Spo13622 (gene)

Overview
NameSpo13622
Typegene
OrganismSpinacia oleracea (Spinach)
Description(Valyl-tRNA synthetase, putative) (6.1.1.9)
LocationSuper_scaffold_166 : 717982 .. 746360 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACTTATTTACCACCTTATCTACTCGCATTGTGCCTAGTATGTGAAACACATTTTGTCGTACTTCCCACTATTAGAATTTTTGCCAATAGCGGCTATTATCCTGCACCTACCCGCATTGTGCCTAGTACGTGAAACACATTTTGTCGTGCTTTACAGTTTACTCTACATACCCCTCTCTTCCTCAAACCTCACCTCTTTATTTCGAAAGTCTTGCCACCACCACACTCTACTGGTGAAAGCTCTAACTAGCGCCGAGCACAACAATGGCGCTACTTGCTAGCCCTTTCCTCCTCTCTCCTTCAACCATTCGCAGATTCAACCCTCTGATTTACTCTCATCGTCGCTTTGTCAACAAAGTCTCCTCTGTTCAATTATCTAATTTCAAGCGTCGGCTTTTCTCCGTTTCAGCTTCGCAGAATGACGTGTTTACCTCGCCGGATGTTGCGAAAACGTTTGATTTTGAATGGGAGGAGCGCATTTACAATTGGTGGGAATCTCAGGGTTACTTCAAACCAAATTTGGATCAAGGAGGTGATCCTTTTGTTATCTCGATGCCTCCCCCTAATGTCACTGGATCATTGCATATGGGGCATGCAATGTTCGTAACTCTTGAGGATATTATGGTCAGATATCACCGCATGAAGGGAAGACCTACAGTTTGGATTCCTGGTACTGATCATGCAGGCATAGCTACTCAGTTGGTTGTGGAGAGAATGCTTGCTTCAGAGGGAATAAAGAGAGCTGATATAGGCCGAGACGAGTTTGTTAATCATATTTGGAAGTGGAAAGAGAAGTATGGTGGAACCATTACAAATCAAATCAAGAGGCTTGGGGCTTCTTGCGATTGGACTCGAGAGCATTTTACTCTTGATGAGCGGCTAAGTCGAGCTGTGATAGAAGCCTTTGTAAGGCTCCATGAGAAAGGCCTAATATACCAAGGTTCATACATGGTAAATTGGTCTCCTAATCTTCAGACAGCTGTTTCAGACTTGGAAGTTGAATATTCTGAAGAACCGGGTGCTCTCTATCATATTAAATATCGCGTGGCTGGAGGCTCAAGGGAGGACTATCTGACAATTGCAACGACAAGGCCAGAGACCTTATTTGGAGACACTGCTATTGCCGTGAATCCCGAGGATGAACGGTATGCAAAATATGTAGGCTGTCAGGCAATCGTCCCGATGACATATGGTCGTCATATCCCAATAATTGCAGATAAGTTCGATCGACTTAAGATGAAAGACACCGAGAAGATCGGTGATTTTGTTGGTAAGCCGTCGGAAATTTCATCAAAATCGGCTGCACTTGGAGAAGAAATAGAAGAACCTAAGATGGTCAAGAAGTTTATGTCAAGTCTTCCTCGAAAAAAGTTTATACACATAGTAGCATCCCTTGAACAAGTACTAGATCTCAATCAAACAAGCTTTGAAGACATCATAGGTCGCATAATAGCCTATGAATTAGTGAAGAGGAAGAAGAGTAATAGGAAGATCACAGTAAACTCATGTATGCCAACACTGAATTACGACAACCCTCTCAAGACAACTATGGAGGTAACAGAGGAAGAGGACAAGGGGGTCGGTTTCAATGGAGAGTATTCAGATAATGGTGCGAGTAACCATATGAGTGAAAATCGATTCTTCTTCTTAGACCTTGATGAAACAGTTACGGGAAAGGTGAGATTTGCAGACGGTTCCCGTATTGATATAAAAGGTAAAAGTTCAATTCAATTTGTGTTTAAAGATGGTAAGAAGAAGGTCTTAAACAACGTATACTATATACCGGATTTAAAGAGCAACATTGTGAGTCTTGGTCAAGCCACAAAAACTGGATGTGAAGTACGAATGAAAGAAGATCTACTCATGCTCTATGACCGATTCGATCTACTCATGCTCTATGACCTTGATGAAACAGTTACGGGAAAGGTGAGATTTGGAGACGATTCCCGTATTGATATAAAAGGTAAAAGTTCAATTCAATTTGTGTTTAAAGATGGTAAGAAGAAGGTCTTAAACAACGTATACTATATACCGGATTTAAAGAGCAACATTGTGAGTCTTGGTCAAGCCGATGTGAAGTACGAATGA

Coding sequence (CDS)

ATGGCGCTACTTGCTAGCCCTTTCCTCCTCTCTCCTTCAACCATTCGCAGATTCAACCCTCTGATTTACTCTCATCGTCGCTTTGTCAACAAAGTCTCCTCTGTTCAATTATCTAATTTCAAGCGTCGGCTTTTCTCCGTTTCAGCTTCGCAGAATGACGTGTTTACCTCGCCGGATGTTGCGAAAACGTTTGATTTTGAATGGGAGGAGCGCATTTACAATTGGTGGGAATCTCAGGGTTACTTCAAACCAAATTTGGATCAAGGAGGTGATCCTTTTGTTATCTCGATGCCTCCCCCTAATGTCACTGGATCATTGCATATGGGGCATGCAATGTTCGTAACTCTTGAGGATATTATGGTCAGATATCACCGCATGAAGGGAAGACCTACAGTTTGGATTCCTGGTACTGATCATGCAGGCATAGCTACTCAGTTGGTTGTGGAGAGAATGCTTGCTTCAGAGGGAATAAAGAGAGCTGATATAGGCCGAGACGAGTTTGTTAATCATATTTGGAAGTGGAAAGAGAAGTATGGTGGAACCATTACAAATCAAATCAAGAGGCTTGGGGCTTCTTGCGATTGGACTCGAGAGCATTTTACTCTTGATGAGCGGCTAAGTCGAGCTGTGATAGAAGCCTTTGTAAGGCTCCATGAGAAAGGCCTAATATACCAAGGTTCATACATGGTAAATTGGTCTCCTAATCTTCAGACAGCTGTTTCAGACTTGGAAGTTGAATATTCTGAAGAACCGGGTGCTCTCTATCATATTAAATATCGCGTGGCTGGAGGCTCAAGGGAGGACTATCTGACAATTGCAACGACAAGGCCAGAGACCTTATTTGGAGACACTGCTATTGCCGTGAATCCCGAGGATGAACGGTATGCAAAATATGTAGGCTGTCAGGCAATCGTCCCGATGACATATGGTCGTCATATCCCAATAATTGCAGATAAGTTCGATCGACTTAAGATGAAAGACACCGAGAAGATCGGTGATTTTGTTGGTAAGCCGTCGGAAATTTCATCAAAATCGGCTGCACTTGGAGAAGAAATAGAAGAACCTAAGATGGTCAAGAAGTTTATGTCAAGTCTTCCTCGAAAAAAGTTTATACACATAGTAGCATCCCTTGAACAAGTACTAGATCTCAATCAAACAAGCTTTGAAGACATCATAGGTCGCATAATAGCCTATGAATTAGTGAAGAGGAAGAAGAGTAATAGGAAGATCACAGTAAACTCATGTATGCCAACACTGAATTACGACAACCCTCTCAAGACAACTATGGAGGTAACAGAGGAAGAGGACAAGGGGGTCGGTTTCAATGGAGAGTATTCAGATAATGGTGCGAGTAACCATATGAGTGAAAATCGATTCTTCTTCTTAGACCTTGATGAAACAGTTACGGGAAAGGTGAGATTTGCAGACGGTTCCCGTATTGATATAAAAGGTAAAAGTTCAATTCAATTTGTGTTTAAAGATGGTAAGAAGAAGGTCTTAAACAACGTATACTATATACCGGATTTAAAGAGCAACATTGTGAGTCTTGGTCAAGCCACAAAAACTGGATGTGAAGTACGAATGAAAGAAGATCTACTCATGCTCTATGACCGATTCGATCTACTCATGCTCTATGACCTTGATGAAACAGTTACGGGAAAGGTGAGATTTGGAGACGATTCCCGTATTGATATAAAAGGTAAAAGTTCAATTCAATTTGTGTTTAAAGATGGTAAGAAGAAGGTCTTAAACAACGTATACTATATACCGGATTTAAAGAGCAACATTGTGAGTCTTGGTCAAGCCGATGTGAAGTACGAATGA

