Spo23070 (gene) | SpinachBase

Overview


Name	Spo23070
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	Cleavage and polyadenylation specificity factor 30
Location	SpoScf_00714 : 124415 .. 149330 (-)

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR

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

TATAACAAAATATACTTATCTCCAAAAGCCAAACGCAGTCGTTCTCCAAACGCCATTTTCCAATTCCAAAATTCCAATGCTTCTCTGAAACCCTATTCCGTTCGCCATTAACAATTCCTCCTAACAACATCAATGGAAGACACAGAAGGGGGTTTAAGCTTCGATTTCGAAGGTAACCTCGACACTGTCCCTAATATTCCCACTGCCTCTAATCCCGTCATCCAACCCGACCCAAATGCTGCCCCTTCCGCCGGAGCCTCCGTCCCAACCGGTGGGTCTGCCCCTGTTGACCAGGGATCAGGGCAAGGTAACCGCCGAAGCTTCCGGCAAACCGTTTGCCGTCATTGGCTTCGTAGCCTCTGTATGAAGGGGGATTCTTGCGGTTTCCTTCACCAATACGACAAATCTCGGATGCCGGTCTGCCGTTTCTTCAGATTGTATGGGGAGTGCCGTGAGCAGGATTGTGTTTATAAGCACACCAATGAGGATATCAAAGAGTGCAACATGTATGTTAATTTTGTCACAATTTTCACTTTTGTCTGTTATTTTTTATGTTTACTCGGACTTGGGTACTACTCAAGTACTCATGTCCAACTGTCCAAGTGCCTGACTTTACTAATTTGTGAAACATGCCATGATTTTTGCCAAAAATGAAAAGCGTATTTGAATCCATACCCACGTCAGAAGTGTAAAAGAATCCGTTATTGGGGCTTGAGGTGAAATGAAGAGTCTGATCAACTTCGGTTATTGTTTATGTTATTCTTTATGGTTCGATAATAGTTTTATTATTTTGAATTTGGTTAGTGTTGAAGTACGGGGAATTTAAGCAAGATAATCATTTTGCATTGATGGTTCTTTATTGTATATGCTTATATTAGTGCTACTAGTAACTTAGTAAGTGATGTAAATTGGGCGTAAACCGAATTCCAAAAGCTGAAGATATATGCTTTTATGATTGGTAGGAACTTTGCATTGAAAAAACTAGGGTTTACAGGGGAGAAAGGATAGAAAAGAGAAAGGACGATATGCTCAAAACCTTAGGTAATCCTCCATGACTCATTGGTAATAAATAAACACTCTTTAGAATTGATTTATATAAATGACAGGAATTCTTTGGTGGTATTGAATGTATTTCTTGATAAACCTAGGAAGCACATCAGTAACTAAGTCAAGACTAACCTTTATTCTCCCAGTTAAAAGAGCCTTTGTTTAGATTGGTAATTCAACGGTGACGACGAAGCACAATTTTTTTGGTGAAAGGGCTCAATTCCTTTCTCCATTGGACACTTAGGTATTCCTCCTCCATGACCCATTCAAGAGCCGTATGGGTTTACGACTTTGGTTATTATGAAATTTGTTACTTTGTTTACTTATCATCATTTCAAGAGAGAAATTAAGGAGAGGAAGTCGAATAAGCAATAAAAGAAGAAGGGTATACCCCATTGCTACTTATTGAGTGGCTAGTGTGTAAACAGCTAAGGGGGGCTTTGGTTTACAAAGGGAAAAGGGAAAGGGGGATAATTGGAAGCTAAACCTTAGATTTACCAGGTTGTTTGTTTCAGAAATAAATAGAAGGTTCAATGTTCAACCGCTACATTTTCCTTCCCTCTACAACCACCACCACCACCACGGCACCACCACCACTACTGTCCTTCGCCGTCCATCCTCTTTCCCTCGTGTTTCCGCCGCTGACGGCACGTCCCTTTTACTCTCGTCTTCCGCCACCGCTGTTATTCCTTCCTTCTCTCTTTATCTTTTTTTATACAAATAATCTCTTAGATTTGGATTTTTTGTAACTTCTTGTTAATTGGGGACTTGGGGTTGTATTTCCTCTGACTGGGGTGTGAATTTTCGGTGGCAAGGGTGGGTTGTCAGTGACTGGAGTGTGATTTTCGGTTGGTGTAGTGGGATTTCGGTGGCTTAGGATTTTGCAGCTGGGATTGTAGTTGCTTTAGGTGGTTGAAGTGGTTTTCGGTGGCTAGAATGTGGTTACCGGTGGGTGTAGTGGGATTTTCGGCAGTTGGGGTTGGTTTTGTGGATGGTTAGTGGGTTTCGTGGTGGTTGGTAAGTTTGTTGGTGCCGGTGAGGAAGCAACGGTGAAGATGAAGGCGACGGGGCCACGGCGGTGGTAGGTTGGGCGGTGGCCAGTGGGTATACGGTGGTGTATGGTGCATTATTGGCTTCGGGAAAGAGAATACAAATGCCAAGGCGGGGTAGGGAGTCATTTTAGAGGAGTTCTGGACTTTTGGGAAATGAAGGGTGTAAAGGGAATGACTAAAATTACAATATAAACAACAACAAGGGGAGTTAGCTCTGCTCATTCTCTTTCCCTTTCCTGAATTTTCTTCCAAGTGTTTAACAAAATTGTAAGGGAATAACCTAAACTGTTATCGCTTTGGCTACCTATAATATGTTATCTCTCTGCCCTTTTCTTGGTGAAGAATGTCCGTGTATGCGGTTTAATTTGATTAGAGAATGGTAGGCATAAGGAGTATTAGTTGTAAGAGCCAAGTAATAAGGGGGTCATTTATGTTGTTGCCATAATCTTAAAGAGGGTGCTTGGCTAAATTTTAGGTATGAGTTAGGATATCAAACATTCAAACCCATAGTTTTTATGCTTGAAACCTATACCTAACCAAGTGTTTAGTTGCATCATAATAACAGACCACCCCTCCCTCTTTTACTACTTTTCTCTTTCCTCACGTCTCCATTTTCTTTAAACCTTGTCCACCTCCTCTTTTCCTTGTACTTACTACCTTTAAAAGAAGTTGGACATTTTCAAATATTTCAGCCCTTTAATATATAGAAAAAACTCGTAGGCATTGCATGGTGATAACCCCCTTGAGCCCCTCATGAATCTCTTTAACGGATGATACTCCCTTTTTTATTAGTTTCAAAATCTTAGCAAGAAGGTGGTAGGGGTGGTCAAGGTCGACTTGTCAGTTGGGGTGGAGAGGGTAGGGTTAGGGGTTTAAGCAAGAAGAAAAAAAAGAAAGAATGTATCCAGTGTATAAAAAGGCGCGAAAAAGGCGCGCCTAGGCTCTAAGGCGCAAGGCGTTTGGAGCCATCGCCTTTTATTGTCTGGACGAGGCGATTTTGATGAGGTGCACCTAAGGCGCAAAAAGGTGCACCTTGAGGGGCAATAAGGCGCACCTTGAGGCGCACCTCCTGAGGAAAACACCATTTTTTCACATTTTTTTTTCACTTTTTAATAGGGCGCCTCACTTCAATGAGGCGCACCGAGGCGCGCCGGGAACACCAAATCGCCTTGATCCTTTTTATACATTGAATGTATCCCAAATCTAAAGAGGGAAATAGGCTGAAAAAGGTCTAACAACCGAAAAATCGGCTGCTACTTCAAAAACTCTTGGCTTATAAGGTGCTTCCCCACAAAAGTATAAAATATCTTCATAACTTCTTTCTAAAAGGTGCAATCCGACTTAAAATCCTTCTTTAATTTTTGTGGTAAGTGACAACATGAAATGTATGCATCTCATAATCTACAATTCCTTTTTCTCCAAATTTATTTCAGAATAAGTATATTTTCTACAGAGTAAGAGAAGCTGATTAAGTTGCCTCTACTTTGTAGTGGTTGTGATTTCGTAGTTCAGTCAATCTTTCTATTATTGGCCCTTACAAAAAACATCATCTGTGGTAGCACTGGGATAATGATAAGGCTATACTATACACATTTAAAGCCGTCCTTTTTCCTACTCGATGTTTGAGCCTCGTGACTGCGTCTACATGTATACATAGCGTAGAGATCTAGTGAGAAATTTCTTAAAATGGTAAGGCTGAAAATATTTTTTGGTTTTCTTGCAAAATGATGCACAATCTGTTAAAAAAATGTGCATAAGAAATTTGAGTAAAGTAAAGTTGCACATTTAGTAAAAAAGTATGCATATTCAGTTCTTAAAATATGCACATAAAAGTCCTTATTTCAACACCTTTCTCATTTGACCATGATCTCCTCTCTCTTTTCCCCGGCCTTTGTTTTGAAACCCCGAAGTGATTTGATCGTAAATGGCTTATGATTCAGATGTATATCGTGCTCTAGTTCCCAACTAAAAGATCTAGCATTCACTAGAAGAACACATGTGTCTGGTACAAGCCGTGCAGCCACGCTATAACAGAAGTTATTATGTTAACGTTGTTGTTTCTTAAAGGCATTGTATACTTGGCATTTCTTTATTTCATTTTTTTAGTATAATGAAATATTGAAATGTCTGCAAATTTTATTATTTGCTAATGGTGTCACTGATCTTAGGTACAAATTGGGTTTTTGTCCAAATGGGCCAGACTGTCGTTACCGACATGCAAAGCAGCCTGGACCTCCGCCTCCTGTTGATGAAGTCCTTCAGAAGATTCAGCAACTCACCTCTTACAGTTATGGTGCATCAAATAGATTTTTTCAACAACGGAATACAAATTATTCTCAGCAAGCAGATAGATCACAGTTTCCACAAGGTACGAACAGCACAAATCCAGGTGTAGTCCCAAAACCTTCGGGAACAGAGTCCTCCAACATACATCAACAATTGCAGCAGCCTCATCTTGCTGGCCAGGACCAAATACAAAATCTTCCAAGTAATTCATCCAATCAAACAGGCAGGACAGCGGCTCCACTGCCTCAAGGGATAACTAGGTGTGTCCAGAGTGCTAAAGTTTTCTATTAGGTTTATGATTCAAATTATTGTATGTTATGTTTTATTTGAGGGATAATATTTTTGTACAAGCTGTAGCTTTGCCTTTGCACATATAAAAAATATATCTGGAGCCTGACATATTTATATATAAAATTGTTCCACAGTTGCTACGCTTAAATGGTGAAATATGTTTAGTTTCATCTCATAATTGCTGATATTTACAACGTTTCTATGGTCCAGGATAATGGTCTCAATTTCTTATCTTTATAGTAAAGAACCCTAGTTTTCTTTTAGTGTGATACTCCCTCCGTCCCGGAATACTCGACCCGGTTTGACCGGCACAAAGTTTAAGGGACTTGAATTGACTTATTTAATTTAATAGGTAGTAGTTGATAGTGGGGTATTATTTTAATGTAGTTAGTGGGAGGTGGGTTAAGAGGTGGGGTTGGGGGAGAGTAGGGGTTGAATTTTTAATTATTTTTTGTATGGAGTAGGGGGTAGGTGGGTTAATAGGGGTGGAGTGAGAAATAATATAATAATGTTAGAATATTTCCGATTTTAGAAACAGGTCAAGTATTAAGGGACGGCTCGATAAGGAAAACAGGTCAAGTATTCCGGGACGGAGGGAGTACTTTCTAAGGATATATTTACCTATATAATTGTTTGAGATACTGATCTGTATTACTTTCCTGAACAGAAAAATACAACTATCTCTAATATAAAAGAAATCAGTTATTGGAGTGGGCTACAAAAGGGATTTAGTCCCCTCTTTGTTAGTGCGTCGAACCAGTAATTTTTGGGATCTTTAGATGAAAGTGAAACTAATTGGTATAATGTTCCCATAATAGAATATTTTTCACTCAACATCAACAAATGAAAAAGATATTGGAAGGGCTAGGGGAAAGGTGCAATCCTATATGTTTCCATATAGGGAGGGACCTGTAATTTTGAAGATCCTTAAATGAAAGTAAAAGATAGTAATTTATCTTCATGTTTTGGCTTGTAAAAGTAGGATGAGTATTAATGTATTATTTTTGTGTAACCTATTCTTTGGTGGCCATTGTAATGGTGATGATTAGTGAAAACAAGACATGTTGAGCACCTTTTCTGACATGTTTGCTTTATTTTTTAAAATACTCCGTAACATGGCTGTTGTGCTCGCCCCTTTGTTCATATTTTCTTTATTAATTAGATCAACAAGGGAGGGAGGGGGAGTGTGCATTGAGACCTTATGCAATTTGCCTTTGGTTGTTGGCTGGTTCCTTTGAAGCTACACTTAACTTGTTCCATTGAAAAACGGGTCCAAGATAATGGTGTTTTGCTAAAATGTTAAACTTCTAACTTTTTCTACAGGGGATTAAACACTTAATAGAAAGATTACTACTTAGAACGTCTGATAGTAGATTGGCTTAACAGCAGTGTAGTAGGAATTTATTTTCATGAAATAGCTAGGGCATGCTGATTTTCTTTGTCCTTAAATATTTCCTATCATTTTACTTTGCCTTTAAATATTTCCTATCATTTTTTGCTTTTTTTTTAGTCGCATTGATTTACTTTTTCAGCACACCATTTGTGTTTTGGTGTTAGTCCTCTGAGTCTCATTTAATATTATTCTTTTCTTTACATCAGGTGCAAGTTCTTTGAATTCTTTATTATTATTAATTAATTAGGGGGCAGGTGGCGAGTGGGGGAGGCTGTACCACCTTGGTCCAATCTTGCTTGTCTAGTAACTTCTTGTAGTCCCTATACTTCATTAAGTTTGGGCGCCTTTGGAGTTATATGAATTTATTAGAACTTTCTTTTGGCTTGAGGTTGGAGAGAAGTGGTGATATCACCTTCTGTGTCGGGAACGTGATCTTTAAACCTAAACAAGACGGAGACTTGGGTTCGGGTAGGTTGAATTCGACAAATATGTAACTCAATAATTTTTCTATTGGATGGGTTTGTTAAGATTTTGTGGTTGTGGTTGAGCAGCTGTTTTCACCATATCCTCTCCCCTCTAAATAAGTTCTTCTGGTTTTTAGTTGGGACCGTATTTTTCCGAAAATCATTTTTAATTTCAGAAATTTATGGGATGGTGATATTATTTTGTTTGTCCCAAAAGTTTTTTTTTATAGGACCTTATTTCGATACTGCACTATGATTATTTGACCAACCTCTTATTTCTGTATACAGAAATGCCGTTCCTTTCACTTCCAGTGGGAATAGGATGCCCACTTAATTTCATAATATGACTAAGTATTATTTGCCAATTCATGTGTCAAGTTGCCACATTAAGGAGGTAGTGACCTGTGTAACATTGTTCTTTATTCTGTTTTGGGATGTGGAAAGGTGAAGTCCTCCTTTATTGACTTGTTAATGTTGTTGAAGCTGAAGCTCTTGACAGAAAGTGATAAAGTGAACCAATGCATACCCTGTTTGTAGGTTAGAAGTTCTAGTCAGATGATGTATGCATCCAGCTGCATAATGTGGAGGGCAGGGACTTGGAGACTGGTAGCCAACTAGCCACCTGTTCTATGTTCTAACACTGTTCAAGTTTTTTTGCGTGAACAGCCTTAAAAATTTCACCCCTAAATAGTGAGTGGCTTTGTTAGTTCTGTGCATTGATCCACGTGCTATATTGTTGTTATCGTGGTGATTTTTTTAGAGGATGGTGTTGATGTTGGTATTGTTGTGTATAATTGTTGTGTAGCCTGTACTTGTGCAGAGTTGTGCTACTGCCTATCTCAAATCCTCCTATTATCAATTTTTTTATACTTTGAAAGATATTGCCGATATTTTTGTGACATAGCAAGGCTGCTATACAAGTAATATGTTGACATTATGCGAAATAAGAGCATGTTTTGATTTACCTTTAAAGCAAACTCATCTAGCTTCACATGGCTCTCAGACTCTCTTTCTTGCAGCATGGATACTTAAACAAGCATGTTCAATGTAAGTAAAGACGAAACAGGGGTAGTAGGGATTAGAAGGGAAAGGTTTAAACAAATATACCAGATAGTGTATGTGGTAAATGGGCATTTGTGTCATTTCAGCCGCATTCCCCTCCCCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCCCCCCCCCCCCCCCAAAAAAAAATCTTGGATATACTTTCTTCATTGGGATTCGTGGAATACAGGTATTTTATTGTGAAGAGCTGCAATCGTGAAAACTTGGAGCTATCAGTTCAACAAGGTGTGTGGGCTACTCAAAGAAGCAACGAAGCCAAACTGAATGAAGCCTTTGATACCGTTGAGCATGTTATCTTAATCTTTTCTGTCAACCGTACTCGACATTTTCAGGTGGGGCTTTCAAATTTCTTTGTGGTAATTTAAATGGTGATGGGTTGGCCAGGTTTGCAGACCTTACAGATAGAATGCTTAATTTACATGTTTAGGGCTGTGCAAAGATGACATCAAAAATTGGTGAGACTGCTAGTGGGGGAAACTGGAAGCATGCGCATGGGACGGCTCATTATGGGCGGAACTTTTCTGTCAAATGGTTAAAGGTACTTGTCAAATGTTATTTTTATTTGTTAAGGGCATAATGTGTATAATTTAGTTATATACTAGATTACTAGTTGATGAAAAGTGTGCGCTGTTGTTTCTTAATGAAATAGGCTTGTGCACGAGTCAATTCATGCAAACATCAAAACCAATGCAAACCATATAATATACAAGTTGGAAAGGCTTCTTTTATAATCTTGTTACAGTATATCGATGTTCGAATAAAATTCTTAATAGACTGGAAATGTCAGGGCCTTAGGGGGAGAATACATGGAAATGCAACCAAACTTATCGGAATGGTACTTTGTCAAGACATCCTTATGACTAGGAAGAAAATGGTCTCAAGAATTATAGAGAACTTTTTCCTAAAGAGGAGGCTTTGGAGGGGATTGACGAGTTGGTATGGGGACAAGACAAGATTCTTTAGTGAAGAGCTTTTGTATTCACCTTGAAAGAATTTTATCATTGTTCCTCCCTGTTATTTGGAAGACTAAAGCTTATCTTAGAGCTTTTTTCTTTACTTAGGTGGCTAAGATTTCAGCTGAGGATGTTATTAAGTCAAAGTATTTTTCGCATTGCGAGTCTTTGTAGTTTGTATCTTAAGGAAGAAGAGGATGTTAATCATCCTTTATTCTTTTATGCTTGGGGTATCTTTCTCTTAGGCACTTGTCTTTAGCCTTATTTGGAATGAGCTTGGTGTAAGCTTTTGTAGCGAAAGATGCCCTTATAGCTATGGAAAGAACAATAAGAAAGCTTGGCTTATAGCTATGGAAAGAACAATAAGAAAGCTTGGCTTATAGGTTTAAATGGGAGTTCTGTTGAGGAGAGAGAAAGTGTGGAGGAAGGAGAAGCAGTTGGTGCTGCGATTAGGCAACCTTTCATAGGTTAATTAAACATTGAAAGGATCTTTATTTTTGCCGGTAGTTCTGCTAGTGTGAGTTAAATTTACAGCAAAGAGTATAAATTGCTGTTTCCGAAGCAAAGAGGAGGGGGAAAGAGGATGAATATGGGTTTGGTTACACTATTTTGGTTTGAGAAGAAATCTGTGACGATCTTTGTTGCACATGAATCAGGTTTACTGTTCTCATGGTGGATTGGAATAGATCGTCAAAGTCGGTGGCGGGTGGGTGTGGGGATCGGGGGAGTTGAATGAGTCTGCATAGGTAGTTGCCAGTAGGAGGGTGGGGTGGTGGAAACTCCACCTTGAATTATCATTTCTATTCCATTCTTTCTCCTCCTTCAATATCAAAACTTTAATCTAAACGGAATAAGTAAGAATAGGAAAATAAAAAGGAAGAATAAAGAGGAAGGAGAGCGAAAAGCTTGCTGATTTTTCAGGCCATTCATGGAAGACATATTAAGGAAGAACAGAGGGGAGGGGTCCACATTTAATGAAATTTACCTGTTAGGTTATTTAATTAGTAAGACTGTTTAAAGAAGGCAAACTATATAACTGGGATTATTCATAATACCGTAGTTGAGATTAAAATGAGAATACCGCCCCATATTTGAAGTTATTCTTGTTAATTTTTCCTTTCCTTTTTTGTATTATTTCAAAGTGTTGATAAATGATAATTTGGTAATTCGATTGAATTGTTCTCACTTCTCACGGTCTGATTTCAATCTCCATGAAGTTACTACATTTTGTCGTGATTTATAGGTTATAAAGAAATAGGTAAACATGGACATTGTTTATTTTTTGAGGGAAAGTAAACATGGACATATTTTTTTTTTTTGAGGGAAAGTAAACACGGACATTGTTTGTCAGCCACTAATTGAGGAAAAATGAAGGCGGAAATGCGTTTGGGACGACATTTTGGGTAATTTCCGTCAATGATAGGGTGGAGTGGCAACCCGAAACCCGAAAAATCTGGTCTAACCCGAAAAACTCGATCTAACCCGAAAAATCAGATATAACCCAAAAAACCCGATCTGATATGAACCGATCTGATATCGACCTGCTCTGATATCGACCCGAAAGCTTGACACGAATCGACCCGGCCCAATTATATAAACCCGAAGTAACCCGAAATCAAAATGGACCTTACCCATACCCGAAACCGCCCCGAAAGACAAGTAACCCGAAATGACCCAACCCGAATGGACCAGATCAAAATCCGATCCACACGACCCATAGTTGCAGTTGTCATAGTTGGAGTCGTAGTCGGGGTAAGACTTAAGAGGCGATGAAAGTCAACTAGTGGAGAAGCATTTTTTTTGAGATAAAATAAAAATCAATCTTAAAAATACAAAATAAAATAAAATAAAATCATATGACCAATGAATATGCCACGTGGCATTTAAACCTTATTAGCATATTAGGTAAAGTTAAGAATCATTTAAAGAAGGAACCCCAAAGTTGGGACTACTCTCAGTTAATTGGATTGTTTAAAGAAGATGGGTAATAGCTGGGACCAATGATACATGGAACTTGGGTACAAGCGGAACGTGGTACGGGTACGTGGAACGCGGAACGTGGCCTCTGAAGCACCTGGAACGTTGGTCTTTAAATAAAAAATAGTTGTGAAATTAATTTGATTTTTAAAGTTAAAAGTTAAAAGGAGTAGTGGGTAAAAAGGTACTCCCTCCGTATTTATTTAAGGGATACACTTGCCTTTTCCGGCGGTATTTATTTAAGAGATACACTTGCCATTTTTAGTACCTTATCACCCCACCATCTAATTAAATAATCTATCTAATATATCTTATGTCCCACCACCCTATTAAACAAATAATTTCAGAACTACACCCCACCCCCCACCCCCAACCCCCTAAAATGACATGGTCCCCACTTGTTTTACCTATTAAAATATCTACCCAACCCCACTTGTTTTATTATTTTATTTCATTCAATTGTTCTTCTTAATACCCGTGTCCGGCCAAGTGTATCCCTTAAATAAATACGGAGTGAGTAAAATACATTTAAATAATAAATAAATACTTGGTATGGTAAAAAAGGCAAGTCATGTGGGGTCCCAGAAAAAAAAGAAAAGAAGTAAACTATGAGTAAATAATCACGTGCATTTTGGAATGGCTTTAAAGATTCCCATTAAAAGTCTTTATCAGTTTCCCAAGATTCCCATTTATTTTTTTCATTTTTAAAAGGGAAACCTCGTGACCAAAAGCCCCTAAGATCTTGTAGAAGAAAATCTTATTTTTCTCCTTCAATTTTAATTCAACAAAACGGGTCGCGTTTCAACCACCTTCCGGGATGAACGAACCCGGTTCGTGGAACGTGCCAACGTACCACGTTCCGTGTAACACTGGTTCGGACCGATTGCGTCAACTTTCCTTAAATTTCAACAATTATATAATGAAAGACATTATGGTCAAGGTGAGTATATAATTAGTGTAAACAGTCCAAGCGATGCATTTGTTACGAAATGGAGGAAGTATAACTCATGGACTATGTGAAAGATGATCAACCACTTCTTGAAGCTCATACTACGGGCCTCCACCTCCAAAACAGGAGGTGGTACACACACATCTCAAACAAGGCTAAGTGTCAAAGGGTTAAACTCACAAGGACTATGTCAAAGATGATCAACCATTTCTTCCTTTGGGTCTTCAGTGACATATTTCATAAACTACAACTTTATGAATAATATTTTCTCTTATGAATATCCTGGTCAAAGCAAGAGACAAGTTTTAGAGGACTTCATCTTGTTAAATATCATTAGCAAGAAGATTTAATGAGAAATCAGAAATCTCCATTAAGAGTGTTACAAGAACTTTAGATAGGAATCTGGCTCTCATATCATGGGGTTAAAAAATTTCCTTTGTCGCCATTCTTTCTTGCCCAGGATGACCTCTTTGAAGAAAATAAATGTTATAACTGTAACACCCCCGATTTACTAACTATAATTAAATAAGAATATGAAAGACTTCATAAAAATTGTGGAAGCTTACACCTAAATCGGAGGTATTACCGCCACACTTGACCACATTGTCAAGTGCTAAGGCTAACAAAACTATAACTATTACAACTCGTCTACTAGATGATGTATTTACAACTTTATAATTGAAAAGTATTAAAATGTCATAAAAGACTAAACGATAGAATTTGAGCTCCTTCAACTTGTAATTGCGATCCTTCACGATCAATCTGCTCCAGTCAATGTCGTCCGCTCACTATAGAGCCTAGAGGACAAATTCAAAAAGGGTCGTCGCAGGGCCACCATAAGAAAAAGAAATGCCACAAACACACATAACAAATAAACACACACGTCAGCATTTTGCTGAGTAATCACCTGAAATAAAAACATACTAGTATAGAATAATAAATGTTCATGTAAACAATGTAGTACGAAACTACACTTCAAGTATAGTCCCAAAAGCATACTTAGCTCCATAGTCTATAGATACTCTAGATCTTCTTTTCAACTGAACCTCAATATATTGATATAATTTTTTTCCTCTACTAAACATATTTAAACCAATAGGTGCCATGTTTGCTCTTTGTTTTACGCCTAGCCTTGGACTTGGGTAATTTGAATAAATAAACCAACAAGTATAAGAACTTGAAACTCTCAATAGCTACTAGAAAGACTCTCTGAGTCAAAGTCACATTTGGACCAAATCCCGCTATGGGGATATTAGAAAATAATAAAGATTGTATCTTGCTCCTCTACTAATGGTTATCATCTCATTACCAACATGTGAAGGACTAAGGTCTATAACGCTGAGCCTTAAACCAATAACATAAAAATTATTCTCAACCTTTTCTCATTTTCTGATCAACATAATCGGTACCCAATTAGGGTTAAATAACATACTTCTTAATATTGGCACAAGATCCCAAAATAATATAACTCATTTAATTCAATAATCACTCCTTTAGGATAATCAAGCTAGTACTCAAGTATAATTGCGACCAATCTCAAACTAAAAACAACCGAACTTCAAAAACTACATAACTCAATGCCAACCCAAAATAACAAATTAAGTCTTCCACGACTCTACTCTATTATACAAAACTAATAACGCTATTCAACTCCACCGTTACTAATCACAAAGATACAACACAATTGGATCAATAAAGATATAAAGGTAAGATATATTGCACCACGTATAGGAAATCATGGACATCCAGAACAACTGAGTAGCGAACATATACGACACAATTCCAACATTATTCGTGTAAATATCCAGAATATTAGTAGAAACACCTCCAAATCGATTAAGCGTGTGTGATTACACATAGTAATAATAATTCACACTATACGAATGACTCGAAAAGACTGGGTGTGCGTGATTACCTTCCCGTAAAATAAAACACAATACCGAAAATCCAAGCGAGTACAAGAATCTGGTGGCTGCTTCTCCTTGTTAAACTGATGGGCATTATATGAAGATAATAAGAATCATGCGCATAACAATATGACTAATGGGTATTCTGTTGTTGGTAACTTTGAAAAAGGGGTAATCACATTGCAATTATGATCGAAAGGCTAAGTTTGTACAATTGTATGGGTTTGATTTTGATAGAAGGTTTTATGAAGCTTTGACCCACAAACTCACAAGAAGGAAGAAAATGACGGCAAAAGCTAAGAAAGTAATTAGGGCTAACGGAAATACGGAGTATGTAGTACTTATAATAAGGGTCCTACTAAATTTAAAATAGCTTTTTTAAACTTTCCAAAAATATTAAAAGAGACTTAAAAAAAAGGAAAACCATTTAATAATATTTATAACATTATTTTCGATATAAAATATATTTTACGAAATCATAAAATATTGGGTATTACAATAACAGTGGTAAGATGGAGTCTTTCTCCCATTAAAAAGTCCTGAAAAGGCACATTTTAATTAAAATGTTTGACATTATTTGCTAATACCTCTTCAAAAGTGCTCCCTCTTTTTATATATTTATTTTAAATGCATCACTTGTATGGGCACACAGTTTTATGAGGCCCATGCGAAAAGTGGTGCAAGTGGACAAGTAGATAATTTATCTATTAAAGTAAAACAACAATGGGGACCATGATAGAGATAGCATGTGAGAGATTGTGGTTTTTTTAATTATTTAAGTGGAAACCATGAGATAGATAGAAACAACAAAATATTTTGAGTGGGGATTAATGAAAGGGTGAAATATCAAAATATGGTAGAAAGTTACCAGATGTAGAAGTGAAGCATTTTTTTTAAAATACTCATAAGAAGCAAATGATGCATTTAAAAAGGCGTAGGAAGAAACTTCCTTGGGCAATCTGTTTTGGGCTAAATCAAGAAAATTGGTCATCAAGGTTTGATATATCATACCAGACGAAACTGTTCTTAGACGAAACTGTTCGTAATATTAGATTTCTATTCACCTACTGTGTGAGAAGATGAGACATTACTTTACCATGCTAGCCTCTTAATATCATTGGGTTGACAAACTTCCACAATGCCTCCTCAATTGCAAACCTTCAAAGCCAATTTGCTTATATGTGACACACATCCATTGTATGGAGGATCCTTTTCCGTGACCTCCAATATGCTTCAGGCGAGACACTTCTTCCTACTTAACCTAATGAAGGCTCTTCATTGTTAGTCATGCAGATAGTTGATTCAGTAACTGCATTATGCAGGATAATGAACATGGACATTAAGTAAGAAAAATGTTAGTAGAAGATACAACACTTGCTATTTCCTCTTAATGGAGCACCTTCTAAGACCCAGAAAGGAGATGAGAGAAACTTTAACCGAAAACAAACCAAAAGTTATATTATCTCCAAATTTATAATCTCTCAAGAGTCTCAACTGAAAATGTTGTACAAATTGAACATAGAAATATGTCACGAGAAACATCAGTACCCTCCCTTAAATATACAATATATTCATTCCTCTCCAGCCATATTCTCCAAAGGTTTGCTAACGTTGCAGTTCACATGAATTTTATTTTCCTTCATCCTTCCAAACTCCAGAAATCTAATTTGTACTCTCTCCGTCCCAAATTACTCGTTACACTTATATTTGCACAAAGTTTTAGGTGATAAGTGCTTGTTTGGTTATCAATTGTTATTTTATTGAAAAAGTACATGTAATAGGAGTTAGTGGGGTATTTTTTTAATTGAATGAGAGAGGGTGTGGAGACAAAAAAATATTTAGTGGGAAGAGTGAGACAATATAATAATTGTGGGGTAATTCCTAATTTAGAAGTGTAACAACTAATTTGGGAAGGACGGAAAAGGAAAGTGTAACAAGTAATCCGAGATGGAGGGAGTAGCTAATGCAGAGGACAAACCCAAGACCCCTTAGTCATCGTAAAGAGTCTTCTCCATTGAATAAGAACAAGTGAGCAGTGCTGCTAGCTTGAAAAAGCAAGCAAGTTTCTGGCGAAATTCTGTTGGAGCGTATCATTTGTACTGCTGATCCTGCCATACCAAGAGTCCACACAAATACTCTCACCTCAAGAAGAACCTTGGCCTTCTAGATATCATTTTTATTTATTCATAGGTACTTACGAAACTGTGATGAAGGTTTTAGCTAATGATGGGAGGCATCTCTTATGTCCGGACCTTTTCGGTAACTGGAATGTGTATAGGTTCAGTAGAAGGTGACGATTGACAAGGGGGTTGGTGTTCAATCTAGACTTTAAGAAGGCTTAAGACAAGGTATATTATATTTTTCTTGGTTTGCTGAATGATGCCTGAGACGAAGAGGCCCTGTTAGGGAAGATTTATGTTTCCCACCTCTATTTGTGGATGATGCTTGATTATTCTTGGTTACTAGCTTGTATATATTCAAGCAGGTTTTGTTTCATATACTTTATTTGGTTAGTTTTTAAAGTTATTTAGGGATGAGGACCATCAAAGAGCTTGTTTTGTCACAAATTCTTATTTATAAGTGGTGTACAATATTTATTGTACACCAGAGTAAAAGTTGACTCAAAATTCTTAAAAGTTACCTTTATATATGTAAAAGTTATCTATTTTTTAGTGATAAAATTTTTCATTTTAATAAAAATTAGTTCTTCGAGATCACTAATAATGTATAAAATTAATCATGTAACCCTTTAAAATGTTTATCTATCAACTTTTTATTTTTATTATATAAAAGTTACAAAAAATTAGGCTACAAAAAACTGCATAAAAGTTATCTTGGTGTATATTACCTTGCTGCAGTTTTTGTCTTTAGCTTGGTGCCATCAAAGAGCTTGATAAGTGGAAAAGAGTCTATTTCTCACCTACCGTGATTCTTTATTTTCCAAAAACAAAAGCACTCTGAATTGTTTAATTGGCAACAAGTCAGCACCCTGGTGACATGTTCTTTTCATTTCCCGCCCCTGTTTTTAACCTCAGTAATAGGCAAAGGTCTTAATAGAGTATGTCATTTAGCTTTCATTTTTAAGATGCTATGTTTTTGTGTGATGCAATGTCTTACTTCCACAAATAAATATTGCGGTTTGTTTCTAAAACTTGTTCAACCTATCCATTTCAGCTGGCTGTTTTATAGGTATATATTCATGTATAATAATGACTTCTTGCTTCATTGTTGCAGTTATGTGAGCTATCTTTCAATAAAACTCGGCATTTGAGGAATCCGTACAATGAGAATTTGCCAGTGAAGGTATCTTCATGGATATGCTTAGCCAACAACAGTACTGTATTTTTGCTTTTCTATTTTTCTCCCCTGTCTCCTGCTTTCTCTTTTCCTTATCCTTCCTCGTTTCGCCTCCTATTTTATTGGAAACGTTTTCTCATTATTCAATCAATAGCTGTCGGAAAAAGCACACATGGGGAGGTTGTTCAAGAACAAAGCAGCCATTGACGCCTAGAAAAACCAAGTCGATTTTGCAGCACTTTTTTTAACTATGCTGTTGCAATTAGATTGCATACTAATGGCTATCTAGTTCCTTTTGCAACCTACACCGATTTCTAAATGAATTACTCCCTCCGTTTCACAATAAGTGCAACACTTTTCGTTTTTGGCAACTTCAACTAATATTTATTCTTTCTCTTTCCTTCCACTTACCCCACTTACCCCATTTTCTATTCTTTTATTACTACCTTATCTTTGTTTAATATATCAATTACCCACTTGTTGAATTATACACATCAAAACAAATAATTGCATTAACTCGTGAAAAAGCAATTGTTGCACTTATTGTGAAACAGAGGGAGTACCAAACTTTATTTGTTAAAAGAAATCAGTCACTAAAGTAAAATAATTGTAATACGGAAGTTAAAGACTTAGACTTTGTTCTTGACTACAGTTAAACCTGCTGTCTCTTCATCAAAAAGATAAGGTGATCAATAGTATACTGAAGGTATGATCCGAAACACATACTTTAGAACATTGAATTTCAATGATGAAAAGGAAATTATCCAATACATGAAAAACCTTAATAATGGCCACAATGTGCAATGCAACACCTGTGAGATGCCATTTCCAGATGTTCATGGTTGTGTCGCGATTAGGTTTGGTAACATAATGGATGTCACGGCCGTTCATGGCTGTGTCGCGATTTGGTTTGGTAACATAATGGATGTCACGGTCTTATCTTAAATATGTTTTCCAGGACGGCTTAATTTATGACCTATTATTTTGATTCCTAGGTGGCCAAAAGGAATGGAAGTTAATTGTAAAAGAATGATCCGTGAAATGGACTGATAAGAGCTTTTAACCACGAGCTTCCGAATTGTATTTAAGCTCTTGAACCAAAAGATACCAAGGATCTTCCATAGAGTGATAGAGACTAACAAAATGAGCCGCTAGTTCATAGACCTAGCTTTCCATATTATGCGGCGTAAGGATCTTAGATTCTTCTATATAGAGAAAGTAAGATCAGAATGACCTGGGACCACTTTATGTTTTGGGAATCCTTCAAAATAATGTTGGATTTCTTCTTTTTCTTTTTGGTTACAAACAAAGCAAACAATACCCAATGTAGAGGGACAATGTCTCACTGAATTACTAAACAATACCTAACTTTACCTCCTTTGACACACTGGAATCACACATCTTCCTTACCTTCTCTATTTCTAACTAGAGCCACCAGTTTCTTGATTTCTCTTCTTTCTCTCTTGTTTCCCTCTCTAGACGACCATTAGATTTTCATCTCAATGGAATATGGTTATGGAAATTCACAATGAAGAATAAAAGTCACTGTCGTCTTTTGTTTCATGGTTTTGGAAGTTATATGATTTAAAGTGAGTCATGAACTAAAAAGTAGTAATACCTATAGTAATGACGTTGATTTTGAAAACTGTGATGAAAAAGCTGGGAACTACCTTTTGTTGTTTCCATATTTTTGTTGAAGAACAAAAAACTGGAAACAAAAAAAATATCGAACTGGCCTTAAAAGTGGCAATGTTGGTTGGTGGATGTTTGGGATGGCGTGAAATAGCAAATCTAATTTTGTAGATCTATTATTCTAGTCAACTTTGGTCTTCGTATTTGTGGAACATGAGAGGTGGGTTTTCGATGGTGGCGGGGTTAACGAAGGTGTTGATGTATGGCGTTGTATTTTTTAGGTTTAAAATTGTTATGATTGGATGGTGGTGGGGTTTGATTGTGATGTACAAGAAGAAACTGTTAAGCTTTGAGTTTGGTGGCAGTTGGGATTTTGGGCATTTTCCTTTTCTCCTTTGTGTCTTTGAGATTGGTGCATTGAGGGTGGTGTGGTAGAAAATGTTTGATGGTGGTGGTGCTTGGACTTTGTAACGAAGATGGGAATGGGTGAGGTTGTAGTCATGGTAATGTGTTAGGTGGTTGAGGTGGGGGGTTTAGTGGTAGTGGTGGTTGTGGACTTTTGGTTTAGGACTTTAGGCAATTTAAGTGAGGAGGTGAGACAGGTGGTGCGTAGGGTTGGGTGTAACTGTACGAAGGAGGGGGGGGGGGGGGTTAATTGATTGGTATGGGTGATTAATTTAATGGGAAGATTGGGAATTATGTAAGTATACGCCAATAAATTCGCACATACAAACTTACAGAAACAGTTTGGTTGCAACTAATATGGAATTTCTGCAAATGGGGAATGTTGCAACTAAAAAGAAATGGAGGAAATATTTGATTTCTTCTCACTTTCCCTTTGTGGATTGTCAATGAAAAACTAGACACTTTATCTGGATTGTCAAGAATAAAACACAATTTGCAATAAGACTTATGAAATAGCCCTACTGAATTTCCTCTCGTGTTTGAAGATATTTGAAGATTACATTAAAGGAGAAGAGAACAGAAGGGAGAACTAAAAATTTACGTTTAGTTGTATGGTTTAATTTGTAAGAATTGAGACAGTTACTTGTTCGCATAGCTTATGGGTAGCAATTTAAAATGAAACAGTAATTTTATTTGACGGTGGGGAAAGTAAACGAGTCATGTGTTCCCTTCGTCAGACAAAAAACGTCCCATTTCAATTGAAGAAAAATAAACAACTCCCACAACCTAATTTGTTTTATTCACTTCTCTTGGCAAAACCCACAACTAACACTTTGCTAAACTATGTGCCCAAGAGAAATGAGAAGTTCTTTTCCAAGAGGGAGTATTATGGAGTCTTCCTGTCTGTGGCAAGGAAAAAACATTGCAGACACGGACATGGTCTACAAAGTAGCTTGTGACGGTTCAATGGAATAAATTGTGGCTAACTCGATCAGGTTAAATTCATTAATGGGTTTTTAACCTCATGTGCTTCTTTATTTTTGTATGACCAAATATATCGTAATATTAGTGGGTTTTATATTTGGTAAGCAACTACTTATGTAAATTAATACTTCCTCTCTTTCTTTTATTATTGCTAACATTTCTTTCTGGTAGTTAAAAAATCACCAACTTACACTGTACTTTTTCATCGGTGTTTTAGAAAATATATCAGCATCTCTGTTATTTTTAGATACTTTTCATTGTGTATTTCCAAATACAAAGTTTTTATACTTTATTATTAATACCTAACATGGAATTAAAACTCAGCCGTTCCGTTACGTAACGGCCGTTCTGTAACCTATTTTGGATTTACCGTTCCGCGAAAACCCGTTACGTTACGGTTTGACAAAAATCACGTCTTTCTCCCCGCGTCATCCGTTACGTAACGGTTACTCGCCGCGTTAGACATTTTTTTTCTCCGTTACACCGTTCTTTTACATATATTGGCCATTTTTTTAAATTAGTATGAAACATGATATTTCGAGTGCTTATTTGTTCCCAGAATATAATACTCACTCATATTAGGATAGATTTGGTTATATTGTGTTGATACAATACTTTTTAGACTAAAAATGTAATAATAAGGCTTAGACATGTTAAATGTGGTTTTTTTCGAAAAATTCACACCGCGTCAGCCGCGATCCGTTCTATTCTTCCGTTATAAGCGGTTTCCGGGATAACGCGACCGCATCCGCTTTTTTTTTCTATGATACCTAATCAAAGATATCAACGATCAATGATTTACATGAGAGATTGTGAAAAGAAAATGTTGCCATATTGGAAGGATGGAGAAAATACAATGAAAATGACAAGAGTCTAACCCTACCCACCACTTGACGATGGCACCTTATGACCGAGAGATAGAGGAACTCATTTCTATGTATAACACCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCNCCCCCCCCCCCCCCCTCCCCACCTATCCTGAGACGAGAGGTTTTGTGTTGGCTTTAGCTTTGGGAAGGCTCAATGTGAATGATATGCTCCAAAGGTGGCGGCCGGGGATGGCTATATCACCTGACATTTGCCAGACTAAGGCTAATAAAAATGGTCTTGCTTACATGTCTTCCTTCACTGGATATGAGTTGTTATCTTTGGAATCAACTCTTTGAAGTTTATGAAGAGGCTTGGGCAGACCTTATACAAGAGTGGTCTCAGATTTTATTTGCGCTGGTGGTTACTTTGGCGATATGTGATAATGGCTATTTTGTGATGTCTCTAGTAACTTTATTTTGCTTTTGTATGTCCTAAGGCGGCTAGGGCTTGTTGACGTTAAGAGGAATTCGGCTAACTTAGTTTTGATTTTCGGTTTCTTTCCAAAGACACCTTGTCTCCTTGATATACTTTCTGTACTGTTTTTTATAATTTACTTTTGCGTGTAAAAAATTGAAAGAGACAAAGTATGTGACTCATTTACTATAAATCTTTTAGTAAAATATATTCGCCAATTTTGACAAAAAAAATAGACATGTCAGGTAAAAGCATTCTAACATGTTGGAAGGTTGTGAATTAATTGCAGCCTTCTGTAATGGAAACTCCAAAACCATTACAAGTAATACGCCGTTCTGAAAACTGCGAGTTTTAATTCCCCTTCCTTTTTTTTTTTCATATCCTCTGCATAAAACAAAACCAAACATAGAATTTGGCCTTTTTGTTTTCCTGCCAAACAAACTAGCTGTTATTCAGAGTGATGATTTCCTTATTCCTATTAATTGTGGTTTCAGATTAGTAGAGATTGCCAGGAGATGGAGCCTTCTGTCGGGGAGCAGTTGGCTTCCTTGCTTTATCTTGAACCAGATGGTGAACTTATGGTATGTCAGTTATTTGGATTTGCTAACCTAGCGTGAAATTGATAACTGTTACCATTCATAAGTTTCTATGTTGCATCTAAAAGTATTGCATCTCTTCTCTGTTGGCAATCTCATGTCACATGATCTGTGGAACCTGGAAGAATCTCTGCTCTTGGAAGACATTATAAGATGTATACAAAATTGATAAGCCTAGATGGACACATGGACCCAATTAATCCTGCACATTTTGTCTGAAGTCAATTGAAGTGAACTTGAGTCTCGGGCTGTGTCTGAATTGAGTCCCAATTTTCGAGATCAGCTGTGGGTTGACTCTTATGTTACTCGGACTTGGGTACTCATAGGTTGACTCAGAACCATGCATAATGTTTATTTCTTCCGGACATCAATAAGCATGATGTATTCTTTTCAATTGCACTAAACTTTTCTAAATTGATTGGGACTAAACAAAAACTTATTTTAATGTTAAGCTTTCTGAGAACTGAATTTCCGAACTGAACTTAGCTTTCTTGAACTGGACTGAACTAGAATTATTAGTTGTTAATATAAATTGAAAAGAATTATCAATACCATTGAGAAATGGTTGGATAGTTTAGAAGTATATCTTATGATTGGGAATCCTTTTAGGACAAATGAGGATTCCTGGTCTTTTTTTGATAAACCTGTATCCTTTTCCTTATGAAACAAATTCCAAGTTATCATCCACTATGTTCTGATTATGGCTCCTTCCTGTTCTATCGTCTTCTGTCGTTGCATTGCACAATATGCTTTCAGCAATTGCTCTGAAGTCCAGGAGAGGGAAGAAACCTTTTGTCTTTATTCTCTCTCTCTCTCTTTTATTTTTTTTTCCTGGTATCTCCTATTGCCTTCAGAATCTCATTCCATTGAACTTTTCTTCTCATAAACGTGAACATTGTCTCTTGCAGTCTTTCAAAACTATTGCTCCCACCTACATGATCGAAACATAATTCTGATTTAATCTTTCTTATCACCCATTCTTGCTTTTATTACCTTTTTTATTTCGTTACAATTTTCTGGTTCCTCTCCCCCAAAATTCACCTACTGCACACTTGAAAACACCAGGGATTAACGTCCTCCATGATTTAAAGACTCAATGTGCAGCAAGGCAATAGGGGTTTTACTGGTCTGGAGTTTAGGCTCAAAACGCATGCGTGAAATATGCGCCTCATTGAATTAAGTCACTATTCTTTAAACTAAGGAACATGTGTGTGAAAACAGGTAGCAGATGGTGAACTATGGTAAAATGATGCAGCCTCTCTGCCTACATTGAAAATGCCTCACCCAGGTATTTCTAAGCAGTAGGGTATCCCACTCTCATCCTCTTATACCCCCAATCTGTCAGTCTCGTAAAGGGACACATAAAACGTTATCTCTTCTGGATATCCAAACCTTTCTTATGCTAAAGCTACTGATGTAGCATTCATGAATTCTACTTATGTAGTATTGTTTGCAGTTTAAAAGTGCTCAGAGGAAACAAGTATGCGTTTCTCTATGTTTGAAATTCCTCTTAGAGGCACATTAGGGATGTATTGAATATAGATGCAACCCTCTGGCTATTTATGCTTAACTGTGATTTCTGAGAGAATAGCTTATTCTATAAGTTTGAAAATAGTGAATGTTTAAATAAAATTCATGTGGTTCGCAGTGGTGTATTTTCCCTTATTTTGTGAATGGTTGCCTTTTTTATTTGCTGGTTTCAGTTGATTTAATTTTTTTGCATATAACTCTAATGTTTTCTCAATTTCTTGTACAATTTGTCAGGCGACTCTAATCGCAGCGGAATCCAAGCGCGAGGAGGAAAAAGCGAAAGGAGTCAACACAGATAATGGAGCTGGGAATCCAGACATAGTTCCTTTTGACGACAATGAAGAGGAGGAAGAGGAGGAAGAAAGTGAAGAAGAAGAAGAAGAAGAGAGTTTTGGCCAGGCACCTGGTGTTGCTATTCATGGAAGAGGAAGAGGAAGAGGGATGATGTGGCCGCCAAACTTTCCTATGGGTCGAGGCATACGTCCTATGCCAGGGATGCGGGGTTTTCCTCCTGGCATGATGGGGGTGGATGGGTTCGCGTATGGACCTGGACCTGGACCTGGACCTGGACCCGACGGCTTTCCAATGCCTGATCCTTTTGGAATGGCTCCTCGCCCTTTCGTGCCCTATGGCCCAAGGTTCTCAGGTGAATTTACAAATCCGGCACCTGGTATGATGTTTCCTGGTCGACCTTCACAACCTGGTGGTGGATTTGGGATGATGATGGGCCCTGGGCGTGGTCCATTCATCCCTGGAGGAATGGGTATGGGTATGGGTATGGGTATGGGTATGGGTGGGAGAGGTGGTCGGCCAATGGGTGGTATGCCTCCTATCTTTCCTCCCCAACCTCAAGGTAGCAATCGGGGTCCTAAAAGGGATTTGAGGGGATCTGGTACTGGTAATGGTAACGGTAATGATTGGGGTGAGACATTTGGATCGGGTCCAGATCAAGGGAAATTGCAGGATATGAGTAGTGGTGGACGTGCTGATGACCCATCATATCAACAAGGTGCTGAAAAATTTGTATCTCGAAACAATGTGACAAATGATGAGAGTGAAAGTGAGGATGAGGCTCCTAGGCGGTCAAGACATGGCGAGGGAAAGAAAAAACGCCGAAGTGTGGATGGTGATGTGCCTGCTTTAGACCCATAATAAGGGATGTTACTACATATTACGTAGTGTGGTCAATTATGGATCGTTTCTGTCAACCCCCCAGGTATATTTTGGCAAAGCGACCTACCGTACTTATTCCAGCTCTACCCTTTATCGTACTCAAACCCTATAAGTAAAGAATAATAGATAACTTTTTGTCTCGTAGTTAGAAGATTTCAGGAATTTGTTGATGTACATTGTATAAATATGAAATATGTACACGAAGAGGTAATAGATACAACATTAGAATGTTGCATTATTTGGATGCTTAGTTGTAAACATCAATGTATCATTGTTATTCATGGGTTTTCTGGTATATTTGATTGTACTACTTCCCATCCACTTTGGTTGTTCGGAGGGACAGTCACTCCTTTTCAGTTTCTT

