFIRQLP 287

Query: 182 VQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWN 241
            QLV AF ATLEEV+ AD+L+HVVD + P  + +  +V  VLQ++ V   +    + V+N
Sbjct: 288 HQLVAAFKATLEEVMSADMLLHVVDLSDPEWERYVESVNGVLQELEVQHTR---TLTVYN 324

Query: 242 KID 245
           KID
Sbjct: 348 KID 324

[Close]
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match: Q8RAS5 (GTPase HflX OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15242 / JCM 11007 / NBRC 100824 / MB4) OX=273068 GN=hflX PE=3 SV=1)

HSP 1 Score: 170.6 bits (431), Expect = 3.8e-41
Identity = 113/252 (44.84%), Postives = 155/252 (61.51%), Query Frame = 0 

Query: 3   LIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGSG 62
           LI++IF   A +KE  LQ ELA L Y+  RLV   GL G+           +S  G G G
Sbjct: 122 LILDIFAKRARSKEGMLQVELAQLKYRLPRLV---GLGGQ-----------LSRLGGGIG 181

Query: 63  GRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATVS 122
            R    G GET+L++ +R I  R   +  ++EE+ + R LQR  RK++       +  V+
Sbjct: 182 TR----GPGETKLEVDRRHIRNRIKAIEEKLEELEKHRNLQRQRRKKN------QIPVVA 241

Query: 123 VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPV 182
           +VGYTNAGKSTL++AL+  D Y + +LFAT+DP  R + LPSGR+V+L+DTVGFI  LP 
Sbjct: 242 IVGYTNAGKSTLLNALTGADAYVEDKLFATLDPTARKLVLPSGREVILTDTVGFIRKLPH 301

Query: 183 QLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWNK 242
            LVEAF +TLEEV  ADLL+HV+D T+P++DE    V +VL  +G  +      I V+NK
Sbjct: 302 DLVEAFKSTLEEVKYADLLLHVIDVTSPDMDEKIKVVEKVLSDLGAIE---TPRINVYNK 346

Query: 243 IDCHEEGEAGNS 255
           ID  E   +GN+
Sbjct: 362 IDLLEIVPSGNN 346

[Close]
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match: D9R4W7 (GTPase HflX OS=Clostridium saccharolyticum (strain ATCC 35040 / DSM 2544 / NRCC 2533 / WM1) OX=610130 GN=hflX PE=3 SV=1)

HSP 1 Score: 165.2 bits (417), Expect = 1.6e-39
Identity = 97/247 (39.27%), Postives = 155/247 (62.75%), Query Frame = 0 

Query: 3   LIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGSG 62
           +I++IF + A T+E K+Q ELA L Y+ +RLV +R                 S+  R  G
Sbjct: 110 VILDIFASRAVTREGKIQVELAQLRYRSARLVGLR-----------------SSLSRLGG 169

Query: 63  GRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATVS 122
           G G   G GE +L++ +R I +R   L +++E+V+R R + R  R ++      H+   +
Sbjct: 170 GIG-TRGPGEKKLEMDRRLIHDRIGMLKAELEDVKRHREVVRQQRDKN------HVPAAA 229

Query: 123 VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPV 182
           +VGYTNAGKSTL++ L+D  + ++ +LFAT+DP  R++ LP G+++LL+DTVGFI  LP 
Sbjct: 230 IVGYTNAGKSTLLNRLTDAGILAEDKLFATLDPTTRNLSLPGGQQILLTDTVGFIRKLPH 289

Query: 183 QLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWNK 242
            L+EAF +TLEE   +D+++HVVDC+ P +D   + V++ L+++G+     + MI V+NK
Sbjct: 290 HLIEAFKSTLEEAKYSDIILHVVDCSNPQMDMQMYVVYETLRELGICD---KIMITVFNK 329

Query: 243 IDCHEEG 250
           ID  + G
Sbjct: 350 IDAADAG 329

[Close]
BLAST of Tan0009585 vs. NCBI nr
Match: XP_023541707.1 (GTP-binding protein At3g49725, chloroplastic [Cucurbita pepo subsp. pepo])

