Spo23092 (gene) | SpinachBase

Overview


Name	Spo23092
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	31-kDa RNA binding protein
Location	Super_scaffold_143 : 1265841 .. 1286541 (-)

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.

ATGCCTTTGGTACCTCTACCCTCTTCTCTCCCATGCCGTTGGTACTCAAAAAAAATTATCTTTCTCTTATCTTTCTCTGGGTTTGATTTCATTTTTATTTGCACAAATCGATTTCCCAAATACTCTAATTTGCTGATTCAAATGGCTTTGAGAGAGCTTGAGGCGAAAGATTAGGGTTTCAAAATGAGATGGATCGGGGCTCGCATTCATTTGACTTGGACGATGTTGTGGAAGGTCCGTGTTTCTCATTCAAGATTTGGTTTATTTTTCTTTTTCAACCGTTTGTATCTTCTCATTGATTTTGTTTCTTCATTTTTTAGGGTTTATCAGTTTGAGCATCAATGGTACCTACTGCTAAAGGTATTTCTTCCATTTTTCACTTGAATGTATTAATTTAATTTGAAGTTTTGGTAATTGCATTAATTATATCTCTCAATTTCAAAAGCTTGGCCCAAAACCATCTTTGGCACTGCAAAAGCTCTAGAACTCAACTTTTAGACTCTTTGTGAACCTTGCGCAATGTAAATAATATGCAGAAAGAAGTGAGAAAATAGGTGGTGATTCCGTTAAGTTGTAATATAACAAGGCTGCTGGAATTTTTCTTCAAAAAAAAAAAAAAAAAAAGGTTGTTGGAACTAATCTGTAAGACATAGCATCCAGCAATTTAAAACTGTTGGAACTAAATCAACTATCTGAATTTTGGCAAACAAATTTGGACCATTATGGAAGGAATCTGAAGAGTATAAAACAACTATTTTCTCATAAAACCTCAATATGGGACTATTTAGTTTTATTTACTGCTCCAATACTCTAAACTTCAAACAATATGGCTTTTTATCTACCCAACAGAAATCTAATACTCAGATTCTCAGCCAAAAAAAAAAACTCTAAACTTCAAACAATATGGCTTGTATTGTAAAGTGATTAACTTGTTTGAGCTTCTCGGTTCATTTTAGCAAGGAGGCAGTCAGGCAGGACATGTCGAGGAGTGAAAATTGAGAGTGGTTTCTCTGTCCCCACCCCAACCACTGTCACCAGTTCCTGAAGGCGGTTCTCCTAGGGGCTTTGTTTCCGACAATGGGCATTTTAGTGCTTCTGACTTTCTGAGTCTGCCGTTGTATGCACTTTCTCGTCTTATCTCTACTTGTTTATTTAATTATTATTATTATTGCTTCTGATCATGGGGCTTCACTTCTAATTGCAGGGGTCAAGATTATTTCCTGAATCTAATGAAAAATCTACAGAGGTGATTCATTGTAGCCATTTTCATCGACCTGACATTATGTTCCATGTGTATGATGTACTATACTGTAGGATAATATCAGTACAAATTTCTCTAGGAAGTGTTTGATAGGTTCTTGTAGAAGAGTTAGGGATAACCATGTATTACTGTGCTAGCATTATGGGTAATTTTCCATGTGATTCATTTTACTCGTGCTTCCTGATGAGAGGAGGTACATCGAAACTGAGATACTTCCTCTACTTTACTTTAGTTAGTATAAATTTCCATGTTTGTTTGAAACACAATGTAATCCTTAGTAACATAGCTTTTGTCGGATACAAAGGAACTCCATTTGTAAATTAGCTTATCCAAACTGTAAACTGTGTGCAGATTTCTTGGAGCTGGCACTGCAGTATGGAAAAATTGGGCTGTGGAATCCTGTTGGTATTACTCAGATGGTGAAGTGTGTCATACAAATCAAGACTGAGTTAGTTGTCAACTAAGTCGTTTTGCATCTGAAATTGAAGGGCTTGGTGCAAGGTTATTTCTCTAGATCTTTCCGAGCTGCAAAACTTATCTATTTCCGAGCTGCCCTTCCCAGAAAATCACATTATGGAGGTATCAGTTTTGTTTTATCTATTTCTAATCCAATAAATACTGCGTATACTATTCAGATTTGCATTGAGTCAGGACTGATACTTTTTTTCCCTGTAAGTCTGTAACATATTTTGGGTTGTCCGTCTAAAATTCGGTACCATTCACCAGATAGTATATTGTACTAAAGAAAGATAGAGCGAGTTAAGAGATTAGCCTTCTATATATGCATAAATCATAATCATGCAACTGATCCCAAACTGAAACAAAACATTGAATTAGCCTTTTTCATTTGTATCTTGTCCTGCACCCACCATCTCTTCCTTGACTTCTTTATCTCCTCCTTCCTTCTCATTCCTTTCCCCTGGAACTTGATGCCATGTTGCTATCGAAATTAGACCTTGAAAATGTCGCTAAGCAGCCTACTATGCTCGAGGTACTTGCATTCGTTATATGATGTATCTATGGTTTTCGGCTGGTGTATCTATGGGATTTAGTTGATGTATTTATGGTTCTTAGTTGATGTATCTTCCATACTTGATGTAACCATGATTTATGAGGATCGGGAAGAGAAATATGAAGCATCAACCATTTTAGACTTAAAATTTGAACACTTGATAAAATTCCGATCAAAATTTACCAACAAATAGGATTAAATTAATTGTGCATATTCAAAGCCTTATTTTGGTTCATTCTCTTATCTTCCCTCAAACCCTGAACTTTTTCAAACTTTCTAGGTCTTTTTATTTAAATTTCGATTTTTTTGGGGTTTGAGGCTTCAAATTGGGGTTTATATTTTCGATCATGTAATATCGATATTTTTGAGGGTTTTTATGCTTCAGATTAGGGTTTATGTTTCCTATCATGTAAATATTTCAATTTGTGAATTGGAGAGAAGGATCACTAACTATCGTGATTTTTGTATCAGAATTGATTTAGTATATTTTCCCTGTTTTAGATGATTATCAGCTTCACAGCTTGTCATGTTTAGCTCCCTTGTATTAACTTCTGTAGCCTCTAAAAATTTTCCGAATCAGCCTGTGACTAGGGCTTGTTCTCTCTTTGGTTTCTGGTTTGTTTTCTTTCCGTTGCAGATCATTTGCAAAGGAATATTTTAAGTCATTGGCTGACCAAAACCGCATATGTGGTATTTAGGGAAAAAAACATTACTGAAAGCTGCAGAATGAAACATGCGCTTTGGTGAAATTCATGAATGGAAATATGTGTGAAGGTTTGTGGTTATTCTGTGAGAATTATGAGAAATAACCTGGCACCCGTGTAGATCAAGGCCAAGGGATAAAGTCCCAATGTTGGCTATAGTATGGGGTTCATGGGATTTTCGCAAAGTGAATTTCCATAGAGATGGGGTCCTGCTCCCTTTACGTTGGTGCATTAACTGCTTGAAATCACCGCCTTTGTCATTGACACAATACATTCCCTTTACTCAAAGATTCCTGTGAGTTGTGTACTCCCCTACTCAAAACTTGAACCCATCTCCGAAGAAGTTACTAAGTGCAGACTGCAGAGTGAGTAAACAAAGTACATCTTTATATTAATCCTTGAAATGTTGTTCTGTCATCGGTTGAGGTGAGAACCCCATGAGGGAGTGTATTGTCTCTTAATGAAAAAGGCGGTGATTTCAGTTGTCTAAAATGACTTTCTCTCGAACAATTGTTCTATCTTAAGGCTTGAGTTGTAGTTGCCAACAGAATCTCCCGTTTGGCAGATCTCCACGTTTACTTTAAACTTTACATGTTCTTGTAAATAGATAGTTTACAGAAGAAACTCTGAGTGACGGTATTTTCATCAGAATACTATATATATGCTGGTGTATGGTTGCAAGACTGTTTTATTCGACTTCCTGCAAAGGAGAGGAAATGTACTTATTTCATAGAATTCTCTTAATTGCAATGTTTATTTGCAGGCTATTGTTGAGTTGCTTGAGGAAGAAAATGTCCACATTCCTTCATGGATTTGCTTTAGCTCTGTCGATGGCAAGCACGCCTCATTGGGAGAATTCGAAGAATCTCTTAATATTATCAATAAGAGTACAAAGGTTACGATTAATTGTAGGAATAAACTGTGCACCACCACTTTACGTTGATGGTCTAATTCCCAAATTTAAGAAGGTAAACACTGCACCCAATGTAATTAAAATCTATTGAAAAGCCTGCTTGAGTTACAAGTTTTCCATGGGATTTTAATTGGCTTCCTTTTCCTATTACGGTTGACAGACAAGTTGATAGCAGTTTATCCGAACAATGGCGAGATATGGGATGGCAAAGCAAAGAGATGGTTGGTGAGACACTTGCTTGAGCTTCCTCTAATTTTATACATGTTTTTTTGTTTAATGATGACATTAACTGACATTTGTATCTCAAAGACGATCATAATGATTTCCATTGTGCTGTTTGTTTCAACATTGCAGCCACCCCAACGTTCGAAGGACGGTGATTTTGGATTATTAGCTTTAAGATGGTCAGGAGATTGGCTATTCGTCACTCCACTCTTTTGCTTCCATGTTAGTAAGTTTATGTTTGAGTTTATTCGTAATGTTCAAAAATGGTTGCATCTGGCTCAAGAAGTAATACCCTAATGTACTAATGTGTTTTTGTGGCGTTGGTGAAGGCTATGAAAAACCCAAGAAGTAGTTGTTGATGCTGTTGATTTATTCGTTGCGTATCGTGGCTGCTACTGATTTATCTGTCGATGTTGCTGATTTATTCATTGCGTATTCCGATCAGCTGATGCAACCTGATTTCTCAGTTTGTTTTAACAATAATATAGGTCTCCCCTTTCTTTAATCTTATTTCTCAACCTTAGTTTTTAATTTTTCTATTTGTGTTTTTCTTTTCAAAATAGGTGTCAAATAGCTTGTATTCATTCACATGTGATCAGGTTGTAAATAGAGAAAGGAAAATGTTGTAAATGGGAGACCTACATTGTTGTTAAAAATGATTTGACTACTTTTAATACCCTATACATGGGTTTCAGAGGGAAGAAAGGAGAGTCCCGAAGGTCCATGACAATGCAGATACTATAAGGAAGGCTTTAAATCTCGGAGTTAGTGTGAAAATTATTACTGGTATGTCCACCTCAACGGTAAGAACAATATTTATGGATTGTATACACTATAAGGTAATGAAAATGAATTTCCTTTGCTACAATGGTTGAAATTTTTATCAGGTGGTCAACTAGCAGTAGGAAAAGAAACTGGTCGTCGCTNACAAAGTAATACTCGAAGATCCAATTGAGAGGTACATATCACACCTTTTCCGGTAGAATCCAGTAATATTCTGAAAAATGAGACTATATTGTTAAGTTGTTTGATTTTAGGTTAGTTTTCTATGCGTTTTTTGCTTTTGATTGAATTTCTTTTTCCTTTTGAGGGTAAAGAATAGAAAAGGGGGAATATTGACGGTGGCGGATATTTTTTTGTTAGTTGTAGTTACTCTGTTTAAGGTTTAGGGTTGCTACACTCATAGGGTTTCGGGTTTATGCTTATGAATTGGGAAAGTTAGATTTTCCCTATACACCCGACTCTTCTTTCTCTCCCTCCTTTTGTTTGTTTTCTCTATGTGGGTTGTATGCGAAAAAGGTTCAGCCTTTTGGTTCTGTACAATTTTAGTAAAAGTTGTCTACTTGACTATCCAGGAAAAGGATTTTGCCTATGCAAATCTTCAATAGAACTTTGGCACTTTATTTAGGATATAGTTGTAACTGTTGTGTATACCATGTTCAAACCAGATGTTAGTCACAATATATATGATCTTGTGCAGAAGAAAAATCATGAAGTGAAATTGTGTCAGTTTTCATCTCTATTGATCTTGAAAGAGACATCATTGAACAAGTCTTTGAGTATGTATAAGGTACTGACTAGAGTCTTCTGTCTTTTTCTAAACCAATGCCCTTTTTAGTGTGAAGGAAAGATAAATGATGTGAAAAGAGGCTTCTTCTGAGCCAACTATTCCATTCTAAGGGTGTTCTTTAGTTTATTGATAAATTATGCATGTGGATACTTGAGGCATGAAATTTCTGCAGCTTTTCTTGGTGATGCCCTTCTTTTATGTGTTGGTCGCATTATCTTCTCATAATTCGTAGTATGGTATTGCTTATTAAAATATACACGCAAGATAGTCTCAAATCTCACTTTCTTTGCTTCAGCTAAATGCAGAGTTCCACCCAAATTAAATTGATTGGATTAACTGGTGTTCCAGAAGAGATACGAAAAATGACTCGTGCATACAGAGTGTATAACAAGAAGACAACAGAGGAATTGAAGGATCAGTTTATCTTGTTGGCCACTCTATAGTCATGTATGTGCAAATTCAGTACCTTATTGCTTCTCTAGGCTCACTTTTACTTTTTGATTGATTCATCATTGGACTGTCGAGCTAGGCGTTTCCCATTTTCATTTTCCTGTTGTTATATACTCTGTATTTGAAAAGAAGATTATTGGTTATGACTCCTGAATCCTTGATTACTGTCCTTGCTATTTTCTGTTTGAAATCAATGTAAGACATGCTGATGTTCCTCTTATCACTTGATCCTATTTCTGTTGTCTCCAAGAGAAGATGACCATGTTATAAATGAGCTTTGCTACAAGTATGCAAGTGTCGGGCATGAGCTCTGTGAATTCTGTTGTGTGTTTATGACCTAAATTAAAAGTAACTTTAGAGACCATATCCACGCCACTGTCAGTTATTCGACATGGATACATAAGGTGAACTGGAAGTCCTTGGTAGCAGTAGCGTAACTAATATATGGAGTACTTGATTGAAGAGGATAGGATTTTCTTTCTGTCTGCCTAAGTTTCTTGTGAATTGATGCCTATTCCAGGGATGTTATGCTAGGTTTGGATTTTTAGTGTATTTTGAAGAGTACAATTGGTTTTGATGGTGAATGTTGGGTGGTTATGATGAAGGCTCATAGGGATAAAGTAGTCTTTGAAATTGGTCATGAGTACTCTATAATGGTATTTTGAGTCGTGCATATTCATTGTTGTTAGATTATACTGAGTATGTAGAACAAGTAATGCCCTGCACTAATATTCTTAAATAGTTTAGTAGTATAGATTATGTAGAACAAGTAATGTCCTGCACTTAAAAAGTGCCGAAGATATTCTTATAATTTAGTAGTATAGATTATTTTTGTGTTGGACTCTGAAATTAGTTTGAATAATAAAAATCTTTATGAAACAATGTGTTTCAGTGATCATATGGTGAGCACTACTGGTAGCTTTAACACCAAGTCAATCTCAGTGGTGTGCCATTGTGCGTCTTTTTCTACTTAATGTGCTTGCGTCTCTTCGAAAACCCGATTCAAGTATGTTTTTAAAGCGAACCGGCCTTAATATGTCATGTATGTCGGCCAATTATCCGTTTTCATATTTGTTCCTCTTCCTCTCTCCCATTATCATTCCTAATCCTCTCCCTCTCTCCCATTATTCCCCCCCCCCCAACCCATGTAAGGAAGAGTCATGTGAGCTAATTGAGTCTACAAAACACGTATGGAGGGAGTTAATATTCACAAGGTAGCTTCTTGCTTGATGAGTTAAGAAGAACAAGGAGATGACCTTTGCATCCACTGCGAATCCCTCAGTTCCTGTAAAAGTTAACAAAATACATAAACAACGAATAACGTCCAACAACCTTCAAATTGAAGTTTTTTCTATCTTGTACTCCTGACTCCCCAATTATGAGTTTTATCATTGACGATAACAGGGCCTAAGTATCATTTGTATGTGTATTTATTCCTAAATCCAAATCAAATCTTCACAATACGTTTGCATTATCCATAAGTATTTTGCACAGATCTTTTACGTAAACCTATTTACATCATAGATTTTTATATCTTGGGGGACCGTGCGCGCTAGCGCACGGGCCAACAACTAGTATTTTTAAAAACGAGATAGAAAGTTAATTAGAAACTCACACTTTCCCCAAGTTTATAGAATTAAAACCGAGTTAACCTCAAAATAAAGACCTACATTTTGGTTTTAATCACCAATCAGGACCTATGTTTTATTTAGTCGCCGTTTAGGACCTATAAAAATAAATTATGACCGTTGTTAACCAAATGTGAGTTAAATGTGGACCCGAACTATAAGTAAATTCATTATTTTTTGAAACGTAAAAGCACAAGAAACGCAGCGTTTCCATTTTTTGGAGTGAAAACTCCTTCCTGCGAATCCTGCGCAATTCGTCTTCCTCCTCCTCCTCAATGTAACTCGAAAATTTTCATTGTCAAAGATATAAGCCGTCTGCAAGAGCTACCCAAACGAGGAAATTGCAGAAAAATTCACACCAATTATCAAAGGTATTTACTTTACTTGTGTGCTGCAAAAAAAATTTCCCTCAAAATTGATTTGATTTGTACTGGGTATGTTAGGATTTAGGGATTGAAGATGCAAGTTCAAATGTTTTTTTATCTTTTTTTGCGATTTTATGTTGTTTAAGATTTGTGTTTATGGGGGGTGGTATATTAATCTAAAAAGACAAAAAGATAGGCAAAGAGTTTATGAATTGGGTGCAATTGAAAAACTGATTAGGGTTAGAACTATTAGAACAGGGGAAATTGTTTAAGAGATTAGTAAATTGAATTAGAATTTATTTTATAATTGGTTTGTATTTGAAGCTTTGAAGTTGCTTCTGAGTCATTGATCACTTAAGCGTCTTTGATAACTAGTAAGTGATTACTCCCCACAATTTTGTTGGTTCTTTGTGTTAGAGTATATTTACATATTTCATATGCCATATATTCCGTGTAAATATTCTTAGAGAACATTGTGATAGTTATGCATTGATTTAGCAATCTTGTAGTTATAGAAAGTGTGATCATTCTCTACGTAATTATAGCCTAACTGTAATACTTTGTACACCAATTCTTAAATGGACTTGGTCCATACTAAATTTATTGTGAACCATGCCTGAAAATAAAGTCAACAACTTGTTCCCAATTTATTTTGCCATTTTATTAAGATTATTATGAAATAAATATCAAATTAGTGTCGTTGATACATGTTGTGCTTGAATAATGTAATTTTATTTCACAATTCGCTTCTAAAAATATAGGGTTACTATGCTTCAAAAAATGGTTACTATATCTAAGAATTTTGGTGTTTAGTTTATTATAGTTACTATATGAACAATAAAGGTCACCTATGAATGTCAAAAGGGTGCTAGAGAAAACTATTGATTTTGCGTCTACACTAATATTATTGTGGACCAGGTCTACGCAAGAATAATGTATCTAAGGTTAATTAGTCAATGCAAATAATCAAGGAATTATCTTTTAACACTTTGAAGTGGTGGAGAAAGTGCAAGACCAGTAGTATTTTGGTGTTTTGAGCAGCTATTTAGTATGTATTTGAGGCCCTGTAAAAATACGTTTTATGCTCTTTGATTATATGCTTAGATAATTTTCCATCCACTTCACGTTCATCACTATGTACCAGGGAAACTTACTCACTTTAATTAGCTTGATCTGTCTCTCTCTTTTGTGAAATATGTCTTCTGATTTGTGAATCTAGTAGTACCTCTTGAACTAATTCATTTGGTTGCCCTTGGTATTAAATGTTGGTTCCATCTTATTGTGGTTTTGTTTAGTGATTTTGAACTTCTAAAGTTTTGTCAATAAGATGTATTTAAGTAATAGTTAAGTACTATAGTATCAGTGGATTTCTTGTTCCTGCACTGAACTCACATGCTAGTATTCCGTACAGTACCAGAGCTCAGGGAGATGGATGTTGTATTTTTAAGCATTGTAATCTACGTAAAAGGGTAGTAAATTATGTAGCAGAATAGGCTGTAATTTTCAATTTTGGAGCTGAAATGTTAGAAAACTCGTAAATAAGCAATAAGGACCTATGTTATTGAAGTTATTGAGTAAAGAACATAAGTTTTATATTTTTTGCTCCGGTGAGCTAAACTTGGTTAACTTTCCGGATTGTTAATATTAGGTCCCAATTGGTGAGTAAATAAGAGTGAGGTCCTGATTGGTGATTTATATGAAAACTTAGGTCCCAATCTTGTACTTAACTCAATTAAAACTTGTACAACCATGTCATGTGGCTCTGTGTGCTAATCTAATTTCCACAGTTGTCTGAAACTGCACATTCAAAGCTACATCTGAAAGCATCATCAATCAATGAAGATGCGAAGAGTGAAGCAGGAGAGCTCATTCATGTCCTCTTCTCATTGATTTTATGGCCTCTACTCAGCAACATCGTTGCGTCTTCGGTTCGTCTTCTTCCTCTTTCCTATTTTTGCGCAAATCTGGGCATGTCTTTCATTTCTTTGATTTTCATCTTTTCTGGGGTCGAATTTTCTTTGAAATTAACAGTTGGGAATATACCTTATGATGCAACTGAAGAACAGCTGATTCAAATTTGTGAAGAGGTCGGTCCCGTTGTTTCTTTCAGGTTGGTCTTTTCCCTCTTTTTCTCAATTTTCTCAATTTTTTAGTTCTTTAAACTATACCCTAGTTTGAACTAAACCCTACTTAGTGGTACTGCTATTCCAAAAATTATTGTTTCTAGAATAATAATAATAAAGTTGGGTGCTAGAATTTTGTGCTTCAATTAGTGAGGTTTTAGATTTAGTTGGAGAATTATGTTGCTTCGAGTGCGAGTGGGTTGTGGCAGGGGCTGATCAAGGGATTTTCTTGGTTTTGGGTGGCGAGTTTTGTTTGTTTAAGCAAAATTTAGCATAACTAGTTGAATTTGAATTTGAAATTGAAATCTAATACGAGGGAAAATCTTTAATGACAATAGTAGCATTGTCTTGGTGGATTATCATCATTTTTGGAAGCGCTCTAACATTGTTGTTTCTAAGGTTTCGAGTTTACTTTCTTTCTATGAAGCGCGACAGAATGATTAGTCATCTCATCTATTGACTCTCTATACTATTACATATACCACTTTCTCTAGGAAAATGCTGACTGTGGGATGCAAATTCTTTTATATATACCCTTGATTCTGGTTTTTGTTTCTTGGCAAAGATGGAGTTATTGATAGGTAGGTTGTTGACCTTGTGGTAAAACAGTTTAGAGTAGGAAACATAAACTGACTTTTAAAAGATTGCGTTAGATCAAGGATGCTGTTGCATTTTTTTGTTGGGCTCCAATATGCAAACTCATTTTGGGAACCTAAGGTGATATAGGTAACCATAATTGTACGATTAATTAGGATTAAAGGTGTAACGTGTAAACTATTCAATTTTTATCAATTTCTGTTTTCATTTGTAGTGCTTGTTGAACTTGAACTTTGGATTACAATACAATATGTTTGTAAGTTGAAGTCATTTATATTCGGGTACTATTTTGGTTTGATGATCAAGGGGCTATTTTTTAGGTTTAGAGAAACACAATTCTTGAGACATCAAAGTCAAACTAAGAGGATGTTTGAAATCTCCCTCTCGTACATATTTGTTAGTTTTCCTCTATGCTGGGGATTGTTGTATGCTTTGTGGGGAGGAAAAACTTATATTGTACTTTTAATTTCCAAGAGATATTGTAAAGGGAAACTTTAGACATCTTTTGGGGTCTCATAGATCAAGTTTCATGTTGTATAAAATGATCTGAATATTGGGAAGTGCTTTCCCAGACCAGGAATTCAAATTTCGTATTCAATAATATTGTTTTCATAACTTCAACTTTCAGACTGGTTATAGATCGTGACACTGGGAAGCCAAAAGGTTATGGATTTTGTGAGTATAAGGATGAAGAAACATCACTCAGTGCTCGCCGTAATCTTCAGGGTTATGAGATTAATGGTCGGCAGTTGAGAGTAGATTTTGCTGAAAATGACAAAGGCGCTGATAGAAATCGTGAACAGGTGGTATTTATAATCCATGGCTCGTACAATCATTCTTTTAGGGCTTGTTCGGTATCATTTTTTGTTTCTTTATTAAACTCAAAACCAAAATATGAAAACCATGAAAAGTAGTTTTTAGTTTTTTGTTGCCAGTTTCAAAAATCAACCGGATTACTGTAGGTATTCTCGCTTATCTTAAATACGTTTCATAATATGTATAGCTATCAGTTGACCATTTTTTCATTCATGAGTAAATCAAAATCATATGACTTAAAACCAAAAACTGGAAAGTGGAAACTGATAGCGATACTGAACGAGCCCTTAAGTTTAAAATCCCATGTTATGTGGTTTCTTTTATTCATTGTGTTATTGGGCTGTTGTAAATAAATTCCTTAGTGCAGAGAACACTATTAAGTAAAACCGTGGTAAACATAGTAATCCAAGGTCAGGCACAGACACAGTGCATGGTATGAAAAGATAATTCTTTGACTAGTCTGGAATCCCAACTCTTTTTTTTCCCACATTGTAAAGATAAATTAAAAACTTGCTCTTGAAATTCTGTTAATGGTTCTGCTTGATCAACCAATATTTTCAAGTTTTCAACTGTGTACAATCAATATTTTTGCTCTTCTGACTATGCATTATCATAGTTTTTTTTTTTAAAATAAATTGATCATTTTTTATTTTCATTTGCTGGTTGAATGTATAAAATTGAATGTAGGGTTTTATGCTTGAACACCACGACTTTGTTTGAGACCAAAATTTTCGTTCATAAACAGTTTCAAGAAAGCATTCCCTTTTAATAAATGTGTTAAGAGTTGTTAGACTGAACTTTTGGACAGAGATGGAGTTGAGGCGAGTGCAAAGTAGGAATATTGCATCTTTATGACGTAAATGGTTCTTGTTTCTTTATCAAAGGTTCCTTCAGCTCCTTTTTCCATTTCAGCTCTCATTTTTTCCTCATCTTTTGATGAATTTATTTTACCTTTTGACTTCTGATGGATATGATAGATATTCCTTTTGATTTTGCTTGAGTGTATAAATCGAAGAGGAGGTTTGGAGGACTCTTTAGAATGAGAGTAGGTGAACTGATGGCTAGTAACCTAATGGTGTGGTGGTGAAACACGCGTAAATTAGTGGGCTATGAAGAAAGAAGTGATGTATTCTGATTGTAGTTGTTAATTCGACTGTTGTAGTGTTAACTCAATCAGAAGACCTAACTGGGAGTTGGACTCTTGGGTTGCTTGAGGTCATGAGGATGAAGGAGAGTTGTGCAATTTCAAGCTTGTGGAACATGTGAAAACTCAAGCTCTGAGGTCACGATGATTTTGAGAGGCTGTAAGTTTGTGAGCATATCTTGAGTTTAATACCTTCTGTTGCTGTTCATTTCCCTGCTAATGATTACAGCGAAGAGAATTTTATTGAAAACATGCCCTTCACATCCTTTTGCTGCAATGCAGCAACAGAGAAGTGGGAGTGAGAATGTTGAGATAGGCCAGACAAAAAAGGGGGCTTAGGGAGGCCAGTGAAAAGGTTAAGATTGTGGTGAAAAAACATATCTTAAACGCGGACTACATAAAGTTGTTCTCACTGTGCTGTTTTTTATTGATTTTCGAATGAGACTATATTGAGGTGCATACATGGATTAAATGCTAGCAGGTATTATATTAGAAAGGAGAATCATGGGATACTGGTAGATGATCTAAAGACAGCGAGGTTCCTCAATATGGAATGTTTTATCTCTGGTGGAAGGGATCTGCTGCTGGAGGCACGTGGACAAACAATGTTGAGGGTGAATAGGAGTCTCATGTTTGAGGAAAGCTGGCTGTTGGTGTTCAAGATACTAAGCTCTTTAAAAGAATGATTTGGAGAATTGTTAATGCAGCACAACCAAGATTCCAGTACTTGAGGGGGGTTACAAACAAATGGATTCTCTCAATTTCCAACCCTAGGACAAACTACTGTCATAAGAGTATAAGTTAAAGTCACTTTAGGTTGCAATAAGTACAAAGATGATTAGGATCAAGCTCTCATGGACATGTGTTGTTTAAGCTAGTTGGTCCAATAAGAGAGGAAGTCTATTCTAAGAATTAGAACTGGAATTGGCAGCTTTAAAATTCGTACCTGGGTGTCAATTATTTTGGGTTAGGCTTAAGAAGGGTTTTCTTTGTAGGCAAATGAATCTTGTAGTTATATTTCTTGAATTAAGTACGTCATGTCCTCGGTCTTTCATTTCCGCATCTTTTCTTCCGGGGAAAAAAGGGAATGGCAATTTTTTGTTCTTTTGATTACAAGTGCTCAAAATTGCTCCTATTTCTCACTGCAGGGTAGGGGTGGACCAGGACTGGCTACAAATGTTGGTTAGTTTAGTTTCTTCCTCAACTGTTTCAGCTTTTAGAGGTCTTCCTTTATCTTTTTTCATATGGAGGCTTAGACCTGTGAATAATATCCTAATGGAGTTACTATGTTGACAGATGCTCAGAAGCAGGTAGGAAGCCCAGCTACCCTTGTGGATGCATCATTTCATCAGCCAATTGGCCTACCAATAGCTATGACTGCTTCTTCTGTTATGGCAGGAGCTCTTGGTGGTTCTCAGACTGGTAAGGTAAATCAAAACGGTTTTCAGAATCAGTCACTTATTGGCAATGACCCTTTAACGCATCATCTGGCCAACATGTCCAGGAGTCAACTGAATCAAGTTATACATGAAATTAAGGTAAATATTGCAAAAGAGCTATTTTCAAGAATTATTTTACATGTTCATGTATTTACTTTCAACCTCGTTCCAGATGCTTTCTATGCAAAACAAGGACCTTGCACGTCAACTTTTGCTTGTGAGCCCACAGCTTCCAAAAGCTCTCTTCCAGGTTCTCTTCAACTCTGAGCTGCTGCCATTGATTTGTAAAATTACTTAAGTTTGTCCTTTCTGTCTGGGTGTAGCANGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGAGGGTATGATATCCTCTGTATCTATAGAAGCAGAAATGTCATTGTTGAGCAAGCTTCTGNAGGGTATGATATCCTCTGTATCTATAGAAGCAGAAATGTCATTGTTGAGCAAGCTTCTGATGGTTAATTTACTATGATTATGAAATAGTTTGTGTCGCAAAAGCTTTTCATCAAGGTTGAATAAGTCTGTGATTGGGAATTTGGGATCGTCTTGGCTCTCCACCAGTGTTACCCAATACCCATAGAGCGGTGCTGTGGGGACCTATTATGCAAGTTGGCCTGTTCTGTGGTTCATGCAGTAGATAACGTGATATGCTTTTGGTTTGTGGTATACTGGTTAGATGTTCAGTTTGCTAATCAATCTTTAATACCAGTGTTACAGTTTTTTTCTTAAATTTTAAACTACGTACATTTCTTTCATATTCACTCAATCCCCAAATGAGAATTATGTGCATGTTATCCCCGAGCTTTTTGCTTAAATTGCGTCCTTTATAAAAGTAAACAGGCTCATTCATAAAAATTTCTTGGCTATCTGTAATTTTCTTAAAGTAGCTTAAAAGGGAAAGTTATCAGAAAATAAGGCTACAGAAAGTTGAAAAGTCAAAGCGTAAAATAATCACTGTAAAACCTTGCACTTAAACTTTTTAAGCTTCCAACAACGACTAGACACTAAAATAGCTTGCCATCCTGCCTACAGGTGCATGGTGTGTTTGTATGGTCATAACCACTGATTGTTTGATGAGTAACAGTTTATCGTAAATAAATTAATAATCTGTATTAATTTATCTGAAATACGACAATCTTGACCTTTTGAATGTGCTGAACTGTTGGTAATACTCTGAAAAATTTACTGTGGGGGTATGAGGCGTTTATTATGGAGGTTTTTGCTCTTTATTTCAATTTGACGCATGTTTTCCTTCTCAGGTTGGCACAATAATAATGATATTAATCTGGGAAGTCATATTAGTTCCTTGTAGTGTCATTGTCATGGTTCTCTTTAAAGTTTAAACATTTTGATTTTATGAATTGGTTTATGTTTATTTTAAGAGCTTTTAGAAACAACTTGATTAATTTTCTTTCTCCTTCACTATGCATTGCCGAATCAGCAGTTCACCATGTAGATTTAGGACACTGACATGATCTTGGCTTTGTAATTAGTTGCTGCTAACACAGTAACACTGCTGGTTAATCCTTTTTATTTTCTGGAGTTGTTATTTTTGTTTTATTTCATTGTATTCTTGTTGTGGGTTTCTTGGGTGTCCTGTTTGTGTTGCGGAATCCAAAAGCTGATAGTTGTTAGGAATATTTTTATGTGATGTTTTATTGGCAGAGTAGGTTGTGCTTTTGTTCCATATATATGTTGTTTGTTCCAAAAATCAAGTTTCAAAATGCGTTCTGTGCCAAACGTTCTTACTTCTTTTTGTTTGTATTCGCGTGCAGGCACAAATAATATTGGGGATGGTGACACCACAAATGGTATGTAAAGGAAGCTATGACAGTATCATAATAGTTTATTTTACAATTTTACCTATTCAAATTGTTAGAATAACCTTACGTTCTGGTACCTTCAGTTGCAGATGCCAAATCTAAGGCAACAGACCCCAAATCCAGCTGTTCCAACACCACGTCCTTCAATGCAACATACCCTACAGGGACACCGTCCACCTGTTCAGTCTCTTACCGGGTTGCCCTCTTTCACTCCATTATCCTCTGTGTCCCAGAATCCTTTGGCACACAACCAGTTCTCAGCACCATTGCCACTTCATCCGCAACTGCGACCTCAGCAACCAAATCTTAACCAGATGGTCGCACCATCACAAAGTACAGTTCCTGCGCATTCTGGGCTTTCATCACATCTCTCTACACGTCCACAACCTCTAAGTGGACTGCATATGCCACCTGTATCTTCCTCTTCATTTAGGCCTGTTCAAGCTCCACCATTGCAACATCCAGGACATGCTGGTATTAAAACCACTCAAAATGTAAACCTTCAGCCTACCTTTCAAAGCCACTCAGATCCCGGATATAAGGTTAGAGAGTTATCCTGTATCTTCTCATGGTTTAGTAGGTGATAAAAAGTTAAAAAATGGACATAATTTGTGCATTTTGGAGCCATGAACTCAGTAGAGCATGAGAAATATTTGAGAGGGCATGGGAAAAGAGGGGAGTCATGTTTCATAATGCAAAGGTAGTAGCTTTTTTAGTAATATCTCTGTTGGAGAATTGATTTTGTGAACAATTGGTGCTACATCAGGTTGCCTCTTCAGTACGCCCGGCTTCGGTGGAGGCTATTAAAAAGGACACTCCCGTACGTGCAAAAACTGCCAGGGACACAACTTTGGCAAGTCGGACAAACACCTTAAAGAACTTGGCGTCAGTAGCTTCGGTATCTGATCATAAAGATTCTCAAGATCAGATGGTTCGCCCTTCAAAAGTTATGAAGTTGGATAATGAAAGAGGTACTCCTTTCTCATCTGCTGGATTAGCTACACCAAGCGCCACTGCCGTTGCAAGTAGCTCTGGTGCAGCTGGTCAAAGCTCTAGCCTAGAAGCGCAGAATATAGAGAAACAAGCCCCACAGGTATTTTGGTGCAGATTGCTTCTGACATTCACTTCATTCATTCATATATCCTTCAGCTTTAAAAAATTTGCGTTCTTTTCTTTCTCCATCTAGCTAGCCTTTGAAGAATTTTTTTCAATTTTTAGAATTTGGACTAAGTGGCGGTGTTCGGTTATGAGACTAGTGGCAATGATAATTGGAATTTGTTGAGTGTCAAAAGGCTTGAATCGCATGTTGAGTATTATCACTAGGGGTGAGCCAACAGAGTACCCTGACAAAATTTCAGGATGTTGCAACAGGTTCTTGAAAATGAGAACCGGAACCTATTCCAATAGGTTGGGATTCAGGGTAGCCAGCCATTTTAAAAATTTAAATAAATTATTTTTAATTTATTGAAAAAAAAATATCTACTTTATGGTTGGGTTTTGGCTTTTTTATAGTTTGGGCTTAAATTGTATTTCTATATTTATATTTCTAAAAATTAGGTTGAATTGTTTTATATTTTGAGCATATGAAGCATTTTTTATATGCCTTAGTCCCTTATTGTGGGTATTTCATATTAGAATTGGTGTGTATAGGGTACCCAACAGGGTATCCGTTCCGAAAAATTGAGAACCGGAACGGGAACCTGTTACTAACAGGTTCCCAATTTTGTTACCCGGAACCGGAACATGCACTATGGGTTCCGGTACCGCAGGTTCTAACAAGTTCCGGTTCCGATTCAGGGACCCTAACTTTGTGCTCACCCCTAATTATCACCAATAGTATCTTGAGATTTGGAAATGGGTGCTTATTGAAATCAGTATAATAGTATAACAACAACAATGTTATTTCACACACAACAAGAAAAAACAGTATTTGGACTCGAATTGTGATTATTATTTGTTGCTGTTAATAATTATAATAATTCTTCTTGGTTCACTAAAATTCATATGCGAGTAAATGCAGACGTAGTTTTGATTAAAAATGAAGCTGCAGGAGGAACTTGACACTTGGATAGTAGATACCATCAGGCTCCGATCCATCTGTTTCAACTGTAGATTTGCAAATTTTATGTATCCTATAAAGGAAAATTTGATTTAAAAATTCCCACCTTGGGCTGGTCTTCTTAAAATGGTCCTTACCTGATGATAACCGGCATAACGAGTTAGCGTCATACTATCCCTTTGTAATTTGTCTACCCTTCTAATTTTAGTTTAATTAAAAAATATCCTCTCTTTCCTCTCCCTCCACAGCACCTTTCTCTCTCCTCCATCTCCACAACCCCATTGCTCCTCTGTGTGACCCCCTCAGCCTCGACCCTTTCTTTTTCTTTCAAACAAACTGATGATAATGGCGGATGCAGTTATTGTTAATATTATTTATAATATTAATGCTGGGAGCCTTTATGAATTCCTAATATACATTTGTAACTCTTCTTCTTCCTCTGTCAATTACCATTTTCACCGTGTCACCATTATTAAAAGCCTGAAAAAGAAGGTAGCAAGATGAGGAGGTGTTGCAATGACAACTTGACAATAACAGAGTTTTCAGCTGTAACTTTTGTTCTCGCACCTTCATCTCTTCTCAGGCCACCAAAACACCCACAAATACCAGTACCCGCACCTCCTCCATTCACAAACACTAAATAACAGCTATTGGTTCTATGGATGAGGAGGTGGTTTGTGGTGGTGACGGCGGAGGTGGAGTTGGAGGAGGGTCTTTTTATTTCTCTCCTGCTTTACTCTGTTTTCCACCAACAGTTGGGGTCTGTCACTAATTTCTCCACTACCACCAATTTCTGAGCGACTTCTGTTTGTGGGAGTGGTTGTTCGTATACTTATGGGTTTGGAAATGGGTTGTTTGGGTATGGGTATGGGTATGGGCCTGGGCCTGGGAATGGAGGTGCAGCACGGTGAAATTTTGAGCTTGAAAGTAATTATAATAATAACAATGTTAACACTTAACACTAATAACGGATTATTAATGGGGGCGGCGGTAAATGCTTCTGCGGCTTCTCATCCTGGTGCTGCTGCTTGCTTATTACTATGCCCACATTGAATTTATTAAAATCAGTTTTTCCTCCTATAAATGGATTTTTACAACTCCATCTGCCCTAGAATAAAAGGATATGAAACCAGTTAATTTTCAGTACCCTAACTGTGCTGATACACTTCAACTAAATTTTACTTTTTCTTTTTTTATTTCACTCATTACATGCTTGAAAAGTTATGTATCAACTCATATCCAAAAAGAAAGAAAGGTCCACTATTACAGTGATTCTAGAAATAGGGAGTGATGGTCACTGATTGAAGAACCAAGGGCCAAAACATTTTAGTTAATATACTTCGAAATTTCCAATAATTTGGTTTATCATTTACTGTATTTGTAGTCAGATTTGCAACTAATATTCATGTAGTCAAATTTCTACTGGAATGATGCAACATGTTTATACATTTTAGTTAATATACTTCCAAACTTCCAATAATTTGGTTTATCATTTACTATATTTATAGTCATATTTGCAGCTAATATTCATGTAGTTAAATTTCTACTGGAATGATGCAACATGTTTATACACTTAGCTAAGTTGTGAGGAATAATAGTTTAGGACCCTAATATAATATCTAGGTATAGAAATCCTTGAGCTTAATCTGCTCTATGTTGTTTATTACTTTGTTTTATATCGAATAAGCTTAGTTAAAACTAATTTATGATATTTTTGTTGATTGCAGTTTCCACCTGATGTAGATCCTGCTTTGTTGCAACAAGTACTCAACCTTACTCCTGAACAACTGAGTTCACTACCCCCTCAACAGCAACTACAAGTCATTCAACTACAGCAGATGCTCAGATGAAACAACCACTCGAAAGATCCTCGTCTTAACATCTCCAAGTTCGTGTGTGGATAAGGGAGCAGTTTTAGGTTAACACATACGAGGGCAACCGGCTACGTTACCCGGACTCGAATACCCATATCGGACACGGGTAATGTGTCCAAGTGTCTGACACAGCTACTTTGTGAAAAAAATTGCATGATTTTGGTCCAAAATGAAGTGTCGAATTGTCCATACCCATGTCCAAGTGTCGAGGATCTGACACGGGTATTTGAGGTAAAATGAAGAGTGCTGGTAACAGAGCATCTGATTCTTTGTAATTGTTGTGACTTGTGAGCCTTTATAGAGAAATATACATAAATCAACTATAATCATTTATAGACAAAAGGTTATTTTTTTGTAGTCATGAAATTTTGGTACCAATACTCTTTCCTTTATCTTCCTCTTGAGACAAAATGTACTTTACATATTCCACAAAACCACAATTTTTGGTGTCCGGATCCTCTAGAGTTGTATCTAAACCATACATTTTAAAATCAATGACTGATTTAAAACTCTAGAGGATCCAAAACTCAATTTTTGTTATCTGAAGTAACCGTTTTCATAGCCTTTCTCTGTTTATGGCCTTAGCCTTTTTTTTTTGTTAATTTTCTTTTTCCAATTTTGAGAACTTATGTATAAATTTAGTCAAGCGGCGT

