Spo14829 (gene)

Overview
NameSpo14829
Typegene
OrganismSpinacia oleracea (Spinach)
Description50S ribosomal protein L1
Locationchr2 : 35537698 .. 35559253 (-)
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.
TGGGAGCTAATATGGTCATCTATCCCAATATGGTCGTTGACAAGCTCAGTCTCCTCCCTTCCGCTCAAACTTCGGTTTTTTTTTATCACTCTCACTAGTAGTAACCACCAACAATGGCGGCTGCAGCCCTAGAACGCTTTCTCTTTCATACTCGCCGAATCCCTCGTTCCCAAATCTCCTCCCTCTACCTCCACCGCCGCGGCTTCTGCTCGGAAAACACCCCACAACCTCCGCCAATCCAACCAGTGTCGTATGCTCCAAAACCCAAACCCGCCGACGAAACCCCACTTGAAAATGTTTCTCCATTATCGCCGTCGGAAGATACTATTTCATCGAGGGATTTGACGCGAGAAGATTATCGGTATTTGAAGGATTCGCCGATGACAATAACACCGGTTTCATATTCGAAGAAGGTGGCACCGCTTCCGGAGGATCGAGTGGTGACGGAGGAGGAGAGGGCGGAGCTGTGGACGGAGACGAGGAAGATTGAAGCGAATAATCGGGCGGTTCGGCGGGTTTTTAAGGTAGTTGAGGAAGAGAAGGAGGTTCCTTTTCCTACTTTGATTAAAGTGGAGAAGAAGGATGGTGATAGAAAGGTTTTTGATCTTCTGGAAGCTATTCACCAAGTCAAGGTTACTACATTTCCTTTACGCATTTTTCAATTTTTTGTGAATTTATAGGTTATGTGCAACTTTGAATTTATTTTTGGGTGTATATTGATGATCTTGAGTTTTTGAGCAATGGGTTGTGATAGCCGGAGTATCAAACATATTACAATCTTCTGAGTTTGCTTGTTACTGCAATTGAAAGAATAACAGATATAGTAAGGACTATAAAATGTGTCAATTGGAATATTTTGGTGTATATGAATGATCTTGACGTTTAGCAGTCGGTTGTGATGTTAGGAATATCAAATTAATATTTTGGTTTTGTTAGTGACTTCTAATTGAATGAATGTTATTTAGTGAAGATGGAAGTAATAGGATGGTGAGAAGATGAATTTTTGTTTCATTTTTTTAATGGTTCAGTATGATTATTCTAATTCGGTGATCTTTTGCCCGAGTCACTCCGTTGAATCGTTCTTGCTTACTCGCTCGGGTAGGGGATGTCCCAAGCTATGCCCAAAAAGAGGGGGTTTGAGAAAAAATGCTGATAAATATAACTATTTACCTAATAGTTAATAGGGTAGGTATATATAAGAAGTGTTTGTTAAGTTTTCTTCTGGAACTATAGAATCTTCTATATTTGAGAACTATTGTGATTGAGTAAACCCAAAAGTTACAGATTTGTTTCCTTACCTTTGATGATGGACATGTATTTTCTCCCAGGATAAATAATTAGTGACATATATTTAATGTATCGAATCAATTGCTGTGATCAAAAGTATTCAGAAGTATTATGAGAAACGGTTGTAGAAACGAATTGTAGTAACCTCAAGAAGGGAAATGCTTGTTGGAACATAAATGATTTTCTGCTTGTTATGTTGATATTTAAAGTTTGAGGTAATTGCCAGCCAGTGATGCCAAAACCTCTGGAGGAGTAAACTCTAATTTTCATGTCTTCTATTAATTTGAAGTATGCAATGCAAGAAGATCATGGTAATAATTTTCTATTATGCAACACTGATGTCTAATCACTTTCTCGAATCACATTCCATAGTCAACCTGCTTTTATAAGTTATTAGAGTTGACCGTGGTCCATAGTGAAAGGAAGTCACATATCCTTCATTTTAAAACATTGTGTTGGTGAAATTTCTCTTCATATATGACTTTGAGGTACTCAAGATTTAGGTCGTAGGGTTTGTTTTTTCAATAAAGAATTGCCAAATTTATATGGAACTGAACTTTTCAGAATGTTGCTGAATAAAAATGAACTGAACAAGTTTATGTTGATCCAAGTTTTGCTAATTGTAATTCAGTTTTAAGTATTTGAAATTGCAAGCTGAATTGAATTTGGATTTATTGAAGTATATAGAATAATAGAATACACCCTTTATGTGCTTGTCAAGGCTCCTTTGAGCTTCTTAGATGAATCCTTGACATTGATTGTTTGGTACTTTGGTCAAACATTCATGCAAGGTTCTGGTGCAAATGCCATGGTGACTTAGTCTTAAAAAGCATGGCGCAGGCTCACTCAGGCGTAAGGCACTTTTCTATGCCAGGGCATCCACCTAAAAAGGCGCACACCTCAATGCATCTTTGCGCTTGGCGCCTTATGATCTGAGGCAAATGTTCTGAGGCAAAGAGAAGAGGAGATTTTAGTCCAAAATTTTCCATAAAGCCCAAATAAAATTCAAATTAAACCATACTCTCTATTAAGATGCAAGTTCGAGTAGAAGCCCTCAACTAATTTCATGAAATTACTTCAGTTGAACCTGCAAATGAAAATCCATATTTACGGTAAACCTTAATTCGTGAAATCGTGGGTGGTGAAACAATTGAGAAATGGGTGGTTGCTGGTGAGCAATATCCGGTTGTTACCGGCATTAGATCTGCCGCTGGTCAGATGCTCCAGGGTCAGATCTGCTTTTCTTCGATCTTCTCCTCCCTTTTTCTGTTTGAGATTTTTTTGTTCTCCATCTTCTCATTTCTTTTGTTACCCTACTTCTTTTTATTAACTTACTGTTACAGCCTCATGAACCTGTCCTAATTTTTTTTCATTTTTTAAAAATCTTTTTCCTCCTTGTTTTTGATGATAGTCGGATTATTACATGTTTTGACCCCTTCTGATTTTTTGAAGTTTCTTTCTAGTAGTATTTTTAACTTATTTATTTACTTCATTCCCAAAAAAACGTAAAAATAATTTACGAAGTAAATAAAATAAAATTAGAAAATAAAAAACAAAGCTTCCCTTTGTCAATGAATTTAATTATTATATAATTATTATGTTGTGTTCGGTACAAAAGATGTGTAAGAAATCATTTCTAAGTTTTTGGCATTTTGGTGCGCCTCACCTATGAAAGGTGCGCGCCTGCTCCTTGTGCCTAGGCTCCATGGACTTTTGCACCTTGGTGCTTTTATAGATTGGAGTTCGAGACTTTTACCGTTCTTCACTTAGTTTCCTTCATTTGATTTGTGAAATTATCTACACCTAGAGCTGCAAACGAGCAAGTCGAGTCGAGTCGAGTTTTGGTTTGTTTGAGTTGAGCTTTGATGGGGCGAGGAGGAGTTTTGGTTAGTTTCAGCTGTGCTTGATAAGGAAATTTAGTGTTATAGCTTGAACGAGCTTTGGAAAATTTTGTCCCAGCTTCGCTTGTCAAGAGTATGGTTTGTTCACGAACATGCTCGTTTGAATTTCGAGTTTGAGCTCGAGCATGAACGATATTAAATCGAGGTTGATAATATAAATGAGCCTAAAGTTACCTTTAAAAATAAATAAGTTATGTATCAATTTAACTTATTTCAAGTGTTGTCCAACTTTTCTATAACAAAAACTTTGGCTATATTTTAACAACTAACTGAAAACTTTAATTTCAATTAAAAGATATAGAAATATATACACTAAAGCTATGTTACTCCGACACTCCATCGGACGGCTTGTGTCGGTGTCGACACGACCCGACCCGCGACACGACGCTCGACACGTGTCCGGGAAGGTGTCGACACCGGTGTCGGAAAAGGATCGGAAATGAAGTGTCGGGATCAATCGGGAGGAGAAAAAAATGAGTAAAAAAGTTCAAATTTTGCCATTCAAGATGAAGATATATATATAAGGTGTTAAAATTCATGTTACCTGTAACCAAAAACACTAGATCTTGAAGAGTTTAAAACCCTAGATCTAGAAATTGAAGGTCAGGGAAGGAGAAACAAGAAAAACATTGTTGGGGCTTTTGTTCCAGAAGAAAAACCGAGTAGATTGCACTATTCAATTTGCGTTTTCGTTGAAATTAATTTCTTGAGAATGCCATAGCCATGGATTCTGGCATTCCCTCTTTGAGTTTTCCCGTCGTTTGCTAGGTTTGTGTTTTGTCACTTCGTGGATTGGTGGACCTGTGGTTTTTTTACTTTATTAGTTTTACCATGTTTTTTTTTTTTTTTTTACCTTTATTTTTAATAGATTAAGGCATGGGAAGTGGGGGCAAACCCACGTGCAATATCTTTTCCCTTTTATTTTCTTTTTCTTTTGTTTTCTTTTTTTTTTCTTTTTTTTTTCCATTTATTACCTTACTTTTTATAAAGTGTCACTTCTTTTATCCGACACTTTGAATGGGAGCCGTGTCTAAAAAAAAGTCAAGACACTCCTTTGACCGTGTCGTAGTGTCTGCAAATATTTGGATCGAAGGGTCGGACACTCCGACACCCGTGTCGGACACGACACCGACACCCGTGTCTGAGTAACATAGCACTAAAGTAATTTTTAAATGTTGAAAGAGAATAAACAAGTTATGCTCGAATATAAACACACTTATAAACGAACTTAAAAGAGTTGTTCACGAACATTAACGAATCGAGCATGAAATTGTTTTTACTTAACAGGCTTAAATTTTTTGTTCATACTTGTTGATTAACTTAACAAATGAGCTTTGACTGAGCTTGTTTACGAGTAGTTCATGAACTTGCCACCTCATTTGCACCCCTGATGCACCTTTTTTTGTTTTTCTGAATGTTAGCAATCAATATATTTTGGTAACTTTTGCAATTTGTTTCAGGCTAAAGCTAAGAGAAATTTTGATGAAACTCTGGAAGCACATGTAAATTTGGGCATTGATCGACGCCGAAGTGATTTGGTATTGTCAGATTTCTTTTCTGTTCCATTATTTCAGATAAGATAGAATATCTTCATGATGTAATATGTAGTGCAATTTCATTTGAGATTTTGGAGATGTTTCTATTTTTCCAACTAGATCAAAGATGTATTATGTATGGTTCCCCTTAAAATGTCATGCTAGTGCTTATTTTTGGTGCATACTATGCTGTTTTGGTTGATGCTACTGCTAATGGCCTAATGCTGTATTCCACTGCATTGTAGGGTGTTAGTGGTGCTGTAGTTCTGCCTCATGGCACTGGGAAGGTATTCTTTAACTTGAAAACAGGAGACCTTATTTAAAAGTTCTCGTTGTAGTTTATTGATCCTAAAACGATCATGTCTTCTAGATTGTCAAAGTTGCTGTTTTTGCTGACGGAGCTGAAGCTGAGGAAGCACGAGCCGCAGGAGCTGATATTGTTGGAGCAGATGAACTTATTGAAGAAATAAGAACTAGTAATGATTTAATTATTTACGTAAATCTAGAAACTTGCATTTTATCAGTAGTGTTTCTGTAAAAAGGAGCTTAAAAATTACACGGAAGATGCAAAAAAGAGTGTCACACCTAAACATGTTTTCGCAATGTTGACTACTGTACATGTTACAGAGGGCAACACAGTGCAAGTTTCTGATATGTTCTGACAGAAAATAGGATCCACTTTGAAGCTAGGTTGCAACTAATTTGATTAAGGGGTGTTGGCAGATTGCACTGTTGCTCGATTTAATAGATTTAGTTTTTATAAGAATCAATGAGGAAAACTCTGTTGGATGAGGCTTTTGTATCTATTGGATGGTGTCCACGTTAAAAGACTAAAATACCCTACTTAAATTACTAATTAAATTGCATTTATCAAAATTGTTCACATTTCTTTACTCTTTAAATTATTTAAGTAATGATATTGTATTAATTAAATAAATTTTTTACATATTTGATACATATGTAAATTAGGAGTATGTTAATTAATACTGCCGAAATAAAAGGGACAAAAGTCCAAAAACATTATCAATAACAAAATTTAATTAGGAGAAAACTTAAAATATTTATATAAGACAATTTACTCAGTCAACGGGTGCATATAGGACTAGTATAAAATATAGGAAGTCATACCTGATACCTCCCTCCTTGTGGGTTCTATTCTAAATATTGGAGTTCACTTGATACTCTTTTCTTACAAAAATTAGTATTCACCCGATGATCAAGAATCAGAATTAGGTGGTTTAGCAATGTCTGTTTTTTAGTATGATTTTTGGTTATGGTTTTTTTGACGGTGAGAAAAGCAAGTATAGGAAGATCTGTAGGGTCATTCAGTATTCCTTGAGTTATGTTTGGTTCATTATACCCTGGATAACCACGTAATCAATTCCAAAATTTGCTTGAACAAAAGAACGGGGAGTGTTAATAGTATTAAGGTTAAACCAATCAATTCTAGCCATTTCCTTCAAAAAAAAATTGATGAGAAAAAACTTATTAATTGAAAATCATACGTTGTCTACAATAGAAATTAAAAATCAATCTAATTTGTGTCTAACATTCTAAATAAATTTACAGATCCAAGAAATCTAGTTTTGCCTTCTCCAATGGGGTCTAATGATCATACATAGTGTTCTTTTGATGGAGTTATATCTAGATAGCCAATGCAAATACGTACAGCAGGCAATCATAAAATGAATTCATCTAGAATACTGAACTACTATGTACAAACATAAACACAAATCTTCTATAATGAGAGTTTGAGATGTGTATCTATAGATGGGAGACCGGAGAATATTGTCATAGATGCAGGGATGGTTATTATTGGCATGAATACTATAGGAGAACTATTAGCTCTTGTAGAAAATGTTGATAGTTGGGCTTACCACTAACAAGAGCTGATAGTAGCCCCTAGGACTAACAATAATGGAGGATATGGTGTTGGGGTGGAGGAGAGAAAGATAGAGAGGAAAACCGCTTTCAGCACGGTTTTAAAAAGTTGTTTTGGTTTATGTTTCTAGCATCATTGCCTCGTGCAGCGCGAGGCTCTGAGAGGATGAGGAGGCAGACTCATGATTTTAATCTCAAATGTGATATCTAGTGCAGTAATGTTTGCAGAACCACATCCGCAGACAACGCGGATGGTTTGCTTATAGCCTAATATCTTGGTTGTAGTGAGCTAAAATTCTTCACAATGTGGTCGCTGTTGCTTAAATAATCATATTCGCATTCCCTGTTTTTTGTTGAAATAAAAGATTTCAAACATTCATTATGATTGAAATATGCGTCTTTAAGGTTGTTGCTTATATGTAATATTCCCATTCCCTGCTGTTTTGTTCATTGGGTATTCCGCCTGGTCTATGTTCCATCAACACCTTAACTTCAATTCTGTGCAGGTGGCAAGATCAACTTTGACAAATGTATAGCCACTCATTCGATGATGCAGCGTGTAACAGTAAGAAAATAATCTGCCTTATCAAAAATAAATAATAAGATGAGCGTTTATTCCAACAATAACTGTTTTTTTTTTTGTTTTTTTTTTTGTTTCAGAAAATAGGCAGAGTTCTCCGTGGCCTAACACCAAATGCCAAGGTAAATATCATACATACATTTAAATTTTCTTTGCAGCCGTTGAAATGATTCAGTTTTATTTACTGAGACTCGAATCTGTAGAAAGGTACTGTGACCAACAATGTTGCTGCGGCAGTAAGAGAGGCGAAGCAGGGATTGCTTGATTTCAGAATGAAGGATGCTATTGTTCATGTGGGGCTGGGGAAGGTATGCTGGCAATCTGTCATATTCTCGCATTTTTTTCTGCAACCACATTCTCCTATATTATACAATAAATTGCAAGATTTTCTCACTCCAGAGGCTGTGACCGCAGGTGAGTTTTCCAGAGGAAGCTTTGCATGAGAATGTTGGTGCATTTGTGAATGCTCTTTTGCTTGCAAAGCCTGTTGGGTTAAAGAAGAGTAAGTTACCTATATCTTATTTCTTCTTTTGCATTGTATTTCTGGTATGCGCATAACAGTGAGTGAGAGGTTCTATAAATTTTACGGGTTTCCCCTTTCCCGGAACAATTAGTCATCTCTTACAATTTGTTGCAAACGCTATAAAAATTTCAGAAATTCTTAAATACAACATGGATGTGTTAAAGTATGTCAATGTCTCAAACTGCACAACATTTTGACTCTATGGTGCCTTAGAGGCTTTTGAGGCACAAGAGATGAGATGAGAAGTGTGCTGTATTCTGTAAGCTTTTTTTCATAAAAAGAGTCATTAATTCTGGTGTCCTTTCTTTATATATTACGGAAAAGCAATTCATTTGTCCATGAAAAAAGAGCTGAAAGAGTCATTTATATTTGGCTTTGGGCTGTAATGGATTAATAGGGTGTAGAGCGTTGGTATGAGGTGGGATAGGGTTAGGATAAAGATAGGGATAGAGAATTTATCACGGGGAATTCATTAGTTTTGACCATATCCTTTGTTTTGTATGAGTTGGGAAAAGGATGGGGATAATAAACAAATTTATTAAAATACCCTTGCTTACTCTCTCATTCTCTCCCCCTTCCTTCCAGGGTACAACTGTCTTTTCATCCCCCTTTCTTATCCCCCCCCCCTAATCATACCACCCCTCCCTAGGTATAAAATGGAGGGATAAAGGGGGAATGTATCCCCATATTTATCCCTATCCTTACATAACAAACATAGGATAATAGAAGGGGGTTTTATGTGCTATAATTTCAATGAGAAGAACAAAACTTCAGATTATAAGAAATGGTCTTCGTCATATGGATCATAATCGGACAAATGATTTTTTTTTTTGATACTCCCTCTGTTTCAGAATAAGTGCAACCAATGTTATCAAAATTACGATATAAATCGTAAAACTGTACGATTTTACGGTCCCACTTTACGCAAGATTTGAATCGCTCGTAGAATCAGAATCAAGTTGAATCGTACACAAAGTCGTTCAAAATCGGTAGAATCGTCCAAAACCGTGATTTTTGATCGATTTTAATGATTCAGTTTTTACACATTAAACGAGCACATTGGTTGGCTATTTAGAAAATGGGCCAGACCCAATTATCAATTTGGTTAATTACTCTAGCAACCGCCCGGCATTCACTTACAAACTATGTCGCCCACAAATATCTTTGTCAAAATTCTTGAAGATGACTTGCTTCTCCTTCATGAACAACTGCTTTTTCATCAATGGCTACTTCCTTGATCTGATATAATCAACCCATTAACATCCAATTAACACCCTAATCGGCTCATATTTTTTTTAGTTTTCCTCTTGTCTTCCCCGCTCCTTCTCTTACATGGCTGCCATGGAAGAACGATGACCACCATAAAGATGCACCCATCACCACAACCACCGACCCCACCGCGATGGCATCGTAGCCTTCAACAATATCCACTGCTAAACCACCCTAACACCCAAACACCAACATCAACACCCTGAAACCAACCCACAACCACCCTCCCACACTGGAAACCTCCTAGAACCACACCTGCAACCACCTCTCCCACCCCGAAACAACTCAAAAACTTACCCCAACAACCACCTCTCCCACCCCGAAACAACTCAAAAACTTACCCCAACAACCACGAAAACCCCCAACCTGACCTTGAAAATCAGCCACACCAACCCATGAGCCTTAAAATTTGGAAAAAAAAACTAGAGATAAAATTTTATTAAAATTACCTTTTTATATCAATAATAATTGTTTTAAATTGTCAAATTCGACTACAAAAGCTCTTGGTATGAAGTTTTCATGGTCAAATTATACCATTAAAACATCAAATATGGCCATATAGATGGTGGAAAGCAAGAGAAATAAGAAATAGAAGGGCTCGTTGACGGTAGGGGATGACAACGTTGGAGGGGTCGGTGGTGTGAGAGAGGAGAGAGAAGGGCGGTGTGAGAGGAGAGAGATGGACAGTGGTGGAGGTTGTTGGGTTTTTCCGGCGAGCAACAACGAACCAACGATGGGTGGTGTAAGAGAGGAGAGAGAAGGGCCAGAGTGAGAGAGACGAGTTGCACATTCTGCTCGTAGTCTCTCTCTTAAGAGAGAAAACCACCGGAGCGGAGAGAGAAGGGCTGGGTGAGAGAGAAGAGGGGAGTTGCATATTCTGCTCCCGGTCTCTAACGGAGAAAACCACCGAGGCGTGCCAGAGCCATCTCCACCGTCGGATCTGAGCCATTGTTGCTCCTACAGTCGGGAACGTAGTTGTTGTTGTGGTGGACTTCGACCATGAATTTACCTTATTCTTTATTTAAGCTGAAACAATGGTCGCAAGACGCTGAGTTGATGGACTACGAAACCACTTCATTGTAGGAGCGGTGGTGGAGGTTGCTGGTTTTTCTGGCGAGCAACAACGAAGCAACGAATATAGGTTTTTTCCACTTGCTGGTTTTAGGAGAGAGGAGAGAGAATTGGAGGAAATGGGTTAATCAGGGTTAATTAGGGGGGTTAGTGATTAATCAGGTTGATTAGTAGTTAATGACGTCATTAAGGGTATTTTATGTATTTGATAAGCTTTTGAGGGTATTTGATGAATTTTGGAAACTCGATGGGTGTTTGGTGAATTTTGTGAAAACTGAGGGGTATCTCATGAAACAAAGTAAATGAACCAACTCTCCTCTCTTCTACAATTTCATATCTTTTACTTAACTTATGCTTGTGTTTTTCTTCTCCAACGACGATTCATGTTAGCCGACCCCAAAACATTTTGGGACTAAGGCTTTGTTGTTGTTGTTGTTTTTCTTCTCCTCGTGATTTTTTCTCTTCTAGTTGATGGGATTTGAAAATGTTACCCAAAATGGGTGAAATTCCTTACTTTTATTAAATATTTCCTCTTTTTTTTTTACTTGCACCATTTCCTTTTATGGCAGGCATTCACATGCTTTTTGGCGTGTTCATACACCAAATACCCATTTTTATTTTATATTTACCATTAGTACTTAACCTTTTCTACCTAATTTGTTTGTTATCACATGGACGTTCTTGATATTTGCTTCCTTTCTTAATGTTTGTGCCCAATCCAAACGGTGCAAGTAAAAAAAGATAGATAAAGTGTTTCTGAATTTATTCATCAATAAATTTTCAAAATAGTTAACGGCATTCCTAATGAACGATTTAATTGATCAATATGTTCAACTGCCATTGGATGCTATGAGGATTTGAGAAATGATAGTGTCAACTGTCAATGTGAGAGGTTTGGTATGATTATTGATAAGACCGTTAATATGCTTGTTTGAACTACGAAGTACATGCATGTATGACATATTGACATTGCATTATTCTTTAAAATATGTGTATGGTCTATCCTTCTAAAAATATATTTCGTTCTACCTTATTTGTGGTAAAGTAAGTATAAGTACATGTGAAACCAACGGAATAATAAGTATTTATTGTTGTTTATTGAAAGAATGGGTAAATACTAAATAGTTAACATGATTGTACAATCTTCACAAAATGTGTGGATTCTTACGATTTTACAATACGACTTTACCTTCCGATTCTTAGAGGCCCTTCTTGAGAGCTATACTTCCATTTTTGGCAACTTTAAATAACATTATAATCATCTTGCTCTCTCCTTCCACTTATCACACTTCCTATTCTTTTATTATTTTTCTCTCCTCCCACTTATTCACGCCCCACTACCTTTTGTTTTAATTTCTCTATTCTCTATGTGAATAAATTACTAATCCAATTATAGAGAAATTGGATTTTTATTGTGAATTGTAACATCTGCCTCTAGTTAAGGACAACTTGTCCTATAATCTTCTTTTATTTTATGAATAAGGTTCAATAAAATTATATATTATTGTACCTTGAGGTTGTTACAAATCTTTTATTTGTGGTTCCAAGTGTCGGACATGTGAAATGTCGAGTTTCTTTATAAAAGTAACAATTTTTTATTTTAAAGAATGATCTTTTGTCAGAACGGACCTTTTAAAGTCCAAAGATGGTGAGAAATGAGCTTATAAAAAGTTCGTTGTAAGATAGAACCTAAGTAGGACGGAACCTTTATCCATTTTCTGACCTTTGACTCCAATTTTCCGGCGTTGTCCAGCTCATGCCGGTCACATGTTTAATAAAAAAACCTTTTCTCTTCTTATTTTCCCCTCCATTTCCTCCAGTTCTCTAACAAACCTAAATACCTAACAAAACAAAACCTATGTTCTTCGACATTCTCCGTCTTCCCTCTCCTCTTCTTCTCAACCCTTGCATCAAACCTTAAAAAAAAGAAAAGTGAAATTACAAGAAGCGAAAGATCTCCTTCCACAAATTATTGTTAGAGGCTTGGCTCCTGATGCGATCACTTATAATCATCTGTTTCGTGGGTACGTGGGTGCTCTAGTGTTGGAAATATCACGAATCCATGGAGTTGTATGAATTTATGAAGAAAAGGGACATCAAACCAACCTTAATCACCTATCCTTCACTAATTGGTATAAGTAGCTAAGAAGAAGGCTTGTTGCTAGTAGATCTAATTTATCAAGAAATTGTGGGTTTCAATCTGACTCATGATAGAATGGTATATAATCGCCTTAATTTTGCATATGTGGAGCATGGTGACATTGAAAAGGCAATCTCTTTGCGTCATGAGATAGCGAGCAAGGAAATTGAGCTTGACAATATGACATAAAATAATTTGATTTTAGGGCATTTAAAACTGGGAGACCATAATAGTGGTGGATCTTGTGAAAGATGATACTTACGCTATACTAGTTGAAGAATACCGAAAGACTTTGATGGGGTATATGCTTGGTACCGAGAAATGGTTAACAAGGGTTTCTATTGGCTGCCAGCACCTGTAATGAGCATCTGTATTCTGTAATGAGCTTGTGAGTGGTCTTAAAGAAGGAATCTGAAATAATCTACTCAGAAATATGTGCAGAAATGATGCGGCAACAACCATGATGGTGTTGAATTTGTGTTAGCTGTAAAAAAAAATTGAGGAACCTTGACTTCCACGAACCTCAAATTGGACGAATTGTTGGAAAGAAATTGGTCCTTTTCCTCTTACCTTGTTCGAATGTGCACGAATTGTAATGGGAAACAACGATTCTTTTTCTTTTTAAGGTTTGATGCAAGGAGAAGAAGATAAGAGGGAAGACACAGAGAATGTCGAAGAACAAAGTTTTTTTTATATTTTTTAAGGTATTTAGGCTTGTTAGAGAATTGTAGGAAAATGGAGGGGAAAATAAGAAAAAAAAAGCTTTTTTATTGAACACGTGATCTTAGTTTAAAAAGGTGCAAGGCGCACAAGGGTCATGGAGCCTAGGCACAAGGCTAAGGCGCGCATCTTTTGGATACGAGGCGCACATAATTTGCTCATAAACCTTAAAATTCGATATAGAACAAAACTAACACAATTTTTACTCAAAACAACATAATACTATTGGAGTGCCATATTTTCGTGCCAGTTCATAAGCATCGCGTGATCCCATCGATGAAGTGCCAAAATTAGAACTTTCCAAGGTAATTACAAGTTGGAAATGCGAAAATTAACTCATATTATGCTACTGTCTGCCACTACCTAAAAAGCTTAGGTTGTAGAGATATGACCGCTGACAAGTCACATGGGGTGTGTTTATATCATTAAAAAAGAAAAAAAAGTAAATAAAAGATCCATGTCACCATGAAGACCGAAGGCGCACAAGGCGTTGTGCCTTGCGCCTTACCTAAGGCGCACGAAGGCGCGTGCCTGGTTGACATCAGTGAGCCTAGAGAGTTGAAGGCGCCAAAGGCTGCGCCTAGGTTTTTAAAGCTAAGCGCGTGAGCGGCACACGCTGGTTAACGCAGGAAAATTGGAGTCAAAGGTCGGAAAATGGGCAAAGGTCCCATCTTACAACAAGAAAACCATTTTAGGTCCTATCTTATAACAAATTTTTTATAAGGTGCTTTCTCACAATTTTTGGACTTTAAAAGGAAGGTCCTTTCTAACAAAAAATCCTTTGAAGAATGATTAATTTTGAGCTTCAAATAAAAGTGTGATGTGTCATACTCCTACTAGTTTTTTTCTATTTTGTCCTCTTCTTTTAATTAGTTTTATTCTCTAATGCATAAACTCCACCGCCTGTTGACCTATAATAAAATTTGCGTTGTCCCTTTATTTTTCACATTTGGAATGACAATCTGTTTCAAATATTGTGTATTTACTTCCTATCCATTAAAGCCTTGGTGTTAACAGAAAAGCACTTTGCTGTCTATTGATTGGTGAGCTGCATCAGGTGGAAATTCTCAGAGAGAGAGTGAAGTCCTCACCAAAACAACTCAAAAAGGAAGAATTAGCCAAAGATGTAAAAAAGAGTTCAAAATATTGTTTTTTGCTTAGAACTTTTAGCACCGCCAACTTTTAAAGGTTTGCATGAGAATATTCTTGCAGCAAAAGTGTCCTATTCTTTCTTCTGCAGTTTCTATGACCCTTTATCACTTTGTTTTAAAATCATTTTTTCTCGAGGAAGTACTAAATGGATGAAACCCGGTCTGCTGTCCTCTTTGATTTTGTACGCCAATTCTCAACTTTCTAAATGACCGTATTTGCCACTTTAACCATTACTGATGAAATTTGCTTATTTTTATTTCAAGCACCACATTAACAGGGGGCACAGAATTTGGAGGAACTCTCAACTTTTAAAATAACCCTGTCCACTACCCTAACCTTGACTGGTAAAATTGTCTGATTGTTATCTCAAGGTTATAAGTTGCAACTTGCAAGGCCTGGGTTCGTTATAGGCAACAATAAATATAGAGGGATACTTGACGGACAATCATTTCTAAGAGTAGTTCGTAAAAGGTAGTTTTTTTAGAGAAATGCTCAACCATGGCGTTGCGTTTTATCTCTTTAAATGGTAACCAAAAAAAAAAACCATATTATCACAAATGATCCTCTGTTTTTGAAATAAACGTTCCATAACCTCGTTTAGCTAATCAGTTAAATTTCTGTTGACTTTATTTCAGATAAAGGAATTTCATTTTTTAGTCAAACCCTTCCCTCCCTCCTCGTATGACAGTGCCTCACTACTTCCTCTGACCAGCTACCACGTCCACCCCTACCACCCATCTTTGCCCTCCCTGCTCCCTCCAACCATCACGACCCATAGCCAGTTAGCTATCGTCTTAGCATTCATCACCAACTTTCAATCTTGCATTTCTCCACCATGTCCCTCATTTATAAATGCCCAAATCCATAACTCCCCCAATCACTCACCGCCTCAACAGCCACCTGCCATCTCCTTAACAATGGCCTCAACCACCAACAAAGGAAGTTAGATCTGAGCAAGAGAAGGAGGGAGATAAAACAGTCCGTGGAAGTAAAGAAATTTACCTGTCCATTAAGAAAATTTATAACTATAATTATAGACCACATATGGTTAAATTTAAGCATTGGAACTTTAGAAAAGGGGCATTTGTGTAATTTCACGCCCCACTAACAGTTCACTAAAGAAAATGGTCTACAATGTCACAGAACAATGTTATACACAATCACGGGGCTATTTCGATTTTTTTTTAGGCTACCAGATGTAGAAAGACAAACCATAGGGTTACCATTGAGTATTTTCCTTCTAATTTTCTTGCCATGTCTATCCTTGGACTCCTTTTTTAAACAATAAGAAAGAATGCGTTCCTTACTTCCTTAGACTGCCACCTGAATTCCTGAAGACAACCTAGAGTTATAAGATTCCTGTACATTGCTACAAGGGAGACCATTAAAATGTGAAATATGTAAGGTTTGTGAGGAACAATATGTACAGTTTTGCGCTTCTCCCCAAGTTAGCCATTTCATATTCCATCTTAAATCTCATGATCTCTGGATGTTTTAGCATCGTGGGTGCTTCGTCTTCTGTATGGTTGATTTATGATGTGACTGATGTGCATGTCATAGGATGTCGAGGGTTTTTGCATGACTACTAAATTCTTGTAACTTTAATGTTTGATTTATTTAGAGTGGGAGATTTCCTCATAGGTTTTCATGTCTGACTGACACTTCCATGCTATTGTATTTTGCAGCTTCAAAGTATGCTGGCTACGTGAATTCTTTCCATCTATGTAGTACGGTAAGTTAATGCTATTTGTACTGTAACAACTCTTCATAAATTTTTGCTTGTCACAAATATTTGATTGTGGCTTAATATGTCATATGCTCTGCATTTACTTATCACTCCTAACAAATATCATCTATGCTCACCTAACTGCCTGCCTATACTGGCCTATCCACATATATGGAGGGGTGGGGGAAAGGTTTGAGACTTCAGATTTTTCGTACTTATTGTCCTATCTCCTACTCTACCTCTGCTAATTTGATAACAGAATTGAAGGGAAGAAGAAGATGAAATTTGATTAATGAGAAAATTACAAAAATAGTAAAAGATATTCAAGCTTTTGAGAAGCTTGTTTTTCTCCTAACTAAGCACTAAAGCCAAATGGAAATACTTAATAATATTCTTCATGATTTCCCCCTCTAATCTCCTCTATATCTAAACCCACTCATTCTGTTTTGTCCCTCCCTTCTGAATGATTCTTTCTACTTTCTTCTCAAGCTACCCAAAATGAAATTTCCAAGTCATTTCTTAGTATACCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCCCCCCCCCCCACCCCTCCCCTCGTTGAAATTCTGTTGTAGTTCATTTTTATATCAAACTTGTCATATGAAGTTAATTGATACAGATTCAAAGAAAACTTTAGTTGATTAGGCCAACCCTTATCCTTGAATAACTTTCAATTGTTTGCTTCAAAACAAGAGTTTCCGGACACAGCAATTTGGCAGACGTTTCCAGGTTGACACGACCTGAAAAAGATTCGGGGTCTGGATATGCCTAGTTGTCCTCGGATACGGCTGCCCACAGTAACCAGAAATTAGAGAGAAGCCGACAAAGATCCGGATACGGAATACGGTCCGGATATGCCTAGTTGTGGCTGTCCATACTAACCAGAAATAAGATAGAAGGGAAGAAGGTATGGGTGGTAATTGGTCTTGGAAACTTCTGAGATCTAGGGTTTGAAAGGAAAACCGTATGTATTGTTAATCAGAGATGATTCCACCCTACTAAGAATATGTGTGGGGTTTTGTTCGATGGGTAGAGGCGAGCCGCTTGAGATAGCCGGAGCTCCAGTTGCCTTCTCCAGTGATGTGCTGGATAGTTTTCCTCTCTTCATTGTGCGGCTAGTGAAATAATATTATTACCTTTTTTTCCCCTTCACATGAGACACGGCTTCTAGAGTTTGGGCTTTGTTTTTAGGGTTGGGCCAATTATTAGCTCTTATTTGTGGGTTGCAACTAAAACTTGTAATACTGTTTTTCAAGGGACTAATGTCTTAGGGTGTGTTTGGCCTAGTTTCTAAAAAACAGTTTCCGTTTCTTTGGAAGTAGTTTTCTATAAATTGTTTCTAGCAACACTCAGGAGAAACAAAAGTGTTTGGCCATTATAATTTAGAAGTGCTTTTGGGAAGTAGAAATAATTATACTTCCTCCGTTCTGTAATATCGCACCATTTGGTTTTTTACACTATTCACACTACGACTTTGGTCATTTTTTGTGATTTCTACGTACGAAAATTGTAGTCATGTGGGGTCATGTTAGATTCGTATCGATATATATTTTCTAAATATCAATTTTTTATAATTTTTACTTACACACAATTTGAGATATTAAGAGTGAAAGTAATGTATTAAAGGGGTAAAAGTCAACCATGGTGCGATATTTAAGGAACGGAGGAAGTATTTATGTTTAGCCTATTGGTTACTTATGGTTTCCGTATTATTTTAATATTTAAAACCACGGAATATACTACCTATTTGGGGAAAAGGACGATTAAAAACAAGTATGAAATCCGGAGAAAGAGAAAAAAATTCCATGAACTCTTGAACATTTGTTTGAGTGACAGAATTCTCCATAACCGCAAACAACAATTGACTGCAAAATAAGCAAAAGTTCTGTTTGCTTCTCTCCACATAGCCAGAGCCCAAGGAATGATTGTGAAGCCATAAATAAAAAAAAACACATTAAAAATGCATCCTAATTTGCATTACAGAATAAAAGAAAAGTTCAATTAAAGCTCCTAATTTGCTGCATTTTTTTGCCATGTAGCAAAGTAGTCAAGAGGAGGACAAGGATCCCATTTTCGTTGAAATTTAGAGTATTTAAGGTTCTGCTCATAACAAAAAGAATCTAAAATATTTTCGAAATTACTGCTCGCCATTGTGATAGTGGAGGTGACATACTGAAATATTTTCTATTGTGTCCTAAATGGAGGTTAGAGAGTAATGGGAGAGGCGAATAGATGAGAGAGATCAATTGTATGAAAATTGGAAAGTTTCTGAAACATGTTGAGCAGACTCAGGAGAGAGACGGGGAGGAAGATCAATTCTGTTATTCTGGTCATCTTTTTATTATTGGTGTGAACGTGTGGTATTATAGTCCGGGCGGAAATTTCATTAAATGAAACCCACAGCTCCCCGAGAAACAGCTTCAGAAGCCCAAAATCCGAGCTTCTGTTTCTAGAGCTTTTAGGAACAGATTTGGGCTTCTTGGCATTTGGTTTCTACTTTTATTTTTACCCCCGTTTAGCCAAGTTTCTGTTTCAGTCATAGAAAAGCTCTATAAGCTTGGTCAAACACCCCCTTACACCATTTTACAGACACACACTTACATTATTACTCCCTCCGTCCCAGAATACTCGTTACACGTTCCTTTTTCATCCGTCTCAGATTACTCGTTACACTTTTTTTCCAACCCATTTTAGGAAAGTTTTTATTATATTTTAATAGATGTCCCTTTCTTACTTTGGCCCACCACACAAATATTTTAATTTCAACTCTTCTATCCTTCAATATAAAAATATCATACATTCTCCTTCCTCTAATATTAAAATGCTCTAGTAACTTCCATTACATCTACTTTTTAATAATATAATAAATTGATAACCACACTACCACTTATCGCATTAAACTGTGTGCTAGTAGAGTGTAACGACGACTATTTAGGGACGGAGAGAGTAATAAAAAAGAACTAAAATTGCCATAACCCTGCTACCCGGTCCAAGTTTATGACGGTGTCCTCGATCTTATGTTTTCAAATTTTCTGTGTGGGACACTGTAAAGAACTGCTAATTTTGAGCAGATGGCAGAATATGTAATAATTTGATTGATGGATGAACGAACACGAAATGGGATACAAAAGTAGTTTAGTCAACACCAACTCCAAGTTTAGTGACTTGAAGTCACTACTCTCCAAAGCCTAAGCTTTACCATAATCTCAACATGCCTCTCATAACCTAATATGCTTTTATTTATAGGAAAAATTGCTTTAAATAATCCAACCTTTCGACGATTTCCCGTTAATAATAAAACCTTTAGATTATTATGTAATAATCCAACCTTTGCACCCCGTTAAATTTTATTGCACCCAACCGGTCACCAACCTGATACAGTAGGTACCCTGTACATGTGTCATGCAATCATTCGTTATAATTCTATTTTAAATAAAAAAAATTCTATTACTTCATTACTTCTTCTTTTTTCCTTCCTTTCTTCCTCAATTCGAAACCCATTATCAATTTATCATCCTATGTTGATAATCAAAATTAACAAAATCCCCCATTATCATCATTAATTGATAATCAAAATCAACAAATGAGTACTTTTGTTTTTGTTCCTTCCTTTCTTCCTCAATTCGAAACCCTATTATCAATTTATCATCATCTATTGATCAACGAAATCCCCCATTATCATCATCAATTGATAATCAAAATCAACAAAATGATATCATCCTGATTTATGTGAAATAAAATGTCATGAGTCAGGAAAAATCAACACCTCGTAATTCACGAAATCTTTGAAAGCATGTTAAGATGTAGAACTCAGTTTAAGGATTAGAATCAATTTCATGGGTAAGGGCACCACTCACTGAATGTTCTTAGTGGCGGTGAGAAATCGCGACGCTGTGATCTAAGGACCCCATCATAATTAATCCATTTTCTTCTTGCTGGAATTTTTTGATCGACACTTATGCAAAAATTAGGGAGTTGTTCTTAAAGTTAAGGAGAGACAGTATCAATTAGTATGATAGATTCTAGAATGTTGGGTTAAACCCTCTGGTATTGCAAGGAAAGAGGGAAGAAAACAAAGAGGCAGGATATGGTGTTCATGGGTGGCCACTGAAGTGGTGATGGTCGATGAGATAGAATAGAGTTTGGTTGAGGGAGGAGAAGCGACCTGTGTGAGAGTGTTAGGGAGGGGTCTGAAATTGGAGAAGTTTTTGATTGAGGAGAAACTTTGGGAATTTGGGAGTGAGGTGAGATCACTCATATCAGAGATTAGAAATGAGGGAGGAAGAAGTAGAAAGGAGGGAGGAAGGAGGTAAAAAAAGAAATTAAAAAATAAAATATTTGACCTTACTTAGCCGGTTTCCCATCATTTGGGTTCAATAAAAGTTAATGTGGTGCAAAGGTTGGATTATTAGAAAATAATCCGAAGGTTGAATTATTAACGGAAAATCGTCCAAAGATTGGATTATTTAAAGTAATTATTCCTTATTTATAACCATTCTACTACATCTACCTAATTCGTCTTCTACCTAATATTACTCACTACCTATTATGCCCTTCCCTTACACTTGATTCATTACAAACACTCAGATTTGTACCCGTGTCCAAGTAACATAGATTTTTTGAGTTATCTTACGGGGCTTGCTTAGTTATTTTTTCAATTGTTTTCGGGTGGGTTTTCCGGTGGTGCATGTTTGAGTAGTGTGTGTTTAGTGGAATCCGCAAAGGGTTACATGGTTCCTAAGGTTTTTAGACAATGGGGTAAGTTGCTTTTAGGAAGAATACCATATCCCCCACACAGTTCCTATATCCAGTTAAGTTATCACTGAATTGACGAGTTTATTTTAAACTTTTTCCTTATATAACTGTCTTTTATGTTTTACTCTGTGCATAGATGGGTCCGGGATTTCCGATATCAATACAGTCGTTATCCAGAGCTGCAGATCAGTACGTCAAATTGCGTCCACAATGACAATGCACTAATCTTTTGAAGCTACCAAGTTGGATTATTTGGCCCGATGTCTATTTAATCTATAGAGGTCTCAGATGCTGGGGAAACTGGTCTGTACAAGATGGACTTGTATCTTTTTACCGAGGATAAGAGATTAGATTCGATGACAACTAAATTGGTTTTCGTGTCATATGTTTATAGAGTAGTGATAGCCTGACTGGTTCCCCCTCCCTACGAAGTTTAAACCGGGTTTACTTGAGTTATTGACACTGTTTTGGTTTTTGGTTCTGAAGTTTCATTATCTAGTTTTTATCTAGAACTGATTTAAGAGCAAAGACCTCATTATTGACTTGCAGTTATATCGACAGGAATGTAATAAGTTAAAATTGTAGTGACAACTCAAAATAATAAGTTCTTTGAGATTTTCCTTTTTTATTTGTTTGCTTTTATA

