Spo16755.1 (mRNA) | SpinachBase

Overview


Name	Spo16755.1
Type	mRNA
Organism	Spinacia oleracea (Spinach)
Description	ATP-dependent RNA helicase, mitochondrial, putative
Location	SpoScf_00778 : 159815 .. 192811 (-)
Sequence length	1752

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRexonpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

TTTCATAGTCGAGTTAAGAATGGCTCCATTATAACTCGAAATAAAGGATTTTTTTTAATTATGGCTTCTTCACTTCTACGCCGGAGATTCTCAAACTTCAGCCTCTCTCGTCATTATTACGGTTCGATTCTTTCGTTTTCATGTAAAAAATTCGTCGCGTTTTCATCAATGAATAGGTTGCAGTTTCTGTCAATATGACAGAAACTGCAACCTATGCATATAATCTGCCAAAAATTTGACCTTTTGTTTTTGCGTTTTTATTTGATCCTTAATTCTGCAGATATGATCCAATATATTGCTATTTTGTAAAATTATTGGATTGTTGTTCTAATAAATTGCTTAGTGTTCTGTACAATTTGTTCGGCAATAACCTGAATTTGGCAATTAAGCTCTAATTGTTTGGTTGGTTTCGAATTTTTTTTCCATTCAATATATTACTTCATGCATAAAATTGTGTTATTTTCGAGCTCAATTTTCTCAGGTAATGTTAAATGTAGCCTACTGATTACGGATAAATAACTTAAAAATCGAAAGTATTTATATATTTTTGATGCATTTTATTGTTTGGACATATCCGTGTTTGATGGAAGCGAGGCGTCTGTTTTGAGTTGAAAATTGTAATGGGTTGGTGTGAATATTTTCGGGAATATTGACCTCCCATTTTTGAGAAGACATTGAAGAAGACATTGAGTTAATATTCTTTTGGAACCTTTTCAAACTATTATTGTAGAAAAGTTGAGGAAAACAATTTTATCGAATATGCTCTCTTGCCATCTTTTGTTTAGTAAAGATTTCTTTAGATTCAATTATGTCCTGGTCATTTGTCAGTTTGTCACTTTATCGTGCTTTGTATTTCCAGATCAATTTGAGACTTTACCCTGGGAGTTGAGATTTGGACTATTGGCTAGTCAGTGTGGTTGCTCGAGGCAGTTCAGCAACGGTGCTACATCATCCAGATTTGATTTTACGGACTTGACGTGAGAATAATATCTCCTTTCTATTGCTATTGTTAAATGATGTATGGTCTATTATCTTTGCATAACCTTGTTGGTTGATAGATATCATAGCCTCGTAGTTGATTTTGATGTTATCTATACTCATTTTCTTGATGCAATATTATTATTCTAATTGTGAAAAGCTTTGAGAAGAAAATTTTCTGTTCTGTTTTAGTGTCGTATTCCCTTATCAACACATTCATGTAGGTTCCTTTTCTTATTTTGTGTACATATGCCCTTGTTCTTGTATTTTATTTTTTCTCTTGTAATTGGTTCTTCGCTTCAGTTTACCATAAATTCTGACTCACATCTCAAGTTTACCTCTTGTTGAATTCTCCCTTGTTTGTTAGAGTGACACTGCCTTTTGAGAGCATACCATTTAAGTAATGCCCTCTTGCTGCTTACTTTTTATTTAGTAAATGTTTGACTATACTTTAGTCCATGCTTGAAACGAGGTTAATTATTTGAGGGGTAATACCGTAATAGGGTCTAAAATAATGAGGTGGTATGTAGGTGGAGATGGTGGTGGTTTAGGGAAGCAGTAGTGGGGGGGGGGGGGGGGGANNNNNNNNGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGACTATTACCTTTATTGGGGGTAACCTATTTCCTAGAGGGGTGGGAATAATTAGTCTTATATGAGGGTAGTCAAGTAATTTCTCTCCCTCCCCCGTCTCTGTCTTTCACCAAATGTTAACCTCTTCTAACACCAACACCCACTCACGGCCTCTTCATTTGAATCCTGTAACCCCCTTAGATTTCCTCCATTCGAGCAAGCCCTTAGGACCCATTTGGTATATGGTAATAAATGGTGGTAATGAAAATGATTTTTATACGGGAGTAAATAACATACTCAAAATTCTTAGCTATCTAGCTTAGATCACATAAACAAAGTGAATGCTTCACAAGAGGAGTCAAAAGTCTTCAAACTACTGATAAAGATAGTTTTATATAGCCTTGAAAATTGAAACTGACCGAACTTAAGCTTGCATTTAAATTGTCTTTCTCCTAATAGGTTGGCAGTTTTGTCAATTTGTGTAGGGCTTAGCAATTGTTAATGCCTTAAATTTCCAGTACATTCTCAGGGTCTCTTTAGTAGTCTTTGAAAGTTAGGGCCTTAGGGGTAAGGCTGTGCAGCAGTCTGCAGTAATAGTTGCTGCTGTTGTATTGTAGACTTATTGGTGTCAAATGCTGTTCTATTCTTTTAGAAAGTTACAAGGATGGAGTCTAAAATATTTACTTTCTCTGTGGGCTGTTTATGCTAGTCGTCCTCACACATGGTACCCAATTGCCAGAGAGAAGAAGCGAACTATTTTTCTTCACGTGGGACCCACAAACAGTGGTAAAACATATCATGCGTTGAAACAGTTGGAATGTAGCTCAACAGGTTAAAGAAGCTGGCCTTGTTTATTAAATTTTATTATCAGTAAGGGTGGCAGCCATGGCGCAGTCCGGCAGATATATTCATTTAAAAGCCATATCCTTAATCATTTCTTGTGTTCTGTTCTGTAGGTGTATACTGTGGACCCTTAAGATTATTGGCTTGGGAAGTAGCAAAACGTTTGAACAAAGCTAATGTTCCTTGCAATCTTATCACTGGACAAGAACGGGAGGAAGTTGAAGGTGCAAAACACATGGCTGCTACTGTTGAGATGGCAGATGTGACATCTGACTATCAATGTGCTGTTATTGATGAAATTCAGGCATGTAGTTGGCTATAGCTTAGTGTGCTGAAAATTTCATGATCTGATGGTTTTTAATAGCTTTCCTAATTTGTGTTTTATTGGTAGGAGTAGAACATTGGTCTTGCACTCTTTTGCTGCAGGCCTGTGACTATCAGCGCATATTCTATCATCTTTCTCATGCTTCTCCAAATGCTTAAATTAAACTTTTTCAGCATTTATTTATATGGTTTTGGGTGTTAGATATTGGAAAAATAGTATATACAATTGATGACCGCCATGTGATTGCTCATTGACCGTTTCTCTTCCACTTGTAATAATTGGCGCTTTTTTATGATTTCAGATGCTGGGTTGCAGGAATAGGGGTTTTTCCTTTACTCGTGCTCTACTGGGACTTGCTGCAGATGAACTACACTTATGTGGAGACCCTGCCGCTGTGCCTCTCATTAAGCAAATGTTGAAAGTTACTGGTGATGATTTGCAGGTAATTTTTTTTTTTTTTTATAATAAAAAGCAGGTTTCCTGATTTCGACTATTTTCTGTATTACATCCCTTGGTTATTAGTCAGTAACTTAAGTAAAATCTATTCAGATTCGAAACATGTAATGTTTTTTGTTTGCTGCTTTTAAGCTTTTGTTTTAATGGATGGGTGCATGGGCTTCTGTGCAATGGACTCTAGTAACTTTTTTTCCTGCATTTTTTTTAATATTCTAGTTCTTTGTCAGTTATTATGATCATAGCACAGTTTTAATTGTAAGAAGAGTTTCTGAAGAGAGTTTATAATTCTTTTCCTGTATGTCTTAAATTCTTCTCAAAAGGTCCTATCTAAGAAGATGTTTCAACTTTGAGAGATCTCATGGGAAAAATGCTTCAGTTAAGTGCATACTGCATAGGCTGATCTAGTTGTGGACTTCTGGTTGTTAACTGGTATTGCACTAGCTTTCCATCCAACATAAAACCTTAGGGGTTGTTTGTGAGCGAAGAAAGGAAAGAGAATGGGAAGGAAAAACATCAAAATCCCTTTAACTACATGGCATGTTTTGTTTGATAAAGGCAACAGGTTGATAAAGAAAAAGAAAATAAAAAGGAAATCCAACACCTTCTCAACCACCCACCTTCCTTATTTTTCAGATCGTAGTTGCCTGAAAATTTGGACTAGAAAACTCTGCGAGAGGTTAACTACTTGTTTCTGCAGATCTGGAAATTAAGGTTGGAGTTTTTCTCTTTGCAGATGATATTGTGTTGATTGATGAAACAAAAGGAGTGGAAAGTAAGTTGGAGTTATGGAGACAAACTTTGGAATCTCGGGGTTTTAGGCTGAGTAGAAACAAGACGGAATATATGGAGTGTAAGTTTAGTGGAGTCCAAGATAGAGAGACAGGGGGGATTACCTTAGATGGGAAAATTGTCTAAGGCTCTGATATGTTCCGTTGTTTAGGATCTATTATCCAAAAGGATGGAGAATTGGATGGCGATGTGGCCTATAGAATCAAAGCAGGTTGGTTGAAGTGGAAAGGTGCCACAGGGTTCCTATGTGATTCAGGCATGCCCCAAAGATTGAAGGGAAAATTTTACCGTACGACAATTCGACCGGCTTTGTTATACGGCACGGAATGCTGGGCAGTGAAACATTGTCACGTGCACAAGATGAATGTGGCGGAGATGCGCATGTTACGTTGGATGTGTGGGCATACAAAAAAGGATCGTTTGAGGAATGAGATTATTAGGAAGAAAGTAGGGGTTGCACCGATTGAGCTTAAGATGATGGAAAATCGTTTAAGATGGTTTGGGCATGTAAGCAGAAGATCAAGTGATGCCCCGGTTAGGAGGATAGAAGGGTGGCAAAATGATAGAATTGCAAGGGGTAGGGGAAGACCTAAGGAAACTTGGAGGAAGGTGATTGAGCACGATATGAGCTTTCTTGGGATTGAGGAAAATATGGCGTTGGATAGGACAGAGTGGAGGGAGAGAATATATATTGATGACTTCATTTGACTTATACAACTTTCATGTTTCTGTTTCTTTCTATTTTTTAATTTATTTTTTTATTCTTATTTTTATTTTTTATTTTATTTTTAAAATTCTTTTGAATTTTTTATTTTTACATGCTATTTTGAAATGTATTTATTTTACTTATTCATTTATTTTAAACTTTACTTATTTTTTATTATCTCTTACAATATTTCTTCTATAATATATACACTTTTTTTCTCTTATCTTACTTTCATTAATTCCACCTTCTCTTCCTTGCTTTTTTCTTTTTACTTCCTGCTCCTTTCTGGTTTGATTTGTGACAATGACGATCTCCTACGACGATTCATGTTAGCCGACCCCAAATCATTTTGGGACTAAGGCTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGGTAGATGGAGACTTCTTCACTCTCAGTCGAATGTACACAATAAGTTCGAACCATGAATTTGAACTTCATTTTGTTGTAAAGAGCGTAGTTGCAGGAGCTTGGTGGAAGGGTGAGATAATGAGTTTTGGGTGTGTGGTGTTAAGACTTAAGAGTGTGTTTGTGTGTGAATAGGGGTCGTTGATGCCAATGTTGGGTTGAATGGCGGGGCTCCTTCTGCAGGGTGGTGGTGTGAACGACGGGGGTGAAAGCCGGTGGCATCCATCATGTTGGTGGGGATAGAATGGTGGTTGTGATACTGGACTAGTGATGGATAAAAGTTTAGGGAAATTCAAATCCCAATGGGGAGGGGGTATGGGGAAGCAAGATGATGTAAGGGTATTTTACTAAAGCAAAAGTGGGAAATGGATACCAAATAACTTGATCCAGACCAATGTTACATGGAATATGGGCCGATGCAGAATGTGGTACGAGAACGGGAACCCTGCCTCTAGAGTTACCGAAATGATGGGTTCTTTTTTATTTTATTATTTGAGTTGATTTTAATTGTTGAACTACTAAAACTGTGATCTTTTGGGAGGAGAAAAGAGAGGTCGGACAGTTTAATATTCCCTCCATATTTTTTTAGGAGTTACATATACCATTTCCTGCCGTAACTTTAGGAGTTATATTTCCATTTTTAAACTTCTACATTAAAATATTACACCCAAGGTCCCCACTCCCCCATTGTTTATTATTTATCTTTCTCCTATGATCCCCACATATACTCACATCATCTTTCCTTACCATAAATTATTCCCCCACTATCAAATATTTACAATATTTTTTTTTTGGTTGTTACCACCCAGTTCACCCTTGAGGATAATCCGGATTCGGGGCTAGTTTGGGGTGGATAAGTTCCAGTCCCCTCCCAATTGTTGCAGGGGATCGAACACGCAGTCCTTCCTACCAAGTTCAACCCCAATCACCACTGAACCAACAGACAATTGGTTAATATTTACAATATATAATTAATATATGCACCACTTGCATAATTAATTCATTATTATAAGAAAATCAACAAAAAATCCTTAATACTTGTGCCAATCAACATGTAACTCCTAAAAAAATACGCAGGGAGTACAAAACATATAATATATGATACTACACAATATTTTAAGAGGGAGGAGAGATAACTCATTTAATGTGAAGCCGGTTTATTTAATTTTAAAAACAAAATGATGAGAGAAAGGTGTTGTGGCTTCTAGAAGGTCCACATACTTTTACCTCTTTGTCTACAAAACAAAACCCCAAAAAGAAAAAAGAGAAGTTAAAAAAGTAAAGAAACCCGACTCTCTTTTTCGTAAGTTTTCTCTCTCCTCCTCTCTCTCCATAGTTAATTCCCTTTTCTTCAGCAACAAAATGACTTTCCACCTTCATAGATACTTTCTCTGTTTCTTAATAAATGCATCATTTTTTACTTTTCACACTATTCATTTATTAACTTTGACCACATTTATTCCACTTTGACCACATTTTTTTTACCAATAATAGTTATTGGGTTAATCTCAATAGTTCTACACATTTTCAAAATATCTCATTTATAACCTTTATTAATACATAAGTAAGATATTGATGGTCAAAGTTAGTATATAAGTAATGTAGAAAGTTAAAATGATGCGTCTATTGTGAAACAAAGGAAGTATCGTTTATGATTCCGGTGAACCGGTTTGCAACATTCATCGAACCGGATCGTTGAATTGTAGCGTCCCGAGACGAATGAACCCGATTCGCCAAACATGGCTCTGTTCTACGTTCCGGGTAACACTGATCCAGACACTTCCATAGGGGAATATAAGAAATTTTCGACTTCCCTAAAACAAGACCCTAACCATATCCCTATAATGTTATTAAAGTTAACTTTAAGATTTCTATTCTCTAGTTATGTGGCTTCAAGTAGCATGTTGTTAAACACACTCAAATCAACCAATATATTACATTATTATCCTATTACCTAAAATACACTAAAAAGTATGGTAAATACGGAATTGTTTCCTTGAGATCACTTTCCTACCAACTCAAGCTTTTATTAATTGTTTTATGTTATAACTATTTACAAATTACTTTCTCCTTTTCAAAATAATTACAACACTTCCCCTTACGAAGAAATTTCAAATTAGTTGTAACATTTCTTTGTTTGGTTAATTGGTTCTCCGTATCTATGTTTTCATCCCACTCTGTATCTCTCCTCATCACACAGCCTCCTAAAACCTTATGCCTCCCGTGTATTGCAAATATTTTGGAACGGAGGAAGTATTAACATATGGTTTAGAAGAAGGATAAGAAGAAGGATTTACATATGCCTCGGGATAAGAAGAAGGATTTACATATGGTTTTCATTGATTTGGAAAAGGCGTATGATAAGGTACCAAGAGAAATTCTTTGGTGGGCATTAAGTAAGAAAGGAATTCCGANTGATTTGGAGAAGGCGTATGATAAGGTACCAAGAGAAATTCTTTGGTGGGCATTAAGTAAGAAAGGAATTCCGAGGAAGTATATTGATATCATCAAGGACATGTATGAGGGAGTTAGTACGAGTGTGAGAACTAGTGTTGGTAAGACTGAAGAATTCCCTATTACGATCGGAGTGCATCAAGGTTCCGCACTTAGCCCGTTTCTTTTTGCTATAGTCATGGACGAATTGACGAGGTCAATCCAAGATGGTATACCCTGGTGCATGATGTTTGCAGATGATATTGTGTTGATTGATGAAACAAAAGGAGTGGAAAGTAAGTTGGAGTTATGGAGACAAACTTTGGAATCTCGGGGTTTTAGGCTGAGTAGAAACAAGACGGAATATATGGAGTGTAAGTTTAGTGGAGTTCAAGATAGAGAGACAGGGGCGATTACCTTAGATGGGAAAATTGTCCAAGGCTCTGAAATGTTCCNGAGAGACAGGGGCGATTACCTTAGATGGGAAAATTGTCCAAGGCTCTGAAATGTTCCGTTATTTAGGATCTATTATCCAAAAGGATGGAGAATTGGATGGCGATGTGGCCCATAGAATCAAAGCAAGTTGGTTGAAGTGGAAAGGTGCCACGGGGTTCCTATGTGACTCAGGCATGCCCCAAAGATTGAAGGGAAAATTTTACCGCACGGCAATTCGACCGGCTTTGTTATACGGCACGGAATGCTGGGCAGTGAAACATTGTCACGTGCACAAGATGAATGTGGCGGAGATGCGCATGTTACGTTGGATGTGTGGCATACAAGAAAGGATCGTTTGAGGAATGAGATTATTAGGAAGAAAGTAGGGGTTGCACCGATTGAGTTTAAGATGATGGAAAATCGTTTAAGATGGTTTGGACATGTAAGCAGAAGATCAAATGATGCCCGGTTAGGAGGATAGAAGGGTGGCAAAGGGATAGAATTGCAAGGGGTAGGGGAAGACCTAAGAAAACTTGGAGGAAGGTGATTGAGCACGATATGAGCTTTCTTGGGATTGAGGAAAATATGGCGTTGGATAGGACAGAGTGGAGGGAGAGAATATACATTGATGACTTCATTTGACTTACACAACTTCAATGTTTCTGATTCTCTTTATTTTTATTTTACTTTTATTTTATTTTTAAAATTCTTTCAATTTTTTTAATTTCACATGCTATTTTGAAATGCACTTATTTTACTTATTCATTTATTTTAAATTTTACTTATTTTTATTATCTCTTACAATATTTCTTCTATTATATATATATACATTTTCTCTTATCCTACTTTCATTAATTTCACTTTCTCTTCTTTGTTTTTTTCTTTTTACTTCCTGCTCTTTTCTGGTTTGATTGGTGACAATGACGATCTCCTACGACGATTCATGTTAGCCGACCCCAAATCATTTTGGGACTAAGGCTTTGTTGTTGTTGTTGTTGTTGTTGGAGGAAGTATTAACATATTTATAAGATAAGANNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGGGGGGGGGGGAGGCGTTGAAAATTTATCTGCTAATGTTTTACAAGCCACCCATTAAATTTATCTACTAATGTTCACAAGCCACCAATTAGTAGATGAATTTAGAAGAGAGGACGGTTAGTAGATAAATTTAAGCCCCATATTATCTCCTTTCAAAAGTCATTTCACGTAATTTAGCAAATGCTGAATTACTGCTGTTATCAAGTCCTTATCTTGCTCACTATCAACTGAGGATTTTGCTAAGACAGAATGAATTAGTTGAAGTGATTCGGGTCGTTTTACCAAGCCTTATGGTCGTCTAGCATTATTAAGATACTTTACACATGTAGTGGGCACGATCACAAGTATTGAGATCAAGTTTCTCGATGGGTAGTGACTATTAAAAGGGTCCTATCACATTAAAAAACACAATTTTCTCACGAGGACTAAGAAATTATATGTCAAGTGCAAGAAAAAAAGACAGAAGAACTGGATCTTTGTTAAGGGACACAATTTTGAATTAGTGGCACACCGATGCAGCCGCTGGCCCTTTAATTTGCCTCTGCCACACGTTCTCTCTTTTTTCTCTTTACACATCAAGACATAGCCCTGGATCGAACTTTCACCTTCTTGTTTAAGCCTTCAAAACTCTTGAATTTGGTATTGTAAAATTAAATTATATATATGCTCTTATCAGTTATTATATGTTGATTCAATCCTCTGTTTTCTTATTTCTGTATCTTTGTTTTACTGCAGATAAAATATTATGATAGGTTATCACCTCTGGAGCCATTAAAAGTGCCCCTTGGATCATATTCGAATATAAAAAAGGGGGATTGCATTGTTACCTTTTCACGTCGGGGAATATATAATTTTAAAGTAAGATGCTAGCTTCTTTTTACCCTTCTTTATATGTATTATTCTATTCATGGGACTGCAGAACTCTTCTTGTAGCTTTCACATCTGTGTTATTATTTCACTGTTGTAGATAGAATGCATAAATGTAGTGTTAAGACTTAGCAGTTGGCAGTGTGAAGAGCAACTACAGTTCTTAGCTGTGTATAATGGTTTTGCTACTCCAAATGGGCTATACTTCACTGCTTCACTCTTAATAGCGCAAACGAGGTTGCTAAACATAGAAGATGTTGGAGACCGTGCAACAGTCACAGGCAGAAGAATCATTTTAAGTTGAAACCACGACTCGCTATCTGGTACGATTGTTGTGTGCCTACCAAAAATAACTTAACTCGAACCTTTTAATAGTGTAGTATGGGTAGTCAGGGTCGACCTCACAGGATAGATTTATATAATAATATCTTATGCAAGTTAAAAACTCCTGTTTTCTTTTATAATGTACAAAGTACGAATTAACTAAATCACTGACTTTGAAATACTAACTACTTGAATTTAAGAGAGACAAACAATGATAAGGAAATAGGGATCGGGGAAATTAAATATTAACTGATCACCGAATTTATCGAAATCGTGCTTGTACCTTAATGCTAACCAATGGACACAAACATGCATGATGCATTCTAAACTTCCCTTAATTGCAAATAAACCGAACAAGCTCTTGGCATATTGTCTAGCTAACTAACAATCTAGAACAACCTCTCTGACTCGATTAACTAGTAGCATTGACAATCACTAAGTAGTTAACTTCAGGCATATCTCACAAGATTGGACTGTGCAACTTAAAGGGTCAATAACCATAGATATTATTATAAGTTTTAGTCACTGCTCACTTATCAAACATCTAATCTCTACTAAGGGAAATTATCTAGGACAATTATGTATCACAAGTTAATGTCCTAGCAATCAAACTTGCAAATTACCTTAAAGATGGCAAGTCTAAAATAAAAATCGACTAGTTCAAAACATTTAAACAAATTATAAATCCAACCACAAAATAAGAAACATTATCACACAAAATAATACCAATAATAACTTCTCCATTCTCACAATTAATAATTCCAATGCTTAATATATCTTCCCACCCTAATAAGAATTAGCTAAGAAAATTAAGATTTGAAAGACAAATGTAATAATCAATGAACCCATAATTTAAGTATATGAAAAGTCAATTATACTAAAATAAGGAATCTGAAGAACGAAAATTAGTCTACCAGACTTCCAGAAGAAGGAAATCGCAAACAGTCTTCGTCCCGGAACTTCTTCCCCTTTTGTTTGCTGCTTCACACTTTTGACGAAATTCTTTTGCTACATATATACCAAAATTGATACCAATAAAACCCGAATCTTCTGCCTTATAATTCTGCAACACGAATGAGTATTCAGTGTTCGATATTTATCTCTTCTCTAGTGCTCTACTTGGTCTGGACTTTAAGGACCTCACGCGACTCTCCTCAAAACTCCAAGTGCTCCTCTTTATTTCTAGTTGAGTATCTTTTAATGGGCTTGAGAGCAAACCTTGGTTAGGCTTTGTTTTGTATCCCGTGTTGACTTCTTAACATGACTTCAAGTTTGACTAACATAAGGGAATGTCCTTCCAACAACCAAAATAATTATAGTCTTAAACCGTATTTCAGAAGGTAAATATTTGAAGAATTCTTAAAGCAAAAATTCCAATATAAATTCATGTTTATGAATACTATAATTTTACACTTTCGACTCTATCACTTTCCTGTCCTCACAGCCAGTTGGGCGTTATCATAGCTTGATCCTCCAGCTGTTGTGACTTTTCACTGGGCATAGAGAAAGTGTATAGGGAATTGGGTATACTATAATTCGAATTGTTTTGTATACTTTTACCTATTCTGGTATTTGCTCCATATTTTAATATGAGTTACACTTTGTAAAAGCGATGGTATTTTAATATGAGTTACAATTTCTATTTTTGGTTTGCTTTCTACTGTTTTATTTCTTTCTTAGTTCATGGTCCCCACTCCCTATTATATTAATCATTCTATTTCTTCCATGGTCCCTACACTTGCTCCATTTTTTTACCACAATAAATAATTCATCCACTATCAATTTCTTATAATAAATAATTAACCTACTACTCCACTTCCAATTAGTTTAATAAATTCAACTCAAACCTCCTAAACCTCTATGGCGATCAAGGTGTAACTCATATTAACATACGGAGGGAGTAGTTCCTAATATCTCCTTGTTGTTAGGGTGGTTGTAATCTTTGCTTTAAAAGGAGCAAGGCCGACCAAGGCACACACGATTCATGGAGAATAGGTGTAAGGCACAAGGTGAAGGATCAAGACTTTTGGATACCAGGCGCACCTATTTATTAATTTTAAGAAAAAAATTATTTTTATTGATTCTAGTTCAAATAAGAGGATAAAAATTGCTATTATACTTTTTGTTAGAGGAAAAAGCTATTGTACTTAATAACCTTTAAACAAAAGTATGAGGGGAGGGACCACTTGATTACTTACTTGCTATGTTGCTCAAACTCGGGTACTCATGTCAACACAGGTACATGTCTAAATGTCCGACTTAACTTTTTTGTGAAAAAGAAATCATGATTTTGGTCCAAAATAAAATGTCTGATGTCCATGTCCGAGTGTCGAGGATTCATCACGGGAACTTTAGGTAAAATGAATAGTTCAAGTAACATAGCTTACTTGCCACAAAATAAAACAAAAGGGTAAAAAGAAATACTCCCTCCGTTTCTTTTTGTTTGTTACGTTTGGACTTTTGCACGTTTATTAACGTATAATAAAGATTCTTTTTCTTTTTTATTAAAAAATAAACCCAAATAAAACATCAATCCACTAATCATTACAACAACCAATAAGATTGTTTTATTTATCAAAATGAACCAATAATGGAAAAGCACAAAGATTGCTAACTTAACATACTTGGGAAATTGTAAAGAAATTTAACGAGTTGAAAAAATTGGACCAATTAAAATTAAAAGTTGGCACAAAAAATGATAGTATAATAAGTTTATAAAAAGAAAGATTATCTCACGTAACAAACATTGTGAAACACCCTAAAAGGAATACGTAACAAACAAAAAGAAACGGAGGGAGTAAAAAATTACTGAAAATGTAAAACTAAAAAGTAAAAAAATGAAAAATGAAAAAAGTGGCTAATGAAAGAGATAGTAAGAAAAAAAGAGAGCAAAGCACACCCGTCGAAGTGGACCTGAGAAAGCTTCACCGGATTCGACCGCTGGAAGTAAGGATGGCAAACGGGCGGGGCGGGTGCGGGTACCCCCTCCCCCTCCCCCGCACCCAGCCAATTATTTTGATACCCACCACCTACCCGCTACCCATGGCGGTACAAATTCAACATCCATGCCCAAGCGGGTATAAGCTATTATCCACACCCGCTGCACCACCCGAGTGGATATCCATTACGAACTAAACCCGCTTACCTGCGTATACCCGTAAAAAACCCTCCCACCTATATCCGTTAAAAAAGCACCAACCAAGTAATGGTAAAGACTAAAAAATCAAGATTCCTATTTATTTTCTGGGATGCAAAATAAATACATATCCAACAAATTTTAAAAAATTGAAAAATATTTGCAATAATATATTAAGCTCCGTCCTTGCATTTCTACTAGCAGCTAAAAGTTACATCACCAGCTAACAAATTTACACAAAGAATAACTTGAAGAATGAGATAGAAGAAATAAGCTATTAAATCTACAAAGGAGATAAAATTGAACCAGGCCCATTGAAGAAAACCCTAAAATCAAAGTATTACACTTATTTTTCATCTTTCTGTACGCTTTATGAGTGCATTAGATTTTAGAAAAAAACATGATATTGAGAGTATCGTTCAGGAGTGGAGGGCGGCGAGTTGGTGACTACGGTGATCTAGTGGTAAAAATGTAGACTAGAAAGGGAGATTAAGATTTCAGAGTAATAAGAGAGAGGAAGGCGTAGGTAATTTGGGAATTTTGTTCAGCATTAGGGTTTTTTCTTCTTAGAGATGGGATATATTACTAAGATTGGGCTTATGTCTCTTGGGATGCCAATCTGCCATTATGTTTTGTTGTGCCAAGTCTTATTTGGAATAAACAAGGTAGGCGGGTATGGGGACAGCTGGTTGGGTGTTAGGGGCTGGTAGGCGGGTACTGGGCGGGTATGTTATCACATCCACCACCTATTCGCGACCCATTGCGGGTATGAATTTTTGTAACCATACCCGGCTACTAAGTCATACCCATTGGGGCGGGTGCGGACGTGCGGTGCGGTATCCGCAAAATTGTACCCACTTGCCATCCCTAGCCGAAAGATCTAACGTTAATAACCACCAAAGATTGCTCGCCGGCATTATCTGTCATCAGCGGCGAGTGGCCAACAACAATTGCTAATCAATGTTATTATTAGGTTATTATTATTATATTTTTTATAAAATAAGTAGGGGTTTGAATTTAGAGGTTGAAATGGAGTAAATTCATGCAATTTATTGACGGCCTTTGTTCGAATTTGCATCATAAAGAATGGGTAAGAGTTAATTTGCAAGAAATTGGTTTTTTTTTTGTATATTTTTAACTCAGCTATACTACATCCCTTATGGCGGTCCATCCTCAATTCTTTATGGCGCCCCATCCTCAATCCTTTATGGCGCCCCATCCTCAATCCTTCAAGGCGCCCCAGGGGCACCACCTTGGTCTTGGTAAAGGCGGCCTGAGAGGCGCGCCATCGGAAGCCTTCTAGAATGCGTTGCGCGTTGTCGCAGAGACAATGGGCTGCGCATGGAGCCTATGTGCGCCTTTTAAAACTGAGGTTGTAATTTTGCTTATCGTCTAGAATGATCTTTTTGGGGATTGCAAATCCGTATTCACGATCAATCCTTATTCTTCTTTAGTGGGTAATAGTGATATGGATGTCTTACTGCCTATTAAACTACACTCTATTTATGATTGTTGAAGTATCAGGCATTTGATGCACTCTAAATAAGAACAATGTTTCTCCAATTACGAGAGTGAGTGCATATAAATCCATTCAAGACGGATTTATAGTTGTGTGTGGATCCCTTCAGGGTGCAATATTGATTGTTCTGTTTGTTCCGTGTCAATTCATGGCTTTGTTTGTGGGGTTTTTTTGTATTGTTGGCTTCTTTGCTAGGTCTGGGTGGTTGTGAAATGTACTAGGACAGATTGTAATTATATTGTATGCTGCCGGTTATTGTGTCACATCTAATTAGATTTCTCTTTTCTCTTCCCAGAGAAAAATAGAAAATGAGGGGAAACATCTTTGCTCCGTTGTGTATGGTTCACTGCCACCAGAAACTCGTACGAAACAGGTAATAACATAGTCCACTCTCTTGCTATCTGCAACTTTGAGTTTCAGATATCTTGTTAAGTTAGGCTCAAGGAGAAGAGATTACTGTGATTCTGTGGATATGGATGAACATGTCACAGACCTGACTGTGATAGTGTCTCTGTATAAGTGTGTATGGAACACAATGAATAATGTGAAAATTGGGTGCATAGTTCAGGTTTGGGTCGCACGACGGATATGGTCTTATTGAGTCGTATTTGGAACGGATACATTTAGCGATATGGGTCAACCTAGGTTGAGCCGGGTCATCATCAGCATGTCAGGTCGGGTCATAACTGGTTCAAATTCGAATGGACCATAGCAGGTTGTTTCGGGTATTCTGGTTGTGGGGCATTTTTTATTTTTGATTTTTGATATCTGGTCATGGTCAGGTTGGTTTCGGTTGAATTTTGGATCGGACCTTATCGTGTTAAGGTTGTGATCGGATTAGGTCATTCTTGAAATCCGATTGTGTTCCGGACATTCTAGACATACGATTGTGACGTTTTGACAATTTTTGTGAGATTCATCTCGAGTTTTCTCGAGGTGTGACATTTTGTTATACAAGAGAAATAAAATTTGATAAGTTATTGCAGAACAAAATATTGATTACAGGATTAAACGATAAATGATAAAGTTTTCATTTTTAGAAACGTTGCAAGTAATCCGTGACGGCCTTATAAGGAAAACGTTTCAAGTATTCCGGGATGGAGGGATACAAAAAGTTTATATTGTATTAGGCCGAATTATGAATATTGACTTTACTAGGTGCATTTACGTGGAATCTCACGAGGAGGGGTAATCAAATGGCACGTGATATGCACCTAGTATCTTACAACATAAATTTTTTATAAAGTAACATTTTTTTATAAGGTAGTTTTTTCGCAAAAACCCAATTTTATACGGTTGTTTAGACAAATTTTCCTAATAAGTATGATTGTAAAATGTATTGCTGTATCAAACGAGTGTCATGTATAACCGTCAAGGCTTCAACCACGTCAATATTTAAATAATTATCAAGCCAAATAATTTCACATAAGTTTTGATCACTACTCACTAGGCGTTCACTGATATTGAGATAGTTATATACTTATTGTTAACAATATATGAACTATTTTCACTGACAAGTTTAAAGGGTCGGGTAAAATTGGGTCACATGTCGTATTTGGGTCTGGTCAATTCTGGTCTTTTTAGGTCGGAGTATTACGGGCTTGGGTTGACTTCAGGGGATCAAGTTATTTATGGGTCACATACTCCTGAATTACAGCAGGTTGGGTTCGATTAGGTTCTGGCTAGTTCACGAGCCGGATCAGTTTCTGACTGCTTTACTAATGATAGACAAAGTTAACATTCCGTTACTTCTTCATCACTTTAAACCCCAGAAAAACCCCCATTTCAAGGTTTAACTTTTAAGTAATGGACAAGTAACAAAATATCAACTCCAATTATCATTAGTTCACCTATATGACAACATAGTGAACTTGGGATGATGTCGGGAGTTTGTTAAGCTGGAGATTTATTTTCTCCTATGGCCCAAACATGGGATGTTGTCAAATTTAAGAAAATTACCGTCGGTGGAATGAAGAATTATTATTCCTAATCTTTTCTAACCCTTAGTTTTTCCTTCCTCTACGAAATAGTTTGGAGCTTGTCACATTGAGTTTTTTCCTTTACCCCATTTATATATTTTCTACCTCAGGATGCATGCAGTTGACCTATGCATGCATTTGACCGGTAAGTACTCTTACCTTGTTCCACTGCAATATTCTTTTGGCTATCATATCAATATCTTTACGGATCTTATATATTGGAGATGATTACAAGTTGCTGAAACTTTGTATGGCTATTTAATACACAGAATATCCACTGAAATTTAATGCCTATTTCATTAGTTGCTCCTGCTAATAACTTCAAGTCATTTTGGTGAGATTTTTGTGCCCTGAGCCCCTGTCGCCTGTTTGTTCAGAACTTCAGACTCTCTAAGATCATCTTTTGCTTAGAAATGCAGGCAACTATGTTCAATGATGCTACCAGCGAGTTTGATGTTCTTGTGGCTAGTGATGCAATTGGTATGGGTCTCAATTTAAATATTTCGAGAATCATATTTTCGACGCTGAAAAAGTTTGATGGTCTGGAGATGCGTGATCTAACCGTTCCAGAGATCAAGCAAATAGCAGGTCTGTTGTACTCTGCTTTTGATTTACCCTATTTTTATTTTGAATGCCAGGGATTTTATGAGCTTATAAATGTTTTCTTCTAATTTTTTTTGCAAATGTATTATTGGAGTTATGTCAACCCCAATAACAACAACTAGTGCATGAGGGGCCGTGCAATACCAGGGATTTTATGAGCTTATAAATGTTTTCTTCTATTTCTTTTTTTTCAAATGTATTATTGGAGTTATGTGAACCACAATAACAACAACATAGTGCATGAGGGACCGTGGGGTGGGAGAGGAGGGAGAGGATTTTTCATTTTTGCTTTGAAAAAGTCACCAAAAGGGTACATCAAGGCACAACTGTTGTACGATTTCATGGAAGTCAGTTGTTTCTTTTTTTCTCTATTTCTTTCTTGCCCTTTTTATTTTTGGCAATTGTAAAATTGTACAGTAAGGCCTTCTGGAATAAGGTCTTTAGGGTGCGTTCTGTTCAACTTATTTGACCTGAACTTATCTGAACTTATCTGATCTGAACTTTTCTGAACTTATCTGAACATATTGGAACTTATCTGAACTTATCTGAACTTATTGGAACTTATTGAAATTTTTAATAGTAGTTGTAGTAGTAGTAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATTATAATAAAATTAATAAATAAAAATAATAATAATAATAATTATTATTATTATAATAATAAATAAAAATAATAAAAATAATCATTAAAATAAATAAAAATAATAAAAATAATCATTAAAATAAATAAAAATAAAATAATAATGATTATTATTAATAACAATAAACAAATTATTAAAATAAATAATAATAATAAAAAATAAAAATAAATAATAAATAATAATAATAATAATAAAATAATAAAATAATAAAATAATAATAATAATAATAATAATAATATAATAATAATAATAATAAAATAAAAAAATAATTATATATTTTATTATTATTATTATTATTATTTATTAATATTATTATTATTATTTATTATTTATTATTTTTATTATTATTTATTATTAATATTATTATTAATATTTATTATTATTATTAATATTATTATTTTTTATTATTATTATTATTATTATTATTGAATCTTATTGGAACTTATTGAAACTTATTGAAACTTATCTGAACTTATTGGAACTGAAACTTAATTTTTTAAGGTGAACAGAACGCACCCAGTCAGACTTCTAGTCGAATAATTAATATTTTTGTTTCCCCTGGCCTCGTGTTCGTAGGGTGTTTCCTAGCATGTCTCTCTCAGTTCTACCATATGATTTCAATTTTTTCTGCTCAGTTTCTCTGCTTTGAAGATGAAGCTTAGTGCTTCTATCCTGTATTTTTCTTATATCCCTTGCAGCAAAGTGCTGCTGTTTGTGATAATTTTTTCCAGTAATAGCCTAATAGGTATCTGTTGATGCAATTGTAATGCAAGCTCCAGTAATTCAATCACTGATCGCAGGAGTAGTTGAGCCTCTCATGCATTCATTTTCATCACTTTTTTGGATGCTTGAGGTGATCTATGATTCTTGTAGGGAGAGCTGGTAGATACGGGTCCAAGTATCCTGTTGGTGAAGTGACATGTCTAGACAGGGAAGATCTACCACTACTTCATTCATCACTTAATTCTCCATCTCCAGACCTAGAGGTGAAATAGTGAAACTGCTGCAGCTTTAAATGGACTTCGTTTGAATTTTTTCTGTTCCATAGCTCCCTATGAAACATTTTATTAAGGATATGAATAGGCTTTCACGTAACAAGTCTGTTCCCTTTTCCTTTTCTAATTCTTATGCAAGTCTTACATGCTTTGCAGCGTGCTGGATTGTTTCCAAGCTATGATCTTTTGCTCATGTATTCAAGAGCAAATCCACAAAATGGATTGTACCAGATATTGGTAAGTTTTCCAGCTTTCCTCTCCACTTCAAGCAACCAAAAAACGTAGCTACCACGTTGTCGTTGGCATTAGTCAACTTTTTTGTCTATAATCTGGTTTCTTTTCTTGACAGGAACACTTTTCAATGAATGCTAAATTATCTTCAAATTACTTCATATCCGACTGTGAAGAAATGCTTGTACGTAAGAAATTTTGTGTCATGTCATTGCGGTCTTATTCTTTGATGTAAATGTTGAAAATTCCTGTATTCCAACTGAAAGATTTTTTTTGAAAATAAAAATAAACGGAGATTCCCAACCTTTTCCAAATTGGCATAGCACCAGATAGGGTCTTCAGTACCCCCCCCCACAAATATCGGTTGCGCCCCTCTCCCTCGTTATCTCGCTCTTCTATCATATTTCCACCATGTGGTCCAACCCAAATAGGGAGCAGATTAATCATGCCATTCTATTATCGATTACGGCATTCAGTTGATCACTATGCCTTAACTTTTGTCAAAGGAGCTTGATGATGTGTTAGCACTCTTAGATTCTTTGACATGGAGGCCTTCGTTTGTTAGATGGCTTTTGGTGAGGTATTTGATTGACTTCCTGTTTTTTAGTTCTTGAATGTGGTTAAACTGCCTTTAACATTTTTAATATGAACTGGCCAAAAATGACCTAGATCAGCTTTTTTTGCCAGCCTTTTCAATTAATAATGAAGAGTTTAGTTCTTTTACAAGATGACTATCCAACAACTGATATTCCCATACATGATACATCTTTATATGGAGCTAATGCTTCCACTTGACTAACACAACCTATACTTCAAGTAGCCAGTAGCTGATTGACAAACAAGGCCGGAATTTTATCACCCTTGTCTCTGAAACAAGGTTAGAAATACGTACTATGTTTCAGTATCGAGTTAGTATATTAAATTGTTTAGTTGGATGAGTTACCGACTTAATTCACAGTATTGTATTTGCATGTTAGTCGTTCCAATTAGAAAAGGGCATGTTGATGAATTAATCAGTGCCTTTGCTGGTGGCTGCAAGAGGCATGAGTGAGTGGAACCCTTGGATGAGTCTAGCTGTGTGCACTGATGAAGGATGTTGACCTTGTGCCTAATGGAAGGGGTGTTCTGTTACAGGGACTAATATAAAGAGAGGGTCTTGATCCCTTTTTCATTCTCACTTCACGACCAGGATCTTCAAAATTCTGGCTCTGAGACCTGCAAAACTGTCTGCTTGGTCACATTGTGGCAATTCAGATTTCAGAGAGAGGTGGTTAAGTGGGAGGGTGGGGGTGCAGGTTGGAAGATTCTTTTTTTTTTTTTTTTTAAAAAAATGAGATTTTAAATAGTCGCTATTGACTTTGTAAATGATAACTCATTCAGGATATAGTCAATTTTATGGTTACAACTTGCAACAAACAAATTTTTCATTGAGAAACATCAGTTTTCTAGATCAGAGGTATTATGTTAATTGACTAAAAAAATGGTCGTGTCAAATTAAAGAAACTTAAAAATCAAGGTGGTTGTAGATACATTCCCTTTGTTCATCCTTGGCATTTATGTTCTCCTTTTCTTTTACTATTTATGCGCCTTTGTAATTCATAACTTTTGCTCTGGAGTTCTTTCGTATGCTTACAAGACCACAATGATGCAGAAAGTAGCTGCCATTATTGATGAGCTGCCACTTGGTTTGAAAGAGAAATACCTCTTCTGTATCAGGTATCAATTTCATTATCTCTTTCTATCGATTAAAAGACTTTGCGCAGGTTTTTGCATAGGCACTCTGTTTGTTCTTGGTTGCTGCTTTTATTTGATTTCTGTTTTAGTCAAAGAATGAGTTTCATAAGATTAAGAAAGAGAATCAATGGTGGTGTTGTTGATGCTGAATAATGACAAATTGTTCTCTCTTGATATAGAAAGAAAAACATAATTTTTTAAAGATGTATGGAGAATGCCTTCTTCAGTCTTTGGCTCCCTATTGCATTCGTTTTAAATATAAGCGCTATGACTATTTATTCTATAATTGGCGCTCTTCCCCATTGCTTCTGAAATGTGTAGATTTATCTGGATTTTCCTCACTTGTTGCAACCATCCTCTTGATGGAATATACTATGTGTTACAGTCCGACAGTTTTGACACCGGATCGGTCGGATCAGTGCGGCATGCTCTCGCCTTTCGGTAGCAAGGGCGCAAGCCTTGTGCGGAATGAGTGTGGGGGGCTCGTTGGGGCACGAACAAATGTTTGATTAATGTGGGATTATTTGGTGGTTATAAACTTCTCTAATTTAAGTAAAGGAAAATAATGAGAAAGGAGAAGAGAAGTATAAACTTCTCTAATTTAAGTAAAAGAAAATCATGAGAAAGGAGAAGGGAAGTTTAAGGAGAAGTAAATGGATAAGGAAAAGTAAATGGAAAGAGTTTAATTTACTAATTTGCAACAACGTATTACATTGTTTGTTTAGTTAAATTATTCTTAGCCATTCTTTAATTAGTACATTAGATATTATAAAAGGTTTTTATGTAATGTAGAAATGTATTCGTTCAATTCAATACAATTCACATCATAAAAACATAAACTAAGAAAAATTCATTTTTCTTACGTTACATTTATTAATTCCTTCATAAGGGTTGTTTGTTTATCCACAAAACATTATTTATTTGTGAGGTATCGATTTCAAATTATCGAGTAGAAGCCAAATTTTCGCTGCGAGTTCTAACAATTGGTATCAAAGCCAACGTCAAAATATTAAGTTGTGACATTTTTTATTTTGAAGTTTTTTTATAATGGCCTGTACTAGTGGAACGGTAAAAGTTGGGAAACATGAATTTGAAAAGTTTAATGGGAAAAATGATTTTGTCTATTGGAGGATGCAAATAATTTTTTTGCTAATTTCACAAAAGCTGCACAAAACGCTAGCGGAAAAGAACAAAAACCCGGAGATATGAAAGATGAGGATTGGGAAGAGTTAGATCTTAAAGCAAGAGCAACCATAATCTTGTGTCTTGAGAGGGATGTCACGTTCTTGGTAAATGAAGAAGCGACGGCTGCTGGCGCGTGGGCAAAGTTAGAGACAATTTTCATGATGAAGTGGATGTTTGTTTCAGGAGCATCACACCATATGTGCTCAAACAAAAAGTTGTTTACCACTTATCAAAGCTTGGATGGTGGTACAATTTTGATGGGAAATGATTATGCTTGCAAGACTGTCGAGTTAGGTACTATCTGAGTCAAAATGGATGATGGAACAATAATAACCTTGAAGGATGTGAGACACATCCAGATTTGCGGAAAAACCTTATTTAAATTGGGTTATTAGAAAATAATGGTTGCAAAGTAGTCATGGAAAATGGAGTATAAAGTTGTTTGTGGTTCCTTGGTAGTGATGAAGGGGATTCGTCACAGTAATCTTTATCCTCTTTTGGGGAGAACTGTTACGAGTGATTTAGAAGTTGGAATAAGTGGAATTAAAGACCAAACAGAATGCATTAGGATATGGCACATGCACCCTGGGCATATGCTGGAAAAAGTTCTATCATTGCTTTGCGGACAAGGTTTGTTGAAGAACATGAAGAAACCACAAATAGAATTTTGTGAACATTGTGTGTATGGAAAAGCACACAGGGTAAAGTTCTCTAAAAGAAAGCACAAAAGCAGAGGGTTGTTAGACTATGTGCATACGGATGTTTGGGCTCCGGCTAAAGTTTCTTCCAAGGGTGGTTCCAGGTACTTTGTTATATTTGTTGATGATTATTCTAGATATGCTTGAATTTATTTTCTCAAGCATAAGAATGAGGTATTCGACATTTTCAAGCGGTGGAGAGCAATGGTTGAGAACAGAACGAGTCGAAAGCTAAAAATTGTACGGTCTGTAATGGTACATAGTACACAGAGGGAGCTTTCAAGGAGTTTTGCTATCAGGAAGGCATTGTGAAACACTGGACACTCAGAGAAACACCCGAATGGAGTTGCACAAAGACTAAATCGTACACTACTTGAGAAGGCTAGGTGTATCCGCTCCAGTTCTGGGTTAGGCAAAGAATGCTGGGCAGAATCGGTTGCTACAACTTGTTATATAGTGAACCGAACCCCACATTCTTATTTAGATGGCGACATACCTTATAGGGTGTGGTCAGGGGAACATGCAGATTACAAGAGACTTGGAGTCTTTGGGTGCACTGCTTATTATCATGTCAAGGATAACAAGCTTGATGAAAGAGCCAAGAAAGCAATATTCTTGGGGTATCGCAAAGGCGTTAATGGCTATCGTCTTTGGAGTATAGAGGATTCTAAATTTGTAATCAGCATGGATGTGATCTTTGATGAAAGATCTATGATAGCTTTATCTAAAGCTATGGTGCCAAATAATGGTGATGTCGGGACTATTTCAAATACTCAAGTGGTGGAGATTCATGTTCAGGTGGAGCATCCTAGTGTTAATCAAAATGATGATGAGGATGATCTTGAACATGAGAGTCAGCGAGAAATGTACATGTGTTACAATAACAACATGAATCTTTGGCAACCACTAGGCCAAAGAGGAATTATAAATCAGTTCAGAAGTTTGGGTTAGACAAACCTCTGAGGCATTATGGGCAGGTTAACTTGGTAGAATATGCACTCTCCGTGGAGGATGATTGGCCGGTCACCTTCAAACAAGCTATCTAAGACAAGGATAGAGAGAGTTGGTTGGTTGCTATGGAGTAGGAGGTGCAATCTCTTCATAAAAACAAAACATGGGAGGTAATCCCATTTTCCGTGGGAAAGACTATTATTGGTTGTAAGTGAGTGTATAAAAGAAAAGAGGATCCTTCCAAGACCGATGGTATAAGATATAAGGCTAGATTAGTGGCCAAGGGATTTGCACAGAAAGAGGGTGTTGATTACAATGAGATATTTTCTCCGGTGGTAGAACATACTTTTATCCAGGTGCTATTAAGTCTTGTTGCTCATGGTGATCTTGAGCTGGAACAACTTGATGTGAAGACAACCTTCTTACACGGTGATTTGGATGAGGGAATCTATATGTATCAACATGAGAGATACAAGGTTGAGGGTAAAGAGAGTCACGTATGTCGCTTGAGGAAATCACTTTATTAAATTGAAGCAATCTACTCGACAGTGGTACAAGCGATTTTATTCCTTTAATTTAAAGCAAGGGGTTTCTAGAAGTAATTATGATTGTTGTGTATACATTCGTAAACTTCGTGGAGATGATTATATTCATCTTTTATTGTGTGTGGACGACATGCTTATTGCTTCAAAAAGGAAGGTTGAGATAAATATTTTAAAAGCTCAACTCAGTAAAGAGTTTGAGACAAAAGATTTGTGCGATGTAAAGAAAATACTGGGTATGGAGATTATAAGAGAGATCAAACCAAAAATTGTTCTTGAGCCAGAAAGGATACATTGAGCGGGTAATTGAAAAGTTTGAGATGAAAGGTGCTAAGTCAGTGGTCCCCATTGACTCTTCATTTTAGACTCTCTGGTAACAATATCCAATCTCCAAAATCCAATCTCCAGATACAGCGCAAGATAAGATATACATGGATAATGTACTTTATGCTTGTGCAGTTGGAAGTTTAATGTACGCCATGGTGTGTACACGTCCAAATATTTCACAAGTTGTTAGTGTTGTCAGTAGTGAAATGGGTTTTAAGGTACTTGAAAGGTACTGTTGACATGGGTTTGTGCTTTGGTAGAGATACATGTCAGGTAAATGGTTTTGTTGATTCTGATTATGCCGGTGATCTAGATAAACGACGATCTACTGCTGGTTATGTGTTTAAAACACATGGTGCTCCAGTTAGTTGGCGATCAATGTTACAAGCTACGGTGGCTTTATCTACGACAGAGGCCGAACACATGGCACTGGTGGAAGGAGTTAAGGAAGCATTGTGGTTGTGGGGACTTCTAGATGATTTAAGGTTGAAGCAGAAATGTGTGAATTTGAGTTGTGACAACCAAAGTGCAATTTATTTGGCTAAGAATCAGGTTCATCATGCTCGTACCAAGCATATAGATGTGAGATATCATTTTGTTCGAGATGTCATAGACGAAGGTAGTATTTCTCTTATGAAGGTGCATACAAATGGGAACCAACAGATATGTTAACCAAAGTTGTGCCAGGAAGCAAGTTCCAACTTTGTTTGGAATTGCTAAATATTGTCCAATGTTAGGCATTACATGGAAAGATAAAAGGAACTACGATTGGTTTGATCCCAGTCGATGATACATAGGCAATCATTGTCAAAATGGTGCAACCAGATACGAATACCGCAATTTGTTCGTTCAAAATATGAATGTTTTCAAAATTATAAATGAGGTGGAGAATTGTGGGATTATTTGGTGGTTATGAACTTCTCTAGTTTAAGTAAAGGAAAATCATGAGAAAGGAGAAGAGAAGTATAAACTTCTCTAATTTAAGTACAAGAAAATCATGAGAAAGGAGAAGAGAAGTTTAAGCAGAAGTAAATGGAAGGAGTTTAATTTACTATTTTGCAAAACCGCATTACATTGTTTGTTTATTTAAATTATTCTTAGCCATTCTTTAATTAGTGCATTAGACATTATAAAAGGTTTGTTTGTAATGTAGAAATATATTCATCCAATTCAAATCATAAAAGCATAGTTTAAGAAAAGTTCATTTTTCTTACGTTACATTTATTAATTCTTTCATAAGGGTTGTTTGTTTATCCACAAAGCATTATTTATTTGTGAGGCATCGATTTCATATTACCTAGTAGAAGCCAAATTTCCGCTGCGAGCTCTAACAATTAAGAATGAGCGATCTTGCCTATTGGCAAGAGCGGGGGATGGGGTCGATCGGGGCGCTTGTGTGCGCACAACAGGCACAAGCGGGGTCGACGACGAGAATGTATCCGTTTTGGGAGACTTTATTGAGTCCGGAAAGCTTAAGAACGAACGACAACACAATATGTACAAAAGTTTACAACAATGTTAGTAATCAAGCAAGACTACTTCTGATGAGGGGTATAGGTCATACCATGGTGTACAAACTCGTCCTAGTTAACTCGTATCGCCCGAGCTAACTAGGTTTTGGAGGCTGACAATACGAGATATCCCGAGTTGTAAAAGTGTTTTTAAAAATGGCGATATCTCGGCCGGTTCAACCGATCCGAACGAATTTTGTCCGCATTAAATGTTATTAGCCTCTCATCTACTCGGTTTCAGCTGAATTTCCCATGTTTTCGACAAAAAGAAAGGGAAAAGGGAAAGAAATAGAGAAACTCCACTGAAATAGAGTAGAGAACTCCATTTTCATATCTAAAACAAGAGAGGAGAGGAAAGGCAGACAAAGGTAATCATTTAATTATGTCACGTGTACGGTTTAGGGGAGGGGGACTAGGGTAGGTAGTGAGTGGGGCTGACATGGGGCTTTTTTTTTAAATTTCAAATTATTACGCGACAACGGTGACACGTTCCGCGACTAACGCATCATTTCCGTTACCGAGACTCCGCGACCGATCCCGCGACCGTGACCGATACCGCATTTTTTTATCTATGGGTCATACCCTTCATAGAGGTTTATTTTGAATTTGCTTAAAATTATGGTGAACGCTGGATTGACAGAAACATAATAATTCTATCTAAAGTCTAGAAAACTATTAGAAAAGTTATAGAAAGCCTTAGATAAGCCAAATATAAGTAAAGAAAGGTTGTACTCTAAAGGTGAGATTATTAAAAAATATATCGTAAATCCAAAGCTTTTGTCAACACACCTAAGTCCTTTAATTCCACCACACTCTTTGATGAGATTAAAAGATCGACTGTGAAGGTGTTAAAAGACAAGAAAGATAGTCTCATGGAACCAATTTTGTCCGCATTAAACGTTATTCTAATTGCAGCTCCATTGGAGCAGATCCATGAGACTATCTTACTGGAGCAGACCCGACTTCACAACCCGATTACATTGGAGCAAGCCATGGAGATGGTGGCTATGGGTCGATTTTGTCCACATTAAACGTTAATAGCCTCACATCTACTCAACCTTTAAGGTCTTTTGATGACATAGGACTTTTGATTAACGTTTTAAATTTATGTACTTTTTTTTTCAATTTAGAAGAATTATCGTATTATGTTGTCAAAAATCATATTCCAAAATACCTAAAAACGTATTACAATTCAACCAACCCTCGTATTGCGTATTCGTACTAAATCGTACTATGTATTAGGTAACCCTCGCTGTGAGAGGTACTGAAATTTGCAAGGAAGTGACTTATGGAAGACTAGAGGTAATGGAGGATTTGTTGTCTCTATAATTAGGGAACTCAGATTTGATATTGGGAGTATATTGGCTCGAAAAATAGCGGATTGTGTTGACTAATTGGAAAACTTAGATTATACAGTTTGTTATAGATGGAAACACTATCATAATCACCGGTGATTCATTCATCCTTGGCAAGGTAAAAAATCTCTCTTAAAGCAAAGATACGAACCGTGCGCAAGGAAGGGGAAGGGTTATGGCTTGAGCTTAATCAAATTGAGGAGATATGAGGCGAAGTGGAGTTGGGGATTGATAATGTGAAGACAATTCCGTAATTTTTGAGTAAATTACTTGCCTGGTGTTTGAGTTGTGGGCATGAGCATGCTATCCTCCTGAACAAAGGGAGCAACCCCGTCGGGGTAAGGACGTACCGATACCCTCAGTTTCAAAAAGATGATAATGCTTGCAGCTGGTATCATAAAACCATCAAATAGCCCTTTTCTAGCCCGGTTTATGGGTAAAAAAGGACAAGTCTCGGCGGTTCTGCGTGGACCAGCGTTACCTGGTTCGCGGGTAACCCCCGTGAATCTCAAACTGGTTCGCCCGTACCGATTCGCGGTTCACCGGCGATGCAATACGCGATGTTTCACGAACCAAACGAACCCTAGTTTTAACGATTGAAGGTCCGGGAAGGCGATAAAAGATAAAATATGTTGGGGCTTTTGTTTGAGAAGGACATACGCGTTGATTGCGACCGTCAATTGTTGTTTTTGTTGTTCTTTCGTCTTGCTGAAAATAAGCACCATAGATGAAAGAAGAGTTCTTGGAACTCGATGGTTAAGAACTAAAGAATGAAGTTGATGGTTTTTTTTCTTTTTTTAAATTTTTTTCTTTATTTTGTTATTATACTTTTTGTGTGCACATGGGTAATGAGTGTGGTGCCATTACTTTATTAAGTATTCACTTTTTTGCCAATTGACCTTTTCTTTACGTATTCACTTTTTATTCACTTTGCTAACAATTGTGTAATTAGCCACCACAATGTATATTTTGTATCAACTATTATTATTATTATGTTTATGGCATATATTACACTAAAACACACACATCAAAAATAAAAAATAAAATAAAAACCCATACGCTCTCGTGAACCTAAAATTAGCTACCCGCGATCCAGAACTCGTACCCCGTACCGAAGCGAACCACGAACCAAGTAACTCTGGCGTGACCTATAGGGCTCTTAATAAGGAGAGCGTTCCGTAAAATTTTCCGATTCCGGCCAAAGATGAGCTATTGGATGAGTTACACGGGGCAACTACGCTCTCTAAGCTGGATCTTATGGCAGGATACCATTTTGACGATATCCTTGTGTAGGAGAGGAACATGTGAGACATTTAGGGTGGTCTTGGATGCCTTGGCAGAGCACCGCGTATTTGCGAATATGAAGAAGTGTGAATTTGGGAAGACTGAAGTGGAATACTTAGGGCTTGTTATCTACTAATGGTGTGGTGGTAGATACCGATAAAGTTACATCAATGCTTGATTGGCTACAACCCAAAAATATCAAGGAACTTGAGGACGTCTTGGTCTTACAGGGTTCTATAGAAAGTTTGTCGCGAAATATGCTTAGATCGCTCAATCATTGACAGAGCAATTGAAAAAAAAAAAGACATTTTCGGGATGACAGAGGCAGCCACAAAGGCGTTCGAACTACTGAAGCTATGACTAATCCACTGGTTTTAGCCATGCCAAACTTGGAGAAAAGGTTTAGAGTTGAGACATGCGTCAGATTTTGGTTTAGGTGCGGTCTTGATGCAAGATGGCAGGCCCGTTTCTTTCTTCGGCAAACTTGTCCAACACAAGTCAATCTAGAGAGAGTGAATGGCAATTTGTCTTGTAGTGTATAAATGGAAATACTACCTTTTGAGCCGACACTTCTTAATTTGAACCGATCAACAAAGTCTGAGATATATAACCCAACAACACGAAATTGAGGCTGATTATCAGAAATGGGTGAGTAAACTTATCGGCTTTGAAAATTGAGATTCAATTCAAGCCGGGGTCATCCAAGGTGTTGGAGAGGTGAACTGGGTGCCTCGGTGACGACGCATGGGGTAGCTTGGAGTGAGTTAGAGGAGGAGATTGAAAAGGACCCCCTGCTGATTCAGATTAAGCAAGACTTGAAGACAAAGGAAAAAGTTCATGCAGGATTCTCTATTGTGGATGCCAAGCTGGTTTATAAGGGCCGTTATGTGATACCAAAATCCTCCACCCATATCCCTTTTTTGCTGAAGGTATATCATGAATCCCCCATTGGTGGACATGCTGGAGATTTGAAGACTTACTCCAGAATGACAGCAGATTGGTATTGGATGGGAATGTGCAAACATGTAGCGAAGTATGTGCAGTGTTGTGAAGTTTGCCAGCGCCAAAAAGTGTCCCAACAATGCCCGGTAGGCCTCTTGCAGCCTCTGCCTTTACCCTCTGTGGCCTGAGAGGACATCTCGATGGATTTCATTGAAGGACTTCCATTATCCAAGGGGGTTGGACATGATACTAGTAGTGGTAGACCGTCTGTACAAATATGTTTGTTCATTTTGTGGGGTTAAGACATCCTCTTAGTGCTGTAACGGTGGTTGAAGTCTTTATCAAGGAAGTGGTTCGTTTACATGGGTTTCCAGCATCCATTGTTTCTGATGGAAACCGTGTTTCTCCAGTATATTCTGGAAAGAACTGTTTCGCATCCATGGAGCGAATTTGAAGCACAGCACGATCCATCACCCACAAACGGATGGCCGGACGGCCTGACAGAAATTGTGAATAAGGCTTTGGAGACCTACTTGAGATGCTTTGTTGCGGGTCAGCCGAGATCTTGGGCCAAGTGGCTGCCATAGACTAAGTTCTCTTACAACACTTTGCCACATATGTAAATGAAGTTGACTCCGTTTAAGGTTCTGTATGGAAGAGACCTTCCTCATTTACCAAGCAGCAGATTCTAAGAGGGAAGAATCTTTTGAGATTGGCGACAAAGTGTATTTAAAGTTGCAACGATAAGGTCAGCATTCTTTGGCTTAGTGCACATATGAAAAATTGGTGGCGGTTTTACGGTCCCTTTGCAGTCATTCAAAAGGTGGGCACTGTGGCCTACAAACTGCAGCCTACAAACTGCAGTTGCCACCTGAGAGCAAGATTCATCCAGTTTTTCGTGTCTCCCAGCTCAAGCGGGCTGTGGCGATGTGCCTGTTTCTCCTAAAGTACCACAGCAACTATCTCGTGACATGGAGTTACTTGTGGAACCAGAGGAGCTGCTGGATGTGTGCCACATTCCTGTTGGGGTATCCACTAGATCTAAAGTTTTCTCAAATGGCTGAACCTTCCAGTATTTGGGGCCACTTGGGAGGATGAGCGGCGGTCCATGCTCGCTTTCGAGACTTCCACCTTAAGAACAAGGTGCGTCTTTGGGGGAGGGGTAACGTAATGACTAATGAATTCAGGCAGCCCATCAATGCTGCTGTCATATGCAAGACGCAAGAAGAAGGGTATTCCTGGCAATGTCATATAATTCAGTGAAAGGAATATTTGAGGTGGCAGGAATTGTCAGAAGTTGATAAGCAATAGTTGAGCAATAAAAGGGGGTGAGGGGAATGCATGTAGGGCATGAATATTGTGTGTTGTGTTTTAATTCCTTGGAGAGCACAGAACCTCTCGAAAGTTCAGCCTGTTAACCTTTGTCCATTAATCTGAATATCTTTCTTCCACTATTTTCTGTATTTTTCTCAGTTTATTGCATATTTCCAGATTTTTTATCCAAAAGCATCACACGCGCTCACCTTGTAGTGGCTTTGTGTCTGATAAAAATACACCTCCCAGACTTTCAGGATGTGGCACCTTTCAGCTTAGCATGCTGTTTCAAACATTAGTTGTAGTGCTACATTCATTTGGCTTTTGTCGTATCTTGCTGGTTATCAGCTCATTATTATGATTGCTGAATTTTTTACTTCTGTCTATAAATTGTTAGACAATATGACTGCCTTTTTTTATTCTACATATGATCCCCAAGCTAAGACCTATTTAAAGAGCGAAAGAAATGCTACTTTGGGGTTCTGGGCGTCTGTCTAACTCTGATGATATGACCTCCTAAGTTTCAAAAATGTTTTATGCTTCTAGTTTGTCATGCAATAAATCACGTAACGTTGCTCTGAGTTGCACATATAAATCACTGAATGTTGTTATAGGCTTCTGTTACGACCTCCTAAGCTTCTGAGCTACTTTTATGCTATTAGTTTGTAATGCACTAACTATATTGTTGCACGGAGTTACAAATATAACTTACTTCAGCCTTTATACATCTATTATGTCTCTATGTGCAGTCCAGTTGATGTGGATGATGATATATCATCGCAAGGACTTGTACAGGTAATAAAATATCTTATCTCCTACAGATACTAGTATGTGTTAATTTGTTCCTTTTGGTTTCTCAGTTGATTTTACCCTGCAAATTTGTGGACAGTTTGCACAAACATATGCCCAGAAAGGCCTTGTTCAATTACGGGAGATTTTCACACCTGGTACGCTTACGGTGCCTAAAACACCAGCTGCTCTGCAAGAGCTGGAATCTGTCCACAAGGTCTGTCTCCTAATAATGTTATGAGTAATTGACCACTTCAGAATTCAGATCCTTAAATAACTTTAACATATGTATTTCTTGACTGAAGGTCTTGGAGCTTTATGTGTGGTTGAGTTACCGTTTAGACGAGTCATTTCCTGACCGTGAGATGGCAGCTTCACAGAAGTCTATTTGCAGCATGTATATACCTGCAAATCCATTGACATTTATAGTGCTTGTCCCTTTGGTGTTGTCTTGATCTATTTTTCTCTAATATTTCCTGATTTACTTACAGGTTGATCGAGGAGTTCCTAGAGCAATATGGTTGGCAAGAACCAAAACTAAAGACAAAATTCAACCATTTAAATTTATCACTTTTATCCCAGCGTAGAAGACGACAACTGTAGTCTGATATTTTTCTTTGGTAAAACCTAGAGACATTGTTATTTCAGTTGCCAGAAGCCTAACAGTTCTGTTCGAATTGTACTATTGAAGACGAAGCAAACTGTCATTGGGACGATTCCTTGAGTGTCTGCAATCCCATACTTTTCTGAATTGTTTGGTCTCAGAACTTGCAATCTGCATGCCTGCTAGTTCATCGTGTACTCAATCGGCAAAGCATCATGTTAAGGTAGCCTCAGATGATTGA