mRNA sequence

ATGCCTTTGGTACCTCTACCCTCTTCTCTCCCATGCCGTTGATTTCTTGGAGCTGGCACTGCAGTATGGAAAAATTGGGCTGTGGAATCCTGTTGGGCTTGGTGCAAGGTTATTTCTCTAGATCTTTCCGAGCTGCAAAACTTATCTATTTCCGAGCTGCCCTTCCCAGAAAATCACATTATGGAGGCTATTGTTGAGTTGCTTGAGGAAGAAAATGTCCACATTCCTTCATGGATTTGCTTTAGCTCTGTCGATGGCAAGCACGCCTCATTGGGAGAATTCGAAGAATCTCTTAATATTATCAATAAGAGTACAAAGCCACCCCAACGTTCGAAGGACGGTGATTTTGGATTATTAGCTTTAAGATGGTCAGGAGATTGGCTATTCGTCACTCCACTCTTTTGCTTCCATAGGGAAGAAAGGAGAGTCCCGAAGGTCCATGACAATGCAGATACTATAAGGAAGGCTTTAAATCTCGGAGTTAGTGTGAAAATTATTACTGGTATGTCCACCTCAACGCCGTCTGCAAGAGCTACCCAAACGAGGAAATTGCAGAAAAATTCACACCAATTATCAAAGTTGTCTGAAACTGCACATTCAAAGCTACATCTGAAAGCATCATCAATCAATGAAGATGCGAAGAGTGAAGCAGGAGAGCTCATTCATGTCCTCTTCTCATTGATTTTATGGCCTCTACTCAGCAACATCGTTGCGTCTTCGGTTCGTCTTCTTCCTCTTTCCTATTTTTGCGCAAATCTGGGCATGTCTTTCATTTCTTTGATTTTCATCTTTTCTGGGGTCGAATTTTCTTTGAAATTAACAGTTGGGAATATACCTTATGATGCAACTGAAGAACAGCTGATTCAAATTTGTGAAGAGGTCGGTCCCGTTGTTTCTTTCAGACTGGTTATAGATCGTGACACTGGGAAGCCAAAAGGTTATGGATTTTGTGAGTATAAGGATGAAGAAACATCACTCAGTGCTCGCCGTAATCTTCAGGGTTATGAGATTAATGGTCGGCAGTTGAGAGTAGATTTTGCTGAAAATGACAAAGGCGCTGATAGAAATCGTGAACAGGGTAGGGGTGGACCAGGACTGGCTACAAATGTTGATGCTCAGAAGCAGGTAGGAAGCCCAGCTACCCTTGTGGATGCATCATTTCATCAGCCAATTGGCCTACCAATAGCTATGACTGCTTCTTCTGTTATGGCAGGAGCTCTTGGTGGTTCTCAGACTGGTAAGGTAAATCAAAACGGTTTTCAGAATCAGTCACTTATTGGCAATGACCCTTTAACGCATCATCTGGCCAACATGTCCAGGAGTCAACTGAATCAAGTTATACATGAAATTAAGATGCTTTCTATGCAAAACAAGGACCTTGCACGTCAACTTTTGCTTGTGAGCCCACAGCTTCCAAAAGCTCTCTTCCAGGCACAAATAATATTGGGGATGGTGACACCACAAATGTTGCAGATGCCAAATCTAAGGCAACAGACCCCAAATCCAGCTGTTCCAACACCACGTCCTTCAATGCAACATACCCTACAGGGACACCGTCCACCTGTTCAGTCTCTTACCGGGTTGCCCTCTTTCACTCCATTATCCTCTGTGTCCCAGAATCCTTTGGCACACAACCAGTTCTCAGCACCATTGCCACTTCATCCGCAACTGCGACCTCAGCAACCAAATCTTAACCAGATGGTCGCACCATCACAAAGTACAGTTCCTGCGCATTCTGGGCTTTCATCACATCTCTCTACACGTCCACAACCTCTAAGTGGACTGCATATGCCACCTGTATCTTCCTCTTCATTTAGGCCTGTTCAAGCTCCACCATTGCAACATCCAGGACATGCTGGTATTAAAACCACTCAAAATGTAAACCTTCAGCCTACCTTTCAAAGCCACTCAGATCCCGGATATAAGGTTGCCTCTTCAGTACGCCCGGCTTCGGTGGAGGCTATTAAAAAGGACACTCCCGTACGTGCAAAAACTGCCAGGGACACAACTTTGGCAAGTCGGACAAACACCTTAAAGAACTTGGCGTCAGTAGCTTCGGTATCTGATCATAAAGATTCTCAAGATCAGATGGTTCGCCCTTCAAAAGTTATGAAGTTGGATAATGAAAGAGGTACTCCTTTCTCATCTGCTGGATTAGCTACACCAAGCGCCACTGCCGTTGCAAGTAGCTCTGGTGCAGCTGGTCAAAGCTCTAGCCTAGAAGCGCAGAATATAGAGAAACAAGCCCCACAGTTTCCACCTGATGTAGATCCTGCTTTGTTGCAACAAGTACTCAACCTTACTCCTGAACAACTGAGTTCACTACCCCCTCAACAGCAACTACAAGTCATTCAACTACAGCAGATGCTCAGATGAAACAACCACTCGAAAGATCCTCGTCTTAACATCTCCAAGTTCGTGTGTGGATAAGGGAGCAGTTTTAGGTTAACACATACGAGGGCAACCGGCTACGTTACCCGGACTCGAATACCCATATCGGACACGGGTAATGTGTCCAAGTGTCTGACACAGCTACTTTGTGAAAAAAATTGCATGATTTTGGTCCAAAATGAAGTGTCGAATTGTCCATACCCATGTCCAAGTGTCGAGGATCTGACACGGGTATTTGAGGTAAAATGAAGAGTGCTGGTAACAGAGCATCTGATTCTTTGTAATTGTTGTGACTTGTGAGCCTTTATAGAGAAATATACATAAATCAACTATAATCATTTATAGACAAAAGGTTATTTTTTTGTAGTCATGAAATTTTGGTACCAATACTCTTTCCTTTATCTTCCTCTTGAGACAAAATGTACTTTACATATTCCACAAAACCACAATTTTTGGTGTCCGGATCCTCTAGAGTTGTATCTAAACCATACATTTTAAAATCAATGACTGATTTAAAACTCTAGAGGATCCAAAACTCAATTTTTGTTATCTGAAGTAACCGTTTTCATAGCCTTTCTCTGTTTATGGCCTTAGCCTTTTTTTTTTGTTAATTTTCTTTTTCCAATTTTGAGAACTTATGTATAAATTTAGTCAAGCGGCGT

Coding sequence (CDS)

ATGGAGGCTATTGTTGAGTTGCTTGAGGAAGAAAATGTCCACATTCCTTCATGGATTTGCTTTAGCTCTGTCGATGGCAAGCACGCCTCATTGGGAGAATTCGAAGAATCTCTTAATATTATCAATAAGAGTACAAAGCCACCCCAACGTTCGAAGGACGGTGATTTTGGATTATTAGCTTTAAGATGGTCAGGAGATTGGCTATTCGTCACTCCACTCTTTTGCTTCCATAGGGAAGAAAGGAGAGTCCCGAAGGTCCATGACAATGCAGATACTATAAGGAAGGCTTTAAATCTCGGAGTTAGTGTGAAAATTATTACTGGTATGTCCACCTCAACGCCGTCTGCAAGAGCTACCCAAACGAGGAAATTGCAGAAAAATTCACACCAATTATCAAAGTTGTCTGAAACTGCACATTCAAAGCTACATCTGAAAGCATCATCAATCAATGAAGATGCGAAGAGTGAAGCAGGAGAGCTCATTCATGTCCTCTTCTCATTGATTTTATGGCCTCTACTCAGCAACATCGTTGCGTCTTCGGTTCGTCTTCTTCCTCTTTCCTATTTTTGCGCAAATCTGGGCATGTCTTTCATTTCTTTGATTTTCATCTTTTCTGGGGTCGAATTTTCTTTGAAATTAACAGTTGGGAATATACCTTATGATGCAACTGAAGAACAGCTGATTCAAATTTGTGAAGAGGTCGGTCCCGTTGTTTCTTTCAGACTGGTTATAGATCGTGACACTGGGAAGCCAAAAGGTTATGGATTTTGTGAGTATAAGGATGAAGAAACATCACTCAGTGCTCGCCGTAATCTTCAGGGTTATGAGATTAATGGTCGGCAGTTGAGAGTAGATTTTGCTGAAAATGACAAAGGCGCTGATAGAAATCGTGAACAGGGTAGGGGTGGACCAGGACTGGCTACAAATGTTGATGCTCAGAAGCAGGTAGGAAGCCCAGCTACCCTTGTGGATGCATCATTTCATCAGCCAATTGGCCTACCAATAGCTATGACTGCTTCTTCTGTTATGGCAGGAGCTCTTGGTGGTTCTCAGACTGGTAAGGTAAATCAAAACGGTTTTCAGAATCAGTCACTTATTGGCAATGACCCTTTAACGCATCATCTGGCCAACATGTCCAGGAGTCAACTGAATCAAGTTATACATGAAATTAAGATGCTTTCTATGCAAAACAAGGACCTTGCACGTCAACTTTTGCTTGTGAGCCCACAGCTTCCAAAAGCTCTCTTCCAGGCACAAATAATATTGGGGATGGTGACACCACAAATGTTGCAGATGCCAAATCTAAGGCAACAGACCCCAAATCCAGCTGTTCCAACACCACGTCCTTCAATGCAACATACCCTACAGGGACACCGTCCACCTGTTCAGTCTCTTACCGGGTTGCCCTCTTTCACTCCATTATCCTCTGTGTCCCAGAATCCTTTGGCACACAACCAGTTCTCAGCACCATTGCCACTTCATCCGCAACTGCGACCTCAGCAACCAAATCTTAACCAGATGGTCGCACCATCACAAAGTACAGTTCCTGCGCATTCTGGGCTTTCATCACATCTCTCTACACGTCCACAACCTCTAAGTGGACTGCATATGCCACCTGTATCTTCCTCTTCATTTAGGCCTGTTCAAGCTCCACCATTGCAACATCCAGGACATGCTGGTATTAAAACCACTCAAAATGTAAACCTTCAGCCTACCTTTCAAAGCCACTCAGATCCCGGATATAAGGTTGCCTCTTCAGTACGCCCGGCTTCGGTGGAGGCTATTAAAAAGGACACTCCCGTACGTGCAAAAACTGCCAGGGACACAACTTTGGCAAGTCGGACAAACACCTTAAAGAACTTGGCGTCAGTAGCTTCGGTATCTGATCATAAAGATTCTCAAGATCAGATGGTTCGCCCTTCAAAAGTTATGAAGTTGGATAATGAAAGAGGTACTCCTTTCTCATCTGCTGGATTAGCTACACCAAGCGCCACTGCCGTTGCAAGTAGCTCTGGTGCAGCTGGTCAAAGCTCTAGCCTAGAAGCGCAGAATATAGAGAAACAAGCCCCACAGTTTCCACCTGATGTAGATCCTGCTTTGTTGCAACAAGTACTCAACCTTACTCCTGAACAACTGAGTTCACTACCCCCTCAACAGCAACTACAAGTCATTCAACTACAGCAGATGCTCAGATGA

Protein sequence

MEAIVELLEEENVHIPSWICFSSVDGKHASLGEFEESLNIINKSTKPPQRSKDGDFGLLALRWSGDWLFVTPLFCFHREERRVPKVHDNADTIRKALNLGVSVKIITGMSTSTPSARATQTRKLQKNSHQLSKLSETAHSKLHLKASSINEDAKSEAGELIHVLFSLILWPLLSNIVASSVRLLPLSYFCANLGMSFISLIFIFSGVEFSLKLTVGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQGYEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLPIAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLSMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHTLQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQSTVPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQSHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR

Relationships

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


Feature Name	Unique Name	Type
Spo23092.1	Spo23092.1	mRNA

Homology

[Close]

BLAST of Spo23092.1 vs. NCBI nr
Match: gi|902174231|gb|KNA08391.1| (hypothetical protein SOVF_163080 [Spinacia oleracea])

HSP 1 Score: 978.0 bits (2527), Expect = 9.000e-282
Identity = 516/517 (99.81%), Postives = 517/517 (100.00%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS
Sbjct: 132 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT
Sbjct: 192 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST
Sbjct: 252 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ
Sbjct: 312 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 371

Query: 575 SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ 634
           SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ
Sbjct: 372 SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ 431

Query: 635 DQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP 694
           DQMVRPSKVMKL+NERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP
Sbjct: 432 DQMVRPSKVMKLNNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP 491

Query: 695 DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR
Sbjct: 492 DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 528

[Close]

BLAST of Spo23092.1 vs. NCBI nr
Match: gi|902205385|gb|KNA15154.1| (hypothetical protein SOVF_100680 [Spinacia oleracea])

HSP 1 Score: 895.6 bits (2313), Expect = 5.900e-257
Identity = 479/520 (92.12%), Postives = 497/520 (95.58%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATL DA+F+QPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLGDATFYQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTASSVMAGALGGSQTG+VNQNG QNQSLIGNDPLTHHLANMSRSQLNQVI E+KMLS
Sbjct: 132 IAMTASSVMAGALGGSQTGQVNQNGLQNQSLIGNDPLTHHLANMSRSQLNQVISEMKMLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPN AVPTP+P MQHT
Sbjct: 192 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNAAVPTPQPPMQHT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           +QGHRPPVQ+L GLPSFTPLSSVSQNPLAHNQFSAPLPLHPQ RPQ PNLNQMV PSQ+T
Sbjct: 252 IQGHRPPVQTLPGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQQRPQLPNLNQMVPPSQNT 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           VPAHSG S+ +STRPQ LSGL  PPVSSSSFRPVQAPPLQHPGHAG+KTTQNVN+QPTFQ
Sbjct: 312 VPAHSGPSTRISTRPQSLSGL--PPVSSSSFRPVQAPPLQHPGHAGMKTTQNVNIQPTFQ 371

Query: 575 SH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
           S    SDPGYKVASSV PASVEAIKKDTPVRAKT RDTTLASRTNTL NL SVAS+SD+K
Sbjct: 372 SRSIPSDPGYKVASSVPPASVEAIKKDTPVRAKTFRDTTLASRTNTLTNLPSVASLSDYK 431

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
           DSQDQMVRPSKVMKL+NERGTPFSSAGLATPSATAVASSSGAAGQSSSLE QN+EKQAPQ
Sbjct: 432 DSQDQMVRPSKVMKLNNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEVQNMEKQAPQ 491

Query: 695 FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           FPPDVDPALLQQVLNLTPEQLSSLPP+QQLQVIQLQQMLR
Sbjct: 492 FPPDVDPALLQQVLNLTPEQLSSLPPEQQLQVIQLQQMLR 529

[Close]