mRNA sequence

TATAACAAAATATACTTATCTCCAAAAGCCAAACGCAGTCGTTCTCCAAACGCCATTTTCCAATTCCAAAATTCCAATGCTTCTCTGAAACCCTATTCCGTTCGCCATTAACAATTCCTCCTAACAACATCAATGGAAGACACAGAAGGGGGTTTAAGCTTCGATTTCGAAGGTAACCTCGACACTGTCCCTAATATTCCCACTGCCTCTAATCCCGTCATCCAACCCGACCCAAATGCTGCCCCTTCCGCCGGAGCCTCCGTCCCAACCGGTGGGTCTGCCCCTGTTGACCAGGGATCAGGGCAAGGTAACCGCCGAAGCTTCCGGCAAACCGTTTGCCGTCATTGGCTTCGTAGCCTCTGTATGAAGGGGGATTCTTGCGGTTTCCTTCACCAATACGACAAATCTCGGATGCCGGTCTGCCGTTTCTTCAGATTGTATGGGGAGTGCCGTGAGCAGGATTGTGTTTATAAGCACACCAATGAGGATATCAAAGAGTGCAACATGTACAAATTGGGTTTTTGTCCAAATGGGCCAGACTGTCGTTACCGACATGCAAAGCAGCCTGGACCTCCGCCTCCTGTTGATGAAGTCCTTCAGAAGATTCAGCAACTCACCTCTTACAGTTATGGTGCATCAAATAGATTTTTTCAACAACGGAATACAAATTATTCTCAGCAAGCAGATAGATCACAGTTTCCACAAGGTACGAACAGCACAAATCCAGGTGTAGTCCCAAAACCTTCGGGAACAGAGTCCTCCAACATACATCAACAATTGCAGCAGCCTCATCTTGCTGGCCAGGACCAAATACAAAATCTTCCAAGTAATTCATCCAATCAAACAGGCAGGACAGCGGCTCCACTGCCTCAAGGGATAACTAGGTATTTTATTGTGAAGAGCTGCAATCGTGAAAACTTGGAGCTATCAGTTCAACAAGGTGTGTGGGCTACTCAAAGAAGCAACGAAGCCAAACTGAATGAAGCCTTTGATACCGTTGAGCATGTTATCTTAATCTTTTCTGTCAACCGTACTCGACATTTTCAGGGCTGTGCAAAGATGACATCAAAAATTGGTGAGACTGCTAGTGGGGGAAACTGGAAGCATGCGCATGGGACGGCTCATTATGGGCGGAACTTTTCTGTCAAATGGTTAAAGTTATGTGAGCTATCTTTCAATAAAACTCGGCATTTGAGGAATCCGTACAATGAGAATTTGCCAGTGAAGATTAGTAGAGATTGCCAGGAGATGGAGCCTTCTGTCGGGGAGCAGTTGGCTTCCTTGCTTTATCTTGAACCAGATGGTGAACTTATGGCGACTCTAATCGCAGCGGAATCCAAGCGCGAGGAGGAAAAAGCGAAAGGAGTCAACACAGATAATGGAGCTGGGAATCCAGACATAGTTCCTTTTGACGACAATGAAGAGGAGGAAGAGGAGGAAGAAAGTGAAGAAGAAGAAGAAGAAGAGAGTTTTGGCCAGGCACCTGGTGTTGCTATTCATGGAAGAGGAAGAGGAAGAGGGATGATGTGGCCGCCAAACTTTCCTATGGGTCGAGGCATACGTCCTATGCCAGGGATGCGGGGTTTTCCTCCTGGCATGATGGGGGTGGATGGGTTCGCGTATGGACCTGGACCTGGACCTGGACCTGGACCCGACGGCTTTCCAATGCCTGATCCTTTTGGAATGGCTCCTCGCCCTTTCGTGCCCTATGGCCCAAGGTTCTCAGGTGAATTTACAAATCCGGCACCTGGTATGATGTTTCCTGGTCGACCTTCACAACCTGGTGGTGGATTTGGGATGATGATGGGCCCTGGGCGTGGTCCATTCATCCCTGGAGGAATGGGTATGGGTATGGGTATGGGTATGGGTATGGGTGGGAGAGGTGGTCGGCCAATGGGTGGTATGCCTCCTATCTTTCCTCCCCAACCTCAAGGTAGCAATCGGGGTCCTAAAAGGGATTTGAGGGGATCTGGTACTGGTAATGGTAACGGTAATGATTGGGGTGAGACATTTGGATCGGGTCCAGATCAAGGGAAATTGCAGGATATGAGTAGTGGTGGACGTGCTGATGACCCATCATATCAACAAGGTGCTGAAAAATTTGTATCTCGAAACAATGTGACAAATGATGAGAGTGAAAGTGAGGATGAGGCTCCTAGGCGGTCAAGACATGGCGAGGGAAAGAAAAAACGCCGAAGTGTGGATGGTGATGTGCCTGCTTTAGACCCATAATAAGGGATGTTACTACATATTACGTAGTGTGGTCAATTATGGATCGTTTCTGTCAACCCCCCAGGTATATTTTGGCAAAGCGACCTACCGTACTTATTCCAGCTCTACCCTTTATCGTACTCAAACCCTATAAGTAAAGAATAATAGATAACTTTTTGTCTCGTAGTTAGAAGATTTCAGGAATTTGTTGATGTACATTGTATAAATATGAAATATGTACACGAAGAGGTAATAGATACAACATTAGAATGTTGCATTATTTGGATGCTTAGTTGTAAACATCAATGTATCATTGTTATTCATGGGTTTTCTGGTATATTTGATTGTACTACTTCCCATCCACTTTGGTTGTTCGGAGGGACAGTCACTCCTTTTCAGTTTCTT

Coding sequence (CDS)

ATGGAAGACACAGAAGGGGGTTTAAGCTTCGATTTCGAAGGTAACCTCGACACTGTCCCTAATATTCCCACTGCCTCTAATCCCGTCATCCAACCCGACCCAAATGCTGCCCCTTCCGCCGGAGCCTCCGTCCCAACCGGTGGGTCTGCCCCTGTTGACCAGGGATCAGGGCAAGGTAACCGCCGAAGCTTCCGGCAAACCGTTTGCCGTCATTGGCTTCGTAGCCTCTGTATGAAGGGGGATTCTTGCGGTTTCCTTCACCAATACGACAAATCTCGGATGCCGGTCTGCCGTTTCTTCAGATTGTATGGGGAGTGCCGTGAGCAGGATTGTGTTTATAAGCACACCAATGAGGATATCAAAGAGTGCAACATGTACAAATTGGGTTTTTGTCCAAATGGGCCAGACTGTCGTTACCGACATGCAAAGCAGCCTGGACCTCCGCCTCCTGTTGATGAAGTCCTTCAGAAGATTCAGCAACTCACCTCTTACAGTTATGGTGCATCAAATAGATTTTTTCAACAACGGAATACAAATTATTCTCAGCAAGCAGATAGATCACAGTTTCCACAAGGTACGAACAGCACAAATCCAGGTGTAGTCCCAAAACCTTCGGGAACAGAGTCCTCCAACATACATCAACAATTGCAGCAGCCTCATCTTGCTGGCCAGGACCAAATACAAAATCTTCCAAGTAATTCATCCAATCAAACAGGCAGGACAGCGGCTCCACTGCCTCAAGGGATAACTAGGTATTTTATTGTGAAGAGCTGCAATCGTGAAAACTTGGAGCTATCAGTTCAACAAGGTGTGTGGGCTACTCAAAGAAGCAACGAAGCCAAACTGAATGAAGCCTTTGATACCGTTGAGCATGTTATCTTAATCTTTTCTGTCAACCGTACTCGACATTTTCAGGGCTGTGCAAAGATGACATCAAAAATTGGTGAGACTGCTAGTGGGGGAAACTGGAAGCATGCGCATGGGACGGCTCATTATGGGCGGAACTTTTCTGTCAAATGGTTAAAGTTATGTGAGCTATCTTTCAATAAAACTCGGCATTTGAGGAATCCGTACAATGAGAATTTGCCAGTGAAGATTAGTAGAGATTGCCAGGAGATGGAGCCTTCTGTCGGGGAGCAGTTGGCTTCCTTGCTTTATCTTGAACCAGATGGTGAACTTATGGCGACTCTAATCGCAGCGGAATCCAAGCGCGAGGAGGAAAAAGCGAAAGGAGTCAACACAGATAATGGAGCTGGGAATCCAGACATAGTTCCTTTTGACGACAATGAAGAGGAGGAAGAGGAGGAAGAAAGTGAAGAAGAAGAAGAAGAAGAGAGTTTTGGCCAGGCACCTGGTGTTGCTATTCATGGAAGAGGAAGAGGAAGAGGGATGATGTGGCCGCCAAACTTTCCTATGGGTCGAGGCATACGTCCTATGCCAGGGATGCGGGGTTTTCCTCCTGGCATGATGGGGGTGGATGGGTTCGCGTATGGACCTGGACCTGGACCTGGACCTGGACCCGACGGCTTTCCAATGCCTGATCCTTTTGGAATGGCTCCTCGCCCTTTCGTGCCCTATGGCCCAAGGTTCTCAGGTGAATTTACAAATCCGGCACCTGGTATGATGTTTCCTGGTCGACCTTCACAACCTGGTGGTGGATTTGGGATGATGATGGGCCCTGGGCGTGGTCCATTCATCCCTGGAGGAATGGGTATGGGTATGGGTATGGGTATGGGTATGGGTGGGAGAGGTGGTCGGCCAATGGGTGGTATGCCTCCTATCTTTCCTCCCCAACCTCAAGGTAGCAATCGGGGTCCTAAAAGGGATTTGAGGGGATCTGGTACTGGTAATGGTAACGGTAATGATTGGGGTGAGACATTTGGATCGGGTCCAGATCAAGGGAAATTGCAGGATATGAGTAGTGGTGGACGTGCTGATGACCCATCATATCAACAAGGTGCTGAAAAATTTGTATCTCGAAACAATGTGACAAATGATGAGAGTGAAAGTGAGGATGAGGCTCCTAGGCGGTCAAGACATGGCGAGGGAAAGAAAAAACGCCGAAGTGTGGATGGTGATGTGCCTGCTTTAGACCCATAA

Protein sequence

MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPGMMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSRNNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP

Relationships

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


Feature Name	Unique Name	Type
Spo23070.1	Spo23070.1	mRNA

Homology

[Close]

BLAST of Spo23070.1 vs. NCBI nr
Match: gi|902171834|gb|KNA08051.1| (hypothetical protein SOVF_166050 [Spinacia oleracea])

HSP 1 Score: 1407.5 bits (3642), Expect = 0.000e+0
Identity = 699/699 (100.00%), Postives = 699/699 (100.00%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN
Sbjct: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
           RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240
           SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR
Sbjct: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240

Query: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300
           TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR
Sbjct: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300

Query: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360
           TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE
Sbjct: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360

Query: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420
           NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN
Sbjct: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420

Query: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480
           PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP
Sbjct: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480

Query: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540
           GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG
Sbjct: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540

Query: 541 MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ 600
           MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ
Sbjct: 541 MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ 600

Query: 601 GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR 660
           GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR
Sbjct: 601 GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR 660

Query: 661 NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 700
           NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP
Sbjct: 661 NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 699

[Close]

BLAST of Spo23070.1 vs. NCBI nr
Match: gi|731351448|ref|XP_010687042.1| (PREDICTED: 30-kDa cleavage and polyadenylation specificity factor 30 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 1199.9 bits (3103), Expect = 0.000e+0
Identity = 613/707 (86.70%), Postives = 634/707 (89.67%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MEDTEGGLSFDFEGNLD  PNIPTASNPVIQPDPNAAPS+G + P   S P D  SGQGN
Sbjct: 1   MEDTEGGLSFDFEGNLDAAPNIPTASNPVIQPDPNAAPSSGPAAP---SPPADPASGQGN 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
           RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240
           SQQADRSQFPQG NSTN G VPKP+ TESSN+ QQLQQ  LAGQDQ+QNLPSN SNQTGR
Sbjct: 181 SQQADRSQFPQGANSTNQGAVPKPTATESSNMQQQLQQLPLAGQDQLQNLPSNPSNQTGR 240

Query: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300
            A PLPQG+TRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFD+VEHVIL+FSVNR
Sbjct: 241 IATPLPQGLTRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDSVEHVILVFSVNR 300

Query: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360
           TRHFQGCAKMTSKIGETA GGNWKHAHGTAHYGRNFSVKWLKLCEL+FNKTRHLRNPYNE
Sbjct: 301 TRHFQGCAKMTSKIGETAGGGNWKHAHGTAHYGRNFSVKWLKLCELTFNKTRHLRNPYNE 360

Query: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420
           NLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMATL AAESKREEEKAKGV+ +NGA N
Sbjct: 361 NLPVKISRDCQELEPSVGEQLASLLYLEPDSELMATLSAAESKREEEKAKGVDIENGAEN 420

Query: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480
           PDIVPFDDNEEEEEEEES  EEE+ESFGQAPG+AI GRGRGRGMMWPPNFPMGRG+RPM 
Sbjct: 421 PDIVPFDDNEEEEEEEES--EEEDESFGQAPGLAIQGRGRGRGMMWPPNFPMGRGVRPMQ 480

Query: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540
           GMR FPPGMMGVDGF Y      GPGPDGFPMPDPFGMAPRPF+PYGPRFSG+FT+PAPG
Sbjct: 481 GMRAFPPGMMGVDGFTY------GPGPDGFPMPDPFGMAPRPFMPYGPRFSGDFTSPAPG 540

Query: 541 MMFPGRPSQ-----PGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIF 600
           MMFPGRPSQ     PGGGFGMMMGPGR PF+PG        GMGMGGRGGRPM GMPPIF
Sbjct: 541 MMFPGRPSQPGGVLPGGGFGMMMGPGRAPFMPG--------GMGMGGRGGRPM-GMPPIF 600

Query: 601 PPQ---PQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQ 660
           PPQ   PQG NRGPKRDLRG       GNDWGETFGSGP+QGKLQDM  GGR  DP YQQ
Sbjct: 601 PPQPGPPQGGNRGPKRDLRGP------GNDWGETFGSGPEQGKLQDM-GGGRGGDPQYQQ 660

Query: 661 GAEKFVSRNNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 700
           G EK VS NNVTNDESESEDEAPRRSRHGEGKKKRRS+DGDV ALDP
Sbjct: 661 GTEKIVSCNNVTNDESESEDEAPRRSRHGEGKKKRRSLDGDVHALDP 680

[Close]

BLAST of Spo23070.1 vs. NCBI nr
Match: gi|590681660|ref|XP_007041140.1| (Cleavage and polyadenylation specificity factor 30 [Theobroma cacao])

HSP 1 Score: 904.4 bits (2336), Expect = 1.200e-259
Identity = 497/722 (68.84%), Postives = 561/722 (77.70%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTG--GSAPVDQ---- 60
           M+D+EGGLSFDFEG LD  P  PTAS PV+  DP+AA +  ++  +   G+AP       
Sbjct: 1   MDDSEGGLSFDFEGGLDAGPAAPTASMPVVNSDPSAAANNNSNNNSAVPGAAPTSTNDPA 60

Query: 61  ---GSGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDC 120
              G G   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECREQDC
Sbjct: 61  AAVGGGGAGRRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECREQDC 120

Query: 121 VYKHTNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNR 180
           VYKHTNEDIKECNMYKLGFCPNG DCRYRHAK PGPPPPV+EVLQKIQQL+SY+Y   N+
Sbjct: 121 VYKHTNEDIKECNMYKLGFCPNGADCRYRHAKLPGPPPPVEEVLQKIQQLSSYNY---NK 180

Query: 181 FFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIH--QQLQQPHL-AGQDQIQ 240
           FFQQRN+ ++QQ ++SQ PQG N+ N G   KPS TES+N+H  QQ+QQP     Q QIQ
Sbjct: 181 FFQQRNSGFAQQTEKSQIPQGQNNVNQGAGGKPSTTESANMHPQQQVQQPQQQVSQTQIQ 240

Query: 241 NLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDT 300
           N+P+  SNQ  +TA PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFD+
Sbjct: 241 NVPNGQSNQANKTAIPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDS 300

Query: 301 VEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSF 360
            E+VILIFSVNRTRHFQGCAKMTSKIG + +GGNWK+AHGTAHYGRNFSVKWLKLCELSF
Sbjct: 301 AENVILIFSVNRTRHFQGCAKMTSKIGGSVAGGNWKYAHGTAHYGRNFSVKWLKLCELSF 360

Query: 361 NKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEK 420
           +KTRHLRNPYNENLPVKISRDCQE+EPS+GEQLASLLYLEPD ELMA  +AAE KREEEK
Sbjct: 361 HKTRHLRNPYNENLPVKISRDCQELEPSIGEQLASLLYLEPDSELMAISVAAELKREEEK 420

Query: 421 AKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPP 480
           AKGVN+DNG  NPDIVPF+DNEEEEEEE    EEE+ESF      A  GRGRGRG+MWPP
Sbjct: 421 AKGVNSDNGGENPDIVPFEDNEEEEEEES---EEEDESFS----AAAQGRGRGRGVMWPP 480

Query: 481 NFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGP 540
           + P+ RG RPMPGMRGFPP MMG DGF+YGP       PDGF +PD FG APRPF PYGP
Sbjct: 481 HMPLARGARPMPGMRGFPPMMMGGDGFSYGPVT-----PDGFGVPDLFG-APRPFPPYGP 540

Query: 541 RFSGEFTNPAPGMMFPGRPSQPG-----GGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGR 600
           RFSG+FT PA GMMFPGRP QPG     GG GMMMGPGR PF+ GGMG      +    R
Sbjct: 541 RFSGDFTGPASGMMFPGRPPQPGAMFPAGGLGMMMGPGRAPFM-GGMGPTGANPV----R 600

Query: 601 GGRPMGGMPPIFPPQP----QGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDM 660
           GGRP+  MPP+FPP P    Q S R  KRD R             + +G+G +QG+ Q+M
Sbjct: 601 GGRPVS-MPPMFPPPPAPSSQNSGRAVKRDQR---------TPTNDRYGAGSEQGRGQEM 660

Query: 661 SS-GGRADDPS-YQQGAEK------FVSRNNVTNDESESEDEAPRRSRHGEGKKKRRSVD 694
           +  GGR DD + YQQ  +K      F + N+  NDESESEDEAPRRSR+GEGKKKRRS++
Sbjct: 661 AGPGGRLDDETQYQQEGQKAHHEDQFAAGNSFRNDESESEDEAPRRSRYGEGKKKRRSLE 691

[Close]

BLAST of Spo23070.1 vs. NCBI nr
Match: gi|985434104|ref|XP_015382577.1| (PREDICTED: 30-kDa cleavage and polyadenylation specificity factor 30 [Citrus sinensis])

HSP 1 Score: 900.2 bits (2325), Expect = 2.300e-258
Identity = 495/728 (67.99%), Postives = 547/728 (75.14%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDP------------NAAPSAGASVPTGG 60
           MED+EGGLSFDFEG LD  P +PTASNP IQ D             +AAPS+  + P   
Sbjct: 1   MEDSEGGLSFDFEGGLDAGPGMPTASNPAIQSDSTAAAAAAAANANHAAPSSSGAAPDHA 60