mRNA sequence

TGGGAGCTAATATGGTCATCTATCCCAATATGGTCGTTGACAAGCTCAGTCTCCTCCCTTCCGCTCAAACTTCGGTTTTTTTTTATCACTCTCACTAGTAGTAACCACCAACAATGGCGGCTGCAGCCCTAGAACGCTTTCTCTTTCATACTCGCCGAATCCCTCGTTCCCAAATCTCCTCCCTCTACCTCCACCGCCGCGGCTTCTGCTCGGAAAACACCCCACAACCTCCGCCAATCCAACCAGTGTCGTATGCTCCAAAACCCAAACCCGCCGACGAAACCCCACTTGAAAATGTTTCTCCATTATCGCCGTCGGAAGATACTATTTCATCGAGGGATTTGACGCGAGAAGATTATCGGTATTTGAAGGATTCGCCGATGACAATAACACCGGTTTCATATTCGAAGAAGGTGGCACCGCTTCCGGAGGATCGAGTGGTGACGGAGGAGGAGAGGGCGGAGCTGTGGACGGAGACGAGGAAGATTGAAGCGAATAATCGGGCGGTTCGGCGGGTTTTTAAGGTAGTTGAGGAAGAGAAGGAGGTTCCTTTTCCTACTTTGATTAAAGTGGAGAAGAAGGATGGTGATAGAAAGGTTTTTGATCTTCTGGAAGCTATTCACCAAGTCAAGGCTAAAGCTAAGAGAAATTTTGATGAAACTCTGGAAGCACATGTAAATTTGGGCATTGATCGACGCCGAAGTGATTTGGGTGTTAGTGGTGCTGTAGTTCTGCCTCATGGCACTGGGAAGATTGTCAAAGTTGCTGTTTTTGCTGACGGAGCTGAAGCTGAGGAAGCACGAGCCGCAGGAGCTGATATTGTTGGAGCAGATGAACTTATTGAAGAAATAAGAACTAGTGGCAAGATCAACTTTGACAAATGTATAGCCACTCATTCGATGATGCAGCGTGTAACAAAAATAGGCAGAGTTCTCCGTGGCCTAACACCAAATGCCAAGAAAGGTACTGTGACCAACAATGTTGCTGCGGCAGTAAGAGAGGCGAAGCAGGGATTGCTTGATTTCAGAATGAAGGATGCTATTGTTCATGTGGGGCTGGGGAAGGTGAGTTTTCCAGAGGAAGCTTTGCATGAGAATGTTGGTGCATTTGTGAATGCTCTTTTGCTTGCAAAGCCTGTTGGGTTAAAGAAGACTTCAAAGTATGCTGGCTACGTGAATTCTTTCCATCTATGTAGTACGATGGGTCCGGGATTTCCGATATCAATACAGTCGTTATCCAGAGCTGCAGATCAGTACGTCAAATTGCGTCCACAATGACAATGCACTAATCTTTTGAAGCTACCAAGTTGGATTATTTGGCCCGATGTCTATTTAATCTATAGAGGTCTCAGATGCTGGGGAAACTGGTCTGTACAAGATGGACTTGTATCTTTTTACCGAGGATAAGAGATTAGATTCGATGACAACTAAATTGGTTTTCGTGTCATATGTTTATAGAGTAGTGATAGCCTGACTGGTTCCCCCTCCCTACGAAGTTTAAACCGGGTTTACTTGAGTTATTGACACTGTTTTGGTTTTTGGTTCTGAAGTTTCATTATCTAGTTTTTATCTAGAACTGATTTAAGAGCAAAGACCTCATTATTGACTTGCAGTTATATCGACAGGAATGTAATAAGTTAAAATTGTAGTGACAACTCAAAATAATAAGTTCTTTGAGATTTTCCTTTTTTATTTGTTTGCTTTTATA

Coding sequence (CDS)

ATGGCGGCTGCAGCCCTAGAACGCTTTCTCTTTCATACTCGCCGAATCCCTCGTTCCCAAATCTCCTCCCTCTACCTCCACCGCCGCGGCTTCTGCTCGGAAAACACCCCACAACCTCCGCCAATCCAACCAGTGTCGTATGCTCCAAAACCCAAACCCGCCGACGAAACCCCACTTGAAAATGTTTCTCCATTATCGCCGTCGGAAGATACTATTTCATCGAGGGATTTGACGCGAGAAGATTATCGGTATTTGAAGGATTCGCCGATGACAATAACACCGGTTTCATATTCGAAGAAGGTGGCACCGCTTCCGGAGGATCGAGTGGTGACGGAGGAGGAGAGGGCGGAGCTGTGGACGGAGACGAGGAAGATTGAAGCGAATAATCGGGCGGTTCGGCGGGTTTTTAAGGTAGTTGAGGAAGAGAAGGAGGTTCCTTTTCCTACTTTGATTAAAGTGGAGAAGAAGGATGGTGATAGAAAGGTTTTTGATCTTCTGGAAGCTATTCACCAAGTCAAGGCTAAAGCTAAGAGAAATTTTGATGAAACTCTGGAAGCACATGTAAATTTGGGCATTGATCGACGCCGAAGTGATTTGGGTGTTAGTGGTGCTGTAGTTCTGCCTCATGGCACTGGGAAGATTGTCAAAGTTGCTGTTTTTGCTGACGGAGCTGAAGCTGAGGAAGCACGAGCCGCAGGAGCTGATATTGTTGGAGCAGATGAACTTATTGAAGAAATAAGAACTAGTGGCAAGATCAACTTTGACAAATGTATAGCCACTCATTCGATGATGCAGCGTGTAACAAAAATAGGCAGAGTTCTCCGTGGCCTAACACCAAATGCCAAGAAAGGTACTGTGACCAACAATGTTGCTGCGGCAGTAAGAGAGGCGAAGCAGGGATTGCTTGATTTCAGAATGAAGGATGCTATTGTTCATGTGGGGCTGGGGAAGGTGAGTTTTCCAGAGGAAGCTTTGCATGAGAATGTTGGTGCATTTGTGAATGCTCTTTTGCTTGCAAAGCCTGTTGGGTTAAAGAAGACTTCAAAGTATGCTGGCTACGTGAATTCTTTCCATCTATGTAGTACGATGGGTCCGGGATTTCCGATATCAATACAGTCGTTATCCAGAGCTGCAGATCAGTACGTCAAATTGCGTCCACAATGA

Protein sequence

MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLENVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWTETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQGLLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRAADQYVKLRPQ
Relationships

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

Feature NameUnique NameType
Spo14829.1Spo14829.1mRNA


Homology
[Close]
BLAST of Spo14829.1 vs. NCBI nr
Match: gi|902168654|gb|KNA07532.1| (hypothetical protein SOVF_170960 [Spinacia oleracea])

HSP 1 Score: 748.4 bits (1931), Expect = 6.100e-213
Identity = 387/387 (100.00%), Postives = 387/387 (100.00%), Query Frame = 1 

		  

Query: 1   MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 60
           MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE
Sbjct: 1   MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 60

Query: 61  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT 120
           NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT
Sbjct: 61  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT 120

Query: 121 ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF 180
           ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF
Sbjct: 121 ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF 180

Query: 181 DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD 240
           DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD
Sbjct: 181 DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD 240

Query: 241 ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG 300
           ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG
Sbjct: 241 ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG 300

Query: 301 LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC 360
           LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC
Sbjct: 301 LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC 360

Query: 361 STMGPGFPISIQSLSRAADQYVKLRPQ 388
           STMGPGFPISIQSLSRAADQYVKLRPQ
Sbjct: 361 STMGPGFPISIQSLSRAADQYVKLRPQ 387
[Close]
BLAST of Spo14829.1 vs. NCBI nr
Match: gi|731352012|ref|XP_010687321.1| (PREDICTED: 50S ribosomal protein L1, chloroplastic [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 555.4 bits (1430), Expect = 7.600e-155
Identity = 301/397 (75.82%), Postives = 337/397 (84.89%), Query Frame = 1 

		  

Query: 1   MAAAALERFLFHTRRIPRSQISSLYLH--RRGFCSENT-------PQPPPIQPVSYAPKP 60
           MAA+ L+ FL ++RRIP SQISSL+LH  RR F S+ T       PQPP I+PVSYAPKP
Sbjct: 1   MAASPLKNFLCNSRRIPHSQISSLFLHHNRRLFSSDTTTPPPQPPPQPPQIEPVSYAPKP 60

Query: 61  KPADETPLENVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVT 120
           K  + +     S  S      S+RD TR++ R++KDS ++I+ VSYS++VAPLPEDRVV+
Sbjct: 61  KAPETSENGASSAASGGGAAFSARDFTRDEARFMKDSSVSISQVSYSQRVAPLPEDRVVS 120

Query: 121 EEERAELWTETRKIEANN-RAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIH 180
           E E  +L  E+R+I+ NN R +RRVFKVVEEEKE+PFP LIKVEK  G+ KVFDL +AI 
Sbjct: 121 EVEGTDLRRESRRIDDNNNRLIRRVFKVVEEEKELPFPCLIKVEKNQGNTKVFDLQDAIL 180

Query: 181 QVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEAR 240
           QVKA AKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFA+GA AEEAR
Sbjct: 181 QVKANAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFAEGAAAEEAR 240

Query: 241 AAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNV 300
           AAGADIVGADELIEEI+TSGK+NFDKCIATHSMMQRVTKIGRVLRGLTPNAK+GTVTNNV
Sbjct: 241 AAGADIVGADELIEEIKTSGKMNFDKCIATHSMMQRVTKIGRVLRGLTPNAKRGTVTNNV 300

Query: 301 AAAVREAKQGLLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKY 360
           A AV+EAKQGLLDFRMKDAIVHVGLGKVSF EEAL ENVGAFVNALLLAKP GLKKTSKY
Sbjct: 301 AEAVKEAKQGLLDFRMKDAIVHVGLGKVSFAEEALRENVGAFVNALLLAKPAGLKKTSKY 360

Query: 361 AGYVNSFHLCSTMGPGFPISIQSLSRAADQYVKLRPQ 388
           AGYVNSFHLCSTMGPG+ +SIQSLS+AAD Y KLRPQ
Sbjct: 361 AGYVNSFHLCSTMGPGYSVSIQSLSKAADSYSKLRPQ 397
[Close]
BLAST of Spo14829.1 vs. NCBI nr
Match: gi|225446639|ref|XP_002281125.1| (PREDICTED: 50S ribosomal protein L1, chloroplastic [Vitis vinifera])

HSP 1 Score: 414.8 bits (1065), Expect = 1.600e-112
Identity = 248/431 (57.54%), Postives = 294/431 (68.21%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRR--IPRSQISSLYLHRRGFCSENT----PQPP-------------PIQP 63
           AALE  L H RR    R++ S L  HR   CS ++    P PP             PIQ 
Sbjct: 2   AALELLLSHARRHCTTRARASLLGFHR-SLCSSSSSSSNPDPPQPDEPLKRSTESVPIQS 61

Query: 64  VSYAPKPKPADETPLENVSPLSPSED---------------TISSRDL-TREDYRYLKDS 123
           VSYA KPK       EN  P +PS                 +  SR + TRED RY+KD+
Sbjct: 62  VSYAMKPKDQSPPSPENPQPQTPSPQLPLPRRPRQPESDWGSAESRSMWTREDMRYVKDA 121

Query: 124 PMTITPVSYSKKVAPLPEDRVVTE-------EERAELWTETRKIEANNRAVRRVFKVVEE 183
           P +I+PVSY  +VAPLPEDRV  E       +E  E+  E  +IEA NR  RRVF+V EE
Sbjct: 122 P-SISPVSYPTRVAPLPEDRVTAEAEEEVGKKESEEMEKERIRIEAENRIRRRVFRV-EE 181

Query: 184 EKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGV 243
           EK  PFP LIKVEKK   + + DL++AI +VKA A RNFDET+EAHV LGIDRRRSD+ V
Sbjct: 182 EKAFPFPRLIKVEKKQEQKVILDLMDAIREVKANANRNFDETIEAHVRLGIDRRRSDMTV 241

Query: 244 SGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRT----SGKINFDKC 303
            GA  LPHG+GK+V+VAVFA+G  AEEARAAGADIVG D+LI+EI+      GK+NFD+C
Sbjct: 242 RGAATLPHGSGKVVRVAVFAEGTAAEEARAAGADIVGGDDLIDEIKNLHQGGGKLNFDRC 301

Query: 304 IATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQGLLDFRM-KDAIVHVGLG 363
           IAT  MM R+TKI R+LR L PNA +G+VT ++A AV EAK+G ++F+M K AIVHVGLG
Sbjct: 302 IATPQMMPRLTKISRILRSLMPNANRGSVTVDIAKAVGEAKRGRVEFKMDKTAIVHVGLG 361

Query: 364 KVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSR 388
           KVSF E+ L EN+GAFVNALLLAKP GLKKTSKYAGYVN+FHLCSTMGPGFP+SIQSLS 
Sbjct: 362 KVSFSEKVLRENIGAFVNALLLAKPAGLKKTSKYAGYVNAFHLCSTMGPGFPVSIQSLSM 421
[Close]
BLAST of Spo14829.1 vs. NCBI nr
Match: gi|823160580|ref|XP_012480136.1| (PREDICTED: 50S ribosomal protein L1, chloroplastic [Gossypium raimondii])