BLAST of Spo23092.1 vs. NCBI nr
Match: gi|731375826|ref|XP_010667375.1| (PREDICTED: cleavage stimulating factor 64 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 758.4 bits (1957), Expect = 1.100e-215
Identity = 415/520 (79.81%), Postives = 445/520 (85.58%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLAT+ DAQKQVG PA + DA+FHQPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATSADAQKQVGGPAVIGDATFHQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTA+SVMAGALGG QTG++NQNG QNQSL+G+DPLTHHLA MSRSQLNQVIHE+K+LS
Sbjct: 132 IAMTAASVMAGALGGPQTGQINQNGVQNQSLVGSDPLTHHLAKMSRSQLNQVIHEMKVLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPK LFQAQI+LGMVTPQMLQMPN+RQQ PNP V TP+PSMQ T
Sbjct: 192 MQNKDLARQLLLVSPQLPKVLFQAQIMLGMVTPQMLQMPNIRQQAPNPTVSTPQPSMQLT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           +QG  P VQ+L GLPSFTPLSSVSQN LAHNQF APLPLHPQ R Q PNLNQMV PSQS 
Sbjct: 252 MQGQPPVVQTLPGLPSFTPLSSVSQNALAHNQFLAPLPLHPQARAQHPNLNQMVTPSQSV 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           +PAHSG    LS RPQPL GL  PPV SSSFRP   PPLQH GHA + TTQN NLQ   Q
Sbjct: 312 LPAHSGPQPLLSARPQPLGGLQRPPV-SSSFRP--GPPLQHAGHASMTTTQNTNLQALSQ 371

Query: 575 SH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
           SH   SDPGY+V SSVR ASVEAI+KD P+R +T  D TL   TNTL NL   AS+SD K
Sbjct: 372 SHPVSSDPGYQVVSSVRAASVEAIRKDAPMRVQTVGDATLVKGTNTLTNL---ASLSDKK 431

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
           DSQD MVRPSK+ KLDN++G  FSSAGL  PSAT  ASSS AA QSS LEAQN+EKQA Q
Sbjct: 432 DSQDLMVRPSKLRKLDNDKGASFSSAGLVAPSATVTASSSVAAFQSSKLEAQNMEKQALQ 491

Query: 695 FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
            PPDV+ ALLQQVLNLTPEQLSSLPP+QQ QVIQLQQMLR
Sbjct: 492 LPPDVESALLQQVLNLTPEQLSSLPPEQQQQVIQLQQMLR 525

[Close]

BLAST of Spo23092.1 vs. NCBI nr
Match: gi|870841854|gb|KMS95429.1| (hypothetical protein BVRB_008360 isoform B [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 753.8 bits (1945), Expect = 2.700e-214
Identity = 415/521 (79.65%), Postives = 445/521 (85.41%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQ-GRGGPGLATNVDAQKQVGSPATLVDASFHQPIGL 334
           YEINGRQLRVDFAENDKGADRNREQ GRGGPGLAT+ DAQKQVG PA + DA+FHQPIGL
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQQGRGGPGLATSADAQKQVGGPAVIGDATFHQPIGL 131

Query: 335 PIAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKML 394
           PIAMTA+SVMAGALGG QTG++NQNG QNQSL+G+DPLTHHLA MSRSQLNQVIHE+K+L
Sbjct: 132 PIAMTAASVMAGALGGPQTGQINQNGVQNQSLVGSDPLTHHLAKMSRSQLNQVIHEMKVL 191

Query: 395 SMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQH 454
           SMQNKDLARQLLLVSPQLPK LFQAQI+LGMVTPQMLQMPN+RQQ PNP V TP+PSMQ 
Sbjct: 192 SMQNKDLARQLLLVSPQLPKVLFQAQIMLGMVTPQMLQMPNIRQQAPNPTVSTPQPSMQL 251

Query: 455 TLQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQS 514
           T+QG  P VQ+L GLPSFTPLSSVSQN LAHNQF APLPLHPQ R Q PNLNQMV PSQS
Sbjct: 252 TMQGQPPVVQTLPGLPSFTPLSSVSQNALAHNQFLAPLPLHPQARAQHPNLNQMVTPSQS 311

Query: 515 TVPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTF 574
            +PAHSG    LS RPQPL GL  PPV SSSFRP   PPLQH GHA + TTQN NLQ   
Sbjct: 312 VLPAHSGPQPLLSARPQPLGGLQRPPV-SSSFRP--GPPLQHAGHASMTTTQNTNLQALS 371

Query: 575 QSH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDH 634
           QSH   SDPGY+V SSVR ASVEAI+KD P+R +T  D TL   TNTL NL   AS+SD 
Sbjct: 372 QSHPVSSDPGYQVVSSVRAASVEAIRKDAPMRVQTVGDATLVKGTNTLTNL---ASLSDK 431

Query: 635 KDSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAP 694
           KDSQD MVRPSK+ KLDN++G  FSSAGL  PSAT  ASSS AA QSS LEAQN+EKQA 
Sbjct: 432 KDSQDLMVRPSKLRKLDNDKGASFSSAGLVAPSATVTASSSVAAFQSSKLEAQNMEKQAL 491

Query: 695 QFPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           Q PPDV+ ALLQQVLNLTPEQLSSLPP+QQ QVIQLQQMLR
Sbjct: 492 QLPPDVESALLQQVLNLTPEQLSSLPPEQQQQVIQLQQMLR 526

[Close]

BLAST of Spo23092.1 vs. NCBI nr
Match: gi|359495190|ref|XP_002264617.2| (PREDICTED: cleavage stimulating factor 64 [Vitis vinifera])

HSP 1 Score: 483.4 bits (1243), Expect = 6.900e-133
Identity = 311/565 (55.04%), Postives = 386/565 (68.32%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 11  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 70

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPG+  NV+ QKQVG PA L DA+ HQP+GLP
Sbjct: 71  YEINGRQLRVDFAENDKGADRNREQGRGGPGMVANVEPQKQVGGPAILGDAALHQPVGLP 130

Query: 335 IAMTASSVMAGALGGSQTG-KVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKML 394
           +AM ASSVMAGALGG+Q G K NQNGFQ+Q+++G+DPLT HLA MSR+QLN+VI ++K++
Sbjct: 131 LAMAASSVMAGALGGAQAGSKSNQNGFQSQAMLGSDPLTLHLAKMSRNQLNEVISDLKVM 190

Query: 395 SMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQH 454
           + +NK+LARQLLL SPQLPKALFQAQI+LGMVTPQ+LQMPN+RQ     +VP  +P +Q 
Sbjct: 191 ATKNKELARQLLLTSPQLPKALFQAQIMLGMVTPQVLQMPNIRQ----ASVPPTQPVLQD 250

Query: 455 TLQGHRPPVQSLTGLPSFT---------------PLSSVSQNPLAHNQFSAPLPLHP-QL 514
             QG +  VQ+L+GLP                   +S++  N L H+QFSA LP  P Q 
Sbjct: 251 GQQGQQLAVQTLSGLPPLAQSKMQLGLMPKGQEGQVSAMPHNSLVHSQFSA-LPQQPAQP 310

Query: 515 RPQQPNLNQMVAPSQSTVPAHSGLSSHLSTRPQPLSGLHMPP----VSSSSFRPVQAPP- 574
           + Q P      A  Q+T    SG+++  S RPQP + L + P     SSSS +    PP 
Sbjct: 311 QIQLPPQGHNQALQQATFAGQSGVTALPSVRPQPPAKLPVRPQIQVASSSSLKHQMQPPL 370

Query: 575 LQHPGHAGIKTT--------QNVNLQPTFQ---SHSDPGYKVASSVRPASVEAIKKDTPV 634
           LQ PG  G   +         N  L+PT     S  D G++  SS    +  +I + T  
Sbjct: 371 LQQPGQFGSAKSGNNSQLVIPNATLRPTLMTRPSFPDSGFQPGSS----TFSSIPETTNN 430

Query: 635 RAKTARDTTLASRTNTLKNLASVASV--SDHKDSQDQMVRPSKVMKLDNERGTPFSSAGL 694
            A  +   T     NT  N+ S  S+  S  +D+ + M  PSK++KLD+ R  PFS+ GL
Sbjct: 431 NADRSSQVT----NNTYSNMPSGLSMKKSMARDTSEPMNHPSKMVKLDDGRRAPFSTVGL 490

Query: 695 ATPSATAVASSSG----------AAGQ-SSSLEAQNIEKQAP--QFPPDVDPALLQQVLN 732
              +++A AS+SG          +A Q S + E Q+++K+AP  Q PP+++ ALLQQVLN
Sbjct: 491 NLSTSSASASASGPSQVLGIGSVSANQISKAEEVQHMDKKAPQLQLPPEIESALLQQVLN 550

[Close]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QPA7_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_163080 PE=4 SV=1)

HSP 1 Score: 978.0 bits (2527), Expect = 6.200e-282
Identity = 516/517 (99.81%), Postives = 517/517 (100.00%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS
Sbjct: 132 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT
Sbjct: 192 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST
Sbjct: 252 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ
Sbjct: 312 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 371

Query: 575 SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ 634
           SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ
Sbjct: 372 SHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHKDSQ 431

Query: 635 DQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP 694
           DQMVRPSKVMKL+NERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP
Sbjct: 432 DQMVRPSKVMKLNNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQFPP 491

Query: 695 DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR
Sbjct: 492 DVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 528

[Close]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Match: A0A0K9R851_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_100680 PE=4 SV=1)

HSP 1 Score: 895.6 bits (2313), Expect = 4.100e-257
Identity = 479/520 (92.12%), Postives = 497/520 (95.58%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATL DA+F+QPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLGDATFYQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTASSVMAGALGGSQTG+VNQNG QNQSLIGNDPLTHHLANMSRSQLNQVI E+KMLS
Sbjct: 132 IAMTASSVMAGALGGSQTGQVNQNGLQNQSLIGNDPLTHHLANMSRSQLNQVISEMKMLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPN AVPTP+P MQHT
Sbjct: 192 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNAAVPTPQPPMQHT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           +QGHRPPVQ+L GLPSFTPLSSVSQNPLAHNQFSAPLPLHPQ RPQ PNLNQMV PSQ+T
Sbjct: 252 IQGHRPPVQTLPGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQQRPQLPNLNQMVPPSQNT 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           VPAHSG S+ +STRPQ LSGL  PPVSSSSFRPVQAPPLQHPGHAG+KTTQNVN+QPTFQ
Sbjct: 312 VPAHSGPSTRISTRPQSLSGL--PPVSSSSFRPVQAPPLQHPGHAGMKTTQNVNIQPTFQ 371

Query: 575 SH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
           S    SDPGYKVASSV PASVEAIKKDTPVRAKT RDTTLASRTNTL NL SVAS+SD+K
Sbjct: 372 SRSIPSDPGYKVASSVPPASVEAIKKDTPVRAKTFRDTTLASRTNTLTNLPSVASLSDYK 431

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
           DSQDQMVRPSKVMKL+NERGTPFSSAGLATPSATAVASSSGAAGQSSSLE QN+EKQAPQ
Sbjct: 432 DSQDQMVRPSKVMKLNNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEVQNMEKQAPQ 491

Query: 695 FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           FPPDVDPALLQQVLNLTPEQLSSLPP+QQLQVIQLQQMLR
Sbjct: 492 FPPDVDPALLQQVLNLTPEQLSSLPPEQQLQVIQLQQMLR 529

[Close]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B6A4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_008360 PE=4 SV=1)

HSP 1 Score: 758.4 bits (1957), Expect = 7.800e-216
Identity = 415/520 (79.81%), Postives = 445/520 (85.58%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDKGADRNREQGRGGPGLAT+ DAQKQVG PA + DA+FHQPIGLP
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQGRGGPGLATSADAQKQVGGPAVIGDATFHQPIGLP 131

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
           IAMTA+SVMAGALGG QTG++NQNG QNQSL+G+DPLTHHLA MSRSQLNQVIHE+K+LS
Sbjct: 132 IAMTAASVMAGALGGPQTGQINQNGVQNQSLVGSDPLTHHLAKMSRSQLNQVIHEMKVLS 191

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
           MQNKDLARQLLLVSPQLPK LFQAQI+LGMVTPQMLQMPN+RQQ PNP V TP+PSMQ T
Sbjct: 192 MQNKDLARQLLLVSPQLPKVLFQAQIMLGMVTPQMLQMPNIRQQAPNPTVSTPQPSMQLT 251

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
           +QG  P VQ+L GLPSFTPLSSVSQN LAHNQF APLPLHPQ R Q PNLNQMV PSQS 
Sbjct: 252 MQGQPPVVQTLPGLPSFTPLSSVSQNALAHNQFLAPLPLHPQARAQHPNLNQMVTPSQSV 311

Query: 515 VPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTFQ 574
           +PAHSG    LS RPQPL GL  PPV SSSFRP   PPLQH GHA + TTQN NLQ   Q
Sbjct: 312 LPAHSGPQPLLSARPQPLGGLQRPPV-SSSFRP--GPPLQHAGHASMTTTQNTNLQALSQ 371

Query: 575 SH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
           SH   SDPGY+V SSVR ASVEAI+KD P+R +T  D TL   TNTL NL   AS+SD K
Sbjct: 372 SHPVSSDPGYQVVSSVRAASVEAIRKDAPMRVQTVGDATLVKGTNTLTNL---ASLSDKK 431

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
           DSQD MVRPSK+ KLDN++G  FSSAGL  PSAT  ASSS AA QSS LEAQN+EKQA Q
Sbjct: 432 DSQDLMVRPSKLRKLDNDKGASFSSAGLVAPSATVTASSSVAAFQSSKLEAQNMEKQALQ 491

Query: 695 FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
            PPDV+ ALLQQVLNLTPEQLSSLPP+QQ QVIQLQQMLR
Sbjct: 492 LPPDVESALLQQVLNLTPEQLSSLPPEQQQQVIQLQQMLR 525

[Close]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B2T4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_008360 PE=4 SV=1)

HSP 1 Score: 753.8 bits (1945), Expect = 1.900e-214
Identity = 415/521 (79.65%), Postives = 445/521 (85.41%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLIQICEEVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQ-GRGGPGLATNVDAQKQVGSPATLVDASFHQPIGL 334
           YEINGRQLRVDFAENDKGADRNREQ GRGGPGLAT+ DAQKQVG PA + DA+FHQPIGL
Sbjct: 72  YEINGRQLRVDFAENDKGADRNREQQGRGGPGLATSADAQKQVGGPAVIGDATFHQPIGL 131

Query: 335 PIAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKML 394
           PIAMTA+SVMAGALGG QTG++NQNG QNQSL+G+DPLTHHLA MSRSQLNQVIHE+K+L
Sbjct: 132 PIAMTAASVMAGALGGPQTGQINQNGVQNQSLVGSDPLTHHLAKMSRSQLNQVIHEMKVL 191