Protein sequence

MALLASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKTFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAIVPMTYGRHIPIIADKFDRLKMKDTEKIGDFVGKPSEISSKSAALGEEIEEPKMVKKFMSSLPRKKFIHIVASLEQVLDLNQTSFEDIIGRIIAYELVKRKKSNRKITVNSCMPTLNYDNPLKTTMEVTEEEDKGVGFNGEYSDNGASNHMSENRFFFLDLDETVTGKVRFADGSRIDIKGKSSIQFVFKDGKKKVLNNVYYIPDLKSNIVSLGQATKTGCEVRMKEDLLMLYDRFDLLMLYDLDETVTGKVRFGDDSRIDIKGKSSIQFVFKDGKKKVLNNVYYIPDLKSNIVSLGQADVKYE
Relationships

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

Feature NameUnique NameType
Spo13622.1Spo13622.1mRNA


Homology
[Close]
BLAST of Spo13622.1 vs. NCBI nr
Match: gi|731319206|ref|XP_010670136.1| (PREDICTED: valine--tRNA ligase, mitochondrial isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 590.5 bits (1521), Expect = 3.300e-165
Identity = 282/321 (87.85%), Postives = 303/321 (94.39%), Query Frame = 1 

		  

Query: 1   MALLASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQ-LSNFKRRLFSVSASQNDVFTSPD 60
           MALL++P LLS S+IRR NPL  S RRF+ KVSS   LS F+ RLFSVSAS N VFTSP+
Sbjct: 1   MALLSTPSLLSSSSIRRLNPLFLSPRRFIIKVSSFHHLSCFRPRLFSVSASINGVFTSPE 60

Query: 61  VAKTFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDI 120
           VAK+FDF+WEE IYNWWESQGYFKPNLDQGG+PFVI MPPPNVTGSLHMGHAMFVTLEDI
Sbjct: 61  VAKSFDFQWEENIYNWWESQGYFKPNLDQGGEPFVIPMPPPNVTGSLHMGHAMFVTLEDI 120

Query: 121 MVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYG 180
           MVRYHRMKGRPT+WIPGTDHAGIATQLVVERMLASEGI+RAD+ RDEFVNH+WKWKEKYG
Sbjct: 121 MVRYHRMKGRPTLWIPGTDHAGIATQLVVERMLASEGIRRADLERDEFVNHVWKWKEKYG 180

Query: 181 GTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTA 240
           GTIT+QIKRLGASCDWTRE+FTLDERLSRAVIEAFV+LHEKGLIYQGSYMVNWSPNLQTA
Sbjct: 181 GTITSQIKRLGASCDWTREYFTLDERLSRAVIEAFVKLHEKGLIYQGSYMVNWSPNLQTA 240

Query: 241 VSDLEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYV 300
           VSDLEVEYSEEPGALYHIKYR+AGGSRE+YLTIATTRPETLFGDTAIAV+PEDERYAKYV
Sbjct: 241 VSDLEVEYSEEPGALYHIKYRMAGGSREEYLTIATTRPETLFGDTAIAVHPEDERYAKYV 300

Query: 301 GCQAIVPMTYGRHIPIIADKF 321
           GCQAIVPMTYGRHIPII D++
Sbjct: 301 GCQAIVPMTYGRHIPIIGDRY 321
[Close]
BLAST of Spo13622.1 vs. NCBI nr
Match: gi|731319204|ref|XP_010670135.1| (PREDICTED: valine--tRNA ligase, mitochondrial isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 590.5 bits (1521), Expect = 3.300e-165
Identity = 282/321 (87.85%), Postives = 303/321 (94.39%), Query Frame = 1 

		  

Query: 1   MALLASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQ-LSNFKRRLFSVSASQNDVFTSPD 60
           MALL++P LLS S+IRR NPL  S RRF+ KVSS   LS F+ RLFSVSAS N VFTSP+
Sbjct: 1   MALLSTPSLLSSSSIRRLNPLFLSPRRFIIKVSSFHHLSCFRPRLFSVSASINGVFTSPE 60

Query: 61  VAKTFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDI 120
           VAK+FDF+WEE IYNWWESQGYFKPNLDQGG+PFVI MPPPNVTGSLHMGHAMFVTLEDI
Sbjct: 61  VAKSFDFQWEENIYNWWESQGYFKPNLDQGGEPFVIPMPPPNVTGSLHMGHAMFVTLEDI 120

Query: 121 MVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYG 180
           MVRYHRMKGRPT+WIPGTDHAGIATQLVVERMLASEGI+RAD+ RDEFVNH+WKWKEKYG
Sbjct: 121 MVRYHRMKGRPTLWIPGTDHAGIATQLVVERMLASEGIRRADLERDEFVNHVWKWKEKYG 180

Query: 181 GTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTA 240
           GTIT+QIKRLGASCDWTRE+FTLDERLSRAVIEAFV+LHEKGLIYQGSYMVNWSPNLQTA
Sbjct: 181 GTITSQIKRLGASCDWTREYFTLDERLSRAVIEAFVKLHEKGLIYQGSYMVNWSPNLQTA 240