HSP 1 Score: 661.8 bits (1706), Expect = 4.1e-186
Identity = 363/436 (83.26%), Postives = 385/436 (88.30%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAAL YKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALTYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNGQ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGQQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPTLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GEAGNSS GD   G      + E+NNF++MEK D TKKQA
Sbjct: 433 NKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKG------NAESNNFMKMEKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREVS FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN YSEAQ ASE
Sbjct: 493 TREVSGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
            QGMRKDVQPPG QFGPHVRISA FGVGL ELLELIDD+LKV QDERLKT++VLERSIFE
Sbjct: 553 DQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDRLKVDQDERLKTQNVLERSIFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. NCBI nr
Match: KAG7013344.1 (GTP-binding protein, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 661.0 bits (1704), Expect = 7.0e-186
Identity = 363/436 (83.26%), Postives = 384/436 (88.07%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNG+ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGEQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GEAGNSS GD   G      + E NNF++MEK D TKKQA
Sbjct: 433 NKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKG------NAECNNFMKMEKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREV  FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN YSEAQ ASE
Sbjct: 493 TREVGGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
            QGMRKDVQPPG QFGPHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERSIFE
Sbjct: 553 DQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSIFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. NCBI nr
Match: KAG6574274.1 (GTP-binding protein, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 661.0 bits (1704), Expect = 7.0e-186
Identity = 363/436 (83.26%), Postives = 384/436 (88.07%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNG+ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGEQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GEAGNSS GD   G      + E NNF++MEK D TKKQA
Sbjct: 433 NKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKG------NAECNNFMKMEKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREV  FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN YSEAQ ASE
Sbjct: 493 TREVGGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
            QGMRKDVQPPG QFGPHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERSIFE
Sbjct: 553 DQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSIFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. NCBI nr
Match: XP_022945023.1 (GTP-binding protein At3g49725, chloroplastic [Cucurbita moschata])

HSP 1 Score: 657.1 bits (1694), Expect = 1.0e-184
Identity = 361/436 (82.80%), Postives = 383/436 (87.84%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNG+ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGEQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLE+VVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEDVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GEAGNSS GD   G      +   NNF++MEK D TKKQA
Sbjct: 433 NKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKG------NAGCNNFMKMEKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREV  FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN YSEAQ ASE
Sbjct: 493 TREVGGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
            QGMRKDVQPPG QFGPHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERSIFE
Sbjct: 553 DQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSIFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. NCBI nr
Match: XP_022967982.1 (GTP-binding protein At3g49725, chloroplastic [Cucurbita maxima])

HSP 1 Score: 656.0 bits (1691), Expect = 2.2e-184
Identity = 360/436 (82.57%), Postives = 384/436 (88.07%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNGQ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGQQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GE+GNSS GD   G      + E+NNF++M K D TKKQA
Sbjct: 433 NKIDYREEDESVDECCDDDVGESGNSSVGDGRKG------NAESNNFMKMGKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREVS FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN Y EAQ ASE
Sbjct: 493 TREVSGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYFEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
           +QGMRKDVQPPG QF PHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERS+FE
Sbjct: 553 NQGMRKDVQPPGGQFSPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSVFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match: A0A6J1FZN1 (GTP-binding protein At3g49725, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111449388 PE=4 SV=1)

HSP 1 Score: 657.1 bits (1694), Expect = 4.9e-185
Identity = 361/436 (82.80%), Postives = 383/436 (87.84%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNG+ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGEQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLE+VVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEDVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GEAGNSS GD   G      +   NNF++MEK D TKKQA
Sbjct: 433 NKIDYREEDESVDEYCDDDIGEAGNSSVGDGRKG------NAGCNNFMKMEKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREV  FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN YSEAQ ASE
Sbjct: 493 TREVGGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYSEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
            QGMRKDVQPPG QFGPHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERSIFE
Sbjct: 553 DQGMRKDVQPPGGQFGPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSIFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match: A0A6J1HS97 (GTP-binding protein At3g49725, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111467356 PE=4 SV=1)

HSP 1 Score: 656.0 bits (1691), Expect = 1.1e-184
Identity = 360/436 (82.57%), Postives = 384/436 (88.07%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR TFGATG+AEVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRLTFGATGEAEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHLLSQIEEVRRTRALQRSSRKRHG SNGQ LAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRILERRNHLLSQIEEVRRTRALQRSSRKRHGGSNGQQLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V++VGYTNAGKSTLVSALS+NDLYSDSRLFATVDP LRSVFLPSGRKVL+SDTVGFISDL
Sbjct: 313 VAIVGYTNAGKSTLVSALSNNDLYSDSRLFATVDPVLRSVFLPSGRKVLVSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL+QIGVSK KL DMIEVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLKQIGVSKTKLDDMIEVW 432

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID  EE            GE+GNSS GD   G      + E+NNF++M K D TKKQA
Sbjct: 433 NKIDYREEDESVDECCDDDVGESGNSSVGDGRKG------NAESNNFMKMGKGDITKKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLA-DDDDETSWVDENGYSEAQGASE 360
           TREVS FP G+VSQ SQ++LGNT+EG+ESD  EDWLA DDDD+  WVDEN Y EAQ ASE
Sbjct: 493 TREVSGFPSGDVSQLSQKDLGNTIEGEESDWCEDWLAEDDDDQNPWVDENCYFEAQEASE 552

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKV-QDERLKTRDVLERSIFE 420
           +QGMRKDVQPPG QF PHVRISA FGVGL ELLELIDDKLKV QDERLKT++VLERS+FE
Sbjct: 553 NQGMRKDVQPPGGQFSPHVRISAKFGVGLRELLELIDDKLKVDQDERLKTQNVLERSVFE 612

Query: 421 RKWRPSQIEANVAAEQ 423
           RKWRPSQ+EAN AAEQ
Sbjct: 613 RKWRPSQMEANGAAEQ 622

[Close]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match: A0A6J1CM56 (GTP-binding protein At3g49725, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111012389 PE=4 SV=1)

HSP 1 Score: 651.0 bits (1678), Expect = 3.5e-183
Identity = 353/441 (80.05%), Postives = 379/441 (85.94%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR+TFGATG++EVVSARGRG
Sbjct: 193 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGATGESEVVSARGRG 252

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RR+  RRNHLLSQIEEVRRTRALQR+SRKRHG SNGQHLAT
Sbjct: 253 SGGRGFISGAGETELQLQRRRLXIRRNHLLSQIEEVRRTRALQRASRKRHGGSNGQHLAT 312

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V+VVGYTNAGKSTLV ALS NDLYSDSRLFATVDPRLRSV LPSGRK+LLSDTVGFISDL
Sbjct: 313 VAVVGYTNAGKSTLVGALSGNDLYSDSRLFATVDPRLRSVLLPSGRKILLSDTVGFISDL 372

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVL++IGVSK KLQDM+EVW
Sbjct: 373 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLEKIGVSKTKLQDMVEVW 432

Query: 241 NKIDCHEEG------------EAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID HEEG            EAGN SG DS M KLS   +++TNNFI +EK D T KQA
Sbjct: 433 NKIDYHEEGKSIDEYYDEDNSEAGNLSGEDSTMAKLS---NSKTNNFIEIEKGDITTKQA 492

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLADDDDETSWVDENGYSEAQG---- 360
           T  V R   GNV Q SQ  LGNTMEGQ+SDCS+DWLA+DDD+  WVDENGYSEA+     
Sbjct: 493 TGLVRRSSIGNVCQLSQGVLGNTMEGQDSDCSDDWLAEDDDQNHWVDENGYSEAEAEAWE 552

Query: 361 ASESQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERSI 420
            SE +GM   VQPPG Q  PHVRISA FGVGL ELLELIDDKLKVQDERLKTR+VLERSI
Sbjct: 553 TSEGRGMVNVVQPPGDQCSPHVRISARFGVGLRELLELIDDKLKVQDERLKTRNVLERSI 612

Query: 421 FERKWRPSQIEANVAAEQEID 426
           FERKWRPSQ EA +AAEQ ++
Sbjct: 613 FERKWRPSQAEAEIAAEQSVN 630

[Close]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match: A0A5D3C2J4 (GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold351G00250 PE=4 SV=1)