Query: 395 SMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQH 454
           SMQNKDLARQLLLVSPQLPK LFQAQI+LGMVTPQMLQMPN+RQQ PNP V TP+PSMQ 
Sbjct: 192 SMQNKDLARQLLLVSPQLPKVLFQAQIMLGMVTPQMLQMPNIRQQAPNPTVSTPQPSMQL 251

Query: 455 TLQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQS 514
           T+QG  P VQ+L GLPSFTPLSSVSQN LAHNQF APLPLHPQ R Q PNLNQMV PSQS
Sbjct: 252 TMQGQPPVVQTLPGLPSFTPLSSVSQNALAHNQFLAPLPLHPQARAQHPNLNQMVTPSQS 311

Query: 515 TVPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQPTF 574
            +PAHSG    LS RPQPL GL  PPV SSSFRP   PPLQH GHA + TTQN NLQ   
Sbjct: 312 VLPAHSGPQPLLSARPQPLGGLQRPPV-SSSFRP--GPPLQHAGHASMTTTQNTNLQALS 371

Query: 575 QSH---SDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDH 634
           QSH   SDPGY+V SSVR ASVEAI+KD P+R +T  D TL   TNTL NL   AS+SD 
Sbjct: 372 QSHPVSSDPGYQVVSSVRAASVEAIRKDAPMRVQTVGDATLVKGTNTLTNL---ASLSDK 431

Query: 635 KDSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAP 694
           KDSQD MVRPSK+ KLDN++G  FSSAGL  PSAT  ASSS AA QSS LEAQN+EKQA 
Sbjct: 432 KDSQDLMVRPSKLRKLDNDKGASFSSAGLVAPSATVTASSSVAAFQSSKLEAQNMEKQAL 491

Query: 695 QFPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
           Q PPDV+ ALLQQVLNLTPEQLSSLPP+QQ QVIQLQQMLR
Sbjct: 492 QLPPDVESALLQQVLNLTPEQLSSLPPEQQQQVIQLQQMLR 526

[Close]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Match: A0A067JIV2_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_01932 PE=4 SV=1)

HSP 1 Score: 435.3 bits (1118), Expect = 1.500e-118
Identity = 295/553 (53.35%), Postives = 360/553 (65.10%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQLI+IC EVGPVVSFRLVIDR+TGKPKGYGFCEYKDEET+LSARRNLQG
Sbjct: 12  VGNIPYDATEEQLIEICREVGPVVSFRLVIDRETGKPKGYGFCEYKDEETALSARRNLQG 71

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
           YEINGRQLRVDFAENDK ADRNREQGRGGPGLA NVD QKQVG PA LV++S HQPIGL 
Sbjct: 72  YEINGRQLRVDFAENDKNADRNREQGRGGPGLAANVDTQKQVGGPAILVESSQHQPIGLH 131

Query: 335 IAMTASSVMAGALGGSQTG-KVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKML 394
           IA+TA++VMAGALGG+QTG + NQNG Q+QS + +DPLT HLA MSRSQLN ++ E+K +
Sbjct: 132 IAITAATVMAGALGGAQTGMQSNQNGLQSQSALASDPLTLHLAKMSRSQLNDIMSELKGM 191

Query: 395 SMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQH 454
           + +N++ ARQLLL  PQLPKALFQAQI+L MVTPQ+LQMPN+RQ    PA+     S+Q 
Sbjct: 192 ATKNREQARQLLLARPQLPKALFQAQIMLRMVTPQVLQMPNIRQPPGQPAL----HSLQD 251

Query: 455 TLQGHRPPVQSLTGLPSF--------------TPLSSVSQNPLAHNQFSA-PLPLHPQLR 514
           T  G +  +Q+L GLPS               +  S++    L  NQFSA   P+ P+ +
Sbjct: 252 TQLGKQSAIQTLPGLPSLVQRMHSGLVPKMQESQFSAMPPASLIQNQFSAHAQPILPRTQ 311

Query: 515 -PQQPNLNQMVAPSQSTVPAHSGLSS----HLSTRPQPLSGLHMPPVSSSSFRPVQAPPL 574
            PQ  N N    P Q+T+P  SGL S    H + RPQ   G       S SF   Q PP 
Sbjct: 312 IPQHANSN---VPQQATLPGQSGLPSLPPVHPAVRPQIQMG-------SLSFLNKQMPP- 371

Query: 575 QHPGHAGIKTTQNVNLQPTFQSHSDPGYKVASSV--RPASVEAIKKDTPVRAKTA----- 634
             P H+  K     N   T Q    P     SS+  RP S  A +   P+ +  +     
Sbjct: 372 SLPQHSA-KQVGTANFGHTSQ-RVLPNTATQSSILSRPPSNAAFQPGPPISSGLSDAVAN 431

Query: 635 -RDTTLASRTNTLKNLASV-ASVSDHKDSQDQMVRPSKVMKLDNERGTPFSSAGL----A 694
             D ++ +  N  +N A +    ++  DS++ + RPSK++K+D+ R   FSS  L    A
Sbjct: 432 DADRSIQAPDNIRRNNAFLPVQTNEVNDSKEPVSRPSKLLKMDDGRSVSFSSGALDVSKA 491

Query: 695 TPSATAVASSSGAAGQSSSLEAQNIEKQA--PQFPPDVDPALLQQVLNLTPEQLSSLPPQ 732
           T S  + A +  A     S E +  EKQ   PQ PPDV+ ALLQQVLNLT EQL+SLPP+
Sbjct: 492 TTSGPSQAFTVPANPPPKSEELKYSEKQVSQPQLPPDVESALLQQVLNLTSEQLNSLPPE 547

[Close]

BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
Match: CTF64_ARATH (Cleavage stimulating factor 64 OS=Arabidopsis thaliana GN=CSTF64 PE=1 SV=1)

HSP 1 Score: 290.0 bits (741), Expect = 7.000e-77
Identity = 223/522 (42.72%), Postives = 288/522 (55.17%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQL +IC EVGPVVSFRLV DR+TGKPKGYGFCEYKDEET+LSARRNLQ 
Sbjct: 13  VGNIPYDATEEQLREICGEVGPVVSFRLVTDRETGKPKGYGFCEYKDEETALSARRNLQS 72

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGL---ATNVDAQKQVGSPATLVDASFHQPI 334
           YEINGRQLRVDFAENDKG D+ R+Q +GGPGL    T  ++QKQ+G P   VD++ HQP+
Sbjct: 73  YEINGRQLRVDFAENDKGTDKTRDQSQGGPGLPSTTTVTESQKQIGGP---VDSNMHQPV 132

Query: 335 GLPIAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIK 394
           GL +A TA+SV+AGALGG Q G  +Q    N  +  +DPL  HLA MSRSQL ++I  IK
Sbjct: 133 GLHLATTAASVIAGALGGPQVG--SQFTQSNLQVPASDPLALHLAKMSRSQLTEIISSIK 192

Query: 395 MLSMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSM 454
           +++ QNK+ ARQLL+  PQL KA+F AQ++LG+V+PQ+LQ PN+ Q              
Sbjct: 193 LMATQNKEHARQLLVSRPQLLKAVFLAQVMLGIVSPQVLQSPNIVQ-------------- 252

Query: 455 QHTLQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPS 514
                            PS    SS+    L+      PL    Q   + P+    V   
Sbjct: 253 ----------------APSHMTGSSIQDAQLSGQNLLPPLAQRSQQLSRAPHSQYPV--Q 312

Query: 515 QSTVPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQP 574
           QS+    S +   L  +P P S ++ PP S      V+  P Q               Q 
Sbjct: 313 QSSKQPFSQIPQ-LVAQPGP-SSVNPPPRSQVK---VENAPFQR--------------QQ 372

Query: 575 TFQSHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
              + ++ GY   +SV   +++      P +A          +T +L     +     H+
Sbjct: 373 VVPASTNIGYSSQNSVPNNAIQP--SQVPHQALPNSVMQQGGQTVSLNFGKRINEGPPHQ 432

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
                M RPSK+MK+++ R T                S  G    +S L  Q    QAPQ
Sbjct: 433 S----MNRPSKMMKVEDRRTT----------------SLPGGHVSNSMLPNQ---AQAPQ 453

Query: 695 --FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
               PDV   LLQQV+NLTPEQL  L P+QQ +V++LQQ L+
Sbjct: 493 THISPDVQSTLLQQVMNLTPEQLRLLTPEQQQEVLKLQQALK 453

[Close]

BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
Match: CSTF2_BOVIN (Cleavage stimulation factor subunit 2 OS=Bos taurus GN=CSTF2 PE=2 SV=1)

HSP 1 Score: 126.3 bits (316), Expect = 1.300e-27
Identity = 89/240 (37.08%), Postives = 125/240 (52.08%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPY+ATEEQL  I  EVGPVVSFRLV DR+TGKPKGYGFCEY+D+ET+LSA RNL G
Sbjct: 20  VGNIPYEATEEQLKDIFSEVGPVVSFRLVYDRETGKPKGYGFCEYQDQETALSAMRNLNG 79

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
            E +GR LRVD A ++K                 N +  K +G+ A ++++ + + I   
Sbjct: 80  REFSGRALRVDNAASEK-----------------NKEELKSLGTGAPVIESPYGETISPE 139

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
            A  + S    +L   Q  ++ +   Q +  + N P                        
Sbjct: 140 DAPESISKAVASLPPEQMFELMK---QMKLCVQNSPQE---------------------- 199

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
                 AR +LL +PQL  AL QAQ+++ +V P+ + +  L +QT  P +    P   H+
Sbjct: 200 ------ARNMLLQNPQLAYALLQAQVVMRIVDPE-IALKILHRQTNIPTLIAGNPQTVHS 210

[Close]

BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
Match: CSTF2_MOUSE (Cleavage stimulation factor subunit 2 OS=Mus musculus GN=Cstf2 PE=1 SV=2)

HSP 1 Score: 125.6 bits (314), Expect = 2.300e-27
Identity = 96/266 (36.09%), Postives = 132/266 (49.62%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPY+ATEEQL  I  EVGPVVSFRLV DR+TGKPKGYGFCEY+D+ET+LSA RNL G
Sbjct: 20  VGNIPYEATEEQLKDIFSEVGPVVSFRLVYDRETGKPKGYGFCEYQDQETALSAMRNLNG 79

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
            E +GR LRVD A ++K                 N +  K +G+ A ++++ + + I   
Sbjct: 80  REFSGRALRVDNAASEK-----------------NKEELKSLGTGAPVIESPYGESISPE 139

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
            A  + S    +L   Q  ++ +   Q +  + N P                        
Sbjct: 140 DAPESISKAVASLPPEQMFELMK---QMKLCVQNSPQE---------------------- 199

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQM--------LQMPNLRQQTPNP---A 454
                 AR +LL +PQL  AL QAQ+++ +V P++          +P L    P P   A
Sbjct: 200 ------ARNMLLQNPQLAYALLQAQVVMRIVDPEIALKILHRQTNIPTLISGNPQPVHVA 237

Query: 455 VPTPRPSMQHTLQG-HRPPVQSLTGL 469
            P   P++    Q    P  QSL G+
Sbjct: 260 GPGSGPNVSMNQQNPQAPQAQSLGGM 237

[Close]

BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
Match: CSTF2_PONAB (Cleavage stimulation factor subunit 2 OS=Pongo abelii GN=CSTF2 PE=2 SV=1)

HSP 1 Score: 125.6 bits (314), Expect = 2.300e-27
Identity = 89/239 (37.24%), Postives = 124/239 (51.88%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPY+ATEEQL  I  EVGPVVSFRLV DR+TGKPKGYGFCEY+D+ET+LSA RNL G
Sbjct: 20  VGNIPYEATEEQLKDIFSEVGPVVSFRLVYDRETGKPKGYGFCEYQDQETALSAMRNLNG 79

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
            E +GR LRVD A ++K                 N +  K +G+ A ++++ + + I   
Sbjct: 80  REFSGRALRVDNAASEK-----------------NKEELKSLGTGAPVIESPYGETISPE 139

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
            A  + S    +L   Q  ++ +   Q +  + N P                        
Sbjct: 140 DAPESISKAVASLPPEQMFELMK---QMKLCVQNSPQE---------------------- 199

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQH 454
                 AR +LL +PQL  AL QAQ+++ +V P+ + +  L +QT  P +    P   H
Sbjct: 200 ------ARNMLLQNPQLAYALLQAQVVMRIVDPE-IALKILHRQTNIPTLIAGNPQPVH 209

[Close]

BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
Match: CSTF2_HUMAN (Cleavage stimulation factor subunit 2 OS=Homo sapiens GN=CSTF2 PE=1 SV=1)

HSP 1 Score: 121.3 bits (303), Expect = 4.300e-26
Identity = 103/308 (33.44%), Postives = 148/308 (48.05%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPY+ATEEQL  I  EVGPVVSFRLV DR+TGKPKGYGFCEY+D+ET+LSA RNL G
Sbjct: 20  VGNIPYEATEEQLKDIFSEVGPVVSFRLVYDRETGKPKGYGFCEYQDQETALSAMRNLNG 79

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGLATNVDAQKQVGSPATLVDASFHQPIGLP 334
            E +GR LRVD A ++K                 N +  K +G+ A ++++ + + I   
Sbjct: 80  REFSGRALRVDNAASEK-----------------NKEELKSLGTGAPVIESPYGETISPE 139

Query: 335 IAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIKMLS 394
            A  + S    +L   Q  ++ +   Q +  + N P                        
Sbjct: 140 DAPESISKAVASLPPEQMFELMK---QMKLCVQNSPQE---------------------- 199

Query: 395 MQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSMQHT 454
                 AR +LL +PQL  AL QAQ+++ +V P+ + +  L +QT  P +    P   H 
Sbjct: 200 ------ARNMLLQNPQLAYALLQAQVVMRIVDPE-IALKILHRQTNIPTLIAGNPQPVH- 259

Query: 455 LQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPSQST 514
             G  P   S   +    P +  +Q+    +   AP  +   ++   P   QM  P+  T
Sbjct: 260 --GAGPGSGSNVSMNQQNPQAPQAQSLGGMHVNGAPPLMQASMQGGVPAPGQM--PAAVT 273

Query: 515 VPAHSGLS 523
            P    L+
Sbjct: 320 GPGPGSLA 273

[Close]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Match: AT1G71800.1 (cleavage stimulating factor 64)