Query: 241 VSDLEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYV 300
           VSDLEVEYSEEPGALYHIKYR+AGGSRE+YLTIATTRPETLFGDTAIAV+PEDERYAKYV
Sbjct: 241 VSDLEVEYSEEPGALYHIKYRMAGGSREEYLTIATTRPETLFGDTAIAVHPEDERYAKYV 300

Query: 301 GCQAIVPMTYGRHIPIIADKF 321
           GCQAIVPMTYGRHIPII D++
Sbjct: 301 GCQAIVPMTYGRHIPIIGDRY 321
[Close]
BLAST of Spo13622.1 vs. NCBI nr
Match: gi|731417446|ref|XP_010660308.1| (PREDICTED: valine--tRNA ligase, mitochondrial [Vitis vinifera])

HSP 1 Score: 541.2 bits (1393), Expect = 2.300e-150
Identity = 252/316 (79.75%), Postives = 286/316 (90.51%), Query Frame = 1 

		  

Query: 5   ASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKTF 64
           ++P LLS  +  R NPL++SHRR   ++S    S+ K R F+V+A +NDVFTSP+ AK F
Sbjct: 4   STPSLLSSCSAYRLNPLLFSHRRLRIRLSH---SHLKPRFFAVAARENDVFTSPETAKPF 63

Query: 65  DFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 124
           DF  EERIYNWW+SQGYFKPNLD+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH
Sbjct: 64  DFTSEERIYNWWDSQGYFKPNLDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 123

Query: 125 RMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITN 184
           RMKGRPT+WIPGTDHAGIATQLVVERMLASEGIKRA++ RDEF   +W+WKEKYGGTITN
Sbjct: 124 RMKGRPTLWIPGTDHAGIATQLVVERMLASEGIKRAELSRDEFTKRVWEWKEKYGGTITN 183

Query: 185 QIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLE 244
           QIKRLGASCDWTREHFTLDE+LSRAVIEAFVRLHE+GLIYQGSYMVNWSPNLQTAVSDLE
Sbjct: 184 QIKRLGASCDWTREHFTLDEQLSRAVIEAFVRLHERGLIYQGSYMVNWSPNLQTAVSDLE 243

Query: 245 VEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAI 304
           VEYSEEPG LY+IKYRVAGGS+ DYLTIATTRPETLFGDTAIAV+P+D+RY++Y+G  AI
Sbjct: 244 VEYSEEPGTLYYIKYRVAGGSKSDYLTIATTRPETLFGDTAIAVHPQDDRYSRYIGRMAI 303

Query: 305 VPMTYGRHIPIIADKF 321
           VPMT+GRH+PII+D++
Sbjct: 304 VPMTFGRHVPIISDRY 316
[Close]
BLAST of Spo13622.1 vs. NCBI nr
Match: gi|296087130|emb|CBI33504.3| (unnamed protein product [Vitis vinifera])

HSP 1 Score: 540.0 bits (1390), Expect = 5.200e-150
Identity = 252/315 (80.00%), Postives = 285/315 (90.48%), Query Frame = 1 

		  

Query: 5   ASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKTF 64
           ++P LLS  +  R NPL++SHRR   ++S    S+ K R F+V+A +NDVFTSP+ AK F
Sbjct: 4   STPSLLSSCSAYRLNPLLFSHRRLRIRLSH---SHLKPRFFAVAARENDVFTSPETAKPF 63

Query: 65  DFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 124
           DF  EERIYNWW+SQGYFKPNLD+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH
Sbjct: 64  DFTSEERIYNWWDSQGYFKPNLDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 123

Query: 125 RMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITN 184
           RMKGRPT+WIPGTDHAGIATQLVVERMLASEGIKRA++ RDEF   +W+WKEKYGGTITN
Sbjct: 124 RMKGRPTLWIPGTDHAGIATQLVVERMLASEGIKRAELSRDEFTKRVWEWKEKYGGTITN 183

Query: 185 QIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLE 244
           QIKRLGASCDWTREHFTLDE+LSRAVIEAFVRLHE+GLIYQGSYMVNWSPNLQTAVSDLE
Sbjct: 184 QIKRLGASCDWTREHFTLDEQLSRAVIEAFVRLHERGLIYQGSYMVNWSPNLQTAVSDLE 243

Query: 245 VEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAI 304
           VEYSEEPG LY+IKYRVAGGS+ DYLTIATTRPETLFGDTAIAV+P+D+RY++Y+G  AI
Sbjct: 244 VEYSEEPGTLYYIKYRVAGGSKSDYLTIATTRPETLFGDTAIAVHPQDDRYSRYIGRMAI 303

Query: 305 VPMTYGRHIPIIADK 320
           VPMT+GRH+PII+D+
Sbjct: 304 VPMTFGRHVPIISDR 315
[Close]
BLAST of Spo13622.1 vs. NCBI nr
Match: gi|590651897|ref|XP_007033012.1| (ATP binding,valine-tRNA ligase isoform 1 [Theobroma cacao])

HSP 1 Score: 540.0 bits (1390), Expect = 5.200e-150
Identity = 252/318 (79.25%), Postives = 286/318 (89.94%), Query Frame = 1 

		  

Query: 4   LASPFLLSPSTIRRFNPLIYS-HRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAK 63
           ++ PFLLS  +    NPL+++ HRRF   +S  + S+ KRR F+V AS+N VFTSP++AK
Sbjct: 8   ISPPFLLSSRSAYTLNPLLFAKHRRFCFPLSQSRFSSIKRRSFAVVASENGVFTSPELAK 67

Query: 64  TFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 123
           +FDF  EERIYNWW+SQGYF+P  D+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR
Sbjct: 68  SFDFTSEERIYNWWQSQGYFRPKFDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 127

Query: 124 YHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTI 183
           YHRM+GRPT+W+PGTDHAGIATQLVVERMLASEGIKRA++GRDEF   +W+WKEKYGGTI
Sbjct: 128 YHRMRGRPTLWLPGTDHAGIATQLVVERMLASEGIKRAELGRDEFAKRVWEWKEKYGGTI 187

Query: 184 TNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSD 243
           TNQIKRLGASCDWTRE FTLDE+LSRAV+EAFV+LHEKGLIYQGSYMVNWSP LQTAVSD
Sbjct: 188 TNQIKRLGASCDWTRERFTLDEQLSRAVVEAFVKLHEKGLIYQGSYMVNWSPKLQTAVSD 247

Query: 244 LEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQ 303
           LEVEYSEEPGALY+IKYRVAGGSR D+LTIATTRPETLFGD AIAV+P+DERY+KYVG  
Sbjct: 248 LEVEYSEEPGALYYIKYRVAGGSRSDFLTIATTRPETLFGDVAIAVHPQDERYSKYVGQM 307