HSP 1 Score: 392.1 bits (1006), Expect = 1.100e-105
Identity = 226/391 (57.80%), Postives = 284/391 (72.63%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRRIPRSQISS---LYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 63
           A  +  L  +RR+     SS   L LHR    S +  Q  PIQPVSYAPKPK   + P +
Sbjct: 2   AGFKLLLSQSRRLSLPHFSSSRFLSLHRSFSSSSSDSQSLPIQPVSYAPKPKDPPQ-PDQ 61

Query: 64  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTE--EERAEL 123
            +    P E T S+  L+RED RY+KD P  I+P+SY  +VAPLPEDRV  E  +E  E+
Sbjct: 62  TLQSTPPEEGTRST--LSREDLRYVKDVP-NISPISYPTRVAPLPEDRVGEERDQESEEM 121

Query: 124 WTETRKIEANNRAVRRVFKVVEEEKEV--PFPTLIKVEKKDGDRKVFDLLEAIHQVKAKA 183
             E+RKI+A +RA R  F+V  EE++V  PFP LI  EKK+  R V DL++AI +VK  A
Sbjct: 122 ARESRKIQAESRAWRTPFRVAAEEEKVVIPFPMLIMPEKKNEKRPVLDLMDAIREVKGNA 181

Query: 184 KRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADI 243
           K NFDET+EAHV LGID++RS+L V G + LPHG  K VKVAVFA+GA+A++ARAAGADI
Sbjct: 182 KANFDETVEAHVRLGIDQKRSELIVRGTMALPHGAKKEVKVAVFAEGADADDARAAGADI 241

Query: 244 VGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLTPNAKKGTVTNNVAAAV 303
           VG  +LIEEI ++GK+++D+C +THS M+R+ KI ++L   GL PN K+GTVT +V  AV
Sbjct: 242 VGGVDLIEEIASTGKVDYDRCFSTHSFMKRLYKISKILNQHGLMPNPKQGTVTKDVTKAV 301

Query: 304 REAKQGLLDFRM-KDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGY 363
           +EAKQG + FRM K +IVHVG+GKVS  EE L +NVGAF+N+LLLAKP GLKKTSKYAGY
Sbjct: 302 KEAKQGQVKFRMDKTSIVHVGIGKVSLSEEFLRDNVGAFMNSLLLAKPAGLKKTSKYAGY 361

Query: 364 VNSFHLCSTMGPGFPISIQSLSRAADQYVKL 385
           VNSFH+CSTMGPGF +SIQSLSRAAD Y K+
Sbjct: 362 VNSFHICSTMGPGFRVSIQSLSRAADHYSKV 388
[Close]
BLAST of Spo14829.1 vs. NCBI nr
Match: gi|728812869|gb|KHG01006.1| (50S ribosomal L1 [Gossypium arboreum])

HSP 1 Score: 387.1 bits (993), Expect = 3.600e-104
Identity = 224/394 (56.85%), Postives = 285/394 (72.34%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRRIPRSQISS---LYLHRR---GFCSENTPQPPPIQPVSYAPKPKPADET 63
           A  +  L  +RR+     SS   L L+R     + S +  Q  PIQPVSYAPKPK   + 
Sbjct: 2   AGFKLLLSQSRRLSLPHFSSSRFLPLYRSLSSSYSSSSDSQSLPIQPVSYAPKPKDPPQ- 61

Query: 64  PLENVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRV--VTEEER 123
           P + +    P E T S+  L+RED RY+KD P  I+P+SY  +VAPLPEDRV    ++E 
Sbjct: 62  PDQTLQSTPPEEGTRST--LSREDLRYVKDVP-NISPISYPTRVAPLPEDRVGEARDQES 121

Query: 124 AELWTETRKIEANNRAVRRVFKVVEEEKEV--PFPTLIKVEKKDGDRKVFDLLEAIHQVK 183
            E+  E+RKI+A +RA R  F+V  EE++V  PFP LI  EKK+  R V DL++AI +VK
Sbjct: 122 EEMARESRKIQAESRAWRTPFRVAAEEEKVVIPFPMLIMPEKKNEKRPVLDLMDAIREVK 181

Query: 184 AKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAG 243
             AK NFDET+EAHV LGID++RS+L V G + LPHG  K VKVAVFA+GA+A++ARAAG
Sbjct: 182 GNAKANFDETVEAHVRLGIDQKRSELIVRGTMALPHGAKKEVKVAVFAEGADADDARAAG 241

Query: 244 ADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLTPNAKKGTVTNNVA 303
           ADIVG  +LIEEI ++GK++FD+C +THS M+R+ K+ ++L   GL PN K+GTVT +V 
Sbjct: 242 ADIVGGVDLIEEIASTGKVDFDRCFSTHSFMKRLYKMSKILNQHGLMPNPKQGTVTKDVT 301

Query: 304 AAVREAKQGLLDFRM-KDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKY 363
            AV+EAKQG + FRM K +IVHVG+GKVS  EE L +NVGAF+N+LLLAKP GLKKTSKY
Sbjct: 302 KAVKEAKQGQVKFRMDKTSIVHVGIGKVSLSEEFLRDNVGAFMNSLLLAKPAGLKKTSKY 361

Query: 364 AGYVNSFHLCSTMGPGFPISIQSLSRAADQYVKL 385
           AGYVNSFH+CSTMGPGF +SIQSLSRAAD Y K+
Sbjct: 362 AGYVNSFHICSTMGPGFRVSIQSLSRAADHYSKV 391
[Close]
BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QJW3_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_170960 PE=4 SV=1)

HSP 1 Score: 748.4 bits (1931), Expect = 4.300e-213
Identity = 387/387 (100.00%), Postives = 387/387 (100.00%), Query Frame = 1 

		  

Query: 1   MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 60
           MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE
Sbjct: 1   MAAAALERFLFHTRRIPRSQISSLYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 60

Query: 61  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT 120
           NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT
Sbjct: 61  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTEEERAELWT 120

Query: 121 ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF 180
           ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF
Sbjct: 121 ETRKIEANNRAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNF 180

Query: 181 DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD 240
           DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD
Sbjct: 181 DETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGAD 240

Query: 241 ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG 300
           ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG
Sbjct: 241 ELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQG 300

Query: 301 LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC 360
           LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC
Sbjct: 301 LLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLC 360

Query: 361 STMGPGFPISIQSLSRAADQYVKLRPQ 388
           STMGPGFPISIQSLSRAADQYVKLRPQ
Sbjct: 361 STMGPGFPISIQSLSRAADQYVKLRPQ 387
[Close]
BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BV40_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g189380 PE=4 SV=1)

HSP 1 Score: 555.4 bits (1430), Expect = 5.300e-155
Identity = 301/397 (75.82%), Postives = 337/397 (84.89%), Query Frame = 1 

		  

Query: 1   MAAAALERFLFHTRRIPRSQISSLYLH--RRGFCSENT-------PQPPPIQPVSYAPKP 60
           MAA+ L+ FL ++RRIP SQISSL+LH  RR F S+ T       PQPP I+PVSYAPKP
Sbjct: 1   MAASPLKNFLCNSRRIPHSQISSLFLHHNRRLFSSDTTTPPPQPPPQPPQIEPVSYAPKP 60

Query: 61  KPADETPLENVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVT 120
           K  + +     S  S      S+RD TR++ R++KDS ++I+ VSYS++VAPLPEDRVV+
Sbjct: 61  KAPETSENGASSAASGGGAAFSARDFTRDEARFMKDSSVSISQVSYSQRVAPLPEDRVVS 120

Query: 121 EEERAELWTETRKIEANN-RAVRRVFKVVEEEKEVPFPTLIKVEKKDGDRKVFDLLEAIH 180
           E E  +L  E+R+I+ NN R +RRVFKVVEEEKE+PFP LIKVEK  G+ KVFDL +AI 
Sbjct: 121 EVEGTDLRRESRRIDDNNNRLIRRVFKVVEEEKELPFPCLIKVEKNQGNTKVFDLQDAIL 180

Query: 181 QVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEAR 240
           QVKA AKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFA+GA AEEAR
Sbjct: 181 QVKANAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFAEGAAAEEAR 240

Query: 241 AAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNV 300
           AAGADIVGADELIEEI+TSGK+NFDKCIATHSMMQRVTKIGRVLRGLTPNAK+GTVTNNV
Sbjct: 241 AAGADIVGADELIEEIKTSGKMNFDKCIATHSMMQRVTKIGRVLRGLTPNAKRGTVTNNV 300

Query: 301 AAAVREAKQGLLDFRMKDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKY 360
           A AV+EAKQGLLDFRMKDAIVHVGLGKVSF EEAL ENVGAFVNALLLAKP GLKKTSKY
Sbjct: 301 AEAVKEAKQGLLDFRMKDAIVHVGLGKVSFAEEALRENVGAFVNALLLAKPAGLKKTSKY 360

Query: 361 AGYVNSFHLCSTMGPGFPISIQSLSRAADQYVKLRPQ 388
           AGYVNSFHLCSTMGPG+ +SIQSLS+AAD Y KLRPQ
Sbjct: 361 AGYVNSFHLCSTMGPGYSVSIQSLSKAADSYSKLRPQ 397
[Close]
BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Match: F6H509_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0028g01980 PE=4 SV=1)

HSP 1 Score: 414.8 bits (1065), Expect = 1.100e-112
Identity = 248/431 (57.54%), Postives = 294/431 (68.21%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRR--IPRSQISSLYLHRRGFCSENT----PQPP-------------PIQP 63
           AALE  L H RR    R++ S L  HR   CS ++    P PP             PIQ 
Sbjct: 2   AALELLLSHARRHCTTRARASLLGFHR-SLCSSSSSSSNPDPPQPDEPLKRSTESVPIQS 61

Query: 64  VSYAPKPKPADETPLENVSPLSPSED---------------TISSRDL-TREDYRYLKDS 123
           VSYA KPK       EN  P +PS                 +  SR + TRED RY+KD+
Sbjct: 62  VSYAMKPKDQSPPSPENPQPQTPSPQLPLPRRPRQPESDWGSAESRSMWTREDMRYVKDA 121

Query: 124 PMTITPVSYSKKVAPLPEDRVVTE-------EERAELWTETRKIEANNRAVRRVFKVVEE 183
           P +I+PVSY  +VAPLPEDRV  E       +E  E+  E  +IEA NR  RRVF+V EE
Sbjct: 122 P-SISPVSYPTRVAPLPEDRVTAEAEEEVGKKESEEMEKERIRIEAENRIRRRVFRV-EE 181

Query: 184 EKEVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGV 243
           EK  PFP LIKVEKK   + + DL++AI +VKA A RNFDET+EAHV LGIDRRRSD+ V
Sbjct: 182 EKAFPFPRLIKVEKKQEQKVILDLMDAIREVKANANRNFDETIEAHVRLGIDRRRSDMTV 241

Query: 244 SGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRT----SGKINFDKC 303
            GA  LPHG+GK+V+VAVFA+G  AEEARAAGADIVG D+LI+EI+      GK+NFD+C
Sbjct: 242 RGAATLPHGSGKVVRVAVFAEGTAAEEARAAGADIVGGDDLIDEIKNLHQGGGKLNFDRC 301

Query: 304 IATHSMMQRVTKIGRVLRGLTPNAKKGTVTNNVAAAVREAKQGLLDFRM-KDAIVHVGLG 363
           IAT  MM R+TKI R+LR L PNA +G+VT ++A AV EAK+G ++F+M K AIVHVGLG
Sbjct: 302 IATPQMMPRLTKISRILRSLMPNANRGSVTVDIAKAVGEAKRGRVEFKMDKTAIVHVGLG 361

Query: 364 KVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSR 388
           KVSF E+ L EN+GAFVNALLLAKP GLKKTSKYAGYVN+FHLCSTMGPGFP+SIQSLS 
Sbjct: 362 KVSFSEKVLRENIGAFVNALLLAKPAGLKKTSKYAGYVNAFHLCSTMGPGFPVSIQSLSM 421
[Close]
BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Match: A0A0D2SM70_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_005G231600 PE=4 SV=1)

