MELO3C005959 (gene) Melon (DHL92) v3.5.1

NameMELO3C005959
Typegene
OrganismCucumis melo (Melon (DHL92) v3.5.1)
DescriptionProtein transport protein Sec61 subunit beta
Locationchr6 : 226869 .. 247676 (+)
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AAAAGAAGAAACGAAAATAGAAGAAAAGAAAAGAAAAGTTAGAATTAGCATTCCCTTCTGAATTCCAATTCCATCTCCCCATTCCAAACAAACAACTCTTCTTCGATTTTGTCTCAGAATGGCTTTAGGTGGAGGTCCCCAGAGAGGAAGTGCGGCAGCTACTGCCAGCATGCGCAGGAGAAGAACAACAAGTTCTGGTACATCTGGAGGTGCAGCTGGAACAATGCTGCAGTTTTACACGGATGATGCTCCTGGACTCAAGATATCCCCCAATGTTGTTCTCGTCATGAGCATTGGTTTCATTGCTTTTGTTGCCGTTCTCCATGTTATGGCCCTACTGCAATTTATAACAATGACAACCGCCGGAGTGTAGAATCAGATTTGTTGTGGAAATGACAGTCAATTTCCATATTCTGCCTGTGTTATAATTGATATATTTAAGCAATAAGTTCTTAATAGTTTTTCTTTCTTC

Coding sequence (CDS)

ATGGCTTTAGGTGGAGGTCCCCAGAGAGGAAGTGCGGCAGCTACTGCCAGCATGCGCAGGAGAAGAACAACAAGTTCTGGTACATCTGGAGGTGCAGCTGGAACAATGCTGCAGTTTTACACGGATGATGCTCCTGGACTCAAGATATCCCCCAATGTTGTTCTCGTCATGAGCATTGGTTTCATTGCTTTTGTTGCCGTTCTCCATGTTATGGCCCTACTGCAATTTATAACAATGACAACCGCCGGAGTGTAG

Protein sequence

MALGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIGFIAFVAVLHVMALLQFITMTTAGV*
BLAST of MELO3C005959 vs. Swiss-Prot
Match: SC61B_ARATH (Protein transport protein Sec61 subunit beta OS=Arabidopsis thaliana GN=At2g45070 PE=1 SV=1)

HSP 1 Score: 119.8 bits (299), Expect = 1.5e-26
Identity = 63/81 (77.78%), Postives = 65/81 (80.25%), Query Frame = 1

Query: 1  MALGGGPQRGSAAATASMRRRRTTSS----GTSGGAAGTMLQFYTDDAPGLKISPNVVLV 60
          M   G PQRGSAAATASMRRR+ TS     G SGGAAG+MLQFYTDDAPGLKISPNVVL+
Sbjct: 1  MVGSGAPQRGSAAATASMRRRKPTSGAGGGGASGGAAGSMLQFYTDDAPGLKISPNVVLI 60

Query: 61 MSIGFIAFVAVLHVMALLQFI 78
          MSIGFIAFVAVLHVM  L F+
Sbjct: 61 MSIGFIAFVAVLHVMGKLYFV 81

BLAST of MELO3C005959 vs. Swiss-Prot
Match: SC61B_YARLI (Protein transport protein Sec61 subunit beta OS=Yarrowia lipolytica (strain CLIB 122 / E 150) GN=SBH1 PE=3 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 1.8e-08
Identity = 30/59 (50.85%), Postives = 40/59 (67.80%), Query Frame = 1

Query: 14 ATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIGFIAFVAVLHVMA 73
          A AS R   T S G +GG++ TML+ YTD++ GLK+ P VV+V+S+GFI  V  LH++A
Sbjct: 26 AKASQRPTSTRSVG-AGGSSSTMLKLYTDESQGLKVDPVVVMVLSLGFIFSVVALHILA 83

BLAST of MELO3C005959 vs. Swiss-Prot
Match: SC61B_SCHPO (Protein transport protein sec61 subunit beta OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sbh1 PE=3 SV=1)

HSP 1 Score: 57.0 bits (136), Expect = 1.2e-07
Identity = 29/75 (38.67%), Postives = 44/75 (58.67%), Query Frame = 1