HSP 1 Score: 590.1 bits (1520), Expect = 7.3e-165
Identity = 330/430 (76.74%), Postives = 355/430 (82.56%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR+TFG  G+AEVVSARGRG
Sbjct: 194 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRG 253

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHL SQIEEVRRTR+LQR+SRKRHG SNGQHLAT
Sbjct: 254 SGGRGFISGAGETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLAT 313

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V+VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKV+LSDTVGFISDL
Sbjct: 314 VAVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDL 373

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVLQQIGVSKMKLQDMIEVW
Sbjct: 374 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRSTVFQVLQQIGVSKMKLQDMIEVW 433

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID HEE            GEA NSSG DSI GKLSS     TNN I MEK D T KQA
Sbjct: 434 NKIDYHEEGKSIDESCDDDNGEAANSSGEDSIEGKLSS---AGTNNIIEMEKGDITIKQA 493

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLADDD-DETSWVDENGYSEAQGASE 360
           T E      GN         GN MEGQESDC +DWL DDD D+  W D           +
Sbjct: 494 TEE----DLGN---------GNRMEGQESDCCDDWLEDDDEDKNPWAD-----------K 553

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERSIFER 418
            +G+ +DVQ    Q GPHVRISA  GVGLGELL+LID+KLKVQDE+L+ ++VLER++F+R
Sbjct: 554 GKGIGEDVQASLDQSGPHVRISARLGVGLGELLQLIDNKLKVQDEKLQAQNVLERNVFDR 596

[Close]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match: A0A1S3CIG8 (GTP-binding protein At3g49725, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501174 PE=4 SV=1)

HSP 1 Score: 590.1 bits (1520), Expect = 7.3e-165
Identity = 330/430 (76.74%), Postives = 355/430 (82.56%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRG 60
           +GLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGR+TFG  G+AEVVSARGRG
Sbjct: 194 VGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGGKGEAEVVSARGRG 253

Query: 61  SGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLAT 120
           SGGRGFISGAGETELQLQ+RRILERRNHL SQIEEVRRTR+LQR+SRKRHG SNGQHLAT
Sbjct: 254 SGGRGFISGAGETELQLQRRRILERRNHLYSQIEEVRRTRSLQRASRKRHGGSNGQHLAT 313

Query: 121 VSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDL 180
           V+VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKV+LSDTVGFISDL
Sbjct: 314 VAVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVVLSDTVGFISDL 373

Query: 181 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVW 240
           PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHR TVFQVLQQIGVSKMKLQDMIEVW
Sbjct: 374 PVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRSTVFQVLQQIGVSKMKLQDMIEVW 433

Query: 241 NKIDCHEE------------GEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQA 300
           NKID HEE            GEA NSSG DSI GKLSS     TNN I MEK D T KQA
Sbjct: 434 NKIDYHEEGKSIDESCDDDNGEAANSSGEDSIEGKLSS---AGTNNIIEMEKGDITIKQA 493

Query: 301 TREVSRFPFGNVSQFSQENLGNTMEGQESDCSEDWLADDD-DETSWVDENGYSEAQGASE 360
           T E      GN         GN MEGQESDC +DWL DDD D+  W D           +
Sbjct: 494 TEE----DLGN---------GNRMEGQESDCCDDWLEDDDEDKNPWAD-----------K 553

Query: 361 SQGMRKDVQPPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERSIFER 418
            +G+ +DVQ    Q GPHVRISA  GVGLGELL+LID+KLKVQDE+L+ ++VLER++F+R
Sbjct: 554 GKGIGEDVQASLDQSGPHVRISARLGVGLGELLQLIDNKLKVQDEKLQAQNVLERNVFDR 596

[Close]
BLAST of Tan0009585 vs. TAIR 10
Match: AT3G49725.1 (GTP-binding protein, HflX )

HSP 1 Score: 354.4 bits (908), Expect = 1.3e-97
Identity = 224/416 (53.85%), Postives = 281/416 (67.55%), Query Frame = 0 