Query: 61  SAPVDQGSGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECRE 120
           SAPV   SG   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECRE
Sbjct: 61  SAPVPHHSG---RRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECRE 120

Query: 121 QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGA 180
           QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRH K PGPPP V+EVLQKIQQ++SY++G 
Sbjct: 121 QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRHVKLPGPPPSVEEVLQKIQQISSYNHGN 180

Query: 181 SNRFFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQ--LQQPHLAGQD- 240
            N+ FQQR   +S Q D+SQF QG N+ N G   K S  ES+N+HQQ  +QQP   G   
Sbjct: 181 PNKHFQQRGA-FSHQTDKSQFSQGPNAVNQGAAGKSSTAESANVHQQQLVQQPQQQGTQT 240

Query: 241 -QIQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE 300
            Q+QNLP+   NQT R A PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE
Sbjct: 241 TQMQNLPNGLPNQTNRNATPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE 300

Query: 301 AFDTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLC 360
           AFD+ E+VILIFSVNRTRHFQGCAKMTSKIG +  GGNWK+AHGTAHYGRNFSVKWLKLC
Sbjct: 301 AFDSAENVILIFSVNRTRHFQGCAKMTSKIGGSVGGGNWKYAHGTAHYGRNFSVKWLKLC 360

Query: 361 ELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKR 420
           ELSF+KTRHLRNPYNENLPVKISRDCQE+EPS+GEQLA+LLYLEPD ELMA  +AAE+KR
Sbjct: 361 ELSFHKTRHLRNPYNENLPVKISRDCQELEPSIGEQLAALLYLEPDSELMAISVAAEAKR 420

Query: 421 EEEKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGM 480
           EEEKAKGVN DNG  NPDIVPF+DNEEEEEEE  EEEE       + G A  GRGRGRGM
Sbjct: 421 EEEKAKGVNPDNGGDNPDIVPFEDNEEEEEEESEEEEE-------SLGTASQGRGRGRGM 480

Query: 481 MWPPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFV 540
           MWP   P+ RG RP+PGMRGFPP M+G DGF+Y      G  PDGFPMPD FG+APRPF 
Sbjct: 481 MWPGPMPLARGARPVPGMRGFPPMMIGADGFSY------GVTPDGFPMPDLFGVAPRPFA 540

Query: 541 PYGPRFSGEFTNPAPGMMFPGRPSQPGGGF------GMMMGPGRGPFIPGGMGMGMGMGM 600
           PYGPRFSG+FT P  GMMFPGRP QPG  F      GMMMGPGR PF+ GGMG       
Sbjct: 541 PYGPRFSGDFTGPG-GMMFPGRPPQPGSVFPPNGFGGMMMGPGRPPFM-GGMGPA----- 600

Query: 601 GMGGRGGRPMGGMPPIFPPQP---QGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGK 660
               RGGRP+ G+PP FP QP   Q S+R  KRD+RGS       ND  + + +G DQG+
Sbjct: 601 ATNPRGGRPV-GVPPPFPNQPQSSQNSSRAAKRDVRGS------INDRNDRYSAGSDQGR 660

Query: 661 LQDMSSGGRA--DDPSYQQGAEKF-----VSRNNVTNDESESEDEAPRRSRHGEGKKKRR 697
            Q+M   GR   D+  YQQ   K          N  NDESESEDEAPRRSRHGEGKKKRR
Sbjct: 661 AQEMGGPGRGPDDEVQYQQEGSKANQEDQYGSRNFRNDESESEDEAPRRSRHGEGKKKRR 697

[Close]

BLAST of Spo23070.1 vs. NCBI nr
Match: gi|823204622|ref|XP_012436534.1| (PREDICTED: 30-kDa cleavage and polyadenylation specificity factor 30 [Gossypium raimondii])

HSP 1 Score: 899.4 bits (2323), Expect = 3.900e-258
Identity = 496/725 (68.41%), Postives = 550/725 (75.86%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGG-----SAPVDQG 60
           M+D EGGLSFDFEG LD  P  PTAS PV+  DP+AA +       GG     + PV   
Sbjct: 1   MDDAEGGLSFDFEGGLDAGPPAPTASMPVVNSDPSAANNTNNFTAPGGVQASINDPVANQ 60

Query: 61  SGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKH 120
            G   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECREQDCVYKH
Sbjct: 61  GGGAGRRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECREQDCVYKH 120

Query: 121 TNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQ 180
           TNEDIKECNMYKLGFCPNGPDCRYRHAK PGPPPPV+EVLQKIQQL++Y+Y  +N+F+QQ
Sbjct: 121 TNEDIKECNMYKLGFCPNGPDCRYRHAKLPGPPPPVEEVLQKIQQLSAYNY--NNKFYQQ 180

Query: 181 RNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQ--------LQQPHL-AGQDQ 240
           RN  + QQ ++SQ PQ  N+ N G   KPS TES+N+ QQ        +QQP     Q Q
Sbjct: 181 RNAGFPQQTEKSQIPQAQNNVNQGAAGKPSATESTNVQQQQLQQQQQQIQQPQQQVSQTQ 240

Query: 241 IQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF 300
           IQN+P+  SNQ  RTA PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF
Sbjct: 241 IQNVPNGQSNQANRTAIPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF 300

Query: 301 DTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCEL 360
           D+ E+VIL+FSVNRTRHFQGCAKMTSKIG + +GGNWK+AHGTAHYGRNFSVKWLKLCEL
Sbjct: 301 DSAENVILVFSVNRTRHFQGCAKMTSKIGGSVAGGNWKYAHGTAHYGRNFSVKWLKLCEL 360

Query: 361 SFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREE 420
           SF+KTRHLRNPYNENLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMA  +AAESKREE
Sbjct: 361 SFHKTRHLRNPYNENLPVKISRDCQELEPSVGEQLASLLYLEPDSELMAISLAAESKREE 420

Query: 421 EKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMW 480
           EKAKGVN+DN A NPDIVPF+DNEEEEEE   E EEE+ESF    G A  GRGRGRG+MW
Sbjct: 421 EKAKGVNSDN-AENPDIVPFEDNEEEEEE---ESEEEDESF----GAAAQGRGRGRGIMW 480

Query: 481 PPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPY 540
           PP+ P+ RG RPMPGMRGFPP MMG DGF+YGP       PDGF MPD FG APRPF PY
Sbjct: 481 PPHMPLARGARPMPGMRGFPPMMMGGDGFSYGP-----VTPDGFGMPDLFG-APRPFAPY 540

Query: 541 GPRFSGEFTNPAPGMMFPGRPSQPG-----GGFGMMMGPGRGPFIPGGMGMGMGMGMGMG 600
           GPRFSG+FT PA GMMFPGRP QPG     GG GMMMGPGR PF    MG GMG      
Sbjct: 541 GPRFSGDFTGPASGMMFPGRPPQPGGMFPSGGIGMMMGPGRAPF----MG-GMGPTGANP 600

Query: 601 GRGGRPMGGMPPIFP----PQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQ 660
            RGGRP+ GMPP+FP    P  Q S R  KRD R             +   +G +QG+ Q
Sbjct: 601 ARGGRPV-GMPPMFPLPPAPASQNSGRAIKRDQR---------TPTNDRSSAGSEQGRGQ 660

Query: 661 DMS--SGGRADDPSYQQGAEK------FVSRNNVTNDESESEDEAPRRSRHGEGKKKRRS 695
           +M    GG  D   YQQ  +K      F + N+  ND+SESEDEAPRRSRHGEGKKKRR 
Sbjct: 661 EMGGPGGGLEDGTQYQQEGQKAHHEDQFAAGNSFRNDDSESEDEAPRRSRHGEGKKKRRG 694

[Close]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QN77_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_166050 PE=4 SV=1)

HSP 1 Score: 1407.5 bits (3642), Expect = 0.000e+0
Identity = 699/699 (100.00%), Postives = 699/699 (100.00%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN
Sbjct: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
           RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240
           SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR
Sbjct: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240

Query: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300
           TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR
Sbjct: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300

Query: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360
           TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE
Sbjct: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360

Query: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420
           NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN
Sbjct: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420

Query: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480
           PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP
Sbjct: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480

Query: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540
           GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG
Sbjct: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540

Query: 541 MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ 600
           MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ
Sbjct: 541 MMFPGRPSQPGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFPPQPQ 600

Query: 601 GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR 660
           GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR
Sbjct: 601 GSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEKFVSR 660

Query: 661 NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 700
           NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP
Sbjct: 661 NNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 699

[Close]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BVC4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g187630 PE=4 SV=1)

HSP 1 Score: 1199.9 bits (3103), Expect = 0.000e+0
Identity = 613/707 (86.70%), Postives = 634/707 (89.67%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MEDTEGGLSFDFEGNLD  PNIPTASNPVIQPDPNAAPS+G + P   S P D  SGQGN
Sbjct: 1   MEDTEGGLSFDFEGNLDAAPNIPTASNPVIQPDPNAAPSSGPAAP---SPPADPASGQGN 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
           RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTGR 240
           SQQADRSQFPQG NSTN G VPKP+ TESSN+ QQLQQ  LAGQDQ+QNLPSN SNQTGR
Sbjct: 181 SQQADRSQFPQGANSTNQGAVPKPTATESSNMQQQLQQLPLAGQDQLQNLPSNPSNQTGR 240

Query: 241 TAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNR 300
            A PLPQG+TRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFD+VEHVIL+FSVNR
Sbjct: 241 IATPLPQGLTRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDSVEHVILVFSVNR 300

Query: 301 TRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNE 360
           TRHFQGCAKMTSKIGETA GGNWKHAHGTAHYGRNFSVKWLKLCEL+FNKTRHLRNPYNE
Sbjct: 301 TRHFQGCAKMTSKIGETAGGGNWKHAHGTAHYGRNFSVKWLKLCELTFNKTRHLRNPYNE 360

Query: 361 NLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAGN 420
           NLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMATL AAESKREEEKAKGV+ +NGA N
Sbjct: 361 NLPVKISRDCQELEPSVGEQLASLLYLEPDSELMATLSAAESKREEEKAKGVDIENGAEN 420

Query: 421 PDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPMP 480
           PDIVPFDDNEEEEEEEES  EEE+ESFGQAPG+AI GRGRGRGMMWPPNFPMGRG+RPM 
Sbjct: 421 PDIVPFDDNEEEEEEEES--EEEDESFGQAPGLAIQGRGRGRGMMWPPNFPMGRGVRPMQ 480

Query: 481 GMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPAPG 540
           GMR FPPGMMGVDGF Y      GPGPDGFPMPDPFGMAPRPF+PYGPRFSG+FT+PAPG
Sbjct: 481 GMRAFPPGMMGVDGFTY------GPGPDGFPMPDPFGMAPRPFMPYGPRFSGDFTSPAPG 540

Query: 541 MMFPGRPSQ-----PGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIF 600
           MMFPGRPSQ     PGGGFGMMMGPGR PF+PG        GMGMGGRGGRPM GMPPIF
Sbjct: 541 MMFPGRPSQPGGVLPGGGFGMMMGPGRAPFMPG--------GMGMGGRGGRPM-GMPPIF 600

Query: 601 PPQ---PQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQ 660
           PPQ   PQG NRGPKRDLRG       GNDWGETFGSGP+QGKLQDM  GGR  DP YQQ
Sbjct: 601 PPQPGPPQGGNRGPKRDLRGP------GNDWGETFGSGPEQGKLQDM-GGGRGGDPQYQQ 660

Query: 661 GAEKFVSRNNVTNDESESEDEAPRRSRHGEGKKKRRSVDGDVPALDP 700
           G EK VS NNVTNDESESEDEAPRRSRHGEGKKKRRS+DGDV ALDP
Sbjct: 661 GTEKIVSCNNVTNDESESEDEAPRRSRHGEGKKKRRSLDGDVHALDP 680

[Close]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Match: A0A061DY09_THECC (Cleavage and polyadenylation specificity factor 30 OS=Theobroma cacao GN=TCM_006095 PE=4 SV=1)

HSP 1 Score: 904.4 bits (2336), Expect = 8.400e-260
Identity = 497/722 (68.84%), Postives = 561/722 (77.70%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTG--GSAPVDQ---- 60
           M+D+EGGLSFDFEG LD  P  PTAS PV+  DP+AA +  ++  +   G+AP       
Sbjct: 1   MDDSEGGLSFDFEGGLDAGPAAPTASMPVVNSDPSAAANNNSNNNSAVPGAAPTSTNDPA 60

Query: 61  ---GSGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDC 120
              G G   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECREQDC
Sbjct: 61  AAVGGGGAGRRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECREQDC 120

Query: 121 VYKHTNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNR 180
           VYKHTNEDIKECNMYKLGFCPNG DCRYRHAK PGPPPPV+EVLQKIQQL+SY+Y   N+
Sbjct: 121 VYKHTNEDIKECNMYKLGFCPNGADCRYRHAKLPGPPPPVEEVLQKIQQLSSYNY---NK 180

Query: 181 FFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIH--QQLQQPHL-AGQDQIQ 240
           FFQQRN+ ++QQ ++SQ PQG N+ N G   KPS TES+N+H  QQ+QQP     Q QIQ
Sbjct: 181 FFQQRNSGFAQQTEKSQIPQGQNNVNQGAGGKPSTTESANMHPQQQVQQPQQQVSQTQIQ 240

Query: 241 NLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDT 300
           N+P+  SNQ  +TA PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFD+
Sbjct: 241 NVPNGQSNQANKTAIPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDS 300

Query: 301 VEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSF 360
            E+VILIFSVNRTRHFQGCAKMTSKIG + +GGNWK+AHGTAHYGRNFSVKWLKLCELSF
Sbjct: 301 AENVILIFSVNRTRHFQGCAKMTSKIGGSVAGGNWKYAHGTAHYGRNFSVKWLKLCELSF 360

Query: 361 NKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEK 420
           +KTRHLRNPYNENLPVKISRDCQE+EPS+GEQLASLLYLEPD ELMA  +AAE KREEEK
Sbjct: 361 HKTRHLRNPYNENLPVKISRDCQELEPSIGEQLASLLYLEPDSELMAISVAAELKREEEK 420

Query: 421 AKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPP 480
           AKGVN+DNG  NPDIVPF+DNEEEEEEE    EEE+ESF      A  GRGRGRG+MWPP
Sbjct: 421 AKGVNSDNGGENPDIVPFEDNEEEEEEES---EEEDESFS----AAAQGRGRGRGVMWPP 480

Query: 481 NFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGP 540
           + P+ RG RPMPGMRGFPP MMG DGF+YGP       PDGF +PD FG APRPF PYGP
Sbjct: 481 HMPLARGARPMPGMRGFPPMMMGGDGFSYGPVT-----PDGFGVPDLFG-APRPFPPYGP 540

Query: 541 RFSGEFTNPAPGMMFPGRPSQPG-----GGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGR 600
           RFSG+FT PA GMMFPGRP QPG     GG GMMMGPGR PF+ GGMG      +    R
Sbjct: 541 RFSGDFTGPASGMMFPGRPPQPGAMFPAGGLGMMMGPGRAPFM-GGMGPTGANPV----R 600

Query: 601 GGRPMGGMPPIFPPQP----QGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDM 660
           GGRP+  MPP+FPP P    Q S R  KRD R             + +G+G +QG+ Q+M
Sbjct: 601 GGRPVS-MPPMFPPPPAPSSQNSGRAVKRDQR---------TPTNDRYGAGSEQGRGQEM 660

Query: 661 SS-GGRADDPS-YQQGAEK------FVSRNNVTNDESESEDEAPRRSRHGEGKKKRRSVD 694
           +  GGR DD + YQQ  +K      F + N+  NDESESEDEAPRRSR+GEGKKKRRS++
Sbjct: 661 AGPGGRLDDETQYQQEGQKAHHEDQFAAGNSFRNDESESEDEAPRRSRYGEGKKKRRSLE 691

[Close]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Match: A0A067GIQ4_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g005338mg PE=4 SV=1)

HSP 1 Score: 900.2 bits (2325), Expect = 1.600e-258
Identity = 495/728 (67.99%), Postives = 547/728 (75.14%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDP------------NAAPSAGASVPTGG 60
           MED+EGGLSFDFEG LD  P +PTASNP IQ D             +AAPS+  + P   
Sbjct: 1   MEDSEGGLSFDFEGGLDAGPGMPTASNPAIQSDSTAAAAAAAANANHAAPSSSGAAPDHA 60

Query: 61  SAPVDQGSGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECRE 120
           SAPV   SG   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECRE
Sbjct: 61  SAPVPHHSG---RRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECRE 120

Query: 121 QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGA 180
           QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRH K PGPPP V+EVLQKIQQ++SY++G 
Sbjct: 121 QDCVYKHTNEDIKECNMYKLGFCPNGPDCRYRHVKLPGPPPSVEEVLQKIQQISSYNHGN 180

Query: 181 SNRFFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQ--LQQPHLAGQD- 240
            N+ FQQR   +S Q D+SQF QG N+ N G   K S  ES+N+HQQ  +QQP   G   
Sbjct: 181 PNKHFQQRGA-FSHQTDKSQFSQGPNAVNQGAAGKSSTAESANVHQQQLVQQPQQQGTQT 240

Query: 241 -QIQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE 300
            Q+QNLP+   NQT R A PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE
Sbjct: 241 TQMQNLPNGLPNQTNRNATPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE 300

Query: 301 AFDTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLC 360
           AFD+ E+VILIFSVNRTRHFQGCAKMTSKIG +  GGNWK+AHGTAHYGRNFSVKWLKLC
Sbjct: 301 AFDSAENVILIFSVNRTRHFQGCAKMTSKIGGSVGGGNWKYAHGTAHYGRNFSVKWLKLC 360