Query: 5  GGPQRGSAAATASMRRRRTTSSGTSG-------GAAGTMLQFYTDDAPGLKISPNVVLVM 64
          GGP+       A  +  + ++SG +G       G+  T+L+ YTD+A G K+ P VV+V+
Sbjct: 19 GGPKSQIRRRAAVEKNTKESNSGPAGARAAGAPGSTPTLLKLYTDEASGFKVDPVVVMVL 78

Query: 65 SIGFIAFVAVLHVMA 73
          S+GFIA V +LH++A
Sbjct: 79 SVGFIASVFLLHIVA 93

BLAST of MELO3C005959 vs. Swiss-Prot
Match: SC61B_CANLF (Protein transport protein Sec61 subunit beta OS=Canis lupus familiaris GN=SEC61B PE=1 SV=2)

HSP 1 Score: 55.8 bits (133), Expect = 2.6e-07
Identity = 32/75 (42.67%), Postives = 43/75 (57.33%), Query Frame = 1

Query: 4  GGGPQRGSAAATA--SMRRRRTTSSGT------SGGAAGTMLQFYTDDAPGLKISPNVVL 63
          G  P +  AA  A  ++R+R+  S GT      +    G M +FYT+D+PGLK+ P  VL
Sbjct: 15 GRSPSKAVAARAAGSTVRQRKNASCGTRSAGRTTSAGTGGMWRFYTEDSPGLKVGPVPVL 74

Query: 64 VMSIGFIAFVAVLHV 71
          VMS+ FIA V +LH+
Sbjct: 75 VMSLLFIASVFMLHI 89

BLAST of MELO3C005959 vs. Swiss-Prot
Match: SC61B_HUMAN (Protein transport protein Sec61 subunit beta OS=Homo sapiens GN=SEC61B PE=1 SV=2)

HSP 1 Score: 55.8 bits (133), Expect = 2.6e-07
Identity = 32/75 (42.67%), Postives = 43/75 (57.33%), Query Frame = 1

Query: 4  GGGPQRGSAAATA--SMRRRRTTSSGT------SGGAAGTMLQFYTDDAPGLKISPNVVL 63
          G  P +  AA  A  ++R+R+  S GT      +    G M +FYT+D+PGLK+ P  VL
Sbjct: 15 GRSPSKAVAARAAGSTVRQRKNASCGTRSAGRTTSAGTGGMWRFYTEDSPGLKVGPVPVL 74

Query: 64 VMSIGFIAFVAVLHV 71
          VMS+ FIA V +LH+
Sbjct: 75 VMSLLFIASVFMLHI 89

BLAST of MELO3C005959 vs. TrEMBL
Match: A0A0A0L6Y8_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G117430 PE=4 SV=1)

HSP 1 Score: 139.0 bits (349), Expect = 2.6e-30
Identity = 73/78 (93.59%), Postives = 74/78 (94.87%), Query Frame = 1

Query: 1  MAL-GGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          MAL GGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI
Sbjct: 1  MALGGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

BLAST of MELO3C005959 vs. TrEMBL
Match: A0A151R1A8_CAJCA (Protein transport protein Sec61 subunit beta OS=Cajanus cajan GN=KK1_042494 PE=4 SV=1)

HSP 1 Score: 133.3 bits (334), Expect = 1.4e-28
Identity = 69/79 (87.34%), Postives = 71/79 (89.87%), Query Frame = 1

Query: 1  MALGGG--PQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMS 60
          MALGGG  PQRGSAAATASMRRRRTT  G SGGAAGTMLQFYTDDAPGLKISPNVVLVMS
Sbjct: 1  MALGGGTAPQRGSAAATASMRRRRTTGGGASGGAAGTMLQFYTDDAPGLKISPNVVLVMS 60

Query: 61 IGFIAFVAVLHVMALLQFI 78
          IGFIAFVA+LHVM  L F+
Sbjct: 61 IGFIAFVAILHVMGKLYFV 79

BLAST of MELO3C005959 vs. TrEMBL
Match: I3T8K1_LOTJA (Uncharacterized protein OS=Lotus japonicus PE=2 SV=1)

HSP 1 Score: 131.3 bits (329), Expect = 5.4e-28
Identity = 69/78 (88.46%), Postives = 70/78 (89.74%), Query Frame = 1

