Spo13650 (gene)

Overview
NameSpo13650
Typegene
OrganismSpinacia oleracea (Spinach)
Description50S ribosomal protein L16, chloroplastic
Locationchr2 : 22476245 .. 22497435 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGACTCATACTTACTCCTCGCGTATTAATGTTGATGTTGATATGAGATCCCTCCTGGAATTGACTTTTAACGTCGTCAAAGATATGCATACGAAAGTAGAGGGTCTGGCACTTGAACCTGCTTGGATCACGTCTAGGCAAATAGAAGCAGGGCGGCGAGCAATGACACGAAATGCGCGTCGCGGTGGAAAAATATGGGTACGTATATTTCCAGACAAACCAGTTACAGTAAGACCCGCGGAAACCCGTATGGGTTCGGGGAAAGGATCTCCCGAATATTGGGTAGCTGTTGTCAAACCAGGTCGAATACTTTATGAAATAAGCGGAGTAGCCGAAAATATAGCCCGAAGGGCTGTCGCAATAGCGGCATCGAAAATGCCTATACGAACTCAATTCATTATTTAA

Coding sequence (CDS)

ATGACTCATACTTACTCCTCGCGTATTAATGTTGATGTTGATATGAGATCCCTCCTGGAATTGACTTTTAACGTCGTCAAAGATATGCATACGAAAGTAGAGGGTCTGGCACTTGAACCTGCTTGGATCACGTCTAGGCAAATAGAAGCAGGGCGGCGAGCAATGACACGAAATGCGCGTCGCGGTGGAAAAATATGGGTACGTATATTTCCAGACAAACCAGTTACAGTAAGACCCGCGGAAACCCGTATGGGTTCGGGGAAAGGATCTCCCGAATATTGGGTAGCTGTTGTCAAACCAGGTCGAATACTTTATGAAATAAGCGGAGTAGCCGAAAATATAGCCCGAAGGGCTGTCGCAATAGCGGCATCGAAAATGCCTATACGAACTCAATTCATTATTTAA

Protein sequence

MTHTYSSRINVDVDMRSLLELTFNVVKDMHTKVEGLALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAVVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII
Relationships

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

Feature NameUnique NameType
Spo13650.1Spo13650.1mRNA


Homology
[Close]
BLAST of Spo13650.1 vs. NCBI nr
Match: gi|11497564|ref|NP_054972.1| (ribosomal protein L16 [Spinacia oleracea])

HSP 1 Score: 197.2 bits (500), Expect = 1.800e-47
Identity = 98/98 (100.00%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. NCBI nr
Match: gi|255706978|dbj|BAH95839.1| (ribosomal protein L16 [Spinacia oleracea])

HSP 1 Score: 197.2 bits (500), Expect = 1.800e-47
Identity = 98/98 (100.00%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 19  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 78

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII
Sbjct: 79  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 116
[Close]
BLAST of Spo13650.1 vs. NCBI nr
Match: gi|932252370|gb|ALG63326.1| (ribosomal protein L16 (chloroplast) [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 196.8 bits (499), Expect = 2.400e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 97  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 134
[Close]
BLAST of Spo13650.1 vs. NCBI nr
Match: gi|836613869|ref|YP_009143677.1| (ribosomal protein L16 (chloroplast) [Salicornia brachiata])

HSP 1 Score: 196.8 bits (499), Expect = 2.400e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. NCBI nr
Match: gi|628819131|gb|AHY80564.1| (ribosomal protein L16 (plastid) [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 196.8 bits (499), Expect = 2.400e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 97  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 134
[Close]
BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Match: C6L8P0_SPIOL (50S ribosomal protein L16, chloroplastic (Fragment) OS=Spinacia oleracea PE=3 SV=1)

HSP 1 Score: 197.2 bits (500), Expect = 1.300e-47
Identity = 98/98 (100.00%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 19  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 78

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII
Sbjct: 79  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 116
[Close]
BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Match: A0A0G2QX96_9CARY (50S ribosomal protein L16, chloroplastic OS=Salicornia brachiata GN=rpl16 PE=3 SV=1)

HSP 1 Score: 196.8 bits (499), Expect = 1.700e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Match: A0A0G2QY65_SALBI (50S ribosomal protein L16, chloroplastic OS=Salicornia bigelovii GN=rpl16 PE=3 SV=1)

HSP 1 Score: 196.8 bits (499), Expect = 1.700e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Match: A0A023ZQ65_BETVU (Ribosomal protein L16 OS=Beta vulgaris subsp. vulgaris GN=rpl16 PE=3 SV=1)

HSP 1 Score: 196.8 bits (499), Expect = 1.700e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 97  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 134
[Close]
BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Match: A0A0G2QXE9_SALEU (50S ribosomal protein L16, chloroplastic OS=Salicornia europaea GN=rpl16 PE=3 SV=1)

HSP 1 Score: 196.8 bits (499), Expect = 1.700e-47
Identity = 97/98 (98.98%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRA+AIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAIAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Match: RK16_SPIOL (50S ribosomal protein L16, chloroplastic OS=Spinacia oleracea GN=rpl16 PE=1 SV=2)