mRNA sequence

TTTCATAGTCGAGTTAAGAATGGCTCCATTATAACTCGAAATAAAGGATTTTTTTTAATTATGGCTTCTTCACTTCTACGCCGGAGATTCTCAAACTTCAGCCTCTCTCGTCATTATTACGATCAATTTGAGACTTTACCCTGGGAGTTGAGATTTGGACTATTGGCTAGTCAGTGTGGTTGCTCGAGGCAGTTCAGCAACGGTGCTACATCATCCAGATTTGATTTTACGGACTTGACTCGTCCTCACACATGGTACCCAATTGCCAGAGAGAAGAAGCGAACTATTTTTCTTCACGTGGGACCCACAAACAGTGGTAAAACATATCATGCGTTGAAACAGTTGGAATGTAGCTCAACAGGTGTATACTGTGGACCCTTAAGATTATTGGCTTGGGAAGTAGCAAAACGTTTGAACAAAGCTAATGTTCCTTGCAATCTTATCACTGGACAAGAACGGGAGGAAGTTGAAGGTGCAAAACACATGGCTGCTACTGTTGAGATGGCAGATGTGACATCTGACTATCAATGTGCTGTTATTGATGAAATTCAGATGCTGGGTTGCAGGAATAGGGGTTTTTCCTTTACTCGTGCTCTACTGGGACTTGCTGCAGATGAACTACACTTATGTGGAGACCCTGCCGCTGTGCCTCTCATTAAGCAAATGTTGAAAGTTACTGGTGATGATTTGCAGATAAAATATTATGATAGGTTATCACCTCTGGAGCCATTAAAAGTGCCCCTTGGATCATATTCGAATATAAAAAAGGGGGATTGCATTGTTACCTTTTCACGTCGGGGAATATATAATTTTAAAAGAAAAATAGAAAATGAGGGGAAACATCTTTGCTCCGTTGTGTATGGTTCACTGCCACCAGAAACTCGTACGAAACAGGCAACTATGTTCAATGATGCTACCAGCGAGTTTGATGTTCTTGTGGCTAGTGATGCAATTGGTATGGGTCTCAATTTAAATATTTCGAGAATCATATTTTCGACGCTGAAAAAGTTTGATGGTCTGGAGATGCGTGATCTAACCGTTCCAGAGATCAAGCAAATAGCAGGGAGAGCTGGTAGATACGGGTCCAAGTATCCTGTTGGTGAAGTGACATGTCTAGACAGGGAAGATCTACCACTACTTCATTCATCACTTAATTCTCCATCTCCAGACCTAGAGCGTGCTGGATTGTTTCCAAGCTATGATCTTTTGCTCATGTATTCAAGAGCAAATCCACAAAATGGATTGTACCAGATATTGGAACACTTTTCAATGAATGCTAAATTATCTTCAAATTACTTCATATCCGACTGTGAAGAAATGCTTAAAGTAGCTGCCATTATTGATGAGCTGCCACTTGGTTTGAAAGAGAAATACCTCTTCTGTATCAGTCCAGTTGATGTGGATGATGATATATCATCGCAAGGACTTGTACAGTTTGCACAAACATATGCCCAGAAAGGCCTTGTTCAATTACGGGAGATTTTCACACCTGGTACGCTTACGGTGCCTAAAACACCAGCTGCTCTGCAAGAGCTGGAATCTGTCCACAAGGTCTTGGAGCTTTATGTGTGGTTGAGTTACCGTTTAGACGAGTCATTTCCTGACCGTGAGATGGCAGCTTCACAGAAGTCTATTTGCAGCATGTTGATCGAGGAGTTCCTAGAGCAATATGAACTTGCAATCTGCATGCCTGCTAGTTCATCGTGTACTCAATCGGCAAAGCATCATGTTAAGGTAGCCTCAGATGATTGA

Coding sequence (CDS)

ATGGCTTCTTCACTTCTACGCCGGAGATTCTCAAACTTCAGCCTCTCTCGTCATTATTACGATCAATTTGAGACTTTACCCTGGGAGTTGAGATTTGGACTATTGGCTAGTCAGTGTGGTTGCTCGAGGCAGTTCAGCAACGGTGCTACATCATCCAGATTTGATTTTACGGACTTGACTCGTCCTCACACATGGTACCCAATTGCCAGAGAGAAGAAGCGAACTATTTTTCTTCACGTGGGACCCACAAACAGTGGTAAAACATATCATGCGTTGAAACAGTTGGAATGTAGCTCAACAGGTGTATACTGTGGACCCTTAAGATTATTGGCTTGGGAAGTAGCAAAACGTTTGAACAAAGCTAATGTTCCTTGCAATCTTATCACTGGACAAGAACGGGAGGAAGTTGAAGGTGCAAAACACATGGCTGCTACTGTTGAGATGGCAGATGTGACATCTGACTATCAATGTGCTGTTATTGATGAAATTCAGATGCTGGGTTGCAGGAATAGGGGTTTTTCCTTTACTCGTGCTCTACTGGGACTTGCTGCAGATGAACTACACTTATGTGGAGACCCTGCCGCTGTGCCTCTCATTAAGCAAATGTTGAAAGTTACTGGTGATGATTTGCAGATAAAATATTATGATAGGTTATCACCTCTGGAGCCATTAAAAGTGCCCCTTGGATCATATTCGAATATAAAAAAGGGGGATTGCATTGTTACCTTTTCACGTCGGGGAATATATAATTTTAAAAGAAAAATAGAAAATGAGGGGAAACATCTTTGCTCCGTTGTGTATGGTTCACTGCCACCAGAAACTCGTACGAAACAGGCAACTATGTTCAATGATGCTACCAGCGAGTTTGATGTTCTTGTGGCTAGTGATGCAATTGGTATGGGTCTCAATTTAAATATTTCGAGAATCATATTTTCGACGCTGAAAAAGTTTGATGGTCTGGAGATGCGTGATCTAACCGTTCCAGAGATCAAGCAAATAGCAGGGAGAGCTGGTAGATACGGGTCCAAGTATCCTGTTGGTGAAGTGACATGTCTAGACAGGGAAGATCTACCACTACTTCATTCATCACTTAATTCTCCATCTCCAGACCTAGAGCGTGCTGGATTGTTTCCAAGCTATGATCTTTTGCTCATGTATTCAAGAGCAAATCCACAAAATGGATTGTACCAGATATTGGAACACTTTTCAATGAATGCTAAATTATCTTCAAATTACTTCATATCCGACTGTGAAGAAATGCTTAAAGTAGCTGCCATTATTGATGAGCTGCCACTTGGTTTGAAAGAGAAATACCTCTTCTGTATCAGTCCAGTTGATGTGGATGATGATATATCATCGCAAGGACTTGTACAGTTTGCACAAACATATGCCCAGAAAGGCCTTGTTCAATTACGGGAGATTTTCACACCTGGTACGCTTACGGTGCCTAAAACACCAGCTGCTCTGCAAGAGCTGGAATCTGTCCACAAGGTCTTGGAGCTTTATGTGTGGTTGAGTTACCGTTTAGACGAGTCATTTCCTGACCGTGAGATGGCAGCTTCACAGAAGTCTATTTGCAGCATGTTGATCGAGGAGTTCCTAGAGCAATATGAACTTGCAATCTGCATGCCTGCTAGTTCATCGTGTACTCAATCGGCAAAGCATCATGTTAAGGTAGCCTCAGATGATTGA

Protein sequence

MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQYELAICMPASSSCTQSAKHHVKVASDD

Relationships

This mRNA is a part of the following gene feature(s):


Feature Name	Unique Name	Type
Spo16755	Spo16755	gene

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Type
Spo16755.1	Spo16755.1-protein	polypeptide

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


Feature Name	Unique Name	Type
Spo16755.1.utr5p.1	Spo16755.1.utr5p.1	five_prime_UTR

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


Feature Name	Unique Name	Type
Spo16755.1.CDS.17	Spo16755.1.CDS.17	CDS
Spo16755.1.CDS.16	Spo16755.1.CDS.16	CDS
Spo16755.1.CDS.15	Spo16755.1.CDS.15	CDS
Spo16755.1.CDS.14	Spo16755.1.CDS.14	CDS
Spo16755.1.CDS.13	Spo16755.1.CDS.13	CDS
Spo16755.1.CDS.12	Spo16755.1.CDS.12	CDS
Spo16755.1.CDS.11	Spo16755.1.CDS.11	CDS
Spo16755.1.CDS.10	Spo16755.1.CDS.10	CDS
Spo16755.1.CDS.9	Spo16755.1.CDS.9	CDS
Spo16755.1.CDS.8	Spo16755.1.CDS.8	CDS
Spo16755.1.CDS.7	Spo16755.1.CDS.7	CDS
Spo16755.1.CDS.6	Spo16755.1.CDS.6	CDS
Spo16755.1.CDS.5	Spo16755.1.CDS.5	CDS
Spo16755.1.CDS.4	Spo16755.1.CDS.4	CDS
Spo16755.1.CDS.3	Spo16755.1.CDS.3	CDS
Spo16755.1.CDS.2	Spo16755.1.CDS.2	CDS
Spo16755.1.CDS.1	Spo16755.1.CDS.1	CDS

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


Feature Name	Unique Name	Type
Spo16755.1.exon.17	Spo16755.1.exon.17	exon
Spo16755.1.exon.16	Spo16755.1.exon.16	exon
Spo16755.1.exon.15	Spo16755.1.exon.15	exon
Spo16755.1.exon.14	Spo16755.1.exon.14	exon
Spo16755.1.exon.13	Spo16755.1.exon.13	exon
Spo16755.1.exon.12	Spo16755.1.exon.12	exon
Spo16755.1.exon.11	Spo16755.1.exon.11	exon
Spo16755.1.exon.10	Spo16755.1.exon.10	exon
Spo16755.1.exon.9	Spo16755.1.exon.9	exon
Spo16755.1.exon.8	Spo16755.1.exon.8	exon
Spo16755.1.exon.7	Spo16755.1.exon.7	exon
Spo16755.1.exon.6	Spo16755.1.exon.6	exon
Spo16755.1.exon.5	Spo16755.1.exon.5	exon
Spo16755.1.exon.4	Spo16755.1.exon.4	exon
Spo16755.1.exon.3	Spo16755.1.exon.3	exon
Spo16755.1.exon.2	Spo16755.1.exon.2	exon
Spo16755.1.exon.1	Spo16755.1.exon.1	exon

Homology

[Close]

BLAST of Spo16755.1 vs. NCBI nr
Match: gi|902233273|gb|KNA22974.1| (hypothetical protein SOVF_028970 [Spinacia oleracea])

HSP 1 Score: 1090.9 bits (2820), Expect = 0.000e+0
Identity = 537/537 (100.00%), Postives = 537/537 (100.00%), Query Frame = 1


		  
Query: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60
           MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT
Sbjct: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60

Query: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120
           RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK
Sbjct: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120

Query: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180
           ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL
Sbjct: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180

Query: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240
           GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI
Sbjct: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240

Query: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300
           VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM
Sbjct: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300

Query: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360
           GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL
Sbjct: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360

Query: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420
           HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM
Sbjct: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420

Query: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480
           LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL
Sbjct: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480

Query: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 538
           TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY
Sbjct: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 537

[Close]

BLAST of Spo16755.1 vs. NCBI nr
Match: gi|731367217|ref|XP_010695490.1| (PREDICTED: ATP-dependent RNA helicase SUPV3L1, mitochondrial isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 951.8 bits (2459), Expect = 5.300e-274
Identity = 462/537 (86.03%), Postives = 504/537 (93.85%), Query Frame = 1


		  
Query: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60
           MAS+LLRRRFS+F++SR+ +D+ E+   ELR GLLAS CGC RQFS+ ATSSRFDFTDLT
Sbjct: 1   MASALLRRRFSSFTVSRYLHDKSESSSLELRLGLLASHCGCLRQFSSRATSSRFDFTDLT 60

Query: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120
            PHTWYP AR+++R +FLHVGPTNSGKTY ALKQLECSSTGVYCGPLRLLAWEVAKRLNK
Sbjct: 61  CPHTWYPNARKQQRNVFLHVGPTNSGKTYQALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120

Query: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180
           ANVPC+LITGQEREEVEGAKHMA TVEMADVTS YQCAVIDEIQMLGCR+RGFSFTRALL
Sbjct: 121 ANVPCDLITGQEREEVEGAKHMAVTVEMADVTSHYQCAVIDEIQMLGCRSRGFSFTRALL 180

Query: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240
           GL ADELHLCGDPAAVPLI ++LKVTGD++QI YYDRLSPLEPLKV LGS+SN++KGDC+
Sbjct: 181 GLPADELHLCGDPAAVPLITEILKVTGDNVQIHYYDRLSPLEPLKVSLGSFSNVRKGDCV 240

Query: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300
           VTFSRRGIYNFKRKIE+EGKHLCSVVYGSLPPETR +QATMFNDATSE DVLVASDAIGM
Sbjct: 241 VTFSRRGIYNFKRKIESEGKHLCSVVYGSLPPETRNRQATMFNDATSESDVLVASDAIGM 300

Query: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360
           GLNLNISRIIFSTLKKFDG+E+RDLTVPEIKQIAGRAGRYGSKYPVGEVTCL+ EDLPLL
Sbjct: 301 GLNLNISRIIFSTLKKFDGVELRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLEGEDLPLL 360

Query: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420
           H+SLNSPSP LERAGLFP+YDLLL+YSRANP+ GLY ILEHF  NAKLS NYFI+DCE++
Sbjct: 361 HTSLNSPSPPLERAGLFPNYDLLLLYSRANPEIGLYHILEHFVTNAKLSPNYFIADCEDL 420

Query: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480
           LKVAAIIDELPLGL EKYLFCISPVDVDDDISSQGLVQFAQTYA+KG+V LREIFTPG L
Sbjct: 421 LKVAAIIDELPLGLHEKYLFCISPVDVDDDISSQGLVQFAQTYAKKGIVHLREIFTPGML 480

Query: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 538
            VPKTPA+L+ELES+HKVLELYVWLSYRLDESFPDRE+AASQKSICS+LIEEFL QY
Sbjct: 481 KVPKTPASLEELESIHKVLELYVWLSYRLDESFPDRELAASQKSICSLLIEEFLRQY 537

[Close]

BLAST of Spo16755.1 vs. NCBI nr
Match: gi|590658320|ref|XP_007034819.1| (ATP-dependent RNA and DNA helicase, putative isoform 1 [Theobroma cacao])

HSP 1 Score: 835.9 bits (2158), Expect = 4.200e-239
Identity = 414/564 (73.40%), Postives = 485/564 (85.99%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSRHYYDQFET--LPWELRFGLLASQCGCSRQFSNGATSSRFDFT 60
           MAS LLR RR S   +SR   D  ++  L  E +F   AS     R++S+G ++++FDFT
Sbjct: 1   MASLLLRQRRVSALGVSRILQDNGDSFRLRLESKFETFASIGVMIRKYSSGKSAAKFDFT 60

Query: 61  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 120
           DLT PHTWYP AR+K R +FLHVGPTNSGKTYHALK+LE S +G+YCGPLRLLAWEV+KR
Sbjct: 61  DLTCPHTWYPNARKKNRKVFLHVGPTNSGKTYHALKRLESSPSGIYCGPLRLLAWEVSKR 120

Query: 121 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 180
           LNKA VPC+LITGQE+EEV+GAKH A TVEMADVT+DY CA+IDEIQMLGC+ RGFSFTR
Sbjct: 121 LNKAKVPCDLITGQEKEEVDGAKHKAVTVEMADVTADYDCAIIDEIQMLGCKTRGFSFTR 180

Query: 181 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKG 240
           ALLG+AADELHLCGD AAV LI+++LKVTGDD+Q++ Y+RLSPL PL+VPLGS+SNI+ G
Sbjct: 181 ALLGIAADELHLCGDAAAVALIQELLKVTGDDVQVESYERLSPLVPLEVPLGSFSNIRTG 240

Query: 241 DCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDA 300
           DCIVTFSR+ IY  K++IE+ GKHLCSVVYGSLPPETRT+QATMFND +SEFDVLVASDA
Sbjct: 241 DCIVTFSRKEIYQLKKRIESRGKHLCSVVYGSLPPETRTRQATMFNDTSSEFDVLVASDA 300

Query: 301 IGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDL 360
           IGMGLNLNISR+IFSTLKKFDG EMRDLTVPEIKQIAGRAGRYGSK+P+GEVTCLD +DL
Sbjct: 301 IGMGLNLNISRVIFSTLKKFDGSEMRDLTVPEIKQIAGRAGRYGSKFPMGEVTCLDADDL 360

Query: 361 PLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDC 420
           PLLHSSL SPSP LE+AGLFPS+DL+ MYSR  P+ GLYQILEHF  NAKLS NYFI++C
Sbjct: 361 PLLHSSLKSPSPILEQAGLFPSFDLIFMYSRLQPKRGLYQILEHFIENAKLSENYFIANC 420

Query: 421 EEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTP 480
           EE LKVAAIIDELPL L++KYLFCISPVD++D+ISSQGL QFA+ YA+KGLV LREIFTP
Sbjct: 421 EEQLKVAAIIDELPLRLQDKYLFCISPVDMNDEISSQGLTQFAENYAKKGLVHLREIFTP 480