Query: 1   MGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGR- 60
           +GLIIEIFNAHA+TKEAKLQAELAALMY KSRLVRVRG DGR TFG  G+AEVVSARGR 
Sbjct: 225 VGLIIEIFNAHAHTKEAKLQAELAALMYNKSRLVRVRGTDGRHTFGQFGEAEVVSARGRA 284

Query: 61  ---GSGGRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQ 120
              G+GG GF+ GAGETELQLQ+RRI +RR  LLSQI+E +RTR LQR+ RK+     G+
Sbjct: 285 GSKGTGG-GFVGGAGETELQLQRRRISDRRIRLLSQIKEAQRTRLLQRAGRKKRVGLEGE 344

Query: 121 HLATVSVVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGF 180
              T++VVGYTNAGKSTL+SAL+   LY + RLFAT+DP L+S  LPSG  VLLSDTVGF
Sbjct: 345 SSGTIAVVGYTNAGKSTLISALTKTALYCNERLFATLDPTLKSAHLPSGNFVLLSDTVGF 404

Query: 181 ISDLPVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDM 240
           ISDLP+QLV+AF +TLEEVVEADLL+HVVD TAPN++EHR TV  VL QIGV + KLQ+M
Sbjct: 405 ISDLPIQLVKAFQSTLEEVVEADLLLHVVDSTAPNIEEHRSTVLHVLNQIGVPEEKLQNM 464

Query: 241 IEVWNKIDCHEEGEAGNSSGGDSIMGKLSSRTDTETNNFIRMEKDDTTKKQATREVSRFP 300
           IEVWNKID +EE E       D   G             +  E +D    +A   V    
Sbjct: 465 IEVWNKID-YEEDEVEEEKYLDDGEG-------------VGEEDEDEADLKAEETV---- 524

Query: 301 FGNVSQFSQENLGNTMEGQESDCSEDWLADDDDETSWVDENGYSEAQGASESQGMRKDVQ 360
             + S+ + +   + ++  + D ++ WL  +D+     D   +   + A      +K   
Sbjct: 525 --DASEATVDE--DQIQNGDGDDADGWLLSEDENAD--DPEFWKVPEVAKVDAANKK--- 584

Query: 361 PPGSQFGPHVRISAMFGVGLGELLELIDDKLKVQDERLKTRDVLERS-IFERKWRP 412
                 GP VR+SA+ GVGL ELL LIDDK+K  +++LK+  ++ERS + +RKWRP
Sbjct: 585 ------GPDVRVSALTGVGLKELLYLIDDKMK--EKKLKSPTIVERSELHKRKWRP 604

[Close]
BLAST of Tan0009585 vs. TAIR 10
Match: AT5G57960.1 (GTP-binding protein, HflX )

HSP 1 Score: 139.4 bits (350), Expect = 6.6e-33
Identity = 94/242 (38.84%), Postives = 140/242 (57.85%), Query Frame = 0 

Query: 3   LIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRFTFGATGDAEVVSARGRGSG 62
           LI++IFN  A T EA LQ  LA + Y+  RL R                 + +   R SG
Sbjct: 219 LILDIFNQRAATHEAALQVALAQMEYQLPRLTR-----------------MWTHLERQSG 278

Query: 63  GRGFISGAGETELQLQQRRILERRNHLLSQIEEVRRTRALQRSSRKRHGSSNGQHLATVS 122
           G+  + G GE ++++ +R +  +   L  ++E VR+ R   RS R          +  VS
Sbjct: 279 GQ--VKGMGEKQIEVDKRILRTQIGVLKKELESVRKHRKQYRSRRV------AIPVPVVS 338

Query: 123 VVGYTNAGKSTLVSALSDNDLYSDSRLFATVDPRLRSVFLPSGRKVLLSDTVGFISDLPV 182
           +VGYTNAGKSTL++ L+  ++ +++RLFAT+DP  R V + +G++ LL+DTVGFI  LP 
Sbjct: 339 LVGYTNAGKSTLLNQLTGANVLAENRLFATLDPTTRRVQMQNGKEFLLTDTVGFIQKLPT 398