Query: 361 ELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKR 420
           ELSF+KTRHLRNPYNENLPVKISRDCQE+EPS+GEQLA+LLYLEPD ELMA  +AAE+KR
Sbjct: 361 ELSFHKTRHLRNPYNENLPVKISRDCQELEPSIGEQLAALLYLEPDSELMAISVAAEAKR 420

Query: 421 EEEKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGM 480
           EEEKAKGVN DNG  NPDIVPF+DNEEEEEEE  EEEE       + G A  GRGRGRGM
Sbjct: 421 EEEKAKGVNPDNGGDNPDIVPFEDNEEEEEEESEEEEE-------SLGTASQGRGRGRGM 480

Query: 481 MWPPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFV 540
           MWP   P+ RG RP+PGMRGFPP M+G DGF+Y      G  PDGFPMPD FG+APRPF 
Sbjct: 481 MWPGPMPLARGARPVPGMRGFPPMMIGADGFSY------GVTPDGFPMPDLFGVAPRPFA 540

Query: 541 PYGPRFSGEFTNPAPGMMFPGRPSQPGGGF------GMMMGPGRGPFIPGGMGMGMGMGM 600
           PYGPRFSG+FT P  GMMFPGRP QPG  F      GMMMGPGR PF+ GGMG       
Sbjct: 541 PYGPRFSGDFTGPG-GMMFPGRPPQPGSVFPPNGFGGMMMGPGRPPFM-GGMGPA----- 600

Query: 601 GMGGRGGRPMGGMPPIFPPQP---QGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGK 660
               RGGRP+ G+PP FP QP   Q S+R  KRD+RGS       ND  + + +G DQG+
Sbjct: 601 ATNPRGGRPV-GVPPPFPNQPQSSQNSSRAAKRDVRGS------INDRNDRYSAGSDQGR 660

Query: 661 LQDMSSGGRA--DDPSYQQGAEKF-----VSRNNVTNDESESEDEAPRRSRHGEGKKKRR 697
            Q+M   GR   D+  YQQ   K          N  NDESESEDEAPRRSRHGEGKKKRR
Sbjct: 661 AQEMGGPGRGPDDEVQYQQEGSKANQEDQYGSRNFRNDESESEDEAPRRSRHGEGKKKRR 697

[Close]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Match: A0A0D2PNT4_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_008G046800 PE=4 SV=1)

HSP 1 Score: 899.4 bits (2323), Expect = 2.700e-258
Identity = 496/725 (68.41%), Postives = 550/725 (75.86%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGG-----SAPVDQG 60
           M+D EGGLSFDFEG LD  P  PTAS PV+  DP+AA +       GG     + PV   
Sbjct: 1   MDDAEGGLSFDFEGGLDAGPPAPTASMPVVNSDPSAANNTNNFTAPGGVQASINDPVANQ 60

Query: 61  SGQGNRRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKH 120
            G   RRSFRQTVCRHWLRSLCMKGD+CGFLHQYDKSRMPVCRFFRL+GECREQDCVYKH
Sbjct: 61  GGGAGRRSFRQTVCRHWLRSLCMKGDACGFLHQYDKSRMPVCRFFRLFGECREQDCVYKH 120

Query: 121 TNEDIKECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQ 180
           TNEDIKECNMYKLGFCPNGPDCRYRHAK PGPPPPV+EVLQKIQQL++Y+Y  +N+F+QQ
Sbjct: 121 TNEDIKECNMYKLGFCPNGPDCRYRHAKLPGPPPPVEEVLQKIQQLSAYNY--NNKFYQQ 180

Query: 181 RNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQ--------LQQPHL-AGQDQ 240
           RN  + QQ ++SQ PQ  N+ N G   KPS TES+N+ QQ        +QQP     Q Q
Sbjct: 181 RNAGFPQQTEKSQIPQAQNNVNQGAAGKPSATESTNVQQQQLQQQQQQIQQPQQQVSQTQ 240

Query: 241 IQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF 300
           IQN+P+  SNQ  RTA PLPQGI+RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF
Sbjct: 241 IQNVPNGQSNQANRTAIPLPQGISRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF 300

Query: 301 DTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCEL 360
           D+ E+VIL+FSVNRTRHFQGCAKMTSKIG + +GGNWK+AHGTAHYGRNFSVKWLKLCEL
Sbjct: 301 DSAENVILVFSVNRTRHFQGCAKMTSKIGGSVAGGNWKYAHGTAHYGRNFSVKWLKLCEL 360

Query: 361 SFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREE 420
           SF+KTRHLRNPYNENLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMA  +AAESKREE
Sbjct: 361 SFHKTRHLRNPYNENLPVKISRDCQELEPSVGEQLASLLYLEPDSELMAISLAAESKREE 420

Query: 421 EKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMW 480
           EKAKGVN+DN A NPDIVPF+DNEEEEEE   E EEE+ESF    G A  GRGRGRG+MW
Sbjct: 421 EKAKGVNSDN-AENPDIVPFEDNEEEEEE---ESEEEDESF----GAAAQGRGRGRGIMW 480

Query: 481 PPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPY 540
           PP+ P+ RG RPMPGMRGFPP MMG DGF+YGP       PDGF MPD FG APRPF PY
Sbjct: 481 PPHMPLARGARPMPGMRGFPPMMMGGDGFSYGP-----VTPDGFGMPDLFG-APRPFAPY 540

Query: 541 GPRFSGEFTNPAPGMMFPGRPSQPG-----GGFGMMMGPGRGPFIPGGMGMGMGMGMGMG 600
           GPRFSG+FT PA GMMFPGRP QPG     GG GMMMGPGR PF    MG GMG      
Sbjct: 541 GPRFSGDFTGPASGMMFPGRPPQPGGMFPSGGIGMMMGPGRAPF----MG-GMGPTGANP 600

Query: 601 GRGGRPMGGMPPIFP----PQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQ 660
            RGGRP+ GMPP+FP    P  Q S R  KRD R             +   +G +QG+ Q
Sbjct: 601 ARGGRPV-GMPPMFPLPPAPASQNSGRAIKRDQR---------TPTNDRSSAGSEQGRGQ 660

Query: 661 DMS--SGGRADDPSYQQGAEK------FVSRNNVTNDESESEDEAPRRSRHGEGKKKRRS 695
           +M    GG  D   YQQ  +K      F + N+  ND+SESEDEAPRRSRHGEGKKKRR 
Sbjct: 661 EMGGPGGGLEDGTQYQQEGQKAHHEDQFAAGNSFRNDDSESEDEAPRRSRHGEGKKKRRG 694

[Close]

BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
Match: CPSF_ARATH (30-kDa cleavage and polyadenylation specificity factor 30 OS=Arabidopsis thaliana GN=CPSF30 PE=1 SV=1)

HSP 1 Score: 768.8 bits (1984), Expect = 4.900e-221
Identity = 440/693 (63.49%), Postives = 498/693 (71.86%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MED +G LSFDFEG LD+ P   TAS PV  P+ +++ +   +     S+    G+G+G 
Sbjct: 1   MEDADG-LSFDFEGGLDSGPVQNTASVPVAPPENSSSAAVNVAPTYDHSSATVAGAGRG- 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
            RSFRQTVCRHWLR LCMKGD+CGFLHQ+DK+RMP+CRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  -RSFRQTVCRHWLRGLCMKGDACGFLHQFDKARMPICRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAK PGPPPPV+EVLQKIQQLT+Y+YG +NR +Q RN   
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKLPGPPPPVEEVLQKIQQLTTYNYG-TNRLYQARNV-A 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQI-QNLPSNSSNQTG 240
            Q  DR   PQG       V  +    ES N+ QQ QQ     Q Q+ Q L  N ++QT 
Sbjct: 181 PQLQDR---PQGQ------VPMQGQPQESGNLQQQQQQQPQQSQHQVSQTLIPNPADQTN 240

Query: 241 RTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVN 300
           RT+ PLPQG+ RYF+VKS NREN ELSVQQGVWATQRSNEAKLNEAFD+VE+VILIFSVN
Sbjct: 241 RTSHPLPQGVNRYFVVKSNNRENFELSVQQGVWATQRSNEAKLNEAFDSVENVILIFSVN 300

Query: 301 RTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYN 360
           RTRHFQGCAKMTS+IG    GGNWKH HGTA YGRNFSVKWLKLCELSF+KTR+LRNPYN
Sbjct: 301 RTRHFQGCAKMTSRIGGYIGGGNWKHEHGTAQYGRNFSVKWLKLCELSFHKTRNLRNPYN 360

Query: 361 ENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAG 420
           ENLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMA  IAAE+KREEEKAKGVN ++ A 
Sbjct: 361 ENLPVKISRDCQELEPSVGEQLASLLYLEPDSELMAISIAAEAKREEEKAKGVNPESRAE 420

Query: 421 NPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPM 480
           NPDIVPF+DNEEEEEEE+ E EEEEES    P     GRGRGRG+MWPP  P+GRGIRPM
Sbjct: 421 NPDIVPFEDNEEEEEEED-ESEEEEESMAGGP----QGRGRGRGIMWPPQMPLGRGIRPM 480

Query: 481 PGMRGFPPGMMGV-DGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPA 540
           PGM GFP G+MG  D F YGPG     G +G  MPDPFGM PRPF PYGPRF G+F  P 
Sbjct: 481 PGMGGFPLGVMGPGDAFPYGPG-----GYNG--MPDPFGMGPRPFGPYGPRFGGDFRGPV 540

Query: 541 PGMMFPGRPSQ--PGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFP 600
           PGMMFPGRP Q  P GG+G MMG GRGP               MGG G  P GG P  +P
Sbjct: 541 PGMMFPGRPPQQFPHGGYG-MMGGGRGPH--------------MGGMGNAPRGGRPMYYP 600

Query: 601 PQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEK 660
           P    +  GP                        P++   + +S   +  D S+    E+
Sbjct: 601 PATSSARPGPSN-------------------RKTPERSDERGVSGDQQNQDASHDM--EQ 631

Query: 661 FVSRNNVTNDESES--EDEAPRRSRHGEGKKKR 688
           F   N++ N+ESES  EDEAPRRSRHGEGKK+R
Sbjct: 661 FEVGNSLRNEESESEDEDEAPRRSRHGEGKKRR 631

[Close]

BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
Match: C3H45_ORYSJ (Zinc finger CCCH domain-containing protein 45 OS=Oryza sativa subsp. japonica GN=Os06g0677700 PE=3 SV=1)

HSP 1 Score: 707.6 bits (1825), Expect = 1.400e-202
Identity = 408/704 (57.95%), Postives = 484/704 (68.75%), Query Frame = 1


		  
Query: 5   EGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGS-GQGNRR- 64
           +G LSFDFEG LD  P           P P+++   G     GG  P D G  G+G  R 
Sbjct: 3   DGDLSFDFEGGLDQPPAGGGGG-----PAPHSSDPGGVGGGGGGGGPGDGGGHGRGRGRG 62

Query: 65  SFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDIKE 124
           S+RQTVCRHWLR LCMKG++CGFLHQ+DK+RMPVCRFFR +GECRE DC YKH+ +D+KE
Sbjct: 63  SYRQTVCRHWLRGLCMKGEACGFLHQFDKARMPVCRFFRDFGECREPDCAYKHSYDDVKE 122

Query: 125 CNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNYSQ 184
           CNMYK+GFCPNGP+CRY+H K PGPPPPV+EVLQKI Q+ S+     N+F Q R+ NY+Q
Sbjct: 123 CNMYKMGFCPNGPNCRYKHVKLPGPPPPVEEVLQKILQIRSF-----NKFNQHRHNNYNQ 182

Query: 185 QADRSQFPQG-------------TNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQ----- 244
           Q +R Q PQG             T +  P V  +   T      QQ QQ     Q     
Sbjct: 183 QGERPQHPQGSGLPNQNSIDNTTTTTAQPAVGQQAQTTNQQPPQQQQQQQQQQQQQQKPN 242

Query: 245 --DQIQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKL 304
             DQ+Q++P+ SSNQ  R A PLPQG +RYFIVKSCNRENLE+SVQQG+WATQRSNEAKL
Sbjct: 243 TNDQVQSVPNGSSNQATRIATPLPQGPSRYFIVKSCNRENLEISVQQGIWATQRSNEAKL 302

Query: 305 NEAFDTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLK 364
           NEAF+++E+VILIFS+NRTR+FQGCAKMTS+IG    GGNWK AHGTAHYGRNFS++WLK
Sbjct: 303 NEAFESIENVILIFSINRTRNFQGCAKMTSRIGGYIGGGNWKSAHGTAHYGRNFSIQWLK 362

Query: 365 LCELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAES 424
           LCELSF KT HLRNPYN+NLPVKISRDCQE+EP +GEQLASLLYLEPD EL A LIAAE+
Sbjct: 363 LCELSFQKTHHLRNPYNDNLPVKISRDCQELEPFIGEQLASLLYLEPDSELTAILIAAEA 422

Query: 425 KREEEKAKGVNTDNGAGNPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGR 484
           K+EEEKAKGV+ D  A N DIV FDDNEEEEEE   E EEEEE  GQ       GRGRGR
Sbjct: 423 KKEEEKAKGVSADEAADNQDIVLFDDNEEEEEE---ESEEEEEGNGQES----QGRGRGR 482

Query: 485 GMMWPPNFPMGRGIRPMPGMRGFPPGMMGVDGFAYGPGPGPGPGPDGFPMPDPFGMAPRP 544
           GMMWPP  PM RG+ PM G RGFPP M+G DGF +G          GF MPDPFG+ PR 
Sbjct: 483 GMMWPPQMPMLRGVGPMMGGRGFPPNMIG-DGFGFG---------GGFGMPDPFGV-PRG 542

Query: 545 FVPYGPRFSGEFT--NPAPGMMFPGRPSQPGG----GFGMMMGPGRGPFIPGGMGMGMGM 604
           F P+GPRF G+F    P PGM+FPGRP QPGG    G  MMMGPGRGP       MG G+
Sbjct: 543 FPPFGPRFPGDFARGGPMPGMVFPGRPPQPGGMFPMGLEMMMGPGRGPL------MG-GL 602

Query: 605 GMGMGGRGGRPMGGMPPIFPPQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKL 664
           GMG  GR  RP+ GM P  PP P  +NRG KR+ R        G + G+ + +  DQG  
Sbjct: 603 GMGGPGRPNRPV-GMAPFMPPPPPPNNRGTKREQRRP------GGERGDRYETTSDQGSR 662

Query: 665 QDMSSGGRADDPSYQQGAEKFVSRNNVTNDESESEDE-APRRSR 680
              ++G    + +  Q  +++  R+ + +D+SES++E APRRSR
Sbjct: 663 GHDATGNSGAEGARSQSGDRY-GRSALRDDDSESDEEAAPRRSR 663

[Close]

BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
Match: YTDC2_MOUSE (Probable ATP-dependent RNA helicase YTHDC2 OS=Mus musculus GN=Ythdc2 PE=1 SV=1)

HSP 1 Score: 132.1 bits (331), Expect = 2.300e-29
Identity = 74/159 (46.54%), Postives = 98/159 (61.64%), Query Frame = 1


		  
Query: 234  SSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVI 293
            SS +  ++ +P P    RYFI+KS N  NLE+S Q+G+W+T  SNE KLN AF     V 
Sbjct: 1287 SSGKGSKSPSPRPNMPIRYFIMKSSNLRNLEISQQKGIWSTTPSNERKLNRAFWESSMVY 1346

Query: 294  LIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRH 353
            L+FSV  + HFQG ++M+S+IG   S  +W    G+A  G  F V+W++   L F    H
Sbjct: 1347 LVFSVQGSGHFQGFSRMSSEIGREKS-QDW----GSAGLGGVFKVEWIRKESLPFQFAHH 1406

Query: 354  LRNPYNENLPVKISRDCQEMEPSVGEQLASLLYLEPDGE 393
            L NP+N+N  V+ISRD QE+EP VGEQL  L    P GE
Sbjct: 1407 LLNPWNDNKKVQISRDGQELEPQVGEQLLQLWERLPLGE 1440

[Close]

BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
Match: YTDC2_PONAB (YTH domain-containing protein 2 OS=Pongo abelii GN=YTHDC2 PE=2 SV=1)

HSP 1 Score: 131.3 bits (329), Expect = 4.000e-29
Identity = 81/199 (40.70%), Postives = 111/199 (55.78%), Query Frame = 1


		  
Query: 199 GVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTG-RTAAPLPQGITRYFIVKS 258
           G++    GTE  +    ++    +        PS  S+  G ++ +P P    RYFI+KS
Sbjct: 477 GILHPKRGTEDRSDQSSVKSTDSSSYPSPCASPSPPSSGKGSKSPSPRPNMPVRYFIMKS 536

Query: 259 CNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNRTRHFQGCAKMTSKIGET 318
            N  NLE+S Q+G+W+T  SNE KLN AF     V L+FSV  + HFQG ++M+S+IG  
Sbjct: 537 SNLRNLEISQQKGIWSTTPSNERKLNRAFWESSMVYLVFSVQGSGHFQGFSRMSSEIGRE 596

Query: 319 ASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNENLPVKISRDCQEMEPSV 378
            S  +W    G+A  G  F V+W++   L F    HL NP+N+N  V+ISRD QE+EP V
Sbjct: 597 KS-QDW----GSAGLGGVFKVEWIRKESLPFQFAHHLLNPWNDNKKVQISRDGQELEPQV 656

Query: 379 GEQLASLLYLEPDGELMAT 397
           GEQL  L    P GE   T
Sbjct: 657 GEQLLQLWERLPLGEKNTT 670

[Close]

BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
Match: YTDC2_HUMAN (Probable ATP-dependent RNA helicase YTHDC2 OS=Homo sapiens GN=YTHDC2 PE=1 SV=2)