Query: 481 GTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 540
           GTL VPKT +AL+ELES+HKVLELYVWLS+RL++SFPDRE+A+SQK+ICS+LIEEFLE+ 
Sbjct: 481 GTLQVPKTHSALKELESIHKVLELYVWLSFRLEDSFPDRELASSQKAICSLLIEEFLER- 540

Query: 541 ELAICMPASSSCTQSAKHHVKVAS 562
            L    P S   T SA  +  +A+
Sbjct: 541 -LGWQKPTSRRLTSSATLNSLIAN 562

[Close]

BLAST of Spo16755.1 vs. NCBI nr
Match: gi|590658330|ref|XP_007034822.1| (ATP-dependent RNA and DNA helicase, putative isoform 4 [Theobroma cacao])

HSP 1 Score: 831.2 bits (2146), Expect = 1.000e-237
Identity = 414/565 (73.27%), Postives = 485/565 (85.84%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSRHYYDQFET--LPWELRFGLLASQCGCSRQFSNGATSSRFDFT 60
           MAS LLR RR S   +SR   D  ++  L  E +F   AS     R++S+G ++++FDFT
Sbjct: 1   MASLLLRQRRVSALGVSRILQDNGDSFRLRLESKFETFASIGVMIRKYSSGKSAAKFDFT 60

Query: 61  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 120
           DLT PHTWYP AR+K R +FLHVGPTNSGKTYHALK+LE S +G+YCGPLRLLAWEV+KR
Sbjct: 61  DLTCPHTWYPNARKKNRKVFLHVGPTNSGKTYHALKRLESSPSGIYCGPLRLLAWEVSKR 120

Query: 121 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 180
           LNKA VPC+LITGQE+EEV+GAKH A TVEMADVT+DY CA+IDEIQMLGC+ RGFSFTR
Sbjct: 121 LNKAKVPCDLITGQEKEEVDGAKHKAVTVEMADVTADYDCAIIDEIQMLGCKTRGFSFTR 180

Query: 181 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKG 240
           ALLG+AADELHLCGD AAV LI+++LKVTGDD+Q++ Y+RLSPL PL+VPLGS+SNI+ G
Sbjct: 181 ALLGIAADELHLCGDAAAVALIQELLKVTGDDVQVESYERLSPLVPLEVPLGSFSNIRTG 240

Query: 241 DCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDA 300
           DCIVTFSR+ IY  K++IE+ GKHLCSVVYGSLPPETRT+QATMFND +SEFDVLVASDA
Sbjct: 241 DCIVTFSRKEIYQLKKRIESRGKHLCSVVYGSLPPETRTRQATMFNDTSSEFDVLVASDA 300

Query: 301 IGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDL 360
           IGMGLNLNISR+IFSTLKKFDG EMRDLTVPEIKQIAGRAGRYGSK+P+GEVTCLD +DL
Sbjct: 301 IGMGLNLNISRVIFSTLKKFDGSEMRDLTVPEIKQIAGRAGRYGSKFPMGEVTCLDADDL 360

Query: 361 PLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDC 420
           PLLHSSL SPSP LE+AGLFPS+DL+ MYSR  P+ GLYQILEHF  NAKLS NYFI++C
Sbjct: 361 PLLHSSLKSPSPILEQAGLFPSFDLIFMYSRLQPKRGLYQILEHFIENAKLSENYFIANC 420

Query: 421 EEMLKVAAIIDELPLGLKEKYLFCI-SPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFT 480
           EE LKVAAIIDELPL L++KYLFCI SPVD++D+ISSQGL QFA+ YA+KGLV LREIFT
Sbjct: 421 EEQLKVAAIIDELPLRLQDKYLFCISSPVDMNDEISSQGLTQFAENYAKKGLVHLREIFT 480

Query: 481 PGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQ 540
           PGTL VPKT +AL+ELES+HKVLELYVWLS+RL++SFPDRE+A+SQK+ICS+LIEEFLE+
Sbjct: 481 PGTLQVPKTHSALKELESIHKVLELYVWLSFRLEDSFPDRELASSQKAICSLLIEEFLER 540

Query: 541 YELAICMPASSSCTQSAKHHVKVAS 562
             L    P S   T SA  +  +A+
Sbjct: 541 --LGWQKPTSRRLTSSATLNSLIAN 563

[Close]

BLAST of Spo16755.1 vs. NCBI nr
Match: gi|720000749|ref|XP_010256128.1| (PREDICTED: ATP-dependent RNA helicase SUPV3L1, mitochondrial isoform X2 [Nelumbo nucifera])

HSP 1 Score: 829.7 bits (2142), Expect = 3.000e-237
Identity = 405/539 (75.14%), Postives = 471/539 (87.38%), Query Frame = 1


		  
Query: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFG---LLASQCGCSRQFSNGATSSRFDFT 60
           M SSLLRR+FS+  +S H YD  +     L      +    C   R+FS+ ++ + FDFT
Sbjct: 1   MVSSLLRRKFSH-GISCHLYDNMKPFRMHLELHARFVFGDCCSILRRFSS-SSGAPFDFT 60

Query: 61  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 120
           DLTRPHTWYP AR KKR I LHVGPTNSGKT+HALKQLE SS+G+YCGPLRLLAWEVAKR
Sbjct: 61  DLTRPHTWYPNARRKKRNIILHVGPTNSGKTHHALKQLERSSSGIYCGPLRLLAWEVAKR 120

Query: 121 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 180
           LNKA+VPC+LITGQE+EE++GAKH + TVEMADVTSDY CAVIDEIQM+GC+ RGFSFTR
Sbjct: 121 LNKAHVPCDLITGQEKEEIDGAKHKSVTVEMADVTSDYHCAVIDEIQMVGCKTRGFSFTR 180

Query: 181 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKG 240
           ALLGLAADELHLCGD A VPLI+++L+VTGD ++++YY+RLSPL P KVPLGS+S I+ G
Sbjct: 181 ALLGLAADELHLCGDAAVVPLIQEILEVTGDVIKVQYYERLSPLIPSKVPLGSFSKIQTG 240

Query: 241 DCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDA 300
           DCIVTFSRR IY  K  IEN GKHLCSVVYGSLPPETRT+QATMFND +S+FDVLVASDA
Sbjct: 241 DCIVTFSRREIYRLKNDIENGGKHLCSVVYGSLPPETRTRQATMFNDESSQFDVLVASDA 300

Query: 301 IGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDL 360
           IGMGLNLNISRIIFSTLKKFDG +MR+LTV EIKQIAGRAGR+GSK+P GEVTC+D EDL
Sbjct: 301 IGMGLNLNISRIIFSTLKKFDGTDMRELTVSEIKQIAGRAGRFGSKFPCGEVTCIDAEDL 360

Query: 361 PLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDC 420
           PLLHSSL SPSPDLE AGLFP++DLL +YSR +P+ G +QILE+F  NAKLSSNYFI++C
Sbjct: 361 PLLHSSLKSPSPDLESAGLFPTFDLLFLYSRLHPKMGFHQILENFLENAKLSSNYFIANC 420

Query: 421 EEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTP 480
           EEMLKVAA+IDELPL L +KYLFCISPVD++DDISSQGLVQFAQTYA+KG+V+LREIFTP
Sbjct: 421 EEMLKVAAVIDELPLQLHDKYLFCISPVDMNDDISSQGLVQFAQTYARKGIVRLREIFTP 480

Query: 481 GTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQ 537
           GTL VPKT  AL+ELES+HKVL+LYVWLS+RL++SFPDRE+A+SQKSICS+LIEEFLE+
Sbjct: 481 GTLQVPKTQTALKELESIHKVLDLYVWLSFRLEDSFPDRELASSQKSICSLLIEEFLER 537

[Close]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RVN1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_028970 PE=4 SV=1)

HSP 1 Score: 1090.9 bits (2820), Expect = 0.000e+0
Identity = 537/537 (100.00%), Postives = 537/537 (100.00%), Query Frame = 1


		  
Query: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60
           MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT
Sbjct: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60

Query: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120
           RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK
Sbjct: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120

Query: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180
           ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL
Sbjct: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180

Query: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240
           GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI
Sbjct: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240

Query: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300
           VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM
Sbjct: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300

Query: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360
           GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL
Sbjct: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360

Query: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420
           HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM
Sbjct: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420

Query: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480
           LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL
Sbjct: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480

Query: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 538
           TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY
Sbjct: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 537

[Close]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B9K4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_5g125140 PE=4 SV=1)

HSP 1 Score: 951.8 bits (2459), Expect = 3.700e-274
Identity = 462/537 (86.03%), Postives = 504/537 (93.85%), Query Frame = 1


		  
Query: 1   MASSLLRRRFSNFSLSRHYYDQFETLPWELRFGLLASQCGCSRQFSNGATSSRFDFTDLT 60
           MAS+LLRRRFS+F++SR+ +D+ E+   ELR GLLAS CGC RQFS+ ATSSRFDFTDLT
Sbjct: 1   MASALLRRRFSSFTVSRYLHDKSESSSLELRLGLLASHCGCLRQFSSRATSSRFDFTDLT 60

Query: 61  RPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120
            PHTWYP AR+++R +FLHVGPTNSGKTY ALKQLECSSTGVYCGPLRLLAWEVAKRLNK
Sbjct: 61  CPHTWYPNARKQQRNVFLHVGPTNSGKTYQALKQLECSSTGVYCGPLRLLAWEVAKRLNK 120

Query: 121 ANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTRALL 180
           ANVPC+LITGQEREEVEGAKHMA TVEMADVTS YQCAVIDEIQMLGCR+RGFSFTRALL
Sbjct: 121 ANVPCDLITGQEREEVEGAKHMAVTVEMADVTSHYQCAVIDEIQMLGCRSRGFSFTRALL 180

Query: 181 GLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKGDCI 240
           GL ADELHLCGDPAAVPLI ++LKVTGD++QI YYDRLSPLEPLKV LGS+SN++KGDC+
Sbjct: 181 GLPADELHLCGDPAAVPLITEILKVTGDNVQIHYYDRLSPLEPLKVSLGSFSNVRKGDCV 240

Query: 241 VTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDAIGM 300
           VTFSRRGIYNFKRKIE+EGKHLCSVVYGSLPPETR +QATMFNDATSE DVLVASDAIGM
Sbjct: 241 VTFSRRGIYNFKRKIESEGKHLCSVVYGSLPPETRNRQATMFNDATSESDVLVASDAIGM 300

Query: 301 GLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDLPLL 360
           GLNLNISRIIFSTLKKFDG+E+RDLTVPEIKQIAGRAGRYGSKYPVGEVTCL+ EDLPLL
Sbjct: 301 GLNLNISRIIFSTLKKFDGVELRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLEGEDLPLL 360

Query: 361 HSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDCEEM 420
           H+SLNSPSP LERAGLFP+YDLLL+YSRANP+ GLY ILEHF  NAKLS NYFI+DCE++
Sbjct: 361 HTSLNSPSPPLERAGLFPNYDLLLLYSRANPEIGLYHILEHFVTNAKLSPNYFIADCEDL 420

Query: 421 LKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTPGTL 480
           LKVAAIIDELPLGL EKYLFCISPVDVDDDISSQGLVQFAQTYA+KG+V LREIFTPG L
Sbjct: 421 LKVAAIIDELPLGLHEKYLFCISPVDVDDDISSQGLVQFAQTYAKKGIVHLREIFTPGML 480

Query: 481 TVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 538
            VPKTPA+L+ELES+HKVLELYVWLSYRLDESFPDRE+AASQKSICS+LIEEFL QY
Sbjct: 481 KVPKTPASLEELESIHKVLELYVWLSYRLDESFPDRELAASQKSICSLLIEEFLRQY 537

[Close]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Match: A0A061EL63_THECC (ATP-dependent RNA and DNA helicase, putative isoform 1 OS=Theobroma cacao GN=TCM_020670 PE=4 SV=1)

HSP 1 Score: 835.9 bits (2158), Expect = 3.000e-239
Identity = 414/564 (73.40%), Postives = 485/564 (85.99%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSRHYYDQFET--LPWELRFGLLASQCGCSRQFSNGATSSRFDFT 60
           MAS LLR RR S   +SR   D  ++  L  E +F   AS     R++S+G ++++FDFT
Sbjct: 1   MASLLLRQRRVSALGVSRILQDNGDSFRLRLESKFETFASIGVMIRKYSSGKSAAKFDFT 60

Query: 61  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 120
           DLT PHTWYP AR+K R +FLHVGPTNSGKTYHALK+LE S +G+YCGPLRLLAWEV+KR
Sbjct: 61  DLTCPHTWYPNARKKNRKVFLHVGPTNSGKTYHALKRLESSPSGIYCGPLRLLAWEVSKR 120

Query: 121 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 180
           LNKA VPC+LITGQE+EEV+GAKH A TVEMADVT+DY CA+IDEIQMLGC+ RGFSFTR
Sbjct: 121 LNKAKVPCDLITGQEKEEVDGAKHKAVTVEMADVTADYDCAIIDEIQMLGCKTRGFSFTR 180

Query: 181 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKG 240
           ALLG+AADELHLCGD AAV LI+++LKVTGDD+Q++ Y+RLSPL PL+VPLGS+SNI+ G
Sbjct: 181 ALLGIAADELHLCGDAAAVALIQELLKVTGDDVQVESYERLSPLVPLEVPLGSFSNIRTG 240

Query: 241 DCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDA 300
           DCIVTFSR+ IY  K++IE+ GKHLCSVVYGSLPPETRT+QATMFND +SEFDVLVASDA
Sbjct: 241 DCIVTFSRKEIYQLKKRIESRGKHLCSVVYGSLPPETRTRQATMFNDTSSEFDVLVASDA 300

Query: 301 IGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDL 360
           IGMGLNLNISR+IFSTLKKFDG EMRDLTVPEIKQIAGRAGRYGSK+P+GEVTCLD +DL
Sbjct: 301 IGMGLNLNISRVIFSTLKKFDGSEMRDLTVPEIKQIAGRAGRYGSKFPMGEVTCLDADDL 360

Query: 361 PLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDC 420
           PLLHSSL SPSP LE+AGLFPS+DL+ MYSR  P+ GLYQILEHF  NAKLS NYFI++C
Sbjct: 361 PLLHSSLKSPSPILEQAGLFPSFDLIFMYSRLQPKRGLYQILEHFIENAKLSENYFIANC 420

Query: 421 EEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFTP 480
           EE LKVAAIIDELPL L++KYLFCISPVD++D+ISSQGL QFA+ YA+KGLV LREIFTP
Sbjct: 421 EEQLKVAAIIDELPLRLQDKYLFCISPVDMNDEISSQGLTQFAENYAKKGLVHLREIFTP 480

Query: 481 GTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQY 540
           GTL VPKT +AL+ELES+HKVLELYVWLS+RL++SFPDRE+A+SQK+ICS+LIEEFLE+ 
Sbjct: 481 GTLQVPKTHSALKELESIHKVLELYVWLSFRLEDSFPDRELASSQKAICSLLIEEFLER- 540

Query: 541 ELAICMPASSSCTQSAKHHVKVAS 562
            L    P S   T SA  +  +A+
Sbjct: 541 -LGWQKPTSRRLTSSATLNSLIAN 562

[Close]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Match: A0A061EM91_THECC (ATP-dependent RNA and DNA helicase, putative isoform 4 OS=Theobroma cacao GN=TCM_020670 PE=4 SV=1)

HSP 1 Score: 831.2 bits (2146), Expect = 7.300e-238
Identity = 414/565 (73.27%), Postives = 485/565 (85.84%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSRHYYDQFET--LPWELRFGLLASQCGCSRQFSNGATSSRFDFT 60
           MAS LLR RR S   +SR   D  ++  L  E +F   AS     R++S+G ++++FDFT
Sbjct: 1   MASLLLRQRRVSALGVSRILQDNGDSFRLRLESKFETFASIGVMIRKYSSGKSAAKFDFT 60

Query: 61  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 120
           DLT PHTWYP AR+K R +FLHVGPTNSGKTYHALK+LE S +G+YCGPLRLLAWEV+KR
Sbjct: 61  DLTCPHTWYPNARKKNRKVFLHVGPTNSGKTYHALKRLESSPSGIYCGPLRLLAWEVSKR 120

Query: 121 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 180
           LNKA VPC+LITGQE+EEV+GAKH A TVEMADVT+DY CA+IDEIQMLGC+ RGFSFTR
Sbjct: 121 LNKAKVPCDLITGQEKEEVDGAKHKAVTVEMADVTADYDCAIIDEIQMLGCKTRGFSFTR 180

Query: 181 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGSYSNIKKG 240
           ALLG+AADELHLCGD AAV LI+++LKVTGDD+Q++ Y+RLSPL PL+VPLGS+SNI+ G
Sbjct: 181 ALLGIAADELHLCGDAAAVALIQELLKVTGDDVQVESYERLSPLVPLEVPLGSFSNIRTG 240

Query: 241 DCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASDA 300
           DCIVTFSR+ IY  K++IE+ GKHLCSVVYGSLPPETRT+QATMFND +SEFDVLVASDA
Sbjct: 241 DCIVTFSRKEIYQLKKRIESRGKHLCSVVYGSLPPETRTRQATMFNDTSSEFDVLVASDA 300