Query: 183 QLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRWTVFQVLQQIGVSKMKLQDMIEVWNK 242
            LV AF ATLEE+ E+ LLVHVVD + P  ++    V +V+ ++ VS +     + VWNK
Sbjct: 399 TLVAAFRATLEEIAESSLLVHVVDISHPLAEQQIEAVEKVMSELDVSSI---PKLVVWNK 432

Query: 243 ID 245
           +D
Sbjct: 459 VD 432

The following BLAST results are available for this feature:
BLAST of Tan0009585 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q0WTB41.8e-9653.85GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=... [more]
C1F4075.8e-4243.61GTPase HflX OS=Acidobacterium capsulatum (strain ATCC 51196 / DSM 11244 / JCM 76... [more]
A0L4B29.9e-4246.09GTPase HflX OS=Magnetococcus marinus (strain ATCC BAA-1437 / JCM 17883 / MC-1) O... [more]
Q8RAS53.8e-4144.84GTPase HflX OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15... [more]
D9R4W71.6e-3939.27GTPase HflX OS=Clostridium saccharolyticum (strain ATCC 35040 / DSM 2544 / NRCC ... [more]
BLAST of Tan0009585 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_023541707.14.1e-18683.26GTP-binding protein At3g49725, chloroplastic [Cucurbita pepo subsp. pepo][more]
KAG7013344.17.0e-18683.26GTP-binding protein, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma][more]
KAG6574274.17.0e-18683.26GTP-binding protein, chloroplastic, partial [Cucurbita argyrosperma subsp. soror... [more]
XP_022945023.11.0e-18482.80GTP-binding protein At3g49725, chloroplastic [Cucurbita moschata][more]
XP_022967982.12.2e-18482.57GTP-binding protein At3g49725, chloroplastic [Cucurbita maxima][more]
BLAST of Tan0009585 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1FZN14.9e-18582.80GTP-binding protein At3g49725, chloroplastic OS=Cucurbita moschata OX=3662 GN=LO... [more]
A0A6J1HS971.1e-18482.57GTP-binding protein At3g49725, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC1... [more]
A0A6J1CM563.5e-18380.05GTP-binding protein At3g49725, chloroplastic OS=Momordica charantia OX=3673 GN=L... [more]
A0A5D3C2J47.3e-16576.74GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold351G... [more]
A0A1S3CIG87.3e-16576.74GTP-binding protein At3g49725, chloroplastic isoform X1 OS=Cucumis melo OX=3656 ... [more]
BLAST of Tan0009585 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G49725.11.3e-9753.85GTP-binding protein, HflX [more]
AT5G57960.16.6e-3338.84GTP-binding protein, HflX [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR032305GTP-binding protein, middle domainPFAMPF16360GTP-bdg_Mcoord: 11..107
e-value: 7.4E-17
score: 61.7
IPR006073GTP binding domainPFAMPF01926MMR_HSR1coord: 121..178
e-value: 1.8E-9
score: 37.7
IPR042108GTPase HflX, N-terminal domain superfamilyGENE3D3.40.50.11060coord: 1..35
e-value: 6.3E-9
score: 37.9
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 118..294
e-value: 1.9E-15
score: 58.8
IPR027417P-loop containing nucleoside triphosphate hydrolaseSUPERFAMILY52540P-loop containing nucleoside triphosphate hydrolasescoord: 3..364
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 322..336
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 322..345
NoneNo IPR availablePANTHERPTHR10229:SF6OS03G0727900 PROTEINcoord: 1..401
IPR016496GTPase HflXPANTHERPTHR10229GTP-BINDING PROTEIN HFLXcoord: 1..401
IPR030394HflX-type guanine nucleotide-binding (G) domainPROSITEPS51705G_HFLXcoord: 119..181
score: 24.942997
IPR030394HflX-type guanine nucleotide-binding (G) domainCDDcd01878HflXcoord: 72..225
e-value: 5.95239E-59
score: 189.207

Relationships

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

Feature NameUnique NameType
Tan0009585.1Tan0009585.1mRNA
Tan0009585.2Tan0009585.2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005525 GTP binding
molecular_function GO:0046872 metal ion binding