HSP 1 Score: 131.3 bits (329), Expect = 4.000e-29
Identity = 82/199 (41.21%), Postives = 111/199 (55.78%), Query Frame = 1


		  
Query: 199  GVVPKPSGTESSNIHQQLQQPHLAGQDQIQNLPSNSSNQTG-RTAAPLPQGITRYFIVKS 258
            G++    GTE  +    L+    +        PS  S+  G ++ +P P    RYFI+KS
Sbjct: 1236 GILHPKRGTEDRSDQSSLKSTDSSSYPSPCASPSPPSSGKGSKSPSPRPNMPVRYFIMKS 1295

Query: 259  CNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVNRTRHFQGCAKMTSKIGET 318
             N  NLE+S Q+G+W+T  SNE KLN AF     V L+FSV  + HFQG ++M+S+IG  
Sbjct: 1296 SNLRNLEISQQKGIWSTTPSNERKLNRAFWESSIVYLVFSVQGSGHFQGFSRMSSEIGRE 1355

Query: 319  ASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNENLPVKISRDCQEMEPSV 378
             S  +W    G+A  G  F V+W++   L F    HL NP+N+N  V+ISRD QE+EP V
Sbjct: 1356 KS-QDW----GSAGLGGVFKVEWIRKESLPFQFAHHLLNPWNDNKKVQISRDGQELEPLV 1415

Query: 379  GEQLASLLYLEPDGELMAT 397
            GEQL  L    P GE   T
Sbjct: 1416 GEQLLQLWERLPLGEKNTT 1429

[Close]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Match: AT1G30460.1 (cleavage and polyadenylation specificity factor 30)

HSP 1 Score: 768.8 bits (1984), Expect = 2.800e-222
Identity = 440/693 (63.49%), Postives = 498/693 (71.86%), Query Frame = 1


		  
Query: 1   MEDTEGGLSFDFEGNLDTVPNIPTASNPVIQPDPNAAPSAGASVPTGGSAPVDQGSGQGN 60
           MED +G LSFDFEG LD+ P   TAS PV  P+ +++ +   +     S+    G+G+G 
Sbjct: 1   MEDADG-LSFDFEGGLDSGPVQNTASVPVAPPENSSSAAVNVAPTYDHSSATVAGAGRG- 60

Query: 61  RRSFRQTVCRHWLRSLCMKGDSCGFLHQYDKSRMPVCRFFRLYGECREQDCVYKHTNEDI 120
            RSFRQTVCRHWLR LCMKGD+CGFLHQ+DK+RMP+CRFFRLYGECREQDCVYKHTNEDI
Sbjct: 61  -RSFRQTVCRHWLRGLCMKGDACGFLHQFDKARMPICRFFRLYGECREQDCVYKHTNEDI 120

Query: 121 KECNMYKLGFCPNGPDCRYRHAKQPGPPPPVDEVLQKIQQLTSYSYGASNRFFQQRNTNY 180
           KECNMYKLGFCPNGPDCRYRHAK PGPPPPV+EVLQKIQQLT+Y+YG +NR +Q RN   
Sbjct: 121 KECNMYKLGFCPNGPDCRYRHAKLPGPPPPVEEVLQKIQQLTTYNYG-TNRLYQARNV-A 180

Query: 181 SQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQDQI-QNLPSNSSNQTG 240
            Q  DR   PQG       V  +    ES N+ QQ QQ     Q Q+ Q L  N ++QT 
Sbjct: 181 PQLQDR---PQGQ------VPMQGQPQESGNLQQQQQQQPQQSQHQVSQTLIPNPADQTN 240

Query: 241 RTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEHVILIFSVN 300
           RT+ PLPQG+ RYF+VKS NREN ELSVQQGVWATQRSNEAKLNEAFD+VE+VILIFSVN
Sbjct: 241 RTSHPLPQGVNRYFVVKSNNRENFELSVQQGVWATQRSNEAKLNEAFDSVENVILIFSVN 300

Query: 301 RTRHFQGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYN 360
           RTRHFQGCAKMTS+IG    GGNWKH HGTA YGRNFSVKWLKLCELSF+KTR+LRNPYN
Sbjct: 301 RTRHFQGCAKMTSRIGGYIGGGNWKHEHGTAQYGRNFSVKWLKLCELSFHKTRNLRNPYN 360

Query: 361 ENLPVKISRDCQEMEPSVGEQLASLLYLEPDGELMATLIAAESKREEEKAKGVNTDNGAG 420
           ENLPVKISRDCQE+EPSVGEQLASLLYLEPD ELMA  IAAE+KREEEKAKGVN ++ A 
Sbjct: 361 ENLPVKISRDCQELEPSVGEQLASLLYLEPDSELMAISIAAEAKREEEKAKGVNPESRAE 420

Query: 421 NPDIVPFDDNEEEEEEEESEEEEEEESFGQAPGVAIHGRGRGRGMMWPPNFPMGRGIRPM 480
           NPDIVPF+DNEEEEEEE+ E EEEEES    P     GRGRGRG+MWPP  P+GRGIRPM
Sbjct: 421 NPDIVPFEDNEEEEEEED-ESEEEEESMAGGP----QGRGRGRGIMWPPQMPLGRGIRPM 480

Query: 481 PGMRGFPPGMMGV-DGFAYGPGPGPGPGPDGFPMPDPFGMAPRPFVPYGPRFSGEFTNPA 540
           PGM GFP G+MG  D F YGPG     G +G  MPDPFGM PRPF PYGPRF G+F  P 
Sbjct: 481 PGMGGFPLGVMGPGDAFPYGPG-----GYNG--MPDPFGMGPRPFGPYGPRFGGDFRGPV 540

Query: 541 PGMMFPGRPSQ--PGGGFGMMMGPGRGPFIPGGMGMGMGMGMGMGGRGGRPMGGMPPIFP 600
           PGMMFPGRP Q  P GG+G MMG GRGP               MGG G  P GG P  +P
Sbjct: 541 PGMMFPGRPPQQFPHGGYG-MMGGGRGPH--------------MGGMGNAPRGGRPMYYP 600

Query: 601 PQPQGSNRGPKRDLRGSGTGNGNGNDWGETFGSGPDQGKLQDMSSGGRADDPSYQQGAEK 660
           P    +  GP                        P++   + +S   +  D S+    E+
Sbjct: 601 PATSSARPGPSN-------------------RKTPERSDERGVSGDQQNQDASHDM--EQ 631

Query: 661 FVSRNNVTNDESES--EDEAPRRSRHGEGKKKR 688
           F   N++ N+ESES  EDEAPRRSRHGEGKK+R
Sbjct: 661 FEVGNSLRNEESESEDEDEAPRRSRHGEGKKRR 631

[Close]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Match: AT4G11970.1 (YTH family protein)

HSP 1 Score: 137.1 bits (344), Expect = 4.100e-32
Identity = 75/162 (46.30%), Postives = 101/162 (62.35%), Query Frame = 1


		  
Query: 225 DQIQNLPSNSSNQTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRSNEAKLNE 284
           DQ+++  +N +++ G          TRYFI+KS N +N+++SV++G+WATQ  NE  L  
Sbjct: 55  DQLESAKANKNSKPGYR--------TRYFIIKSLNYDNIQVSVEKGIWATQVMNEPILEG 114

Query: 285 AFDTVEHVILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAH-YGRNFSVKWLKL 344
           AF     VILIFSVN +  FQG A+M S +G       W    G  + +GR+F VKWL+L
Sbjct: 115 AFHKSGRVILIFSVNMSGFFQGYAEMLSPVGWRRDQ-IWSQGGGKNNPWGRSFKVKWLRL 174

Query: 345 CELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASLL 386
            EL F KT HL+NP N+  PVKISRDCQE+   +GE L  LL
Sbjct: 175 SELPFQKTLHLKNPLNDYKPVKISRDCQELPEDIGEALCELL 207

[Close]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Match: AT1G27960.1 (evolutionarily conserved C-terminal region 9)

HSP 1 Score: 70.5 bits (171), Expect = 4.700e-12
Identity = 41/140 (29.29%), Postives = 72/140 (51.43%), Query Frame = 1


		  
Query: 251 RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAF------DTVEHVILIFSVNRTRHF 310
           ++F++KS + +N+  S++  VWA+ ++   KL+ A+      D    V L+FSVN +  F
Sbjct: 331 KFFVIKSYSEDNVHKSIKHCVWASTKNGNKKLDAAYREAKKKDVACPVFLLFSVNASSQF 390

Query: 311 QGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNENLPV 370
            G A+M   +    S   W+    + H    F V+WL + ++  +  RH+    N+N PV
Sbjct: 391 CGVAEMVGPVDFNTSVEYWQQDRWSGH----FPVQWLIVKDVPNSLFRHIIIESNDNKPV 450

Query: 371 KISRDCQEMEPSVGEQLASL 385
             SRD QE+    G ++  +
Sbjct: 451 TNSRDTQEVGLEKGIEMLDI 466

[Close]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Match: AT3G13460.1 (evolutionarily conserved C-terminal region 2)

HSP 1 Score: 66.6 bits (161), Expect = 6.800e-11
Identity = 52/233 (22.32%), Postives = 96/233 (41.20%), Query Frame = 1


		  
Query: 165 SYGASNRFFQQRNTNYSQQADRSQFPQGTNSTNPGVVPKPSGTESSNIHQQLQQPHLAGQ 224
           S+G  N ++     N            G N  N G   K +  +  N+   L+     G+
Sbjct: 360 SWGRGNSYYYGNENNVD----------GLNELNRGPRAKGTKNQKGNLDDSLEVKEQTGE 419

Query: 225 DQIQNLPSNSSN-------QTGRTAAPLPQGITRYFIVKSCNRENLELSVQQGVWATQRS 284
             +  +    +        Q  +   P+      +FI+KS + +++  S++  VWA+  +
Sbjct: 420 SNVTEVGEADNTCVVPDREQYNKEDFPVDYANAMFFIIKSYSEDDVHKSIKYNVWASTPN 479

Query: 285 NEAKLNEAFDTVEH------VILIFSVNRTRHFQGCAKMTSKIGETASGGNWKHAHGTAH 344
              KL  A+   +       + L FSVN +  F G A+MT  +    +   W+    T  
Sbjct: 480 GNKKLAAAYQEAQQKAGGCPIFLFFSVNASGQFVGLAEMTGPVDFNTNVEYWQQDKWTG- 539

Query: 345 YGRNFSVKWLKLCELSFNKTRHLRNPYNENLPVKISRDCQEMEPSVGEQLASL 385
              +F +KW  + ++  +  +H+    NEN PV  SRD QE++   G ++  +
Sbjct: 540 ---SFPLKWHIVKDVPNSLLKHITLENNENKPVTNSRDTQEVKLEQGLKIVKI 578

[Close]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Match: AT3G13060.2 (evolutionarily conserved C-terminal region 5)

HSP 1 Score: 63.9 bits (154), Expect = 4.400e-10
Identity = 39/140 (27.86%), Postives = 70/140 (50.00%), Query Frame = 1


		  
Query: 251 RYFIVKSCNRENLELSVQQGVWATQRSNEAKLNEAFDTVEH------VILIFSVNRTRHF 310
           + FI+KS + +N+  S++  VWA+  +   KL+ A+   +       + L+FSVN +  F
Sbjct: 399 KLFIIKSYSEDNVHKSIKYNVWASTPNGNKKLDAAYREAKDEKEPCPLFLLFSVNASSQF 458

Query: 311 QGCAKMTSKIGETASGGNWKHAHGTAHYGRNFSVKWLKLCELSFNKTRHLRNPYNENLPV 370
            G A+M   +    S   W+       +   F VKW  + ++  ++ RH+    N+N PV
Sbjct: 459 CGVAEMVGPVDFEKSVDYWQQDK----WSGQFPVKWHIIKDVPNSQFRHIILENNDNKPV 518

Query: 371 KISRDCQEMEPSVGEQLASL 385
             SRD QE++   G ++  +
Sbjct: 519 TNSRDTQEVKLEQGIEMLKI 534

The following BLAST results are available for this feature:

BLAST of Spo23070.1 vs. NCBI nr
BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
BLAST of Spo23070.1 vs. ExPASy Swiss-Prot
BLAST of Spo23070.1 vs. TAIR (Arabidopsis)

BLAST of Spo23070.1 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\|902171834\|gb\|KNA08051.1\|	0.0e+0	100.	hypothetical protein SOVF_1660...	[more]
gi\|731351448\|ref\|XP_010687042.1\|	0.0e+0	86.7	PREDICTED: 30-kDa cleavage and...	[more]
gi\|590681660\|ref\|XP_007041140.1\|	1.2e-259	68.8	Cleavage and polyadenylation s...	[more]
gi\|985434104\|ref\|XP_015382577.1\|	2.3e-258	67.9	PREDICTED: 30-kDa cleavage and...	[more]
gi\|823204622\|ref\|XP_012436534.1\|	3.9e-258	68.4	PREDICTED: 30-kDa cleavage and...	[more]

BLAST of Spo23070.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9QN77_SPIOL	0.0e+0	100.	Uncharacterized protein OS=Spi...	[more]
A0A0J8BVC4_BETVU	0.0e+0	86.7	Uncharacterized protein OS=Bet...	[more]
A0A061DY09_THECC	8.4e-260	68.8	Cleavage and polyadenylation s...	[more]
A0A067GIQ4_CITSI	1.6e-258	67.9	Uncharacterized protein OS=Cit...	[more]
A0A0D2PNT4_GOSRA	2.7e-258	68.4	Uncharacterized protein OS=Gos...	[more]

BLAST of Spo23070.1 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
CPSF_ARATH	4.9e-221	63.4	30-kDa cleavage and polyadenyl...	[more]
C3H45_ORYSJ	1.4e-202	57.9	Zinc finger CCCH domain-contai...	[more]
YTDC2_MOUSE	2.3e-29	46.5	Probable ATP-dependent RNA hel...	[more]
YTDC2_PONAB	4.0e-29	40.7	YTH domain-containing protein ...	[more]
YTDC2_HUMAN	4.0e-29	41.2	Probable ATP-dependent RNA hel...	[more]

BLAST of Spo23070.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5


Match Name	E-value	Identity	Description
AT1G30460.1	2.8e-222	63.4	cleavage and polyadenylation s...	[more]
AT4G11970.1	4.1e-32	46.3	YTH family protein	[more]
AT1G27960.1	4.7e-12	29.2	evolutionarily conserved C-ter...	[more]
AT3G13460.1	6.8e-11	22.3	evolutionarily conserved C-ter...	[more]
AT3G13060.2	4.4e-10	27.8	evolutionarily conserved C-ter...	[more]

InterPro

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


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000571	Zinc finger, CCCH-type	GENE3D	4.10.1000.10		coord: 64..90 score: 5.
IPR000571	Zinc finger, CCCH-type	SMART	SM00356	c3hfinal6	coord: 63..89 score: 2.1E-4coord: 91..117 score: 0.049coord: 119..143 score: 0
IPR000571	Zinc finger, CCCH-type	PROFILE	PS50103	ZF_C3H1	coord: 91..115 score: 7.93coord: 117..144 score: 12.85coord: 63..90 score: 13
IPR000571	Zinc finger, CCCH-type	unknown	SSF90229	CCCH zinc finger	coord: 63..93 score: 2.7
IPR007275	YTH domain	PFAM	PF04146	YTH	coord: 250..384 score: 9.0
IPR007275	YTH domain	PROFILE	PS50882	YTH	coord: 250..385 score: 5
None	No IPR available	unknown	Coil	Coil	coord: 426..446 scor
None	No IPR available	PANTHER	PTHR12357	YTH YT521-B HOMOLOGY DOMAIN-CONTAINING	coord: 1..547 score: 4.7E
None	No IPR available	PANTHER	PTHR12357:SF3	FI21232P1	coord: 1..547 score: 4.7E