HSP 1 Score: 290.0 bits (741), Expect = 4.000e-78
Identity = 223/522 (42.72%), Postives = 288/522 (55.17%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VGNIPYDATEEQL +IC EVGPVVSFRLV DR+TGKPKGYGFCEYKDEET+LSARRNLQ 
Sbjct: 13  VGNIPYDATEEQLREICGEVGPVVSFRLVTDRETGKPKGYGFCEYKDEETALSARRNLQS 72

Query: 275 YEINGRQLRVDFAENDKGADRNREQGRGGPGL---ATNVDAQKQVGSPATLVDASFHQPI 334
           YEINGRQLRVDFAENDKG D+ R+Q +GGPGL    T  ++QKQ+G P   VD++ HQP+
Sbjct: 73  YEINGRQLRVDFAENDKGTDKTRDQSQGGPGLPSTTTVTESQKQIGGP---VDSNMHQPV 132

Query: 335 GLPIAMTASSVMAGALGGSQTGKVNQNGFQNQSLIGNDPLTHHLANMSRSQLNQVIHEIK 394
           GL +A TA+SV+AGALGG Q G  +Q    N  +  +DPL  HLA MSRSQL ++I  IK
Sbjct: 133 GLHLATTAASVIAGALGGPQVG--SQFTQSNLQVPASDPLALHLAKMSRSQLTEIISSIK 192

Query: 395 MLSMQNKDLARQLLLVSPQLPKALFQAQIILGMVTPQMLQMPNLRQQTPNPAVPTPRPSM 454
           +++ QNK+ ARQLL+  PQL KA+F AQ++LG+V+PQ+LQ PN+ Q              
Sbjct: 193 LMATQNKEHARQLLVSRPQLLKAVFLAQVMLGIVSPQVLQSPNIVQ-------------- 252

Query: 455 QHTLQGHRPPVQSLTGLPSFTPLSSVSQNPLAHNQFSAPLPLHPQLRPQQPNLNQMVAPS 514
                            PS    SS+    L+      PL    Q   + P+    V   
Sbjct: 253 ----------------APSHMTGSSIQDAQLSGQNLLPPLAQRSQQLSRAPHSQYPV--Q 312

Query: 515 QSTVPAHSGLSSHLSTRPQPLSGLHMPPVSSSSFRPVQAPPLQHPGHAGIKTTQNVNLQP 574
           QS+    S +   L  +P P S ++ PP S      V+  P Q               Q 
Sbjct: 313 QSSKQPFSQIPQ-LVAQPGP-SSVNPPPRSQVK---VENAPFQR--------------QQ 372

Query: 575 TFQSHSDPGYKVASSVRPASVEAIKKDTPVRAKTARDTTLASRTNTLKNLASVASVSDHK 634
              + ++ GY   +SV   +++      P +A          +T +L     +     H+
Sbjct: 373 VVPASTNIGYSSQNSVPNNAIQP--SQVPHQALPNSVMQQGGQTVSLNFGKRINEGPPHQ 432

Query: 635 DSQDQMVRPSKVMKLDNERGTPFSSAGLATPSATAVASSSGAAGQSSSLEAQNIEKQAPQ 694
                M RPSK+MK+++ R T                S  G    +S L  Q    QAPQ
Sbjct: 433 S----MNRPSKMMKVEDRRTT----------------SLPGGHVSNSMLPNQ---AQAPQ 453

Query: 695 --FPPDVDPALLQQVLNLTPEQLSSLPPQQQLQVIQLQQMLR 732
               PDV   LLQQV+NLTPEQL  L P+QQ +V++LQQ L+
Sbjct: 493 THISPDVQSTLLQQVMNLTPEQLRLLTPEQQQEVLKLQQALK 453

[Close]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Match: AT1G60000.1 (RNA-binding (RRM/RBD/RNP motifs) family protein)

HSP 1 Score: 67.4 bits (163), Expect = 4.200e-11
Identity = 33/80 (41.25%), Postives = 46/80 (57.50%), Query Frame = 1


		  
Query: 212 KLTVGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRN 271
           KL VGN+ +  T E L     E G VV  R+V D DTG+ +GYGF  Y  +    +A  +
Sbjct: 178 KLFVGNLSWTVTSESLAGAFRECGDVVGARVVFDGDTGRSRGYGFVCYSSKAEMETALES 237

Query: 272 LQGYEINGRQLRVDFAENDK 292
           L G+E+ GR +RV+ A+  K
Sbjct: 238 LDGFELEGRAIRVNLAQGKK 257

[Close]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Match: AT3G23830.1 (glycine-rich RNA-binding protein 4)

HSP 1 Score: 64.7 bits (156), Expect = 2.700e-10
Identity = 33/96 (34.38%), Postives = 53/96 (55.21%), Query Frame = 1


		  
Query: 210 SLKLTVGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSAR 269
           S KL VG + +   +  L Q     G V    ++ DR+TG+ +G+GF  +  E+++ +A 
Sbjct: 34  SSKLFVGGLSWGTDDSSLKQAFTSFGEVTEATVIADRETGRSRGFGFVSFSCEDSANNAI 93

Query: 270 RNLQGYEINGRQLRVDFAENDKGADRNREQGRGGPG 306
           + + G E+NGRQ+RV+ A     A R+   G GG G
Sbjct: 94  KEMDGKELNGRQIRVNLATERSSAPRSSFGGGGGYG 129

[Close]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Match: AT3G47120.1 (RNA recognition motif (RRM)-containing protein)

HSP 1 Score: 64.7 bits (156), Expect = 2.700e-10
Identity = 32/96 (33.33%), Postives = 55/96 (57.29%), Query Frame = 1


		  
Query: 215 VGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSARRNLQG 274
           VG IP+D TE  L+ +  + G +V   L+ D+ TGK KG+ F  Y+D+ +++ A  NL G
Sbjct: 40  VGGIPFDLTEGDLLAVFSQYGEIVDVNLIRDKGTGKSKGFAFLAYEDQRSTILAVDNLNG 99

Query: 275 YEINGRQLRVD----FAENDKGADRNREQGRGGPGL 307
             + GR ++VD    + ++++  +  R Q R   G+
Sbjct: 100 ALVLGRTIKVDHCGAYKKHEEEDEETRRQNREARGV 135

[Close]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Match: AT5G61030.1 (glycine-rich RNA-binding protein 3)

HSP 1 Score: 63.2 bits (152), Expect = 7.900e-10
Identity = 33/96 (34.38%), Postives = 55/96 (57.29%), Query Frame = 1


		  
Query: 210 SLKLTVGNIPYDATEEQLIQICEEVGPVVSFRLVIDRDTGKPKGYGFCEYKDEETSLSAR 269
           S KL +G + Y   E+ L +   + G VV  R+++DR+TG+ +G+GF  +   E + SA 
Sbjct: 39  SSKLFIGGMAYSMDEDSLREAFTKYGEVVDTRVILDRETGRSRGFGFVTFTSSEAASSAI 98

Query: 270 RNLQGYEINGRQLRVDFAENDKGADRNREQGRGGPG 306
           + L G +++GR ++V++A      DR    G GG G
Sbjct: 99  QALDGRDLHGRVVKVNYAN-----DRTSGGGFGGGG 129

The following BLAST results are available for this feature:

BLAST of Spo23092.1 vs. NCBI nr
BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
BLAST of Spo23092.1 vs. ExPASy Swiss-Prot
BLAST of Spo23092.1 vs. TAIR (Arabidopsis)

BLAST of Spo23092.1 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\|902174231\|gb\|KNA08391.1\|	9.0e-282	99.8	hypothetical protein SOVF_1630...	[more]
gi\|902205385\|gb\|KNA15154.1\|	5.9e-257	92.1	hypothetical protein SOVF_1006...	[more]
gi\|731375826\|ref\|XP_010667375.1\|	1.1e-215	79.8	PREDICTED: cleavage stimulatin...	[more]
gi\|870841854\|gb\|KMS95429.1\|	2.7e-214	79.6	hypothetical protein BVRB_0083...	[more]
gi\|359495190\|ref\|XP_002264617.2\|	6.9e-133	55.0	PREDICTED: cleavage stimulatin...	[more]

BLAST of Spo23092.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9QPA7_SPIOL	6.2e-282	99.8	Uncharacterized protein OS=Spi...	[more]
A0A0K9R851_SPIOL	4.1e-257	92.1	Uncharacterized protein OS=Spi...	[more]
A0A0J8B6A4_BETVU	7.8e-216	79.8	Uncharacterized protein OS=Bet...	[more]
A0A0J8B2T4_BETVU	1.9e-214	79.6	Uncharacterized protein OS=Bet...	[more]
A0A067JIV2_JATCU	1.5e-118	53.3	Uncharacterized protein OS=Jat...	[more]

BLAST of Spo23092.1 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
CTF64_ARATH	7.0e-77	42.7	Cleavage stimulating factor 64...	[more]
CSTF2_BOVIN	1.3e-27	37.0	Cleavage stimulation factor su...	[more]
CSTF2_MOUSE	2.3e-27	36.0	Cleavage stimulation factor su...	[more]
CSTF2_PONAB	2.3e-27	37.2	Cleavage stimulation factor su...	[more]
CSTF2_HUMAN	4.3e-26	33.4	Cleavage stimulation factor su...	[more]

BLAST of Spo23092.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5


Match Name	E-value	Identity	Description
AT1G71800.1	4.0e-78	42.7	cleavage stimulating factor 64	[more]
AT1G60000.1	4.2e-11	41.2	RNA-binding (RRM/RBD/RNP motif...	[more]
AT3G23830.1	2.7e-10	34.3	glycine-rich RNA-binding prote...	[more]
AT3G47120.1	2.7e-10	33.3	RNA recognition motif (RRM)-co...	[more]
AT5G61030.1	7.9e-10	34.3	glycine-rich RNA-binding prote...	[more]

InterPro

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


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000504	RNA recognition motif domain	PFAM	PF00076	RRM_1	coord: 213..283 score: 2.0
IPR000504	RNA recognition motif domain	SMART	SM00360	rrm1_1	coord: 212..285 score: 1.9
IPR000504	RNA recognition motif domain	PROFILE	PS50102	RRM	coord: 211..289 score: 17
IPR012677	Nucleotide-binding alpha-beta plait domain	GENE3D	3.30.70.330		coord: 211..303 score: 8.4
IPR012677	Nucleotide-binding alpha-beta plait domain	unknown	SSF54928	RNA-binding domain, RBD	coord: 212..305 score: 2.01
IPR025742	Cleavage stimulation factor subunit 2, hinge domain	PFAM	PF14327	CSTF2_hinge	coord: 364..431 score: 2.2
IPR026896	Transcription termination and cleavage factor, C-terminal domain	PFAM	PF14304	CSTF_C	coord: 699..731 score: 2.
None	No IPR available	unknown	Coil	Coil	coord: 383..403 scor
None	No IPR available	PANTHER	PTHR23139	RNA-BINDING PROTEIN	coord: 354..553 score: 5.7E-78coord: 215..308 score: 5.7
None	No IPR available	PANTHER	PTHR23139:SF8	CLEAVAGE STIMULATION FACTOR 64 KILODALTON SUBUNIT	coord: 354..553 score: 5.7E-78coord: 215..308 score: 5.7