HSP 1 Score: 392.1 bits (1006), Expect = 7.800e-106
Identity = 226/391 (57.80%), Postives = 284/391 (72.63%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRRIPRSQISS---LYLHRRGFCSENTPQPPPIQPVSYAPKPKPADETPLE 63
           A  +  L  +RR+     SS   L LHR    S +  Q  PIQPVSYAPKPK   + P +
Sbjct: 2   AGFKLLLSQSRRLSLPHFSSSRFLSLHRSFSSSSSDSQSLPIQPVSYAPKPKDPPQ-PDQ 61

Query: 64  NVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRVVTE--EERAEL 123
            +    P E T S+  L+RED RY+KD P  I+P+SY  +VAPLPEDRV  E  +E  E+
Sbjct: 62  TLQSTPPEEGTRST--LSREDLRYVKDVP-NISPISYPTRVAPLPEDRVGEERDQESEEM 121

Query: 124 WTETRKIEANNRAVRRVFKVVEEEKEV--PFPTLIKVEKKDGDRKVFDLLEAIHQVKAKA 183
             E+RKI+A +RA R  F+V  EE++V  PFP LI  EKK+  R V DL++AI +VK  A
Sbjct: 122 ARESRKIQAESRAWRTPFRVAAEEEKVVIPFPMLIMPEKKNEKRPVLDLMDAIREVKGNA 181

Query: 184 KRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAGADI 243
           K NFDET+EAHV LGID++RS+L V G + LPHG  K VKVAVFA+GA+A++ARAAGADI
Sbjct: 182 KANFDETVEAHVRLGIDQKRSELIVRGTMALPHGAKKEVKVAVFAEGADADDARAAGADI 241

Query: 244 VGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLTPNAKKGTVTNNVAAAV 303
           VG  +LIEEI ++GK+++D+C +THS M+R+ KI ++L   GL PN K+GTVT +V  AV
Sbjct: 242 VGGVDLIEEIASTGKVDYDRCFSTHSFMKRLYKISKILNQHGLMPNPKQGTVTKDVTKAV 301

Query: 304 REAKQGLLDFRM-KDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKYAGY 363
           +EAKQG + FRM K +IVHVG+GKVS  EE L +NVGAF+N+LLLAKP GLKKTSKYAGY
Sbjct: 302 KEAKQGQVKFRMDKTSIVHVGIGKVSLSEEFLRDNVGAFMNSLLLAKPAGLKKTSKYAGY 361

Query: 364 VNSFHLCSTMGPGFPISIQSLSRAADQYVKL 385
           VNSFH+CSTMGPGF +SIQSLSRAAD Y K+
Sbjct: 362 VNSFHICSTMGPGFRVSIQSLSRAADHYSKV 388
[Close]
BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Match: A0A0B0MPY2_GOSAR (50S ribosomal L1 OS=Gossypium arboreum GN=F383_23828 PE=4 SV=1)

HSP 1 Score: 387.1 bits (993), Expect = 2.500e-104
Identity = 224/394 (56.85%), Postives = 285/394 (72.34%), Query Frame = 1 

		  

Query: 4   AALERFLFHTRRIPRSQISS---LYLHRR---GFCSENTPQPPPIQPVSYAPKPKPADET 63
           A  +  L  +RR+     SS   L L+R     + S +  Q  PIQPVSYAPKPK   + 
Sbjct: 2   AGFKLLLSQSRRLSLPHFSSSRFLPLYRSLSSSYSSSSDSQSLPIQPVSYAPKPKDPPQ- 61

Query: 64  PLENVSPLSPSEDTISSRDLTREDYRYLKDSPMTITPVSYSKKVAPLPEDRV--VTEEER 123
           P + +    P E T S+  L+RED RY+KD P  I+P+SY  +VAPLPEDRV    ++E 
Sbjct: 62  PDQTLQSTPPEEGTRST--LSREDLRYVKDVP-NISPISYPTRVAPLPEDRVGEARDQES 121

Query: 124 AELWTETRKIEANNRAVRRVFKVVEEEKEV--PFPTLIKVEKKDGDRKVFDLLEAIHQVK 183
            E+  E+RKI+A +RA R  F+V  EE++V  PFP LI  EKK+  R V DL++AI +VK
Sbjct: 122 EEMARESRKIQAESRAWRTPFRVAAEEEKVVIPFPMLIMPEKKNEKRPVLDLMDAIREVK 181

Query: 184 AKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVFADGAEAEEARAAG 243
             AK NFDET+EAHV LGID++RS+L V G + LPHG  K VKVAVFA+GA+A++ARAAG
Sbjct: 182 GNAKANFDETVEAHVRLGIDQKRSELIVRGTMALPHGAKKEVKVAVFAEGADADDARAAG 241

Query: 244 ADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLTPNAKKGTVTNNVA 303
           ADIVG  +LIEEI ++GK++FD+C +THS M+R+ K+ ++L   GL PN K+GTVT +V 
Sbjct: 242 ADIVGGVDLIEEIASTGKVDFDRCFSTHSFMKRLYKMSKILNQHGLMPNPKQGTVTKDVT 301

Query: 304 AAVREAKQGLLDFRM-KDAIVHVGLGKVSFPEEALHENVGAFVNALLLAKPVGLKKTSKY 363
            AV+EAKQG + FRM K +IVHVG+GKVS  EE L +NVGAF+N+LLLAKP GLKKTSKY
Sbjct: 302 KAVKEAKQGQVKFRMDKTSIVHVGIGKVSLSEEFLRDNVGAFMNSLLLAKPAGLKKTSKY 361

Query: 364 AGYVNSFHLCSTMGPGFPISIQSLSRAADQYVKL 385
           AGYVNSFH+CSTMGPGF +SIQSLSRAAD Y K+
Sbjct: 362 AGYVNSFHICSTMGPGFRVSIQSLSRAADHYSKV 391
[Close]
BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Match: RL1_RHORT (50S ribosomal protein L1 OS=Rhodospirillum rubrum (strain ATCC 11170 / ATH 1.1.1 / DSM 467 / LMG 4362 / NCIB 8255 / S1) GN=rplA PE=3 SV=1)

HSP 1 Score: 207.6 bits (527), Expect = 2.400e-52
Identity = 119/232 (51.29%), Postives = 160/232 (68.97%), Query Frame = 1 

		  

Query: 151 IKVEKKDGDRKVF-DLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPH 210
           +K   +  DR+ F DL +A+H ++ +A   FDE++E  +NLG+D R +D  V G V LPH
Sbjct: 8   LKAAHEGIDREAFYDLPQAVHLIRERATAKFDESIEVAMNLGVDPRHADQMVRGVVELPH 67

Query: 211 GTGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTK 270
           GTGK ++VAVFA GA+AEEA+AAGAD+VGADEL  +I+ +G I+FD+CIAT  MM  V +
Sbjct: 68  GTGKTMRVAVFAKGAKAEEAKAAGADLVGADELAADIQ-NGTIDFDRCIATPDMMGVVGR 127

Query: 271 IGRVL--RGLTPNAKKGTVTNNVAAAVREAKQGLLDFRM-KDAIVHVGLGKVSFPEEALH 330
           +G+VL  RGL PN K GTVT +VA AV+ AK G + FR+ K  IVH G+G+ SF EE L 
Sbjct: 128 LGKVLGPRGLMPNPKLGTVTMDVATAVKAAKAGQVQFRVEKSGIVHAGVGRASFTEEKLV 187

Query: 331 ENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRAA 379
           +NV AFV+A+  AKP G K T     Y+    L STMGPG  +++ ++S AA
Sbjct: 188 DNVRAFVDAINKAKPTGAKGT-----YLKKVSLSSTMGPGLKVNLGTISGAA 233
[Close]
BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Match: RL1_SINFN (50S ribosomal protein L1 OS=Sinorhizobium fredii (strain NBRC 101917 / NGR234) GN=rplA PE=3 SV=1)

HSP 1 Score: 201.4 bits (511), Expect = 1.700e-50
Identity = 113/220 (51.36%), Postives = 153/220 (69.55%), Query Frame = 1 

		  

Query: 161 KVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVF 220
           KV+ L EA+  VK +A   FDET+E  +NLG+D R +D  V G V LP+GTG+ V+VAVF
Sbjct: 19  KVYGLTEAVTLVKERATAKFDETIEVAMNLGVDPRHADQMVRGVVNLPNGTGRSVRVAVF 78

Query: 221 ADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLT 280
           A GA+A+EA+AAGAD+VGA++L+E ++  GKI+FD+CIAT  MM  V ++G+VL  RG+ 
Sbjct: 79  ARGAKADEAKAAGADVVGAEDLVEIVQ-GGKIDFDRCIATPDMMPLVGRLGKVLGPRGMM 138

Query: 281 PNAKKGTVTNNVAAAVREAKQGLLDFRMKDA-IVHVGLGKVSFPEEALHENVGAFVNALL 340
           PN K GTVT +V AAV+ +K G ++FR++ A IVH G+GK SF  +AL EN+ AF +A++
Sbjct: 139 PNPKVGTVTMDVTAAVKSSKGGAVEFRVEKAGIVHAGVGKASFDAKALEENIRAFADAVI 198

Query: 341 LAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRA 378
            AKP G K       YV    + STMGPG  I   +LS A
Sbjct: 199 KAKPTGAK-----GNYVKRVAISSTMGPGLKIDPATLSVA 232
[Close]
BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Match: RL1_SINMW (50S ribosomal protein L1 OS=Sinorhizobium medicae (strain WSM419) GN=rplA PE=3 SV=1)

HSP 1 Score: 201.4 bits (511), Expect = 1.700e-50
Identity = 111/220 (50.45%), Postives = 153/220 (69.55%), Query Frame = 1 

		  

Query: 161 KVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGTGKIVKVAVF 220
           K++ L EA+  +K +A   FDET+E  +NLG+D R +D  V G V LP+GTG+ V+VAVF
Sbjct: 19  KLYGLTEAVTMIKERATAKFDETIEVAMNLGVDPRHADQMVRGVVNLPNGTGRSVRVAVF 78

Query: 221 ADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIGRVL--RGLT 280
           A GA+A+EA+AAGAD+VGA+EL+E ++  GKI+FD+CIAT  MM  V ++G+VL  RG+ 
Sbjct: 79  ARGAKADEAKAAGADVVGAEELVEIVQ-GGKIDFDRCIATPDMMPLVGRLGKVLGPRGMM 138

Query: 281 PNAKKGTVTNNVAAAVREAKQGLLDFRMKDA-IVHVGLGKVSFPEEALHENVGAFVNALL 340
           PN K GTVT +VA AV+ +K G ++FR++ A IVH G+GK SF  +AL EN+ AF +A++
Sbjct: 139 PNPKVGTVTMDVAGAVKASKGGAVEFRVEKAGIVHAGIGKASFDAKALEENIRAFADAVI 198

Query: 341 LAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRA 378
            AKP G K       YV    + STMGPG  I   ++S A
Sbjct: 199 KAKPTGAK-----GNYVKRVAVSSTMGPGLKIDPATISAA 232
[Close]
BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Match: RL1_RHIE6 (50S ribosomal protein L1 OS=Rhizobium etli (strain CIAT 652) GN=rplA PE=3 SV=1)

HSP 1 Score: 200.7 bits (509), Expect = 3.000e-50
Identity = 112/229 (48.91%), Postives = 156/229 (68.12%), Query Frame = 1 

		  

Query: 152 KVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGT 211
           K+ +     K++ L +AI  VK +A   FDET+E  +NLG+D R +D  V G V LP+GT
Sbjct: 8   KINEGVDPTKLYALTQAIGMVKERAVAKFDETIEVSMNLGVDPRHADQMVRGVVNLPNGT 67