Query: 1  MALGGG-PQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          MALGG  PQRGSAAA ASMRRRRTTS G SGGAAGTMLQFYTDDAPGLKISPNVVLVMSI
Sbjct: 1  MALGGAAPQRGSAAAAASMRRRRTTSGGASGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

BLAST of MELO3C005959 vs. TrEMBL
Match: W9QQ35_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_021777 PE=4 SV=1)

HSP 1 Score: 130.2 bits (326), Expect = 1.2e-27
Identity = 67/78 (85.90%), Postives = 70/78 (89.74%), Query Frame = 1

Query: 1   MALGGG-PQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
           M LGG  P RGSAAATASMRRRRTTSSG SGGAAGTMLQFYTDDAPGLKISPNVVL+MSI
Sbjct: 511 MVLGGAAPPRGSAAATASMRRRRTTSSGASGGAAGTMLQFYTDDAPGLKISPNVVLIMSI 570

Query: 61  GFIAFVAVLHVMALLQFI 78
           GFIAFVA+LHVM  L F+
Sbjct: 571 GFIAFVAILHVMGKLYFV 588

BLAST of MELO3C005959 vs. TrEMBL
Match: V7AKD3_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_011G169200g PE=4 SV=1)

HSP 1 Score: 128.3 bits (321), Expect = 4.6e-27
Identity = 67/78 (85.90%), Postives = 69/78 (88.46%), Query Frame = 1

Query: 1  MALGG-GPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          MALGG  P RGSAAATA+MRRRRTT  G SGGAAGTMLQFYTDDAPGLKISPNVVLVMSI
Sbjct: 1  MALGGTAPPRGSAAATANMRRRRTTGGGASGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

BLAST of MELO3C005959 vs. TAIR10
Match: AT2G45070.1 (AT2G45070.1 Preprotein translocase Sec, Sec61-beta subunit protein)

HSP 1 Score: 119.8 bits (299), Expect = 8.3e-28
Identity = 63/81 (77.78%), Postives = 65/81 (80.25%), Query Frame = 1

Query: 1  MALGGGPQRGSAAATASMRRRRTTSS----GTSGGAAGTMLQFYTDDAPGLKISPNVVLV 60
          M   G PQRGSAAATASMRRR+ TS     G SGGAAG+MLQFYTDDAPGLKISPNVVL+
Sbjct: 1  MVGSGAPQRGSAAATASMRRRKPTSGAGGGGASGGAAGSMLQFYTDDAPGLKISPNVVLI 60

Query: 61 MSIGFIAFVAVLHVMALLQFI 78
          MSIGFIAFVAVLHVM  L F+
Sbjct: 61 MSIGFIAFVAVLHVMGKLYFV 81

BLAST of MELO3C005959 vs. TAIR10
Match: AT3G60540.1 (AT3G60540.1 Preprotein translocase Sec, Sec61-beta subunit protein)

HSP 1 Score: 118.2 bits (295), Expect = 2.4e-27
Identity = 61/78 (78.21%), Postives = 64/78 (82.05%), Query Frame = 1

Query: 1  MALGGGPQRGSAAATASMRRRRTTS-SGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          M  GG PQRGSAAATASMRRR+    S ++GG AGTMLQFYTDDAPGLKISPNVVL+MSI
Sbjct: 1  MVGGGAPQRGSAAATASMRRRKPAGGSSSAGGGAGTMLQFYTDDAPGLKISPNVVLIMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

BLAST of MELO3C005959 vs. TAIR10
Match: AT5G60460.1 (AT5G60460.1 Preprotein translocase Sec, Sec61-beta subunit protein)

HSP 1 Score: 81.6 bits (200), Expect = 2.5e-16
Identity = 46/74 (62.16%), Postives = 49/74 (66.22%), Query Frame = 1

Query: 9   RGSAAATASMRRRRTTSSG--TSGGAAGT------MLQFYTDDAPGLKISPNVVLVMSIG 68
           RGSAAATA MRRRR    G  +SGG +G       ML+FYTDDAPGLKISP VVL+MS+ 
Sbjct: 27  RGSAAATAGMRRRRLGGGGGVSSGGGSGVGSGSSNMLRFYTDDAPGLKISPTVVLIMSLC 86