Query: 304 AIVPMTYGRHIPIIADKF 321
           AIVPMTYGRH+PII+DKF
Sbjct: 308 AIVPMTYGRHVPIISDKF 325
[Close]
BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Match: A0A061EFZ2_THECC (ATP binding,valine-tRNA ligase isoform 3 OS=Theobroma cacao GN=TCM_019154 PE=3 SV=1)

HSP 1 Score: 540.0 bits (1390), Expect = 3.600e-150
Identity = 252/318 (79.25%), Postives = 286/318 (89.94%), Query Frame = 1 

		  

Query: 4   LASPFLLSPSTIRRFNPLIYS-HRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAK 63
           ++ PFLLS  +    NPL+++ HRRF   +S  + S+ KRR F+V AS+N VFTSP++AK
Sbjct: 8   ISPPFLLSSRSAYTLNPLLFAKHRRFCFPLSQSRFSSIKRRSFAVVASENGVFTSPELAK 67

Query: 64  TFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 123
           +FDF  EERIYNWW+SQGYF+P  D+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR
Sbjct: 68  SFDFTSEERIYNWWQSQGYFRPKFDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 127

Query: 124 YHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTI 183
           YHRM+GRPT+W+PGTDHAGIATQLVVERMLASEGIKRA++GRDEF   +W+WKEKYGGTI
Sbjct: 128 YHRMRGRPTLWLPGTDHAGIATQLVVERMLASEGIKRAELGRDEFAKRVWEWKEKYGGTI 187

Query: 184 TNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSD 243
           TNQIKRLGASCDWTRE FTLDE+LSRAV+EAFV+LHEKGLIYQGSYMVNWSP LQTAVSD
Sbjct: 188 TNQIKRLGASCDWTRERFTLDEQLSRAVVEAFVKLHEKGLIYQGSYMVNWSPKLQTAVSD 247

Query: 244 LEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQ 303
           LEVEYSEEPGALY+IKYRVAGGSR D+LTIATTRPETLFGD AIAV+P+DERY+KYVG  
Sbjct: 248 LEVEYSEEPGALYYIKYRVAGGSRSDFLTIATTRPETLFGDVAIAVHPQDERYSKYVGQM 307

Query: 304 AIVPMTYGRHIPIIADKF 321
           AIVPMTYGRH+PII+DKF
Sbjct: 308 AIVPMTYGRHVPIISDKF 325
[Close]
BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Match: A0A061EGZ7_THECC (ATP binding,valine-tRNA ligase isoform 1 OS=Theobroma cacao GN=TCM_019154 PE=3 SV=1)

HSP 1 Score: 540.0 bits (1390), Expect = 3.600e-150
Identity = 252/318 (79.25%), Postives = 286/318 (89.94%), Query Frame = 1 

		  

Query: 4   LASPFLLSPSTIRRFNPLIYS-HRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAK 63
           ++ PFLLS  +    NPL+++ HRRF   +S  + S+ KRR F+V AS+N VFTSP++AK
Sbjct: 8   ISPPFLLSSRSAYTLNPLLFAKHRRFCFPLSQSRFSSIKRRSFAVVASENGVFTSPELAK 67

Query: 64  TFDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 123
           +FDF  EERIYNWW+SQGYF+P  D+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR
Sbjct: 68  SFDFTSEERIYNWWQSQGYFRPKFDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVR 127

Query: 124 YHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTI 183
           YHRM+GRPT+W+PGTDHAGIATQLVVERMLASEGIKRA++GRDEF   +W+WKEKYGGTI
Sbjct: 128 YHRMRGRPTLWLPGTDHAGIATQLVVERMLASEGIKRAELGRDEFAKRVWEWKEKYGGTI 187

Query: 184 TNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSD 243
           TNQIKRLGASCDWTRE FTLDE+LSRAV+EAFV+LHEKGLIYQGSYMVNWSP LQTAVSD
Sbjct: 188 TNQIKRLGASCDWTRERFTLDEQLSRAVVEAFVKLHEKGLIYQGSYMVNWSPKLQTAVSD 247

Query: 244 LEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQ 303
           LEVEYSEEPGALY+IKYRVAGGSR D+LTIATTRPETLFGD AIAV+P+DERY+KYVG  
Sbjct: 248 LEVEYSEEPGALYYIKYRVAGGSRSDFLTIATTRPETLFGDVAIAVHPQDERYSKYVGQM 307

Query: 304 AIVPMTYGRHIPIIADKF 321
           AIVPMTYGRH+PII+DKF
Sbjct: 308 AIVPMTYGRHVPIISDKF 325
[Close]
BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Match: D7TSN2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_14s0006g00860 PE=4 SV=1)

HSP 1 Score: 540.0 bits (1390), Expect = 3.600e-150
Identity = 252/315 (80.00%), Postives = 285/315 (90.48%), Query Frame = 1 

		  

Query: 5   ASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKTF 64
           ++P LLS  +  R NPL++SHRR   ++S    S+ K R F+V+A +NDVFTSP+ AK F
Sbjct: 4   STPSLLSSCSAYRLNPLLFSHRRLRIRLSH---SHLKPRFFAVAARENDVFTSPETAKPF 63

Query: 65  DFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 124
           DF  EERIYNWW+SQGYFKPNLD+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH
Sbjct: 64  DFTSEERIYNWWDSQGYFKPNLDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 123

Query: 125 RMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITN 184
           RMKGRPT+WIPGTDHAGIATQLVVERMLASEGIKRA++ RDEF   +W+WKEKYGGTITN
Sbjct: 124 RMKGRPTLWIPGTDHAGIATQLVVERMLASEGIKRAELSRDEFTKRVWEWKEKYGGTITN 183

Query: 185 QIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLE 244
           QIKRLGASCDWTREHFTLDE+LSRAVIEAFVRLHE+GLIYQGSYMVNWSPNLQTAVSDLE
Sbjct: 184 QIKRLGASCDWTREHFTLDEQLSRAVIEAFVRLHERGLIYQGSYMVNWSPNLQTAVSDLE 243

Query: 245 VEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAI 304
           VEYSEEPG LY+IKYRVAGGS+ DYLTIATTRPETLFGDTAIAV+P+D+RY++Y+G  AI
Sbjct: 244 VEYSEEPGTLYYIKYRVAGGSKSDYLTIATTRPETLFGDTAIAVHPQDDRYSRYIGRMAI 303

Query: 305 VPMTYGRHIPIIADK 320
           VPMT+GRH+PII+D+
Sbjct: 304 VPMTFGRHVPIISDR 315
[Close]
BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Match: A0A067KDU4_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_13438 PE=3 SV=1)

HSP 1 Score: 537.0 bits (1382), Expect = 3.100e-149
Identity = 247/316 (78.16%), Postives = 283/316 (89.56%), Query Frame = 1 

		  