Query: 301 IGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDREDL 360
           IGMGLNLNISR+IFSTLKKFDG EMRDLTVPEIKQIAGRAGRYGSK+P+GEVTCLD +DL
Sbjct: 301 IGMGLNLNISRVIFSTLKKFDGSEMRDLTVPEIKQIAGRAGRYGSKFPMGEVTCLDADDL 360

Query: 361 PLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISDC 420
           PLLHSSL SPSP LE+AGLFPS+DL+ MYSR  P+ GLYQILEHF  NAKLS NYFI++C
Sbjct: 361 PLLHSSLKSPSPILEQAGLFPSFDLIFMYSRLQPKRGLYQILEHFIENAKLSENYFIANC 420

Query: 421 EEMLKVAAIIDELPLGLKEKYLFCI-SPVDVDDDISSQGLVQFAQTYAQKGLVQLREIFT 480
           EE LKVAAIIDELPL L++KYLFCI SPVD++D+ISSQGL QFA+ YA+KGLV LREIFT
Sbjct: 421 EEQLKVAAIIDELPLRLQDKYLFCISSPVDMNDEISSQGLTQFAENYAKKGLVHLREIFT 480

Query: 481 PGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEEFLEQ 540
           PGTL VPKT +AL+ELES+HKVLELYVWLS+RL++SFPDRE+A+SQK+ICS+LIEEFLE+
Sbjct: 481 PGTLQVPKTHSALKELESIHKVLELYVWLSFRLEDSFPDRELASSQKAICSLLIEEFLER 540

Query: 541 YELAICMPASSSCTQSAKHHVKVAS 562
             L    P S   T SA  +  +A+
Sbjct: 541 --LGWQKPTSRRLTSSATLNSLIAN 563

[Close]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Match: A0A061ELN8_THECC (ATP-dependent RNA and DNA helicase, putative isoform 2 OS=Theobroma cacao GN=TCM_020670 PE=4 SV=1)

HSP 1 Score: 826.2 bits (2133), Expect = 2.300e-236
Identity = 397/519 (76.49%), Postives = 464/519 (89.40%), Query Frame = 1


		  
Query: 43  RQFSNGATSSRFDFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGV 102
           R++S+G ++++FDFTDLT PHTWYP AR+K R +FLHVGPTNSGKTYHALK+LE S +G+
Sbjct: 3   RKYSSGKSAAKFDFTDLTCPHTWYPNARKKNRKVFLHVGPTNSGKTYHALKRLESSPSGI 62

Query: 103 YCGPLRLLAWEVAKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDE 162
           YCGPLRLLAWEV+KRLNKA VPC+LITGQE+EEV+GAKH A TVEMADVT+DY CA+IDE
Sbjct: 63  YCGPLRLLAWEVSKRLNKAKVPCDLITGQEKEEVDGAKHKAVTVEMADVTADYDCAIIDE 122

Query: 163 IQMLGCRNRGFSFTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLE 222
           IQMLGC+ RGFSFTRALLG+AADELHLCGD AAV LI+++LKVTGDD+Q++ Y+RLSPL 
Sbjct: 123 IQMLGCKTRGFSFTRALLGIAADELHLCGDAAAVALIQELLKVTGDDVQVESYERLSPLV 182

Query: 223 PLKVPLGSYSNIKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMF 282
           PL+VPLGS+SNI+ GDCIVTFSR+ IY  K++IE+ GKHLCSVVYGSLPPETRT+QATMF
Sbjct: 183 PLEVPLGSFSNIRTGDCIVTFSRKEIYQLKKRIESRGKHLCSVVYGSLPPETRTRQATMF 242

Query: 283 NDATSEFDVLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGS 342
           ND +SEFDVLVASDAIGMGLNLNISR+IFSTLKKFDG EMRDLTVPEIKQIAGRAGRYGS
Sbjct: 243 NDTSSEFDVLVASDAIGMGLNLNISRVIFSTLKKFDGSEMRDLTVPEIKQIAGRAGRYGS 302

Query: 343 KYPVGEVTCLDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHF 402
           K+P+GEVTCLD +DLPLLHSSL SPSP LE+AGLFPS+DL+ MYSR  P+ GLYQILEHF
Sbjct: 303 KFPMGEVTCLDADDLPLLHSSLKSPSPILEQAGLFPSFDLIFMYSRLQPKRGLYQILEHF 362

Query: 403 SMNAKLSSNYFISDCEEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQT 462
             NAKLS NYFI++CEE LKVAAIIDELPL L++KYLFCISPVD++D+ISSQGL QFA+ 
Sbjct: 363 IENAKLSENYFIANCEEQLKVAAIIDELPLRLQDKYLFCISPVDMNDEISSQGLTQFAEN 422

Query: 463 YAQKGLVQLREIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQ 522
           YA+KGLV LREIFTPGTL VPKT +AL+ELES+HKVLELYVWLS+RL++SFPDRE+A+SQ
Sbjct: 423 YAKKGLVHLREIFTPGTLQVPKTHSALKELESIHKVLELYVWLSFRLEDSFPDRELASSQ 482

Query: 523 KSICSMLIEEFLEQYELAICMPASSSCTQSAKHHVKVAS 562
           K+ICS+LIEEFLE+  L    P S   T SA  +  +A+
Sbjct: 483 KAICSLLIEEFLER--LGWQKPTSRRLTSSATLNSLIAN 519

[Close]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Match: SUV3M_ARATH (DExH-box ATP-dependent RNA helicase DExH16, mitochondrial OS=Arabidopsis thaliana GN=SUV3 PE=1 SV=1)

HSP 1 Score: 774.2 bits (1998), Expect = 9.500e-223
Identity = 386/553 (69.80%), Postives = 457/553 (82.64%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSR------------HYYDQFETLPWELRFGLLA----SQCGCSR 60
           MA S++R R+ S   +SR            H+  +F  L   LR G+L        G  +
Sbjct: 1   MAYSVVRLRKVSALGISRVLQADKGSLWRFHFEPEFGDL---LRLGVLTRNYRKNSGSPK 60

Query: 61  -QFSNGATSSRFDFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGV 120
             F+   T+S+FDFTDLT PHTWYPIAR+KKR + LHVGPTNSGKTY ALK LE SS+GV
Sbjct: 61  FDFTGTGTTSKFDFTDLTCPHTWYPIARKKKRKVILHVGPTNSGKTYSALKHLEQSSSGV 120

Query: 121 YCGPLRLLAWEVAKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDE 180
           YCGPLRLLAWEVAKRLNKANVPC+LITGQE++ VEGA H A TVEMADVTS Y CA+IDE
Sbjct: 121 YCGPLRLLAWEVAKRLNKANVPCDLITGQEKDLVEGATHKAVTVEMADVTSVYDCAIIDE 180

Query: 181 IQMLGCRNRGFSFTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLE 240
           IQM+GC+ RGF+FTRALLG+AADELHLCGDPA VPL++ +LKVTGDD+++  Y+RLSPL 
Sbjct: 181 IQMVGCKQRGFAFTRALLGIAADELHLCGDPAVVPLVEDILKVTGDDVEVHTYERLSPLV 240

Query: 241 PLKVPLGSYSNIKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMF 300
           PLKVP+ S S+IK GDC+VTFSR+ IY +K+ IE  GKHLCSVVYGSLPPETRT QAT F
Sbjct: 241 PLKVPVSSVSSIKTGDCLVTFSRKDIYAYKKTIERAGKHLCSVVYGSLPPETRTAQATRF 300

Query: 301 NDATSEFDVLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGS 360
           ND T++FDVLVASDAIGMGLNLNISRIIFSTL+K+DG E RDLTV EIKQIAGRAGR+ S
Sbjct: 301 NDETNDFDVLVASDAIGMGLNLNISRIIFSTLQKYDGSETRDLTVSEIKQIAGRAGRFQS 360

Query: 361 KYPVGEVTCLDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHF 420
           K+P+GEVTCL +EDLPLLHSSL SPSP LERAGLFP++DLL  YS+A+P +GLYQILEHF
Sbjct: 361 KFPIGEVTCLHKEDLPLLHSSLKSPSPILERAGLFPTFDLLSGYSQAHPTHGLYQILEHF 420

Query: 421 SMNAKLSSNYFISDCEEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQT 480
             NAKLSSNYFIS+ E+M+KVAAI+DELPLGL+EKYLF +SPVDV+D+IS QGL QFAQ 
Sbjct: 421 VENAKLSSNYFISNVEDMMKVAAIVDELPLGLQEKYLFVVSPVDVNDEISGQGLAQFAQN 480

Query: 481 YAQKGLVQLREIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQ 536
           +++ G+V+LREI  P  + VPKTP  L+ELES+HKVL+LYVWLS RL++SFPDRE+AASQ
Sbjct: 481 FSKAGIVRLREILAPDRVKVPKTPTELKELESIHKVLDLYVWLSLRLEDSFPDREVAASQ 540

[Close]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Match: SUV3M_ORYSJ (ATP-dependent RNA helicase SUV3, mitochondrial OS=Oryza sativa subsp. japonica GN=SUV3 PE=1 SV=1)

HSP 1 Score: 760.8 bits (1963), Expect = 1.100e-218
Identity = 364/486 (74.90%), Postives = 431/486 (88.68%), Query Frame = 1


		  
Query: 51  SSRFDFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLL 110
           S +FD TDLT PH WYP AREKKR +FLHVGPTNSGKT++ALK+LE SS+GVYCGPLRLL
Sbjct: 55  SGKFDLTDLTHPHIWYPNAREKKRNVFLHVGPTNSGKTHNALKRLEASSSGVYCGPLRLL 114

Query: 111 AWEVAKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRN 170
           A EVA+RLNKANVPCNLITGQEREE+EGAKH + TVEMAD+T++YQCAVIDEIQM+GCR+
Sbjct: 115 AREVAQRLNKANVPCNLITGQEREEIEGAKHSSVTVEMADMTTEYQCAVIDEIQMVGCRS 174

Query: 171 RGFSFTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLEPLKVPLGS 230
           RGFSFTRALLGL +DELH+CGDPA VPLI+++L+ TGD + ++YY+RLSPL PLK  LGS
Sbjct: 175 RGFSFTRALLGLCSDELHVCGDPAVVPLIQRILEPTGDVVTVQYYERLSPLVPLKTTLGS 234

Query: 231 YSNIKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFD 290
           +SNIK GDC+VTFSRR IY  KR+IE  GKHLCSVVYGSLPPETRTKQATMFND  S  +
Sbjct: 235 FSNIKAGDCVVTFSRRSIYMLKRRIEMGGKHLCSVVYGSLPPETRTKQATMFNDQDSNLN 294

Query: 291 VLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVT 350
           VLVASDAIGMGLNLNISRIIFSTL+KFDG+  R+LTV EIKQIAGRAGRYGSK+PVGEVT
Sbjct: 295 VLVASDAIGMGLNLNISRIIFSTLEKFDGICNRELTVAEIKQIAGRAGRYGSKFPVGEVT 354

Query: 351 CLDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSS 410
           CL+ + LPLLHS+L SPSP +ERAGLFP++D+L +YSR +  +    ILE F   AKLS 
Sbjct: 355 CLNSDHLPLLHSALKSPSPIIERAGLFPTFDVLSLYSRLHGTDFFQPILERFLDKAKLSP 414

Query: 411 NYFISDCEEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQ 470
           +YFI+DCE+MLKVAAI+DELPLGL +KYLFC+SPVD+ DDIS++GL+QFA+ YA+KG+V+
Sbjct: 415 DYFIADCEDMLKVAAIVDELPLGLYDKYLFCLSPVDIRDDISTKGLIQFAENYAKKGIVR 474

Query: 471 LREIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLI 530
           L+EIFTPGTL VPK+   L+ELES+HKVLELYVWLS+RL++S+PDRE+AASQKSICSMLI
Sbjct: 475 LKEIFTPGTLQVPKSHNQLKELESIHKVLELYVWLSFRLEDSYPDRELAASQKSICSMLI 534

Query: 531 EEFLEQ 537
           EE+LE+
Sbjct: 535 EEYLER 540

[Close]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Match: SUV3L_ARATH (DExH-box ATP-dependent RNA helicase DExH18, mitochondrial OS=Arabidopsis thaliana GN=At5g39840 PE=3 SV=1)

HSP 1 Score: 419.1 bits (1076), Expect = 7.700e-116
Identity = 207/484 (42.77%), Postives = 311/484 (64.26%), Query Frame = 1


		  
Query: 55  DFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEV 114
           D  DLT+P TW+P AR  KR I  H GPTNSGKTY+AL++   +  G+YC PLRLLA EV
Sbjct: 255 DTADLTKPATWFPFARAMKRKIVYHCGPTNSGKTYNALQRFMEAKNGLYCSPLRLLAMEV 314

Query: 115 AKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFS 174
             ++N   + C+L+TGQE++ V  A H++ TVEM      Y+ AV+DEIQM+   +RG +
Sbjct: 315 FDKVNALGIYCSLLTGQEKKYVPFANHVSCTVEMVSTDELYEVAVLDEIQMMADPSRGHA 374

Query: 175 FTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLE-PLKVPLGSYSN 234
           +T+ALLGL ADE+HLCGDP+ + ++++M   TGD+L  ++Y+R  PL    K  LG   N
Sbjct: 375 WTKALLGLKADEIHLCGDPSVLDIVRKMCADTGDELVEEHYERFKPLVVEAKTLLGELKN 434

Query: 235 IKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLV 294
           +K GDC+V FSRR I+  K  IE    H C V+YG+LPPETR +QA +FND  +E+DVLV
Sbjct: 435 VKSGDCVVAFSRREIFEVKMAIEKHTNHRCCVIYGALPPETRRQQAKLFNDQENEYDVLV 494

Query: 295 ASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLD 354
           ASDA+GMGLNLNI R++F +L K++G ++  +   ++KQIAGRAGR GS+YP G  T L 
Sbjct: 495 ASDAVGMGLNLNIRRVVFYSLNKYNGDKIVPVAASQVKQIAGRAGRRGSRYPDGLTTTLH 554

Query: 355 REDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYF 414
            EDL  L   L  P  ++ + GLFP ++ + +++   P      +LEHF  + +L  +YF
Sbjct: 555 LEDLNYLIECLQQPFDEVTKVGLFPFFEQIELFAAQVPDMAFSNLLEHFGKHCRLDGSYF 614

Query: 415 ISDCEEMLKVAAIIDELP-LGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLR 474
           +   + + KVA +++++  L L++++ FC +PV++ +  +   L +FA +Y+Q   V + 
Sbjct: 615 LCRHDHVKKVANMLEKVEGLSLEDRFNFCFAPVNIRNPRAMHNLYRFASSYSQNMPVNVA 674

Query: 475 EIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEE 534
                 +    K+ A L +LES H++L +Y+WLS + +E+FP  E   +  +  + L+ E
Sbjct: 675 MGIPKSS---AKSDAQLLDLESRHQILSMYLWLSNQFEENFPFVEKVEAMATNIAELLGE 734

Query: 535 FLEQ 537
            L +
Sbjct: 735 SLSK 735

[Close]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Match: SUV3L_ORYSJ (ATP-dependent RNA helicase SUV3L, mitochondrial OS=Oryza sativa subsp. japonica GN=LOC_Os04g38630 PE=2 SV=2)

HSP 1 Score: 410.6 bits (1054), Expect = 2.800e-113
Identity = 205/470 (43.62%), Postives = 295/470 (62.77%), Query Frame = 1


		  
Query: 58  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 117
           DLT PH WYP AR  +R +  H GPTNSGKT++AL +   + +GVYC PLRLLA EV  +
Sbjct: 188 DLTAPHAWYPFARAMRRRVVYHCGPTNSGKTHNALTRFAAAKSGVYCSPLRLLAMEVFDK 247

Query: 118 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 177
           +N   V C+L TGQE +EV  + H+A T+EM      Y+ AV+DEIQM+    RG+++TR
Sbjct: 248 VNALGVYCSLRTGQEIKEVPFSNHVACTIEMLSTEEPYEVAVVDEIQMMADPVRGYAWTR 307

Query: 178 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPL-EPLKVPLGSYSNIKK 237
           A+LGL ADE+HLCGDP+ + +++++   TGDDL++  Y+R  PL    K  LG   N++ 
Sbjct: 308 AVLGLKADEIHLCGDPSVLKIVRKICADTGDDLEVHQYERFKPLVVEAKTLLGDLKNVRS 367

Query: 238 GDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASD 297
           GDCIV FSRR I+  K  IE   KH C V+YG+LPPETR +QA +FN+  +E+DVLVASD
Sbjct: 368 GDCIVAFSRREIFEVKLAIEKFTKHKCCVIYGALPPETRRQQAKLFNEQDNEYDVLVASD 427

Query: 298 AIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDRED 357
           A+GMGLNLNI R++F +L K++G  M  +   ++KQIAGRAGR GS YP G  T    +D
Sbjct: 428 AVGMGLNLNIRRVVFYSLAKYNGDRMVPVAASQVKQIAGRAGRRGSIYPDGLTTTFLLDD 487

Query: 358 LPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISD 417
           L  L   L  P  + ++ GLFP ++ +  ++   P     ++L+ F  N ++ S YF+  
Sbjct: 488 LDYLIQCLQQPFEEAKKVGLFPCFEQVESFAIQFPDLTFNELLDKFRENCRVDSTYFMCH 547