HSP 1 Score: 197.2 bits (500), Expect = 1.100e-49
Identity = 98/98 (100.00%), Postives = 98/98 (100.00%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Match: RK16_MORIN (50S ribosomal protein L16, chloroplastic OS=Morus indica GN=rpl16 PE=3 SV=1)

HSP 1 Score: 190.7 bits (483), Expect = 1.100e-47
Identity = 92/98 (93.88%), Postives = 96/98 (97.96%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKP+TVRP ETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPITVRPTETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYE+SGV ENIAR+A+AIAASKMPIRTQFII
Sbjct: 96  VVKPGRILYEMSGVPENIARKAIAIAASKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Match: RK16_DAUCA (50S ribosomal protein L16, chloroplastic OS=Daucus carota GN=rpl16 PE=3 SV=1)

HSP 1 Score: 190.3 bits (482), Expect = 1.400e-47
Identity = 92/98 (93.88%), Postives = 96/98 (97.96%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYE+ GV ENIARRA++IA+SKMPIRTQFII
Sbjct: 96  VVKPGRILYEMGGVTENIARRAISIASSKMPIRTQFII 133
[Close]
BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Match: RK16_GUIAB (50S ribosomal protein L16, chloroplastic OS=Guizotia abyssinica GN=rpl16 PE=3 SV=1)

HSP 1 Score: 189.5 bits (480), Expect = 2.400e-47
Identity = 92/98 (93.88%), Postives = 95/98 (96.94%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA
Sbjct: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VVKPGRILYE+ GV ENIARRA++IAASKMPIR QFII
Sbjct: 97  VVKPGRILYEMGGVTENIARRAISIAASKMPIRAQFII 134
[Close]
BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Match: RK16_CUCSA (50S ribosomal protein L16, chloroplastic OS=Cucumis sativus GN=rpl16 PE=3 SV=1)

HSP 1 Score: 189.5 bits (480), Expect = 2.400e-47
Identity = 91/97 (93.81%), Postives = 96/97 (98.97%), Query Frame = 1 

		  

Query: 37  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVA 96
           ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVT+RP ETRMGSGKGSPEYWVA
Sbjct: 36  ALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTLRPTETRMGSGKGSPEYWVA 95

Query: 97  VVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFI 134
           VVKPGRILYE+SGVAENIAR+A++IAASKMPIRTQFI
Sbjct: 96  VVKPGRILYEMSGVAENIARKAISIAASKMPIRTQFI 132
[Close]
BLAST of Spo13650.1 vs. TAIR (Arabidopsis)
Match: ATCG00790.1 (ribosomal protein L16)

HSP 1 Score: 184.5 bits (467), Expect = 4.300e-47
Identity = 88/97 (90.72%), Postives = 94/97 (96.91%), Query Frame = 1 

		  

Query: 38  LEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAV 97
           LEPAWITSRQIEAGRRAMTRN RRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAV
Sbjct: 37  LEPAWITSRQIEAGRRAMTRNVRRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAV 96

Query: 98  VKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VKPG+ILYE+ GV ENIAR+A++IAASKMPI+TQFII
Sbjct: 97  VKPGKILYEMGGVPENIARKAISIAASKMPIKTQFII 133
[Close]
BLAST of Spo13650.1 vs. TAIR (Arabidopsis)
Match: AT2G28830.1 (PLANT U-BOX 12)

HSP 1 Score: 147.5 bits (371), Expect = 5.800e-36
Identity = 70/97 (72.16%), Postives = 83/97 (85.57%), Query Frame = 1 

		  

Query: 38  LEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAV 97
           LEPAWITSRQIEAGRRAMTRN  RG  + V IF DKPVTVRP ETRMG GKG+P +WVAV
Sbjct: 864 LEPAWITSRQIEAGRRAMTRNIGRGLTVRVHIFADKPVTVRPPETRMGRGKGAPAFWVAV 923

Query: 98  VKPGRILYEISGVAENIARRAVAIAASKMPIRTQFII 135
           VKPG+I+YE+ GV+E +AR A++IAASK+P +T+FII
Sbjct: 924 VKPGKIIYEMGGVSEKVAREAISIAASKLPAKTKFII 960
[Close]
BLAST of Spo13650.1 vs. TAIR (Arabidopsis)
Match: ATMG00080.1 (ribosomal protein L16)

HSP 1 Score: 84.7 bits (208), Expect = 4.600e-17
Identity = 45/99 (45.45%), Postives = 61/99 (61.62%), Query Frame = 1 

		  

Query: 43  ITSRQIEAGRRA--------MTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYW 102
           ++ R IEA RRA        M+   RR GKIWVR+F D P+T +P E RMG GKG+P  W
Sbjct: 78  LSYRAIEAARRAIIGHFHRAMSGQFRRNGKIWVRVFADLPITGKPTEVRMGRGKGNPTGW 137