Query: 69  FIAFVAVLHVMALL 75
           FI FV  LHV   L
Sbjct: 87  FIGFVTALHVFGKL 100

BLAST of MELO3C005959 vs. NCBI nr
Match: gi|659074770|ref|XP_008437786.1| (PREDICTED: protein transport protein Sec61 subunit beta [Cucumis melo])

HSP 1 Score: 143.7 bits (361), Expect = 1.5e-31
Identity = 73/77 (94.81%), Postives = 74/77 (96.10%), Query Frame = 1

Query: 1  MALGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIG 60
          MALGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIG
Sbjct: 1  MALGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIG 60

Query: 61 FIAFVAVLHVMALLQFI 78
          FIAFVAVLHVM  L F+
Sbjct: 61 FIAFVAVLHVMGKLYFV 77

BLAST of MELO3C005959 vs. NCBI nr
Match: gi|778676662|ref|XP_011650635.1| (PREDICTED: protein transport protein Sec61 subunit beta [Cucumis sativus])

HSP 1 Score: 139.0 bits (349), Expect = 3.7e-30
Identity = 73/78 (93.59%), Postives = 74/78 (94.87%), Query Frame = 1

Query: 1  MAL-GGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          MAL GGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI
Sbjct: 1  MALGGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

BLAST of MELO3C005959 vs. NCBI nr
Match: gi|1012324382|gb|KYP36388.1| (Protein transport protein Sec61 subunit beta [Cajanus cajan])

HSP 1 Score: 133.3 bits (334), Expect = 2.0e-28
Identity = 69/79 (87.34%), Postives = 71/79 (89.87%), Query Frame = 1

Query: 1  MALGGG--PQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMS 60
          MALGGG  PQRGSAAATASMRRRRTT  G SGGAAGTMLQFYTDDAPGLKISPNVVLVMS
Sbjct: 1  MALGGGTAPQRGSAAATASMRRRRTTGGGASGGAAGTMLQFYTDDAPGLKISPNVVLVMS 60

Query: 61 IGFIAFVAVLHVMALLQFI 78
          IGFIAFVA+LHVM  L F+
Sbjct: 61 IGFIAFVAILHVMGKLYFV 79

BLAST of MELO3C005959 vs. NCBI nr
Match: gi|1009118304|ref|XP_015875787.1| (PREDICTED: protein transport protein Sec61 subunit beta-like [Ziziphus jujuba])

HSP 1 Score: 132.5 bits (332), Expect = 3.5e-28
Identity = 67/81 (82.72%), Postives = 69/81 (85.19%), Query Frame = 1

Query: 1  MALGGGPQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSIG 60
          M  GG PQRGSAAATASMRRRRTTS  TSGGAAGTMLQFYTDDAPGLKISPNVVL+MSIG
Sbjct: 1  MVTGGAPQRGSAAATASMRRRRTTSGATSGGAAGTMLQFYTDDAPGLKISPNVVLIMSIG 60

Query: 61 FIAFVAVLHVMALLQFITMTT 82
          FIAFVA+LHVM  L F    T
Sbjct: 61 FIAFVAILHVMGKLYFARRET 81

BLAST of MELO3C005959 vs. NCBI nr
Match: gi|388521563|gb|AFK48843.1| (unknown [Lotus japonicus])

HSP 1 Score: 131.3 bits (329), Expect = 7.8e-28
Identity = 69/78 (88.46%), Postives = 70/78 (89.74%), Query Frame = 1

Query: 1  MALGGG-PQRGSAAATASMRRRRTTSSGTSGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60
          MALGG  PQRGSAAA ASMRRRRTTS G SGGAAGTMLQFYTDDAPGLKISPNVVLVMSI
Sbjct: 1  MALGGAAPQRGSAAAAASMRRRRTTSGGASGGAAGTMLQFYTDDAPGLKISPNVVLVMSI 60