Query: 4   LASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKT 63
           L+SPFLLS  +  R NPL++S RR     S  +    K R F+V+AS+N VFTSP++AKT
Sbjct: 3   LSSPFLLSSCSAYRLNPLLFSQRRRCIAFSHFRFPRPKTRFFAVAASENGVFTSPEIAKT 62

Query: 64  FDFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRY 123
           FDF  EERIYNWWESQGYFKPNL+QG DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRY
Sbjct: 63  FDFSSEERIYNWWESQGYFKPNLEQGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRY 122

Query: 124 HRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTIT 183
           +RMKGRPT+W+PGTDHAGIATQLVVERMLASEGIKR ++GR+EF+  +W+WK KYGGTIT
Sbjct: 123 NRMKGRPTLWLPGTDHAGIATQLVVERMLASEGIKRTELGREEFLKRVWEWKAKYGGTIT 182

Query: 184 NQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDL 243
           NQIKRLGASCDW REHFTLDE+LSRAVIEAF+RLHEKGLIYQGSY+VNWSPNLQTAVSDL
Sbjct: 183 NQIKRLGASCDWAREHFTLDEQLSRAVIEAFIRLHEKGLIYQGSYLVNWSPNLQTAVSDL 242

Query: 244 EVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQA 303
           EVEYSEEPG LYHIKYR+AGGSR ++LT+ATTRPETLFGD A+AV+P+D+RY+KY+G  A
Sbjct: 243 EVEYSEEPGTLYHIKYRIAGGSRSEFLTVATTRPETLFGDVALAVHPKDDRYSKYIGRMA 302

Query: 304 IVPMTYGRHIPIIADK 320
           IVPMTYGRH+PII+D+
Sbjct: 303 IVPMTYGRHVPIISDR 318
[Close]
BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Match: D7TF60_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_13s0047g01050 PE=3 SV=1)

HSP 1 Score: 536.2 bits (1380), Expect = 5.200e-149
Identity = 250/316 (79.11%), Postives = 285/316 (90.19%), Query Frame = 1 

		  

Query: 5   ASPFLLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNFKRRLFSVSASQNDVFTSPDVAKTF 64
           ++P LLS  +  R NPL++SHR    ++S    S+ K R F+V+A +NDVFTSP+ AK+F
Sbjct: 4   STPSLLSSCSAYRLNPLLFSHRCLRIRLSH---SHLKPRFFAVAARENDVFTSPETAKSF 63

Query: 65  DFEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 124
           DF  EERIYNWW+SQGYFKPNLD+G DPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH
Sbjct: 64  DFTSEERIYNWWDSQGYFKPNLDRGSDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYH 123

Query: 125 RMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITN 184
           RMKGRPT+WIPGTDHAGIATQLVVERMLASEGIKRA++ RDEF   +W+WKEKYGGTITN
Sbjct: 124 RMKGRPTLWIPGTDHAGIATQLVVERMLASEGIKRAELSRDEFTKRVWEWKEKYGGTITN 183

Query: 185 QIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLE 244
           QIKRLGASCDWTREHFTLDE+LS AVIEAFVRLHE+GLIYQGSYMVNWSPNLQTAVSDLE
Sbjct: 184 QIKRLGASCDWTREHFTLDEKLSWAVIEAFVRLHERGLIYQGSYMVNWSPNLQTAVSDLE 243

Query: 245 VEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAI 304
           VEYSEEPG LY+IKYRVAGGS+ DYLTIATTRPETLFGDTAIAV+P+D+RY++Y+G  AI
Sbjct: 244 VEYSEEPGTLYYIKYRVAGGSKSDYLTIATTRPETLFGDTAIAVHPQDDRYSRYIGRMAI 303

Query: 305 VPMTYGRHIPIIADKF 321
           VPMT+GRH+PII+D++
Sbjct: 304 VPMTFGRHVPIISDRY 316
[Close]
BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Match: SYVM2_ARATH (Valine--tRNA ligase, chloroplastic/mitochondrial 2 OS=Arabidopsis thaliana GN=EMB2247 PE=3 SV=1)

HSP 1 Score: 505.8 bits (1301), Expect = 6.800e-142
Identity = 241/315 (76.51%), Postives = 274/315 (86.98%), Query Frame = 1 

		  

Query: 9   LLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNF---KRRLFSVSASQNDVFTSPDVAKTFD 68
           LLSPS+  + N L ++ RR    +S  +L++    +R  FS +AS N+VFTSP+ +KTFD
Sbjct: 16  LLSPSSPHQLNTLFFTRRRR-RLISPSRLNSIFSQRRFSFSAAASGNNVFTSPETSKTFD 75

Query: 69  FEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHR 128
           F  EE+IY WWESQGYFKPN DQGG PFVI MPPPNVTGSLHMGHAMFVTLEDIMVRY+R
Sbjct: 76  FSSEEKIYKWWESQGYFKPNFDQGGSPFVIPMPPPNVTGSLHMGHAMFVTLEDIMVRYNR 135

Query: 129 MKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQ 188
           M GRPT+W+PGTDHAGIATQLVVE+MLASEGIKR D+GRDEF   +W+WKEKYGGTITNQ
Sbjct: 136 MNGRPTLWLPGTDHAGIATQLVVEKMLASEGIKRVDLGRDEFTKRVWEWKEKYGGTITNQ 195

Query: 189 IKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEV 248
           IKRLGASCDW+RE FTLDE+LSRAV+EAFV+LH+KGLIYQGSYMVNWSPNLQTAVSDLEV
Sbjct: 196 IKRLGASCDWSRERFTLDEQLSRAVVEAFVKLHDKGLIYQGSYMVNWSPNLQTAVSDLEV 255

Query: 249 EYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAIV 308
           EYSEEPG LYHIKYRVAG    D+LTIATTRPETLFGD A+AV+PED+RY+KYVG  AIV
Sbjct: 256 EYSEEPGFLYHIKYRVAGS--PDFLTIATTRPETLFGDVALAVHPEDDRYSKYVGQTAIV 315

Query: 309 PMTYGRHIPIIADKF 321
           PMTYGRH+PIIADK+
Sbjct: 316 PMTYGRHVPIIADKY 327
[Close]
BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Match: SYV_LARHH (Valine--tRNA ligase OS=Laribacter hongkongensis (strain HLHK9) GN=valS PE=3 SV=1)

HSP 1 Score: 322.4 bits (825), Expect = 1.100e-86
Identity = 149/263 (56.65%), Postives = 197/263 (74.90%), Query Frame = 1 

		  

Query: 59  DVAKTFD-FEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLE 118
           ++AK+F+    E R Y+ WE+ GYFKP++D     F I +PPPNVTG+LHMGHA   T+ 
Sbjct: 2   ELAKSFEPGNIENRWYDRWEAAGYFKPSMDTDRPSFCIQLPPPNVTGTLHMGHAFNQTIM 61