Query: 103 VAVVKPGRILYEISGVAENIARRAVAIAASKMPIRTQFI 134
           +A V  G+I +E+ GV+   AR+A  +AA K    T+F+
Sbjct: 138 IARVSTGQIPFEMDGVSLANARQAATLAAHKPCSSTKFV 176
The following BLAST results are available for this feature:
BLAST of Spo13650.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|11497564|ref|NP_054972.1|1.8e-47100.ribosomal protein L16 [Spinaci... [more]
gi|255706978|dbj|BAH95839.1|1.8e-47100.ribosomal protein L16 [Spinaci... [more]
gi|932252370|gb|ALG63326.1|2.4e-4798.9ribosomal protein L16 (chlorop... [more]
gi|836613869|ref|YP_009143677.1|2.4e-4798.9ribosomal protein L16 (chlorop... [more]
gi|628819131|gb|AHY80564.1|2.4e-4798.9ribosomal protein L16 (plastid... [more]
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BLAST of Spo13650.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
C6L8P0_SPIOL1.3e-47100.50S ribosomal protein L16, chl... [more]
A0A0G2QX96_9CARY1.7e-4798.950S ribosomal protein L16, chl... [more]
A0A0G2QY65_SALBI1.7e-4798.950S ribosomal protein L16, chl... [more]
A0A023ZQ65_BETVU1.7e-4798.9Ribosomal protein L16 OS=Beta ... [more]
A0A0G2QXE9_SALEU1.7e-4798.950S ribosomal protein L16, chl... [more]
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BLAST of Spo13650.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
RK16_SPIOL1.1e-49100.50S ribosomal protein L16, chl... [more]
RK16_MORIN1.1e-4793.850S ribosomal protein L16, chl... [more]
RK16_DAUCA1.4e-4793.850S ribosomal protein L16, chl... [more]
RK16_GUIAB2.4e-4793.850S ribosomal protein L16, chl... [more]
RK16_CUCSA2.4e-4793.850S ribosomal protein L16, chl... [more]
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BLAST of Spo13650.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 3
Match NameE-valueIdentityDescription
ATCG00790.14.3e-4790.7ribosomal protein L16[more]
AT2G28830.15.8e-3672.1PLANT U-BOX 12[more]
ATMG00080.14.6e-1745.4ribosomal protein L16[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000114Ribosomal protein L16PRINTSPR00060RIBOSOMALL16coord: 89..118
score: 3.5E-34coord: 43..54
score: 3.5E-34coord: 59..88
score: 3.5
IPR000114Ribosomal protein L16PANTHERPTHR1222050S/60S RIBOSOMAL PROTEIN L16coord: 37..134
score: 5.2
IPR000114Ribosomal protein L16TIGRFAMsTIGR01164TIGR01164coord: 37..128
score: 3.4
IPR016180Ribosomal protein L10e/L16GENE3D3.90.1170.10coord: 37..134
score: 4.5
IPR016180Ribosomal protein L10e/L16PFAMPF00252Ribosomal_L16coord: 37..133
score: 2.3
IPR016180Ribosomal protein L10e/L16unknownSSF54686Ribosomal protein L16p/L10ecoord: 37..133
score: 2.22
IPR020798Ribosomal protein L16, conserved sitePROSITEPS00586RIBOSOMAL_L16_1coord: 60..71
scor
IPR020798Ribosomal protein L16, conserved sitePROSITEPS00701RIBOSOMAL_L16_2coord: 83..94
scor
NoneNo IPR availablePANTHERPTHR12220:SF14SUBFAMILY NOT NAMEDcoord: 37..134
score: 5.2

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0042254 ribosome biogenesis
biological_process GO:0018298 protein-chromophore linkage
biological_process GO:0006119 oxidative phosphorylation
biological_process GO:0015986 ATP synthesis coupled proton transport
biological_process GO:0015991 ATP hydrolysis coupled proton transport
biological_process GO:0006334 nucleosome assembly
biological_process GO:0015979 photosynthesis
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0006412 translation
biological_process GO:0009767 photosynthetic electron transport chain
cellular_component GO:0045261 proton-transporting ATP synthase complex, catalytic core F(1)
cellular_component GO:0005886 plasma membrane
cellular_component GO:0005743 mitochondrial inner membrane
cellular_component GO:0009522 photosystem I
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0009523 photosystem II
cellular_component GO:0009535 chloroplast thylakoid membrane
cellular_component GO:0005622 intracellular
cellular_component GO:0009507 chloroplast
cellular_component GO:0005739 mitochondrion
cellular_component GO:0005840 ribosome
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0015934 large ribosomal subunit
cellular_component GO:0000786 nucleosome
cellular_component GO:0005634 nucleus
molecular_function GO:0051539 4 iron, 4 sulfur cluster binding
molecular_function GO:0009055 electron transfer activity
molecular_function GO:0000287 magnesium ion binding
molecular_function GO:0003677 DNA binding
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0019843 rRNA binding
molecular_function GO:0016168 chlorophyll binding
molecular_function GO:0003682 chromatin binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0046961 proton-transporting ATPase activity, rotational mechanism
molecular_function GO:0046933 proton-transporting ATP synthase activity, rotational mechanism
molecular_function GO:0016491 oxidoreductase activity
RNA-Seq Expression