Query: 418 CEEMLKVAAIIDELP-LGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIF 477
            E + KVA +++ +  L LK++Y FC +PV++ D  +   L++FA  Y+Q   V +    
Sbjct: 548 QESIKKVANMLERIQGLSLKDRYNFCFAPVNIRDPKAMYHLLRFATNYSQSRRVSIAMGM 607

Query: 478 TPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSI 526
             G+    K    L +LE+ H+VL +Y+WLS+  +E        A + SI
Sbjct: 608 PKGS---AKNDTELLDLETKHQVLSMYLWLSHHFEEDHFPHVQKAEEMSI 654

[Close]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Match: SUV3L_ORYSI (ATP-dependent RNA helicase SUV3L, mitochondrial OS=Oryza sativa subsp. indica GN=H0219H12.4 PE=3 SV=1)

HSP 1 Score: 410.6 bits (1054), Expect = 2.800e-113
Identity = 205/470 (43.62%), Postives = 295/470 (62.77%), Query Frame = 1


		  
Query: 58  DLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEVAKR 117
           DLT PH WYP AR  +R +  H GPTNSGKT++AL +   + +GVYC PLRLLA EV  +
Sbjct: 188 DLTAPHAWYPFARAMRRRVVYHCGPTNSGKTHNALTRFAAAKSGVYCSPLRLLAMEVFDK 247

Query: 118 LNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFSFTR 177
           +N   V C+L TGQE +EV  + H+A T+EM      Y+ AV+DEIQM+    RG+++TR
Sbjct: 248 VNALGVYCSLRTGQEIKEVPFSNHVACTIEMLSTEEPYEVAVVDEIQMMADPVRGYAWTR 307

Query: 178 ALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPL-EPLKVPLGSYSNIKK 237
           A+LGL ADE+HLCGDP+ + +++++   TGDDL++  Y+R  PL    K  LG   N++ 
Sbjct: 308 AVLGLKADEIHLCGDPSVLKIVRKICADTGDDLEVHQYERFKPLVVEAKTLLGDLKNVRS 367

Query: 238 GDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLVASD 297
           GDCIV FSRR I+  K  IE   KH C V+YG+LPPETR +QA +FN+  +E+DVLVASD
Sbjct: 368 GDCIVAFSRREIFEVKLAIEKFTKHKCCVIYGALPPETRRQQAKLFNEQDNEYDVLVASD 427

Query: 298 AIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLDRED 357
           A+GMGLNLNI R++F +L K++G  M  +   ++KQIAGRAGR GS YP G  T    +D
Sbjct: 428 AVGMGLNLNIRRVVFYSLAKYNGDRMVPVAASQVKQIAGRAGRRGSIYPDGLTTTFLLDD 487

Query: 358 LPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYFISD 417
           L  L   L  P  + ++ GLFP ++ +  ++   P     ++L+ F  N ++ S YF+  
Sbjct: 488 LDYLIQCLQQPFEEAKKVGLFPCFEQVESFAIQFPDLTFNELLDKFRENCRVDSTYFMCH 547

Query: 418 CEEMLKVAAIIDELP-LGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLREIF 477
            E + KVA +++ +  L LK++Y FC +PV++ D  +   L++FA  Y+Q   V +    
Sbjct: 548 QESIKKVANMLERIQGLSLKDRYNFCFAPVNIRDPKAMYHLLRFATNYSQSRRVSIAMGM 607

Query: 478 TPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSI 526
             G+    K    L +LE+ H+VL +Y+WLS+  +E        A + SI
Sbjct: 608 PKGS---AKNDTELLDLETKHQVLSMYLWLSHHFEEDHFPHVQKAEEMSI 654

[Close]

BLAST of Spo16755.1 vs. TAIR (Arabidopsis)
Match: AT4G14790.1 (ATP-dependent RNA helicase, mitochondrial (SUV3))

HSP 1 Score: 774.2 bits (1998), Expect = 5.300e-224
Identity = 386/553 (69.80%), Postives = 457/553 (82.64%), Query Frame = 1


		  
Query: 1   MASSLLR-RRFSNFSLSR------------HYYDQFETLPWELRFGLLA----SQCGCSR 60
           MA S++R R+ S   +SR            H+  +F  L   LR G+L        G  +
Sbjct: 1   MAYSVVRLRKVSALGISRVLQADKGSLWRFHFEPEFGDL---LRLGVLTRNYRKNSGSPK 60

Query: 61  -QFSNGATSSRFDFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGV 120
             F+   T+S+FDFTDLT PHTWYPIAR+KKR + LHVGPTNSGKTY ALK LE SS+GV
Sbjct: 61  FDFTGTGTTSKFDFTDLTCPHTWYPIARKKKRKVILHVGPTNSGKTYSALKHLEQSSSGV 120

Query: 121 YCGPLRLLAWEVAKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDE 180
           YCGPLRLLAWEVAKRLNKANVPC+LITGQE++ VEGA H A TVEMADVTS Y CA+IDE
Sbjct: 121 YCGPLRLLAWEVAKRLNKANVPCDLITGQEKDLVEGATHKAVTVEMADVTSVYDCAIIDE 180

Query: 181 IQMLGCRNRGFSFTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLE 240
           IQM+GC+ RGF+FTRALLG+AADELHLCGDPA VPL++ +LKVTGDD+++  Y+RLSPL 
Sbjct: 181 IQMVGCKQRGFAFTRALLGIAADELHLCGDPAVVPLVEDILKVTGDDVEVHTYERLSPLV 240

Query: 241 PLKVPLGSYSNIKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMF 300
           PLKVP+ S S+IK GDC+VTFSR+ IY +K+ IE  GKHLCSVVYGSLPPETRT QAT F
Sbjct: 241 PLKVPVSSVSSIKTGDCLVTFSRKDIYAYKKTIERAGKHLCSVVYGSLPPETRTAQATRF 300

Query: 301 NDATSEFDVLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGS 360
           ND T++FDVLVASDAIGMGLNLNISRIIFSTL+K+DG E RDLTV EIKQIAGRAGR+ S
Sbjct: 301 NDETNDFDVLVASDAIGMGLNLNISRIIFSTLQKYDGSETRDLTVSEIKQIAGRAGRFQS 360

Query: 361 KYPVGEVTCLDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHF 420
           K+P+GEVTCL +EDLPLLHSSL SPSP LERAGLFP++DLL  YS+A+P +GLYQILEHF
Sbjct: 361 KFPIGEVTCLHKEDLPLLHSSLKSPSPILERAGLFPTFDLLSGYSQAHPTHGLYQILEHF 420

Query: 421 SMNAKLSSNYFISDCEEMLKVAAIIDELPLGLKEKYLFCISPVDVDDDISSQGLVQFAQT 480
             NAKLSSNYFIS+ E+M+KVAAI+DELPLGL+EKYLF +SPVDV+D+IS QGL QFAQ 
Sbjct: 421 VENAKLSSNYFISNVEDMMKVAAIVDELPLGLQEKYLFVVSPVDVNDEISGQGLAQFAQN 480

Query: 481 YAQKGLVQLREIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQ 536
           +++ G+V+LREI  P  + VPKTP  L+ELES+HKVL+LYVWLS RL++SFPDRE+AASQ
Sbjct: 481 FSKAGIVRLREILAPDRVKVPKTPTELKELESIHKVLDLYVWLSLRLEDSFPDREVAASQ 540

[Close]

BLAST of Spo16755.1 vs. TAIR (Arabidopsis)
Match: AT5G39840.1 (ATP-dependent RNA helicase, mitochondrial, putative)

HSP 1 Score: 419.1 bits (1076), Expect = 4.400e-117
Identity = 207/484 (42.77%), Postives = 311/484 (64.26%), Query Frame = 1


		  
Query: 55  DFTDLTRPHTWYPIAREKKRTIFLHVGPTNSGKTYHALKQLECSSTGVYCGPLRLLAWEV 114
           D  DLT+P TW+P AR  KR I  H GPTNSGKTY+AL++   +  G+YC PLRLLA EV
Sbjct: 255 DTADLTKPATWFPFARAMKRKIVYHCGPTNSGKTYNALQRFMEAKNGLYCSPLRLLAMEV 314

Query: 115 AKRLNKANVPCNLITGQEREEVEGAKHMAATVEMADVTSDYQCAVIDEIQMLGCRNRGFS 174
             ++N   + C+L+TGQE++ V  A H++ TVEM      Y+ AV+DEIQM+   +RG +
Sbjct: 315 FDKVNALGIYCSLLTGQEKKYVPFANHVSCTVEMVSTDELYEVAVLDEIQMMADPSRGHA 374

Query: 175 FTRALLGLAADELHLCGDPAAVPLIKQMLKVTGDDLQIKYYDRLSPLE-PLKVPLGSYSN 234
           +T+ALLGL ADE+HLCGDP+ + ++++M   TGD+L  ++Y+R  PL    K  LG   N
Sbjct: 375 WTKALLGLKADEIHLCGDPSVLDIVRKMCADTGDELVEEHYERFKPLVVEAKTLLGELKN 434

Query: 235 IKKGDCIVTFSRRGIYNFKRKIENEGKHLCSVVYGSLPPETRTKQATMFNDATSEFDVLV 294
           +K GDC+V FSRR I+  K  IE    H C V+YG+LPPETR +QA +FND  +E+DVLV
Sbjct: 435 VKSGDCVVAFSRREIFEVKMAIEKHTNHRCCVIYGALPPETRRQQAKLFNDQENEYDVLV 494

Query: 295 ASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTCLD 354
           ASDA+GMGLNLNI R++F +L K++G ++  +   ++KQIAGRAGR GS+YP G  T L 
Sbjct: 495 ASDAVGMGLNLNIRRVVFYSLNKYNGDKIVPVAASQVKQIAGRAGRRGSRYPDGLTTTLH 554

Query: 355 REDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSRANPQNGLYQILEHFSMNAKLSSNYF 414
            EDL  L   L  P  ++ + GLFP ++ + +++   P      +LEHF  + +L  +YF
Sbjct: 555 LEDLNYLIECLQQPFDEVTKVGLFPFFEQIELFAAQVPDMAFSNLLEHFGKHCRLDGSYF 614

Query: 415 ISDCEEMLKVAAIIDELP-LGLKEKYLFCISPVDVDDDISSQGLVQFAQTYAQKGLVQLR 474
           +   + + KVA +++++  L L++++ FC +PV++ +  +   L +FA +Y+Q   V + 
Sbjct: 615 LCRHDHVKKVANMLEKVEGLSLEDRFNFCFAPVNIRNPRAMHNLYRFASSYSQNMPVNVA 674

Query: 475 EIFTPGTLTVPKTPAALQELESVHKVLELYVWLSYRLDESFPDREMAASQKSICSMLIEE 534
                 +    K+ A L +LES H++L +Y+WLS + +E+FP  E   +  +  + L+ E
Sbjct: 675 MGIPKSS---AKSDAQLLDLESRHQILSMYLWLSNQFEENFPFVEKVEAMATNIAELLGE 734

Query: 535 FLEQ 537
            L +
Sbjct: 735 SLSK 735

[Close]

BLAST of Spo16755.1 vs. TAIR (Arabidopsis)
Match: AT3G46960.1 (RNA helicase, ATP-dependent, SK12/DOB1 protein)

HSP 1 Score: 53.1 bits (126), Expect = 6.300e-7
Identity = 27/68 (39.71%), Postives = 39/68 (57.35%), Query Frame = 1


		  
Query: 291 VLVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVT 350
           VL +++   MG+N     ++F  L+KFDG E R L   E  Q+AGRAGR G     G V 
Sbjct: 741 VLFSTETFAMGVNAPARTVVFDALRKFDGKEFRQLLPGEYTQMAGRAGRRGLD-KTGTVV 800

Query: 351 CLDREDLP 359
            + R+++P
Sbjct: 801 VMCRDEVP 807

[Close]

BLAST of Spo16755.1 vs. TAIR (Arabidopsis)
Match: AT1G59760.1 (RNA helicase, ATP-dependent, SK12/DOB1 protein)

HSP 1 Score: 52.0 bits (123), Expect = 1.400e-6
Identity = 38/134 (28.36%), Postives = 65/134 (48.51%), Query Frame = 1


		  
Query: 292 LVASDAIGMGLNLNISRIIFSTLKKFDGLEMRDLTVPEIKQIAGRAGRYGSKYPVGEVTC 351
           L A++   +GLN+    ++F+ ++KFDG + R L+  E  Q++GRAGR G       +  
Sbjct: 413 LFATETFSIGLNMPAKTVVFTNVRKFDGDKFRWLSSGEYIQMSGRAGRRGIDKRGICILM 472

Query: 352 LDREDLPLLHSSLNSPSPDLERAGLFPSYDLLLMYSR---ANPQNGLYQILEHFSMNAKL 411
           +D +  P +  S+   S D   +    SY++LL   R    +P+N L      F      
Sbjct: 473 VDEKMEPAVAKSMLKGSADSLNSAFHLSYNMLLNQLRCEEGDPENLLRNSFFQF------ 532

Query: 412 SSNYFISDCEEMLK 423
            ++  I D E+ +K
Sbjct: 533 QADRAIPDLEKQIK 540

The following BLAST results are available for this feature:

BLAST of Spo16755.1 vs. NCBI nr
BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
BLAST of Spo16755.1 vs. TAIR (Arabidopsis)

BLAST of Spo16755.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5


Match Name	E-value	Identity	Description
gi\|902233273\|gb\|KNA22974.1\|	0.0e+0	100.	hypothetical protein SOVF_0289...	[more]
gi\|731367217\|ref\|XP_010695490.1\|	5.3e-274	86.0	PREDICTED: ATP-dependent RNA h...	[more]
gi\|590658320\|ref\|XP_007034819.1\|	4.2e-239	73.4	ATP-dependent RNA and DNA heli...	[more]
gi\|590658330\|ref\|XP_007034822.1\|	1.0e-237	73.2	ATP-dependent RNA and DNA heli...	[more]
gi\|720000749\|ref\|XP_010256128.1\|	3.0e-237	75.1	PREDICTED: ATP-dependent RNA h...	[more]

BLAST of Spo16755.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9RVN1_SPIOL	0.0e+0	100.	Uncharacterized protein OS=Spi...	[more]
A0A0J8B9K4_BETVU	3.7e-274	86.0	Uncharacterized protein OS=Bet...	[more]
A0A061EL63_THECC	3.0e-239	73.4	ATP-dependent RNA and DNA heli...	[more]
A0A061EM91_THECC	7.3e-238	73.2	ATP-dependent RNA and DNA heli...	[more]
A0A061ELN8_THECC	2.3e-236	76.4	ATP-dependent RNA and DNA heli...	[more]

BLAST of Spo16755.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5


Match Name	E-value	Identity	Description
SUV3M_ARATH	9.5e-223	69.8	DExH-box ATP-dependent RNA hel...	[more]
SUV3M_ORYSJ	1.1e-218	74.9	ATP-dependent RNA helicase SUV...	[more]
SUV3L_ARATH	7.7e-116	42.7	DExH-box ATP-dependent RNA hel...	[more]
SUV3L_ORYSJ	2.8e-113	43.6	ATP-dependent RNA helicase SUV...	[more]
SUV3L_ORYSI	2.8e-113	43.6	ATP-dependent RNA helicase SUV...	[more]

BLAST of Spo16755.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 4


Match Name	E-value	Identity	Description
AT4G14790.1	5.3e-224	69.8	ATP-dependent RNA helicase, mi...	[more]
AT5G39840.1	4.4e-117	42.7	ATP-dependent RNA helicase, mi...	[more]
AT3G46960.1	6.3e-7	39.7	RNA helicase, ATP-dependent, S...	[more]
AT1G59760.1	1.4e-6	28.3	RNA helicase, ATP-dependent, S...	[more]

InterPro

Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR001650	Helicase, C-terminal	PFAM	PF00271	Helicase_C	coord: 236..341 score: 3.9
IPR001650	Helicase, C-terminal	SMART	SM00490	helicmild6	coord: 253..341 score: 1.4
IPR001650	Helicase, C-terminal	PROFILE	PS51194	HELICASE_CTER	coord: 226..384 score: 10
IPR022192	Mitochondrial degradasome RNA helicase subunit, C-terminal domain	PFAM	PF12513	SUV3_C	coord: 489..535 score: 1.5
IPR027417	P-loop containing nucleoside triphosphate hydrolase	GENE3D	3.40.50.300		coord: 75..181 score: 2.5E-4coord: 240..343 score: 5.2
IPR027417	P-loop containing nucleoside triphosphate hydrolase	unknown	SSF52540	P-loop containing nucleoside triphosphate hydrolases	coord: 72..350 score: 4.73
None	No IPR available	PANTHER	PTHR12131	ATP-DEPENDENT RNA AND DNA HELICASE	coord: 29..536 score:
None	No IPR available	PANTHER	PTHR12131:SF2	ATP-DEPENDENT RNA HELICASE	coord: 29..536 score:

GO Annotation

GO Assignments

This mRNA is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0008152	metabolic process
molecular_function	GO:0016817	hydrolase activity, acting on acid anhydrides
molecular_function	GO:0004386	helicase activity