Query: 119 DIMVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEK 178
           D + RY+RMKG  T+W+PG DHAGIATQ+VVER LA +G+ R D+GRD F+  +W+WKEK
Sbjct: 62  DGLTRYYRMKGDNTLWVPGADHAGIATQIVVERQLAEQGVSRHDLGRDTFIGKVWEWKEK 121

Query: 179 YGGTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQ 238
            GGTIT+Q++R+G S DW +E+FT+D+++S AV E FVRL+E+GLIY+G  +VNW P L 
Sbjct: 122 SGGTITSQMRRVGCSVDWDKEYFTMDDKMSTAVTEVFVRLYEQGLIYRGKRLVNWDPKLG 181

Query: 239 TAVSDLEVEYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAK 298
           TAVSDLEV   EE G ++HI+Y V G   +D + +ATTRPETL GD A+AVNP+DERY  
Sbjct: 182 TAVSDLEVISEEEDGKMWHIRYPVVGS--DDVVVVATTRPETLLGDVAVAVNPDDERYRH 241

Query: 299 YVGCQAIVPMTYGRHIPIIADKF 321
            VG Q  +P+T GR IP+IAD +
Sbjct: 242 LVGKQLELPLT-GRTIPVIADDY 261
[Close]
BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Match: SYV_ACIAD (Valine--tRNA ligase OS=Acinetobacter baylyi (strain ATCC 33305 / BD413 / ADP1) GN=valS PE=3 SV=1)

HSP 1 Score: 319.3 bits (817), Expect = 9.000e-86
Identity = 151/271 (55.72%), Postives = 201/271 (74.17%), Query Frame = 1 

		  

Query: 56  TSPDVAKTFD-FEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFV 115
           ++ ++A T+D  + E + Y  WE +GYFKP+    GD F I +PPPNVTGSLHMGH    
Sbjct: 12  SAQNIATTYDPTDIERKWYQIWEEKGYFKPSGQ--GDSFCIMIPPPNVTGSLHMGHGFNN 71

Query: 116 TLEDIMVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKW 175
            + D + RY+RM G+ T+W PGTDHAGIATQ+VVER LA++ I R D+GR++F++ +W+W
Sbjct: 72  AIMDALTRYNRMMGKNTLWQPGTDHAGIATQMVVERQLAAQNISRHDLGREQFIDKVWEW 131

Query: 176 KEKYGGTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSP 235
           KE+ GGTIT QI+RLG+S DW+RE FT+D+ LS AV E FV+LHE GLIY+G  +VNW P
Sbjct: 132 KEQSGGTITKQIRRLGSSVDWSRERFTMDDGLSNAVKEVFVKLHEDGLIYRGKRLVNWDP 191

Query: 236 NLQTAVSDLEVEYSEEPGALYHIKYRVAGGSRE-----DYLTIATTRPETLFGDTAIAVN 295
            LQTA+SDLEVE  EE G+L+H KY     S +     D+L +ATTRPETL GDTA+AV+
Sbjct: 192 KLQTALSDLEVESVEEKGSLWHFKYFFEDKSLKTQDGHDFLVVATTRPETLLGDTAVAVH 251

Query: 296 PEDERYAKYVGCQAIVPMTYGRHIPIIADKF 321
           PEDERYA  +G   ++P+T GR +PI+AD++
Sbjct: 252 PEDERYAHLIGKNIVLPIT-GRLVPIVADEY 279
[Close]
BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Match: SYV_NITEU (Valine--tRNA ligase OS=Nitrosomonas europaea (strain ATCC 19718 / NBRC 14298) GN=valS PE=3 SV=1)

HSP 1 Score: 318.5 bits (815), Expect = 1.500e-85
Identity = 153/266 (57.52%), Postives = 194/266 (72.93%), Query Frame = 1 

		  

Query: 59  DVAKTFD-FEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLE 118
           ++AK+FD  E E R Y+ WE+ GYF P   +G DP+ I +PPPNVTG+LHMGHA   TL 
Sbjct: 2   ELAKSFDPKEIETRWYSTWETAGYFSPTDHKGADPYCIMLPPPNVTGTLHMGHAFQHTLM 61

Query: 119 DIMVRYHRMKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEK 178
           D ++RYHRM G  T+W PGTDHAGIATQ+VVER L  EG  R  +GR+ F+  +W+WKE+
Sbjct: 62  DALIRYHRMLGDNTLWQPGTDHAGIATQIVVERQLDQEGKDRRQMGREAFLERVWQWKEE 121

Query: 179 YGGTITNQIKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQ 238
            G TIT Q++R+GASCDW+RE FT+DE LSRAV E FVRL+ +GLIY+G  +VNW P LQ
Sbjct: 122 SGSTITRQMRRMGASCDWSRERFTMDETLSRAVTEVFVRLYREGLIYRGKRLVNWDPVLQ 181

Query: 239 TAVSDLEVEYSEEPGALYHIKY---RVAGGSREDYLTIATTRPETLFGDTAIAVNPEDER 298
           TAVSDLEV   EE G+L+HI Y   ++ GGS    L +ATTRPET+ GD A+AV+PEDER
Sbjct: 182 TAVSDLEVVSVEEQGSLWHILYPFEQLEGGSEHQGLVVATTRPETMLGDMAVAVHPEDER 241

Query: 299 YAKYVGCQAIVPMTYGRHIPIIADKF 321
           Y   +G    +P++  R IPIIAD +
Sbjct: 242 YRHLIGRHLRLPLS-ERTIPIIADSY 266
[Close]
BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Match: SYV_PSEAE (Valine--tRNA ligase OS=Pseudomonas aeruginosa (strain ATCC 15692 / PAO1 / 1C / PRS 101 / LMG 12228) GN=valS PE=1 SV=1)

HSP 1 Score: 316.6 bits (810), Expect = 5.800e-85
Identity = 146/252 (57.94%), Postives = 189/252 (75.00%), Query Frame = 1 

		  

Query: 73  YNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHRMKGRPTV 132
           Y  WES  YF P+ +  G P+ I +PPPNVTGSLHMGH     + D ++RY RM+GR T+
Sbjct: 15  YETWESNDYFAPSGE--GQPYTIMIPPPNVTGSLHMGHGFNNAIMDALIRYRRMQGRNTL 74

Query: 133 WIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQIKRLGAS 192
           W PGTDHAGIATQ+VVER L ++G+ R D+GR++F+  +W+WKE+ GG IT QI+RLG+S
Sbjct: 75  WQPGTDHAGIATQMVVERQLGAQGVSRHDLGREKFLEKVWEWKEQSGGNITRQIRRLGSS 134

Query: 193 CDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEVEYSEEPG 252
            DW+RE FT+D+ LS AV EAFVRLHE GLIY+G  +VNW   L TA+SDLEVE  +E G
Sbjct: 135 VDWSRERFTMDDGLSEAVKEAFVRLHEDGLIYRGKRLVNWDTKLHTAISDLEVENHDEKG 194

Query: 253 ALYHIKYRVAGGSRE----DYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAIVPMT 312
            L+H++Y +  G++     DYL +ATTRPETL GD A+AV+PEDERYAK +G  A +P+ 
Sbjct: 195 HLWHLRYPLVNGAKTSEGLDYLVVATTRPETLLGDAAVAVHPEDERYAKLIGQFAELPIV 254

Query: 313 YGRHIPIIADKF 321
            GRHIPIIAD++
Sbjct: 255 -GRHIPIIADEY 263
[Close]
BLAST of Spo13622.1 vs. TAIR (Arabidopsis)
Match: AT5G16715.1 (ATP binding;valine-tRNA ligases;aminoacyl-tRNA ligases;nucleotide binding;ATP binding;aminoacyl-tRNA ligases)

HSP 1 Score: 505.8 bits (1301), Expect = 3.800e-143
Identity = 241/315 (76.51%), Postives = 274/315 (86.98%), Query Frame = 1 

		  

Query: 9   LLSPSTIRRFNPLIYSHRRFVNKVSSVQLSNF---KRRLFSVSASQNDVFTSPDVAKTFD 68
           LLSPS+  + N L ++ RR    +S  +L++    +R  FS +AS N+VFTSP+ +KTFD
Sbjct: 16  LLSPSSPHQLNTLFFTRRRR-RLISPSRLNSIFSQRRFSFSAAASGNNVFTSPETSKTFD 75

Query: 69  FEWEERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHR 128
           F  EE+IY WWESQGYFKPN DQGG PFVI MPPPNVTGSLHMGHAMFVTLEDIMVRY+R
Sbjct: 76  FSSEEKIYKWWESQGYFKPNFDQGGSPFVIPMPPPNVTGSLHMGHAMFVTLEDIMVRYNR 135

Query: 129 MKGRPTVWIPGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQ 188
           M GRPT+W+PGTDHAGIATQLVVE+MLASEGIKR D+GRDEF   +W+WKEKYGGTITNQ
Sbjct: 136 MNGRPTLWLPGTDHAGIATQLVVEKMLASEGIKRVDLGRDEFTKRVWEWKEKYGGTITNQ 195

Query: 189 IKRLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEV 248
           IKRLGASCDW+RE FTLDE+LSRAV+EAFV+LH+KGLIYQGSYMVNWSPNLQTAVSDLEV
Sbjct: 196 IKRLGASCDWSRERFTLDEQLSRAVVEAFVKLHDKGLIYQGSYMVNWSPNLQTAVSDLEV 255

Query: 249 EYSEEPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPEDERYAKYVGCQAIV 308
           EYSEEPG LYHIKYRVAG    D+LTIATTRPETLFGD A+AV+PED+RY+KYVG  AIV
Sbjct: 256 EYSEEPGFLYHIKYRVAGS--PDFLTIATTRPETLFGDVALAVHPEDDRYSKYVGQTAIV 315

Query: 309 PMTYGRHIPIIADKF 321
           PMTYGRH+PIIADK+
Sbjct: 316 PMTYGRHVPIIADKY 327
[Close]
BLAST of Spo13622.1 vs. TAIR (Arabidopsis)
Match: AT1G14610.1 (valyl-tRNA synthetase / valine--tRNA ligase (VALRS))

HSP 1 Score: 266.2 bits (679), Expect = 5.100e-71
Identity = 131/267 (49.06%), Postives = 176/267 (65.92%), Query Frame = 1 

		  

Query: 69  EERIYNWWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHRMKG 128
           E+  Y WWE    FK +      PFVI +PPPNVTG+LH+GHA+   +ED ++R+ RM G
Sbjct: 146 EKSWYAWWEKSDLFKADAKSSKPPFVIVLPPPNVTGALHIGHALTSAIEDTIIRWKRMSG 205

Query: 129 RPTVWIPGTDHAGIATQLVVER-MLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQIK 188
              +W+PG DHAGIATQ+VVE+ ++   G+ R D+GR+EFV  +WKWK +YGGTI  Q++
Sbjct: 206 YNALWVPGVDHAGIATQVVVEKKIMRDRGMTRHDVGREEFVKEVWKWKNQYGGTILTQLR 265

Query: 189 RLGASCDWTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEVEY 248
           RLGAS DW+RE FT+DE+ S+AV EAFVRL+++GLIY+   +VNW   L+TA+SD+EVEY
Sbjct: 266 RLGASLDWSRECFTMDEQRSKAVTEAFVRLYKEGLIYRDIRLVNWDCILRTAISDVEVEY 325

Query: 249 SE----------------EPGALYHIKYRVAGGSREDYLTIATTRPETLFGDTAIAVNPE 308
            +                E G L    Y + GG  E  + +ATTR ET+ GDTAIA++P+
Sbjct: 326 IDIKEKTLLKVPGYEKPVEFGLLTSFAYPLEGGLGE--VIVATTRVETMLGDTAIAIHPD 385

Query: 309 DERYAKYVGCQAIVPMTYGRHIPIIAD 319
           D RY    G  A+ P   GR +PII D
Sbjct: 386 DARYKHLHGKFAVHPFN-GRKLPIICD 409
[Close]
BLAST of Spo13622.1 vs. TAIR (Arabidopsis)
Match: AT5G49030.1 (tRNA synthetase class I (I, L, M and V) family protein)

HSP 1 Score: 115.5 bits (288), Expect = 1.100e-25
Identity = 71/226 (31.42%), Postives = 115/226 (50.88%), Query Frame = 1 

		  

Query: 75  WWESQGYFKPNLDQGGDPFVISMPPPNVTGSLHMGHAMFVTLEDIMVRYHRMKGRPTVWI 134
           W E+Q + + + +  G  F++   PP   G LHMGHA+   L+DI+ RY  ++     ++
Sbjct: 130 WEENQVFKRVSDNNNGGSFILHDGPPYANGDLHMGHALNKILKDIINRYKLLQNYKVQYV 189

Query: 135 PGTDHAGIATQLVVERMLASEGIKRADIGRDEFVNHIWKWKEKYGGTITNQIKRLGASCD 194
           PG D  G+  +L V + L  E   R ++   +      K+ +    T     KR G   D
Sbjct: 190 PGWDCHGLPIELKVLQSLDQE--VRKELTPLKLRAKAAKFAKATVKTQMESFKRFGVWAD 249

Query: 195 WTREHFTLDERLSRAVIEAFVRLHEKGLIYQGSYMVNWSPNLQTAVSDLEVEYSEE--PG 254
           W   + TLD     A IE F ++  KG IY+G   V+WSP+ +TA+++ E+EY E     
Sbjct: 250 WNNPYLTLDPEYEAAQIEVFGQMALKGYIYRGRKPVHWSPSSRTALAEAELEYPEGHISK 309