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0051276	chromosome organization
biological_process	GO:0010104	regulation of ethylene-activated signaling pathway
biological_process	GO:0022402	cell cycle process
biological_process	GO:0006259	DNA metabolic process
biological_process	GO:0006996	organelle organization
biological_process	GO:0033043	regulation of organelle organization
biological_process	GO:0009736	cytokinin-activated signaling pathway
biological_process	GO:0006352	DNA-templated transcription, initiation
biological_process	GO:0009867	jasmonic acid mediated signaling pathway
biological_process	GO:0000394	RNA splicing, via endonucleolytic cleavage and ligation
biological_process	GO:0042254	ribosome biogenesis
biological_process	GO:0006366	transcription by RNA polymerase II
biological_process	GO:0001522	pseudouridine synthesis
biological_process	GO:0030001	metal ion transport
biological_process	GO:0006810	transport
biological_process	GO:0016049	cell growth
biological_process	GO:0007030	Golgi organization
biological_process	GO:0045053	protein retention in Golgi apparatus
biological_process	GO:0010016	shoot system morphogenesis
biological_process	GO:0016070	RNA metabolic process
biological_process	GO:1901575	organic substance catabolic process
biological_process	GO:0006741	NADP biosynthetic process
biological_process	GO:0048366	leaf development
biological_process	GO:0000398	mRNA splicing, via spliceosome
biological_process	GO:0006333	chromatin assembly or disassembly
biological_process	GO:0006338	chromatin remodeling
biological_process	GO:0006888	ER to Golgi vesicle-mediated transport
biological_process	GO:0050789	regulation of biological process
biological_process	GO:0000186	activation of MAPKK activity
biological_process	GO:0009069	serine family amino acid metabolic process
biological_process	GO:0007178	transmembrane receptor protein serine/threonine kinase signaling pathway
biological_process	GO:0000278	mitotic cell cycle
biological_process	GO:0009987	cellular process
biological_process	GO:0000956	nuclear-transcribed mRNA catabolic process
biological_process	GO:0009410	response to xenobiotic stimulus
biological_process	GO:0010048	vernalization response
biological_process	GO:0055085	transmembrane transport
biological_process	GO:0008152	metabolic process
biological_process	GO:0044070	regulation of anion transport
biological_process	GO:0032502	developmental process
biological_process	GO:0044248	cellular catabolic process
biological_process	GO:0019674	NAD metabolic process
biological_process	GO:0006769	nicotinamide metabolic process
biological_process	GO:0019243	methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
biological_process	GO:0048229	gametophyte development
biological_process	GO:0045595	regulation of cell differentiation
biological_process	GO:0048575	short-day photoperiodism, flowering
biological_process	GO:0006511	ubiquitin-dependent protein catabolic process
biological_process	GO:0006364	rRNA processing
biological_process	GO:0006121	mitochondrial electron transport, succinate to ubiquinone
biological_process	GO:0006099	tricarboxylic acid cycle
biological_process	GO:0090501	RNA phosphodiester bond hydrolysis
biological_process	GO:0048856	anatomical structure development
biological_process	GO:0000209	protein polyubiquitination
biological_process	GO:0048731	system development
biological_process	GO:0009725	response to hormone
biological_process	GO:0048574	long-day photoperiodism, flowering
biological_process	GO:0048518	positive regulation of biological process
biological_process	GO:0010017	red or far-red light signaling pathway
biological_process	GO:0009605	response to external stimulus
biological_process	GO:0044237	cellular metabolic process
biological_process	GO:0007389	pattern specification process
biological_process	GO:0010564	regulation of cell cycle process
biological_process	GO:0010072	primary shoot apical meristem specification
biological_process	GO:0046497	nicotinate nucleotide metabolic process
biological_process	GO:0006284	base-excision repair
biological_process	GO:0009058	biosynthetic process
biological_process	GO:0009694	jasmonic acid metabolic process
biological_process	GO:1901576	organic substance biosynthetic process
biological_process	GO:0044238	primary metabolic process
biological_process	GO:0050896	response to stimulus
biological_process	GO:0070932	histone H3 deacetylation
biological_process	GO:0061647	histone H3-K9 modification
biological_process	GO:0070933	histone H4 deacetylation
biological_process	GO:0006464	cellular protein modification process
biological_process	GO:0010100	negative regulation of photomorphogenesis
biological_process	GO:0035194	posttranscriptional gene silencing by RNA
biological_process	GO:0007049	cell cycle
biological_process	GO:0051301	cell division
biological_process	GO:0048312	intracellular distribution of mitochondria
biological_process	GO:0009738	abscisic acid-activated signaling pathway
biological_process	GO:0048825	cotyledon development
biological_process	GO:0006281	DNA repair
biological_process	GO:0009880	embryonic pattern specification
biological_process	GO:0006508	proteolysis
biological_process	GO:0006886	intracellular protein transport
biological_process	GO:0009791	post-embryonic development
biological_process	GO:0006260	DNA replication
biological_process	GO:0006629	lipid metabolic process
biological_process	GO:0045893	positive regulation of transcription, DNA-templated
biological_process	GO:0009555	pollen development
biological_process	GO:0009640	photomorphogenesis
biological_process	GO:0006312	mitotic recombination
biological_process	GO:0009933	meristem structural organization
biological_process	GO:0042138	meiotic DNA double-strand break formation
biological_process	GO:0001510	RNA methylation
biological_process	GO:0007141	male meiosis I
biological_process	GO:0048232	male gamete generation
biological_process	GO:0019915	lipid storage
biological_process	GO:0009560	embryo sac egg cell differentiation
biological_process	GO:0009793	embryo development ending in seed dormancy
biological_process	GO:0000724	double-strand break repair via homologous recombination
biological_process	GO:0006446	regulation of translational initiation
biological_process	GO:0009220	pyrimidine ribonucleotide biosynthetic process
biological_process	GO:0034440	lipid oxidation
biological_process	GO:0080147	root hair cell development
biological_process	GO:0009252	peptidoglycan biosynthetic process
biological_process	GO:0006890	retrograde vesicle-mediated transport, Golgi to ER
biological_process	GO:0045185	maintenance of protein location
biological_process	GO:0006355	regulation of transcription, DNA-templated
biological_process	GO:0009695	jasmonic acid biosynthetic process
biological_process	GO:0031408	oxylipin biosynthetic process
biological_process	GO:0031124	mRNA 3'-end processing
biological_process	GO:0009611	response to wounding
biological_process	GO:0007165	signal transduction
biological_process	GO:0050790	regulation of catalytic activity
biological_process	GO:0006820	anion transport
biological_process	GO:0045454	cell redox homeostasis
biological_process	GO:0051026	chiasma assembly
biological_process	GO:0016567	protein ubiquitination
biological_process	GO:0043687	post-translational protein modification
biological_process	GO:0055075	potassium ion homeostasis
biological_process	GO:0010228	vegetative to reproductive phase transition of meristem
biological_process	GO:0018279	protein N-linked glycosylation via asparagine
biological_process	GO:0035725	sodium ion transmembrane transport
biological_process	GO:0046686	response to cadmium ion
biological_process	GO:0009395	phospholipid catabolic process
biological_process	GO:0009651	response to salt stress
biological_process	GO:0009816	defense response to bacterium, incompatible interaction
biological_process	GO:0006448	regulation of translational elongation
biological_process	GO:0006334	nucleosome assembly
biological_process	GO:0009909	regulation of flower development
biological_process	GO:0006396	RNA processing
biological_process	GO:0006885	regulation of pH
biological_process	GO:0006913	nucleocytoplasmic transport
biological_process	GO:0009553	embryo sac development
biological_process	GO:0009845	seed germination
biological_process	GO:1902600	proton transmembrane transport
biological_process	GO:0050826	response to freezing
biological_process	GO:0010332	response to gamma radiation
biological_process	GO:0010162	seed dormancy process
biological_process	GO:0032204	regulation of telomere maintenance
biological_process	GO:0007062	sister chromatid cohesion
biological_process	GO:0016444	somatic cell DNA recombination
biological_process	GO:0010182	sugar mediated signaling pathway
biological_process	GO:0043247	telomere maintenance in response to DNA damage
cellular_component	GO:0008250	oligosaccharyltransferase complex
cellular_component	GO:0045281	succinate dehydrogenase complex
cellular_component	GO:0016021	integral component of membrane
cellular_component	GO:0005667	transcription factor complex
cellular_component	GO:0000124	SAGA complex
cellular_component	GO:0044424	intracellular part
cellular_component	GO:0000159	protein phosphatase type 2A complex
cellular_component	GO:0009505	plant-type cell wall
cellular_component	GO:0005840	ribosome
cellular_component	GO:0005886	plasma membrane
cellular_component	GO:0005774	vacuolar membrane
cellular_component	GO:0005743	mitochondrial inner membrane
cellular_component	GO:0080008	Cul4-RING E3 ubiquitin ligase complex
cellular_component	GO:0005739	mitochondrion
cellular_component	GO:1990904	ribonucleoprotein complex
cellular_component	GO:0005829	cytosol
cellular_component	GO:0017119	Golgi transport complex
cellular_component	GO:0000790	nuclear chromatin
cellular_component	GO:0043231	intracellular membrane-bounded organelle
cellular_component	GO:0000786	nucleosome
cellular_component	GO:0030127	COPII vesicle coat
cellular_component	GO:0005669	transcription factor TFIID complex
cellular_component	GO:0005622	intracellular
cellular_component	GO:0031011	Ino80 complex
cellular_component	GO:0019013	viral nucleocapsid
cellular_component	GO:0005737	cytoplasm
cellular_component	GO:0005741	mitochondrial outer membrane
cellular_component	GO:0016020	membrane
cellular_component	GO:0009507	chloroplast
cellular_component	GO:0009506	plasmodesma
cellular_component	GO:0009535	chloroplast thylakoid membrane
cellular_component	GO:0009840	chloroplastic endopeptidase Clp complex
cellular_component	GO:0005634	nucleus
cellular_component	GO:0000118	histone deacetylase complex
cellular_component	GO:0005643	nuclear pore
molecular_function	GO:0008308	voltage-gated anion channel activity
molecular_function	GO:0017069	snRNA binding
molecular_function	GO:0008641	ubiquitin-like modifier activating enzyme activity
molecular_function	GO:0009982	pseudouridine synthase activity
molecular_function	GO:0008725	DNA-3-methyladenine glycosylase activity
molecular_function	GO:0043916	DNA-7-methylguanine glycosylase activity
molecular_function	GO:0015267	channel activity
molecular_function	GO:0015035	protein disulfide oxidoreductase activity
molecular_function	GO:0003975	UDP-N-acetylglucosamine-dolichyl-phosphate N-acetylglucosaminephosphotransferase activity
molecular_function	GO:0052821	DNA-7-methyladenine glycosylase activity
molecular_function	GO:0004842	ubiquitin-protein transferase activity
molecular_function	GO:0008963	phospho-N-acetylmuramoyl-pentapeptide-transferase activity
molecular_function	GO:0052822	DNA-3-methylguanine glycosylase activity
molecular_function	GO:0016798	hydrolase activity, acting on glycosyl bonds
molecular_function	GO:0003676	nucleic acid binding
molecular_function	GO:0008177	succinate dehydrogenase (ubiquinone) activity
molecular_function	GO:0003712	transcription coregulator activity
molecular_function	GO:0003723	RNA binding
molecular_function	GO:0046872	metal ion binding
molecular_function	GO:0016165	linoleate 13S-lipoxygenase activity
molecular_function	GO:0005506	iron ion binding
molecular_function	GO:0046983	protein dimerization activity
molecular_function	GO:0003700	DNA-binding transcription factor activity
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0005488	binding
molecular_function	GO:0019888	protein phosphatase regulator activity
molecular_function	GO:0005546	phosphatidylinositol-4,5-bisphosphate 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:0005524	ATP binding
molecular_function	GO:0003746	translation elongation factor activity
molecular_function	GO:0005525	GTP binding
molecular_function	GO:0003924	GTPase activity
molecular_function	GO:0005515	protein binding
molecular_function	GO:0004579	dolichyl-diphosphooligosaccharide-protein glycotransferase activity
molecular_function	GO:0070290	N-acylphosphatidylethanolamine-specific phospholipase D activity
molecular_function	GO:0004630	phospholipase D activity
molecular_function	GO:0009055	electron transfer activity
molecular_function	GO:0008536	Ran GTPase binding
molecular_function	GO:0051539	4 iron, 4 sulfur cluster binding
molecular_function	GO:0051538	3 iron, 4 sulfur cluster binding
molecular_function	GO:0051537	2 iron, 2 sulfur cluster binding
molecular_function	GO:0031625	ubiquitin protein ligase binding
molecular_function	GO:0046970	NAD-dependent histone deacetylase activity (H4-K16 specific)
molecular_function	GO:0046969	NAD-dependent histone deacetylase activity (H3-K9 specific)
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:0003951	NAD+ kinase activity
molecular_function	GO:0050897	cobalt ion binding
molecular_function	GO:0005215	transporter activity
molecular_function	GO:0046982	protein heterodimerization activity
molecular_function	GO:0000166	nucleotide binding
molecular_function	GO:0003690	double-stranded DNA binding
molecular_function	GO:0004045	aminoacyl-tRNA hydrolase activity
molecular_function	GO:0003713	transcription coactivator activity
molecular_function	GO:0004709	MAP kinase kinase kinase activity
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0004252	serine-type endopeptidase activity
molecular_function	GO:0015385	sodium:proton antiporter activity

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo06711	0.85	Barchart \| Table
Spo16378	0.83	Barchart \| Table
Spo08198	0.81	Barchart \| Table
Spo06497	0.79	Barchart \| Table
Spo13487	0.78	Barchart \| Table
Spo10211	0.78	Barchart \| Table
Spo12735	0.76	Barchart \| Table
Spo12699	0.76	Barchart \| Table
Spo25346	0.76	Barchart \| Table
Spo01478	0.76	Barchart \| Table
Spo25507	0.76	Barchart \| Table
Spo06929	0.76	Barchart \| Table
Spo01183	0.75	Barchart \| Table
Spo25661	0.75	Barchart \| Table
Spo24916	0.75	Barchart \| Table
Spo18784	0.75	Barchart \| Table
Spo01128	0.75	Barchart \| Table
Spo24416	0.74	Barchart \| Table
Spo23298	0.74	Barchart \| Table
Spo00908	0.74	Barchart \| Table
Spo00418	0.74	Barchart \| Table
Spo02105	0.74	Barchart \| Table
Spo16835	0.73	Barchart \| Table
Spo03008	0.73	Barchart \| Table
Spo13936	0.73	Barchart \| Table
Spo24064	0.73	Barchart \| Table
Spo02993	0.73	Barchart \| Table
Spo00064	0.73	Barchart \| Table
Spo07969	0.73	Barchart \| Table
Spo15898	0.72	Barchart \| Table
Spo10300	0.72	Barchart \| Table
Spo14267	0.72	Barchart \| Table
Spo09855	0.72	Barchart \| Table
Spo20235	0.72	Barchart \| Table
Spo12084	0.72	Barchart \| Table
Spo19231	0.72	Barchart \| Table
Spo06277	0.72	Barchart \| Table
Spo06341	0.72	Barchart \| Table
Spo25100	0.72	Barchart \| Table
Spo24937	0.72	Barchart \| Table
Spo12918	0.72	Barchart \| Table
Spo15904	0.72	Barchart \| Table
Spo06380	0.71	Barchart \| Table
Spo00444	0.71	Barchart \| Table
Spo02609	0.71	Barchart \| Table
Spo06097	0.71	Barchart \| Table
Spo09307	0.71	Barchart \| Table
Spo10122	0.71	Barchart \| Table
Spo13789	0.71	Barchart \| Table
Spo13818	0.71	Barchart \| Table
Spo24936	0.71	Barchart \| Table
Spo25779	0.71	Barchart \| Table
Spo09495	0.70	Barchart \| Table
Spo15477	0.70	Barchart \| Table
Spo07782	0.70	Barchart \| Table
Spo16311	0.70	Barchart \| Table
Spo10163	0.69	Barchart \| Table
Spo04114	0.69	Barchart \| Table
Spo08527	0.69	Barchart \| Table
Spo08513	0.69	Barchart \| Table
Spo18220	0.69	Barchart \| Table
Spo22275	0.69	Barchart \| Table
Spo15934	0.69	Barchart \| Table
Spo09633	0.69	Barchart \| Table
Spo24128	0.69	Barchart \| Table
Spo05250	0.69	Barchart \| Table
Spo23067	0.69	Barchart \| Table
Spo22328	0.69	Barchart \| Table
Spo07916	0.68	Barchart \| Table
Spo05415	0.68	Barchart \| Table
Spo17039	0.68	Barchart \| Table
Spo03007	0.68	Barchart \| Table
Spo19699	0.68	Barchart \| Table
Spo01403	0.68	Barchart \| Table
Spo13877	0.68	Barchart \| Table
Spo17471	0.68	Barchart \| Table
Spo11693	0.68	Barchart \| Table
Spo14378	0.68	Barchart \| Table
Spo24225	0.68	Barchart \| Table
Spo14592	0.68	Barchart \| Table
Spo15092	0.68	Barchart \| Table
Spo21077	0.68	Barchart \| Table
Spo10450	0.67	Barchart \| Table
Spo07448	0.67	Barchart \| Table
Spo05934	0.67	Barchart \| Table
Spo20309	0.67	Barchart \| Table
Spo24266	0.67	Barchart \| Table
Spo04409	0.67	Barchart \| Table
Spo03006	0.67	Barchart \| Table
Spo02470	0.66	Barchart \| Table
Spo24190	0.66	Barchart \| Table
Spo09306	0.66	Barchart \| Table
Spo09130	0.66	Barchart \| Table
Spo20154	0.66	Barchart \| Table
Spo14581	0.66	Barchart \| Table
Spo05977	0.66	Barchart \| Table
Spo16894	0.66	Barchart \| Table
Spo04914	0.66	Barchart \| Table
Spo04952	0.66	Barchart \| Table
Spo16467	0.66	Barchart \| Table
Spo26726	0.66	Barchart \| Table
Spo24470	0.65	Barchart \| Table
Spo07020	0.65	Barchart \| Table
Spo09998	0.65	Barchart \| Table
Spo17688	0.65	Barchart \| Table
Spo09964	0.65	Barchart \| Table
Spo08931	0.65	Barchart \| Table
Spo22091	0.65	Barchart \| Table