Query: 61 GFIAFVAVLHVMALLQFI 78
          GFIAFVAVLHVM  L F+
Sbjct: 61 GFIAFVAVLHVMGKLYFV 78

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
SC61B_ARATH1.5e-2677.78Protein transport protein Sec61 subunit beta OS=Arabidopsis thaliana GN=At2g4507... [more]
SC61B_YARLI1.8e-0850.85Protein transport protein Sec61 subunit beta OS=Yarrowia lipolytica (strain CLIB... [more]
SC61B_SCHPO1.2e-0738.67Protein transport protein sec61 subunit beta OS=Schizosaccharomyces pombe (strai... [more]
SC61B_CANLF2.6e-0742.67Protein transport protein Sec61 subunit beta OS=Canis lupus familiaris GN=SEC61B... [more]
SC61B_HUMAN2.6e-0742.67Protein transport protein Sec61 subunit beta OS=Homo sapiens GN=SEC61B PE=1 SV=2[more]
Match NameE-valueIdentityDescription
A0A0A0L6Y8_CUCSA2.6e-3093.59Uncharacterized protein OS=Cucumis sativus GN=Csa_3G117430 PE=4 SV=1[more]
A0A151R1A8_CAJCA1.4e-2887.34Protein transport protein Sec61 subunit beta OS=Cajanus cajan GN=KK1_042494 PE=4... [more]
I3T8K1_LOTJA5.4e-2888.46Uncharacterized protein OS=Lotus japonicus PE=2 SV=1[more]
W9QQ35_9ROSA1.2e-2785.90Uncharacterized protein OS=Morus notabilis GN=L484_021777 PE=4 SV=1[more]
V7AKD3_PHAVU4.6e-2785.90Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_011G169200g PE=4 SV=1[more]
Match NameE-valueIdentityDescription
AT2G45070.18.3e-2877.78 Preprotein translocase Sec, Sec61-beta subunit protein[more]
AT3G60540.12.4e-2778.21 Preprotein translocase Sec, Sec61-beta subunit protein[more]
AT5G60460.12.5e-1662.16 Preprotein translocase Sec, Sec61-beta subunit protein[more]
Match NameE-valueIdentityDescription
gi|659074770|ref|XP_008437786.1|1.5e-3194.81PREDICTED: protein transport protein Sec61 subunit beta [Cucumis melo][more]
gi|778676662|ref|XP_011650635.1|3.7e-3093.59PREDICTED: protein transport protein Sec61 subunit beta [Cucumis sativus][more]
gi|1012324382|gb|KYP36388.1|2.0e-2887.34Protein transport protein Sec61 subunit beta [Cajanus cajan][more]
gi|1009118304|ref|XP_015875787.1|3.5e-2882.72PREDICTED: protein transport protein Sec61 subunit beta-like [Ziziphus jujuba][more]
gi|388521563|gb|AFK48843.1|7.8e-2888.46unknown [Lotus japonicus][more]
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR016482SecG/Sec61-beta/Sbh
IPR016482SecG/Sec61-beta/Sbh
Vocabulary: Cellular Component
TermDefinition
GO:0005784Sec61 translocon complex
GO:0005784Sec61 translocon complex
Vocabulary: Biological Process
TermDefinition
GO:0006886intracellular protein transport
GO:0006886intracellular protein transport
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006886 intracellular protein transport
biological_process GO:0034976 response to endoplasmic reticulum stress
biological_process GO:0009627 systemic acquired resistance
biological_process GO:0019953 sexual reproduction
cellular_component GO:0005784 Sec61 translocon complex
cellular_component GO:0005576 extracellular region
molecular_function GO:0003674 molecular_function
This gene is associated with the following unigenes:
Unigene NameAnalysis NameSequence type in Unigene
MU45987melon EST collection version 4.0transcribed_cluster
MU47090melon EST collection version 4.0transcribed_cluster
MU67414melon EST collection version 4.0transcribed_cluster

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

Feature NameUnique NameType
MELO3C005959T1MELO3C005959T1mRNA
MELO3C005959T2MELO3C005959T2mRNA


The following transcribed_cluster feature(s) are associated with this gene:

Feature NameUnique NameType
MU47090MU47090transcribed_cluster
MU45987MU45987transcribed_cluster
MU67414MU67414transcribed_cluster


Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR016482Protein transport protein SecG/Sec61-beta/SbhPFAMPF03911Sec61_betacoord: 33..72
score: 1.6
NoneNo IPR availablePANTHERPTHR13509:SF2PREPROTEIN TRANSLOCASE SEC, SEC61-BETA SUBUNIT PROTEIN-RELATEDcoord: 4..80
score: 3.5

The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
MELO3C005959Cp4.1LG03g15720Cucurbita pepo (Zucchini)cpemeB585
The following gene(s) are paralogous to this gene:

None