Query: 212 GKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIG 271
           G+ V+VAVFA GA+A+EA+AAGAD+VGA++L+E ++  GKI FD+CIAT  MM  V ++G
Sbjct: 68  GRTVRVAVFARGAKADEAKAAGADVVGAEDLVEIVQ-GGKIEFDRCIATPDMMPLVGRLG 127

Query: 272 RVL--RGLTPNAKKGTVTNNVAAAVREAKQGLLDFRMKDA-IVHVGLGKVSFPEEALHEN 331
           +VL  RG+ PN K GTVT +VA AV+ +K G ++FR++ A IVH G+GK SF  +AL EN
Sbjct: 128 KVLGPRGMMPNPKVGTVTMDVAGAVKASKGGAVEFRVEKAGIVHAGIGKASFDAKALEEN 187

Query: 332 VGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRA 378
           + AF +A++ AKP G K       YV    + STMGPG  I + S++ A
Sbjct: 188 IRAFADAVIKAKPAGAK-----GNYVKRVAISSTMGPGVKIEVGSVTAA 230
[Close]
BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Match: RL1_RHIEC (50S ribosomal protein L1 OS=Rhizobium etli (strain CFN 42 / ATCC 51251) GN=rplA PE=3 SV=1)

HSP 1 Score: 199.5 bits (506), Expect = 6.600e-50
Identity = 112/229 (48.91%), Postives = 155/229 (67.69%), Query Frame = 1 

		  

Query: 152 KVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHGT 211
           K+ +     K++ L  AI  VK +A   FDET+E  +NLG+D R +D  V G V LP+GT
Sbjct: 8   KINEGVDPTKLYALTTAIGMVKERAVAKFDETIEVSMNLGVDPRHADQMVRGVVNLPNGT 67

Query: 212 GKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKIG 271
           G+ V+VAVFA GA+A+EA+AAGAD+VGA++L+E ++  GKI FD+CIAT  MM  V ++G
Sbjct: 68  GRTVRVAVFARGAKADEAKAAGADVVGAEDLVEIVQ-GGKIEFDRCIATPDMMPLVGRLG 127

Query: 272 RVL--RGLTPNAKKGTVTNNVAAAVREAKQGLLDFRMKDA-IVHVGLGKVSFPEEALHEN 331
           +VL  RG+ PN K GTVT +VA AV+ +K G ++FR++ A IVH G+GK SF  +AL EN
Sbjct: 128 KVLGPRGMMPNPKVGTVTMDVAGAVKASKGGAVEFRVEKAGIVHAGIGKASFDAKALEEN 187

Query: 332 VGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRA 378
           + AF +A++ AKP G K       YV    + STMGPG  I + S++ A
Sbjct: 188 IRAFADAVIKAKPAGAK-----GNYVKRVAISSTMGPGVKIEVGSVTAA 230
[Close]
BLAST of Spo14829.1 vs. TAIR (Arabidopsis)
Match: AT2G42710.1 (Ribosomal protein L1p/L10e family)

HSP 1 Score: 361.7 bits (927), Expect = 5.700e-100
Identity = 209/365 (57.26%), Postives = 261/365 (71.51%), Query Frame = 1 

		  

Query: 33  SENTPQPPPIQPVSYAPKPKPADETP--LENVSPLSPSEDTISSRDLTREDYRYLKDSPM 92
           +E+  +   I+PVSYA KPK     P  +E+   L   E    S + TRE+ RY+KDSP 
Sbjct: 54  NESRKKAVTIEPVSYAAKPKDQKSEPKNVESTENLQSPE----SANWTREEIRYVKDSP- 113

Query: 93  TITPVSYSKKVAPLPEDRVVTEEER----AELWTETRKIEANNRAVRRVFK---VVEEEK 152
           +I PVSY+++VAPLPEDRV  E E      E+  E ++IE  NRA RR  +   V E+  
Sbjct: 114 SINPVSYAQRVAPLPEDRVAGENEGDRTPEEMERERKRIELENRARRRFLRANAVEEDTS 173

Query: 153 EVPFPTLIKVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSG 212
            +P PTL+K E K G + +FDL+EAI ++K  AK  FDETLEAHV LGI++ RS+L V G
Sbjct: 174 SLPLPTLLKPELKHGKKPIFDLMEAIREIKGNAKAKFDETLEAHVRLGIEKGRSELIVRG 233

Query: 213 AVVLPHGTGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSM 272
            + LPH   K VKVA FA+GA+AE+A+AAGAD+VG  ELIEEI  SGKI+FD+C+AT  M
Sbjct: 234 TLALPHSVKKDVKVAFFAEGADAEDAKAAGADVVGGLELIEEILKSGKIDFDRCLATPKM 293

Query: 273 MQRVTKIGRVL--RGLTPNAKKGTVTNNVAAAVREAKQGLLDFRM-KDAIVHVGLGKVSF 332
           M RV KI R+L   GL PN K+G+VT +V  AV++AK G   FRM K +I+HV LGK+SF
Sbjct: 294 MPRVYKISRILNNHGLMPNPKQGSVTKDVTKAVKDAKAGHTKFRMDKTSILHVPLGKMSF 353

Query: 333 PEEALHENVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSLSRAADQ 386
            EEAL ENVGAF+NALLLAKP GLKKTSKYAGYVN+FHLCSTMG G+P+SIQSLSRAAD 
Sbjct: 354 SEEALRENVGAFMNALLLAKPAGLKKTSKYAGYVNAFHLCSTMGKGYPVSIQSLSRAADL 413
[Close]
BLAST of Spo14829.1 vs. TAIR (Arabidopsis)
Match: AT3G63490.1 (Ribosomal protein L1p/L10e family)

HSP 1 Score: 162.5 bits (410), Expect = 5.100e-40
Identity = 97/227 (42.73%), Postives = 140/227 (61.67%), Query Frame = 1 

		  

Query: 151 IKVEKKDGDRKVFDLLEAIHQVKAKAKRNFDETLEAHVNLGIDRRRSDLGVSGAVVLPHG 210
           ++++K    +K +D+  AI  +K  A   F E++EAH  L ID + +D  +   V LP G
Sbjct: 117 LEIQKLRETKKEYDVNTAISLLKQTANTRFVESVEAHFRLNIDPKYNDQQLRATVSLPKG 176

Query: 211 TGKIVKVAVFADGAEAEEARAAGADIVGADELIEEIRTSGKINFDKCIATHSMMQRVTKI 270
           TG+ V VAV A G + +EA++AGADIVG+D+LIE+I+  G + FDK IA+  MM +V  +
Sbjct: 177 TGQTVIVAVLAQGEKVDEAKSAGADIVGSDDLIEQIK-GGFMEFDKLIASPDMMVKVAGL 236

Query: 271 GRVL--RGLTPNAKKGTVTNNVAAAVREAKQGLLDFRM-KDAIVHVGLGKVSFPEEALHE 330
           G++L  RGL PN K GTVT N+  A+ E K+G ++FR  K  IVH+  GKV+F EE L  
Sbjct: 237 GKILGPRGLMPNPKAGTVTANIPQAIEEFKKGKVEFRADKTGIVHIPFGKVNFTEEDLLI 296

Query: 331 NVGAFVNALLLAKPVGLKKTSKYAGYVNSFHLCSTMGPGFPISIQSL 375
           N  A V ++   KP G K       Y  S H+CS+MGP   ++I+ +
Sbjct: 297 NFLAAVKSVETNKPKGAKGV-----YWKSAHICSSMGPSIKLNIREM 337
The following BLAST results are available for this feature:
BLAST of Spo14829.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902168654|gb|KNA07532.1|6.1e-213100.hypothetical protein SOVF_1709... [more]
gi|731352012|ref|XP_010687321.1|7.6e-15575.8PREDICTED: 50S ribosomal prote... [more]
gi|225446639|ref|XP_002281125.1|1.6e-11257.5PREDICTED: 50S ribosomal prote... [more]
gi|823160580|ref|XP_012480136.1|1.1e-10557.8PREDICTED: 50S ribosomal prote... [more]
gi|728812869|gb|KHG01006.1|3.6e-10456.850S ribosomal L1 [Gossypium ar... [more]
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BLAST of Spo14829.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QJW3_SPIOL4.3e-213100.Uncharacterized protein OS=Spi... [more]
A0A0J8BV40_BETVU5.3e-15575.8Uncharacterized protein OS=Bet... [more]
F6H509_VITVI1.1e-11257.5Putative uncharacterized prote... [more]
A0A0D2SM70_GOSRA7.8e-10657.8Uncharacterized protein OS=Gos... [more]
A0A0B0MPY2_GOSAR2.5e-10456.850S ribosomal L1 OS=Gossypium ... [more]
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BLAST of Spo14829.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
RL1_RHORT2.4e-5251.250S ribosomal protein L1 OS=Rh... [more]
RL1_SINFN1.7e-5051.350S ribosomal protein L1 OS=Si... [more]
RL1_SINMW1.7e-5050.450S ribosomal protein L1 OS=Si... [more]
RL1_RHIE63.0e-5048.950S ribosomal protein L1 OS=Rh... [more]
RL1_RHIEC6.6e-5048.950S ribosomal protein L1 OS=Rh... [more]
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BLAST of Spo14829.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 2
Match NameE-valueIdentityDescription
AT2G42710.15.7e-10057.2Ribosomal protein L1p/L10e fam... [more]
AT3G63490.15.1e-4042.7Ribosomal protein L1p/L10e fam... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR005878Ribosomal protein L1, bacterial-typeTIGRFAMsTIGR01169TIGR01169coord: 152..373
score: 5.9
IPR016094Ribosomal protein L1, 2-layer alpha/beta-sandwichGENE3D3.30.190.20coord: 302..371
score: 4.1E-32coord: 161..210
score: 4.1
IPR016095Ribosomal protein L1, 3-layer alpha/beta-sandwichGENE3D3.40.50.790coord: 211..300
score: 8.4
IPR023674Ribosomal protein L1-likeunknownSSF56808Ribosomal protein L1coord: 159..370
score: 3.92
NoneNo IPR availablePANTHERPTHR23105RIBOSOMAL PROTEIN L7AE FAMILY MEMBERcoord: 83..385
score: 9.6E
NoneNo IPR availablePANTHERPTHR23105:SF51SUBFAMILY NOT NAMEDcoord: 83..385
score: 9.6E

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006354 DNA-templated transcription, elongation
biological_process GO:0042254 ribosome biogenesis
biological_process GO:0006412 translation
biological_process GO:0080022 primary root development
biological_process GO:0048481 plant ovule development
biological_process GO:0044419 interspecies interaction between organisms
biological_process GO:0006536 glutamate metabolic process
biological_process GO:0070681 glutaminyl-tRNAGln biosynthesis via transamidation
biological_process GO:0032543 mitochondrial translation
biological_process GO:0006655 phosphatidylglycerol biosynthetic process
biological_process GO:0042742 defense response to bacterium
biological_process GO:0006526 arginine biosynthetic process
cellular_component GO:0044424 intracellular part
cellular_component GO:0005739 mitochondrion
cellular_component GO:0030956 glutamyl-tRNA(Gln) amidotransferase complex
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0015934 large ribosomal subunit
cellular_component GO:0009507 chloroplast
molecular_function GO:0005524 ATP binding
molecular_function GO:0050567 glutaminyl-tRNA synthase (glutamine-hydrolyzing) activity
molecular_function GO:0016740 transferase activity
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0003723 RNA binding
molecular_function GO:0005507 copper ion binding
molecular_function GO:0003992 N2-acetyl-L-ornithine:2-oxoglutarate 5-aminotransferase activity
molecular_function GO:0030170 pyridoxal phosphate binding
molecular_function GO:0005515 protein binding
RNA-Seq Expression