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0006378	mRNA polyadenylation
biological_process	GO:0006888	ER to Golgi vesicle-mediated transport
biological_process	GO:0009909	regulation of flower development
biological_process	GO:0006075	(1->3)-beta-D-glucan biosynthetic process
biological_process	GO:0043090	amino acid import
biological_process	GO:0015696	ammonium transport
biological_process	GO:0015802	basic amino acid transport
biological_process	GO:0052544	defense response by callose deposition in cell wall
biological_process	GO:0009870	defense response signaling pathway, resistance gene-dependent
biological_process	GO:0042742	defense response to bacterium
biological_process	GO:0050832	defense response to fungus
biological_process	GO:0009965	leaf morphogenesis
biological_process	GO:0051726	regulation of cell cycle
biological_process	GO:0010150	leaf senescence
biological_process	GO:0009556	microsporogenesis
biological_process	GO:0043069	negative regulation of programmed cell death
biological_process	GO:0006862	nucleotide transport
biological_process	GO:0006612	protein targeting to membrane
biological_process	GO:0008360	regulation of cell shape
biological_process	GO:0043269	regulation of ion transport
biological_process	GO:0010363	regulation of plant-type hypersensitive response
biological_process	GO:0005982	starch metabolic process
biological_process	GO:0005985	sucrose metabolic process
biological_process	GO:0006275	regulation of DNA replication
biological_process	GO:0009165	nucleotide biosynthetic process
biological_process	GO:0010498	proteasomal protein catabolic process
biological_process	GO:0009663	plasmodesma organization
biological_process	GO:0006099	tricarboxylic acid cycle
biological_process	GO:0006568	tryptophan metabolic process
biological_process	GO:0015991	ATP hydrolysis coupled proton transport
biological_process	GO:0015986	ATP synthesis coupled proton transport
biological_process	GO:0009658	chloroplast organization
biological_process	GO:0009085	lysine biosynthetic process
biological_process	GO:0006430	lysyl-tRNA aminoacylation
biological_process	GO:0006364	rRNA processing
biological_process	GO:0008152	metabolic process
biological_process	GO:0010497	plasmodesmata-mediated intercellular transport
biological_process	GO:0007000	nucleolus organization
biological_process	GO:0042744	hydrogen peroxide catabolic process
biological_process	GO:0090305	nucleic acid phosphodiester bond hydrolysis
biological_process	GO:0008283	cell proliferation
biological_process	GO:0006342	chromatin silencing
biological_process	GO:0000911	cytokinesis by cell plate formation
biological_process	GO:0006306	DNA methylation
biological_process	GO:0006270	DNA replication initiation
biological_process	GO:0006268	DNA unwinding involved in DNA replication
biological_process	GO:0051567	histone H3-K9 methylation
biological_process	GO:0000280	nuclear division
biological_process	GO:0007010	cytoskeleton organization
biological_process	GO:0009651	response to salt stress
biological_process	GO:0030001	metal ion transport
biological_process	GO:0006531	aspartate metabolic process
biological_process	GO:0006020	inositol metabolic process
biological_process	GO:0006013	mannose metabolic process
biological_process	GO:0048598	embryonic morphogenesis
biological_process	GO:0045037	protein import into chloroplast stroma
biological_process	GO:0048856	anatomical structure development
biological_process	GO:0048229	gametophyte development
biological_process	GO:0090501	RNA phosphodiester bond hydrolysis
biological_process	GO:0006522	alanine metabolic process
biological_process	GO:0006421	asparaginyl-tRNA aminoacylation
biological_process	GO:0001522	pseudouridine synthesis
biological_process	GO:0015976	carbon utilization
biological_process	GO:0019243	methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
biological_process	GO:0006950	response to stress
biological_process	GO:0016573	histone acetylation
biological_process	GO:0030244	cellulose biosynthetic process
biological_process	GO:0033356	UDP-L-arabinose metabolic process
biological_process	GO:0044070	regulation of anion transport
biological_process	GO:0055085	transmembrane transport
biological_process	GO:0006913	nucleocytoplasmic transport
biological_process	GO:0045454	cell redox homeostasis
biological_process	GO:0016567	protein ubiquitination
biological_process	GO:0006000	fructose metabolic process
biological_process	GO:0006511	ubiquitin-dependent protein catabolic process
biological_process	GO:0070932	histone H3 deacetylation
biological_process	GO:0019915	lipid storage
biological_process	GO:0061647	histone H3-K9 modification
biological_process	GO:0070933	histone H4 deacetylation
biological_process	GO:0006355	regulation of transcription, DNA-templated
biological_process	GO:0048312	intracellular distribution of mitochondria
biological_process	GO:0009738	abscisic acid-activated signaling pathway
biological_process	GO:0051301	cell division
biological_process	GO:0048825	cotyledon development
biological_process	GO:0006281	DNA repair
biological_process	GO:0009880	embryonic pattern specification
biological_process	GO:0000278	mitotic cell cycle
biological_process	GO:0010182	sugar mediated signaling pathway
biological_process	GO:0010100	negative regulation of photomorphogenesis
biological_process	GO:0010072	primary shoot apical meristem specification
biological_process	GO:0000209	protein polyubiquitination
biological_process	GO:0010564	regulation of cell cycle process
biological_process	GO:0045595	regulation of cell differentiation
biological_process	GO:0050826	response to freezing
biological_process	GO:0010162	seed dormancy process
biological_process	GO:0009845	seed germination
biological_process	GO:0048575	short-day photoperiodism, flowering
biological_process	GO:0007062	sister chromatid cohesion
biological_process	GO:0006554	lysine catabolic process
biological_process	GO:0002098	tRNA wobble uridine modification
biological_process	GO:0016070	RNA metabolic process
biological_process	GO:0007049	cell cycle
biological_process	GO:0006396	RNA processing
biological_process	GO:0005975	carbohydrate metabolic process
biological_process	GO:0006516	glycoprotein catabolic process
biological_process	GO:0042545	cell wall modification
biological_process	GO:0009664	plant-type cell wall organization
biological_process	GO:0001510	RNA methylation
biological_process	GO:0006974	cellular response to DNA damage stimulus
biological_process	GO:0042254	ribosome biogenesis
biological_process	GO:0048478	replication fork protection
biological_process	GO:0016117	carotenoid biosynthetic process
biological_process	GO:0016024	CDP-diacylglycerol biosynthetic process
biological_process	GO:0015995	chlorophyll biosynthetic process
biological_process	GO:0009793	embryo development ending in seed dormancy
biological_process	GO:0016226	iron-sulfur cluster assembly
biological_process	GO:0001731	formation of translation preinitiation complex
biological_process	GO:0009099	valine biosynthetic process
biological_process	GO:0042967	obsolete acyl-carrier-protein biosynthetic process
biological_process	GO:0006144	purine nucleobase metabolic process
biological_process	GO:0006508	proteolysis
biological_process	GO:0006448	regulation of translational elongation
biological_process	GO:0006783	heme biosynthetic process
biological_process	GO:0009116	nucleoside metabolic process
biological_process	GO:0006098	pentose-phosphate shunt
biological_process	GO:0016310	phosphorylation
biological_process	GO:0009220	pyrimidine ribonucleotide biosynthetic process
biological_process	GO:0055114	oxidation-reduction process
biological_process	GO:0000028	ribosomal small subunit assembly
biological_process	GO:0006412	translation
biological_process	GO:0006446	regulation of translational initiation
biological_process	GO:0006094	gluconeogenesis
biological_process	GO:0006096	glycolytic process
biological_process	GO:0009097	isoleucine biosynthetic process
biological_process	GO:0009098	leucine biosynthetic process
biological_process	GO:0019288	isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process	GO:0006414	translational elongation
biological_process	GO:0006655	phosphatidylglycerol biosynthetic process
biological_process	GO:0006884	cell volume homeostasis
biological_process	GO:0019877	diaminopimelate biosynthetic process
biological_process	GO:0009089	lysine biosynthetic process via diaminopimelate
biological_process	GO:0048481	plant ovule development
biological_process	GO:0006457	protein folding
biological_process	GO:0009987	cellular process
biological_process	GO:0000387	spliceosomal snRNP assembly
biological_process	GO:0006821	chloride transport
biological_process	GO:0044248	cellular catabolic process
biological_process	GO:1901575	organic substance catabolic process
biological_process	GO:0010027	thylakoid membrane organization
biological_process	GO:0006636	unsaturated fatty acid biosynthetic process
biological_process	GO:0010228	vegetative to reproductive phase transition of meristem
cellular_component	GO:0005886	plasma membrane
cellular_component	GO:0005730	nucleolus
cellular_component	GO:0009507	chloroplast
cellular_component	GO:0019013	viral nucleocapsid
cellular_component	GO:1990904	ribonucleoprotein complex
cellular_component	GO:0005634	nucleus
cellular_component	GO:0022627	cytosolic small ribosomal subunit
cellular_component	GO:0015934	large ribosomal subunit
cellular_component	GO:0005737	cytoplasm
cellular_component	GO:0080008	Cul4-RING E3 ubiquitin ligase complex
cellular_component	GO:0009506	plasmodesma
cellular_component	GO:0005829	cytosol
cellular_component	GO:0016020	membrane
cellular_component	GO:0045252	oxoglutarate dehydrogenase complex
cellular_component	GO:0031359	integral component of chloroplast outer membrane
cellular_component	GO:0010006	Toc complex
cellular_component	GO:0005774	vacuolar membrane
cellular_component	GO:0005576	extracellular region
cellular_component	GO:0005622	intracellular
cellular_component	GO:0031429	box H/ACA snoRNP complex
cellular_component	GO:0005643	nuclear pore
cellular_component	GO:0005840	ribosome
cellular_component	GO:0005743	mitochondrial inner membrane
cellular_component	GO:0000123	histone acetyltransferase complex
cellular_component	GO:0005741	mitochondrial outer membrane
cellular_component	GO:0022625	cytosolic large ribosomal subunit
cellular_component	GO:0000275	mitochondrial proton-transporting ATP synthase complex, catalytic core F(1)
cellular_component	GO:0000118	histone deacetylase complex
cellular_component	GO:0031969	chloroplast membrane
cellular_component	GO:0048046	apoplast
cellular_component	GO:0034709	methylosome
cellular_component	GO:0034715	pICln-Sm protein complex
cellular_component	GO:0005852	eukaryotic translation initiation factor 3 complex
cellular_component	GO:0005618	cell wall
cellular_component	GO:0033290	eukaryotic 48S preinitiation complex
cellular_component	GO:0016282	eukaryotic 43S preinitiation complex
cellular_component	GO:0015935	small ribosomal subunit
cellular_component	GO:0000148	1,3-beta-D-glucan synthase complex
cellular_component	GO:0016021	integral component of membrane
cellular_component	GO:0005794	Golgi apparatus
cellular_component	GO:0005773	vacuole
cellular_component	GO:0042555	MCM complex
cellular_component	GO:0005657	replication fork
cellular_component	GO:0043231	intracellular membrane-bounded organelle
cellular_component	GO:0005739	mitochondrion
cellular_component	GO:0005759	mitochondrial matrix
cellular_component	GO:0045254	pyruvate dehydrogenase complex
molecular_function	GO:0003678	DNA helicase activity
molecular_function	GO:0000166	nucleotide binding
molecular_function	GO:0004842	ubiquitin-protein transferase activity
molecular_function	GO:0004816	asparagine-tRNA ligase activity
molecular_function	GO:0003924	GTPase activity
molecular_function	GO:0004560	alpha-L-fucosidase activity
molecular_function	GO:0050660	flavin adenine dinucleotide binding
molecular_function	GO:0005515	protein binding
molecular_function	GO:0009055	electron transfer activity
molecular_function	GO:0015035	protein disulfide oxidoreductase activity
molecular_function	GO:0046872	metal ion binding
molecular_function	GO:0004402	histone acetyltransferase activity
molecular_function	GO:0004519	endonuclease activity
molecular_function	GO:0008236	serine-type peptidase activity
molecular_function	GO:0003841	1-acylglycerol-3-phosphate O-acyltransferase activity
molecular_function	GO:0008466	glycogenin glucosyltransferase activity
molecular_function	GO:0005525	GTP binding
molecular_function	GO:0008097	5S rRNA binding
molecular_function	GO:0003676	nucleic acid binding
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0008308	voltage-gated anion channel activity
molecular_function	GO:0052691	UDP-arabinopyranose mutase activity
molecular_function	GO:0046969	NAD-dependent histone deacetylase activity (H3-K9 specific)
molecular_function	GO:0003746	translation elongation factor activity
molecular_function	GO:0003843	1,3-beta-D-glucan synthase activity
molecular_function	GO:0097372	NAD-dependent histone deacetylase activity (H3-K18 specific)
molecular_function	GO:0032041	NAD-dependent histone deacetylase activity (H3-K14 specific)
molecular_function	GO:0008840	4-hydroxy-tetrahydrodipicolinate synthase
molecular_function	GO:0046933	proton-transporting ATP synthase activity, rotational mechanism
molecular_function	GO:0004739	pyruvate dehydrogenase (acetyl-transferring) activity
molecular_function	GO:0003723	RNA binding
molecular_function	GO:0003743	translation initiation factor activity
molecular_function	GO:0004523	RNA-DNA hybrid ribonuclease activity
molecular_function	GO:0004386	helicase activity
molecular_function	GO:0004824	lysine-tRNA ligase activity
molecular_function	GO:0003735	structural constituent of ribosome
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0016757	transferase activity, transferring glycosyl groups
molecular_function	GO:0016779	nucleotidyltransferase activity
molecular_function	GO:0004749	ribose phosphate diphosphokinase activity
molecular_function	GO:0000287	magnesium ion binding
molecular_function	GO:0016301	kinase activity
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0031625	ubiquitin protein ligase binding
molecular_function	GO:0030976	thiamine pyrophosphate binding
molecular_function	GO:0004332	fructose-bisphosphate aldolase activity
molecular_function	GO:0004591	oxoglutarate dehydrogenase (succinyl-transferring) activity
molecular_function	GO:0046970	NAD-dependent histone deacetylase activity (H4-K16 specific)
molecular_function	GO:0015450	P-P-bond-hydrolysis-driven protein transmembrane transporter activity
molecular_function	GO:0019843	rRNA binding
molecular_function	GO:0051082	unfolded protein binding
molecular_function	GO:0008026	ATP-dependent helicase activity

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo07017	0.82	Barchart \| Table
Spo07016	0.81	Barchart \| Table
Spo07821	0.80	Barchart \| Table
Spo10553	0.79	Barchart \| Table
Spo05114	0.78	Barchart \| Table
Spo06904	0.77	Barchart \| Table
Spo22505	0.77	Barchart \| Table
Spo14380	0.77	Barchart \| Table
Spo10565	0.76	Barchart \| Table
Spo02928	0.75	Barchart \| Table
Spo06097	0.75	Barchart \| Table
Spo13621	0.75	Barchart \| Table
Spo00055	0.74	Barchart \| Table
Spo13818	0.74	Barchart \| Table
Spo25306	0.74	Barchart \| Table
Spo24416	0.74	Barchart \| Table
Spo01403	0.74	Barchart \| Table
Spo01535	0.74	Barchart \| Table
Spo03527	0.73	Barchart \| Table
Spo03007	0.73	Barchart \| Table
Spo08931	0.73	Barchart \| Table
Spo20519	0.73	Barchart \| Table
Spo09208	0.73	Barchart \| Table
Spo05909	0.73	Barchart \| Table
Spo20284	0.72	Barchart \| Table
Spo07668	0.72	Barchart \| Table
Spo19231	0.72	Barchart \| Table
Spo14267	0.72	Barchart \| Table
Spo23622	0.72	Barchart \| Table
Spo06101	0.72	Barchart \| Table
Spo06317	0.72	Barchart \| Table
Spo20896	0.72	Barchart \| Table
Spo01999	0.72	Barchart \| Table
Spo09855	0.72	Barchart \| Table
Spo15063	0.72	Barchart \| Table
Spo12191	0.71	Barchart \| Table
Spo13296	0.71	Barchart \| Table
Spo24001	0.71	Barchart \| Table
Spo24395	0.71	Barchart \| Table
Spo25206	0.71	Barchart \| Table
Spo02993	0.71	Barchart \| Table
Spo22936	0.71	Barchart \| Table
Spo24916	0.71	Barchart \| Table
Spo05232	0.70	Barchart \| Table
Spo19374	0.70	Barchart \| Table
Spo02397	0.70	Barchart \| Table
Spo03802	0.70	Barchart \| Table
Spo04390	0.70	Barchart \| Table
Spo19440	0.70	Barchart \| Table
Spo22535	0.70	Barchart \| Table
Spo01056	0.70	Barchart \| Table
Spo10147	0.70	Barchart \| Table
Spo12735	0.70	Barchart \| Table
Spo20235	0.70	Barchart \| Table
Spo19873	0.70	Barchart \| Table
Spo23298	0.69	Barchart \| Table
Spo20460	0.69	Barchart \| Table
Spo13061	0.69	Barchart \| Table
Spo05090	0.69	Barchart \| Table
Spo04497	0.69	Barchart \| Table
Spo03626	0.69	Barchart \| Table
Spo15641	0.69	Barchart \| Table
Spo00195	0.69	Barchart \| Table
Spo02988	0.69	Barchart \| Table
Spo24918	0.69	Barchart \| Table
Spo18221	0.69	Barchart \| Table
Spo21406	0.69	Barchart \| Table
Spo19413	0.69	Barchart \| Table
Spo06840	0.69	Barchart \| Table
Spo27154	0.68	Barchart \| Table
Spo03573	0.68	Barchart \| Table
Spo08184	0.68	Barchart \| Table
Spo08691	0.68	Barchart \| Table
Spo13288	0.68	Barchart \| Table
Spo14404	0.68	Barchart \| Table
Spo15160	0.68	Barchart \| Table
Spo15635	0.68	Barchart \| Table
Spo19236	0.68	Barchart \| Table
Spo23966	0.68	Barchart \| Table
Spo24874	0.68	Barchart \| Table
Spo26726	0.68	Barchart \| Table
Spo24902	0.67	Barchart \| Table
Spo04755	0.67	Barchart \| Table
Spo02936	0.67	Barchart \| Table
Spo15133	0.67	Barchart \| Table
Spo17471	0.67	Barchart \| Table
Spo17903	0.67	Barchart \| Table
Spo19441	0.67	Barchart \| Table
Spo14513	0.67	Barchart \| Table
Spo19905	0.67	Barchart \| Table
Spo18784	0.67	Barchart \| Table
Spo12759	0.67	Barchart \| Table
Spo12757	0.67	Barchart \| Table
Spo21278	0.67	Barchart \| Table
Spo07916	0.67	Barchart \| Table
Spo07423	0.67	Barchart \| Table
Spo22939	0.67	Barchart \| Table
Spo15934	0.67	Barchart \| Table
Spo04759	0.67	Barchart \| Table
Spo01478	0.66	Barchart \| Table
Spo09495	0.66	Barchart \| Table
Spo17495	0.66	Barchart \| Table
Spo05064	0.66	Barchart \| Table
Spo00968	0.66	Barchart \| Table
Spo24642	0.66	Barchart \| Table
Spo05632	0.66	Barchart \| Table
Spo05618	0.66	Barchart \| Table
Spo13481	0.66	Barchart \| Table
Spo19254	0.66	Barchart \| Table
Spo24775	0.66	Barchart \| Table
Spo05244	0.66	Barchart \| Table
Spo24238	0.66	Barchart \| Table
Spo16378	0.66	Barchart \| Table
Spo17080	0.65	Barchart \| Table
Spo25680	0.65	Barchart \| Table
Spo15961	0.65	Barchart \| Table
Spo13561	0.65	Barchart \| Table
Spo12816	0.65	Barchart \| Table
Spo10211	0.65	Barchart \| Table
Spo26488	0.65	Barchart \| Table
Spo02931	0.65	Barchart \| Table
Spo18505	0.65	Barchart \| Table