Query: 255 ALYHIKYRVAGGSRED---------YLTIATTRPETLFGDTAIAVN 290
           ++Y I +++ GG++           YL + TT P T+  + A+AVN
Sbjct: 310 SIYAI-FKLVGGAKTSLLDEFIPNIYLAVWTTTPWTMPANAAVAVN 352
[Close]
BLAST of Spo13622.1 vs. TAIR (Arabidopsis)
Match: AT3G20980.1 (Gag-Pol-related retrotransposon family protein)

HSP 1 Score: 52.0 bits (123), Expect = 1.500e-6
Identity = 27/84 (32.14%), Postives = 46/84 (54.76%), Query Frame = 1 

		  

Query: 451 SNHMSENRFFFLDLDETVTGKVRFADGSRID-----IKGKSSIQFVFKDGKKKVLNNVYY 510
           SNHM+ +  FF  LD +   KV+F  G + +     ++G   + F+  +G K +  NV Y
Sbjct: 276 SNHMTPHVKFFTTLDRSRKCKVKFISGDKSETTVAMVEGIGDVTFITNEGNKTI-KNVLY 335

Query: 511 IPDLKSNIVSLGQATKTGCEVRMK 530
           +P ++ N +S+ Q  + G EV M+
Sbjct: 336 VPGIEGNALSVSQLKRNGFEVSME 358
The following BLAST results are available for this feature:
BLAST of Spo13622.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|731319206|ref|XP_010670136.1|3.3e-16587.8PREDICTED: valine--tRNA ligase... [more]
gi|731319204|ref|XP_010670135.1|3.3e-16587.8PREDICTED: valine--tRNA ligase... [more]
gi|731417446|ref|XP_010660308.1|2.3e-15079.7PREDICTED: valine--tRNA ligase... [more]
gi|296087130|emb|CBI33504.3|5.2e-15080.0unnamed protein product [Vitis... [more]
gi|590651897|ref|XP_007033012.1|5.2e-15079.2ATP binding,valine-tRNA ligase... [more]
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BLAST of Spo13622.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A061EFZ2_THECC3.6e-15079.2ATP binding,valine-tRNA ligase... [more]
A0A061EGZ7_THECC3.6e-15079.2ATP binding,valine-tRNA ligase... [more]
D7TSN2_VITVI3.6e-15080.0Putative uncharacterized prote... [more]
A0A067KDU4_JATCU3.1e-14978.1Uncharacterized protein OS=Jat... [more]
D7TF60_VITVI5.2e-14979.1Putative uncharacterized prote... [more]
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BLAST of Spo13622.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
SYVM2_ARATH6.8e-14276.5Valine--tRNA ligase, chloropla... [more]
SYV_LARHH1.1e-8656.6Valine--tRNA ligase OS=Laribac... [more]
SYV_ACIAD9.0e-8655.7Valine--tRNA ligase OS=Acineto... [more]
SYV_NITEU1.5e-8557.5Valine--tRNA ligase OS=Nitroso... [more]
SYV_PSEAE5.8e-8557.9Valine--tRNA ligase OS=Pseudom... [more]
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BLAST of Spo13622.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 4
Match NameE-valueIdentityDescription
AT5G16715.13.8e-14376.5ATP binding;valine-tRNA ligase... [more]
AT1G14610.15.1e-7149.0valyl-tRNA synthetase / valine... [more]
AT5G49030.11.1e-2531.4tRNA synthetase class I (I, L,... [more]
AT3G20980.11.5e-632.1Gag-Pol-related retrotransposo... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001412Aminoacyl-tRNA synthetase, class I, conserved sitePROSITEPS00178AA_TRNA_LIGASE_Icoord: 100..111
scor
IPR002300Aminoacyl-tRNA synthetase, class IaPFAMPF00133tRNA-synt_1coord: 72..299
score: 1.1
IPR002303Valine-tRNA ligasePRINTSPR00986TRNASYNTHVALcoord: 289..306
score: 4.1E-7coord: 93..104
score: 4.
IPR009008Valyl/Leucyl/Isoleucyl-tRNA synthetase, editing domainGENE3D3.90.740.10coord: 252..320
score: 2.5
IPR009008Valyl/Leucyl/Isoleucyl-tRNA synthetase, editing domainunknownSSF50677ValRS/IleRS/LeuRS editing domaincoord: 248..320
score: 1.57
IPR014729Rossmann-like alpha/beta/alpha sandwich foldGENE3D3.40.50.620coord: 68..250
score: 1.9
NoneNo IPR availablePANTHERPTHR11946ISOLEUCYL, LEUCYL, TYROSYL, VALYL AND METHIONYL-TRNA SYNTHETASEScoord: 51..320
score: 9.5E
NoneNo IPR availablePANTHERPTHR11946:SF76ATP BINDING/VALINE-TRNA LIGASE/AMINOACYL-TRNA LIGASEcoord: 51..320
score: 9.5E
NoneNo IPR availablePFAMPF14223Retrotran_gag_2coord: 318..404
score: 3.1
NoneNo IPR availableunknownSSF52374Nucleotidylyl transferasecoord: 60..247
score: 3.15

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009097 isoleucine biosynthetic process
biological_process GO:0006260 DNA replication
biological_process GO:0006418 tRNA aminoacylation for protein translation
biological_process GO:0048364 root development
biological_process GO:0035281 pre-miRNA export from nucleus
biological_process GO:0009944 polarity specification of adaxial/abaxial axis
biological_process GO:0009910 negative regulation of flower development
biological_process GO:0009965 leaf morphogenesis
biological_process GO:0080090 regulation of primary metabolic process
biological_process GO:0060255 regulation of macromolecule metabolic process
biological_process GO:0031323 regulation of cellular metabolic process
biological_process GO:0006996 organelle organization
biological_process GO:0009098 leucine biosynthetic process
biological_process GO:0051321 meiotic cell cycle
biological_process GO:0034654 nucleobase-containing compound biosynthetic process
biological_process GO:0006281 DNA repair
biological_process GO:0009099 valine biosynthetic process
biological_process GO:0006450 regulation of translational fidelity
biological_process GO:0008152 metabolic process
biological_process GO:0006310 DNA recombination
biological_process GO:0006438 valyl-tRNA aminoacylation
cellular_component GO:0009506 plasmodesma
cellular_component GO:0005634 nucleus
cellular_component GO:0042575 DNA polymerase complex
cellular_component GO:0005663 DNA replication factor C complex
cellular_component GO:0005737 cytoplasm
molecular_function GO:0004812 aminoacyl-tRNA ligase activity
molecular_function GO:0003723 RNA binding
molecular_function GO:0005515 protein binding
molecular_function GO:0005488 binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0002161 aminoacyl-tRNA editing activity
molecular_function GO:0003689 DNA clamp loader activity
molecular_function GO:0004832 valine-tRNA ligase activity
molecular_function GO:0008026 ATP-dependent helicase activity
molecular_function GO:0003677 DNA binding
molecular_function GO:0000166 nucleotide binding
RNA-Seq Expression