Spo14142 (gene)

Overview
NameSpo14142
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionRhomboid family protein
LocationSpoScf_00850 : 243798 .. 262424 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGGGGCGGCGGCTCCTTATGCCCTGCCCCAGGGACGGGCCTGGGGTGGGGGATTGTTTACAGGGTTTACACAGCTGTGTAAAGGGCTTGCAGTGGTGCTTGTCGGTGGCCACATTGTAGTTCAGCTTTTACCTCTGGCCGTCACTTATCTCGCTCTTATTCCTGCAAGGACAATTCCTTTTGCGTGGAATCTCCTAACAGCTGGTTACATTGAACAGACAACATATGGGGCGGCGATTAGTATATTTGCTCTACTTTTCATTGGAAAGCTGCTTGAACCCATTTGGGGTTCTAAGGAATTTGTGAAGTTCATCCTTGTTGTCAACTTTCTTACTTACGTCTGTGTCTTCATCACGGCAATTGCTTTTTACTATGCAACAAGGCTGGAAATTTACCTCTATATGCCAATCTCTGGCTTCCATGGAGTGCTTTCAGGGTTTCTGGTTGGTATCAAGCAAATCATCCCCGATCAGGAGCTTTCTGTATTTGGAATTGCAAAAATTAAAGCTAAGAGAAGATCAGAAACTAACTTCAGGGGTGACCCAAGTGATGAGTTTGCATTTGCCACTTTCTTCCCAGAATTTTTAAGACCAGTGGTTAATCCTATTTCAACAATTTTCCATCGGATGTTCTGTGGAAGGTCTGATATTTCTAATGAGGGAAATGGTTATGATCTGGGAGGGATCCCACTTCCAGGCTCTGATTCGATTGAGGCTTCAAGACGAAGAGAAAGAGGTGCTCGGGCTCTCGAGGAAAGGTTAGCAACAGAAAGGTTGGTTGGTGCAACAACCGTAGATGGACAACATATAGATGCCTCTGAGGAAGTCTGAATCTTAACTCTGCTACAGCGCTTAACCTACTGTTGGTCTATTAAGCGGCATGTAGCAAGCCTTTCATATCATCTTCTTCTTCTCCTAATCTGGACTGAGCCATCGACCACCATGTGGAATGATAATGCATCCTTGCTCAAGACATTAAACCACCTGCGATCGCAGTTCACAACACGAAACTTCCGCCACGCAGGCCGCAATCGGCCCACCAGCCACCGGCCCACCAGCCACCGGCCCACCACTCCACCAGGTCATCCGAGTTCCG

Coding sequence (CDS)

ATGGGGGCGGCGGCTCCTTATGCCCTGCCCCAGGGACGGGCCTGGGGTGGGGGATTGTTTACAGGGTTTACACAGCTGTGTAAAGGGCTTGCAGTGGTGCTTGTCGGTGGCCACATTGTAGTTCAGCTTTTACCTCTGGCCGTCACTTATCTCGCTCTTATTCCTGCAAGGACAATTCCTTTTGCGTGGAATCTCCTAACAGCTGGTTACATTGAACAGACAACATATGGGGCGGCGATTAGTATATTTGCTCTACTTTTCATTGGAAAGCTGCTTGAACCCATTTGGGGTTCTAAGGAATTTGTGAAGTTCATCCTTGTTGTCAACTTTCTTACTTACGTCTGTGTCTTCATCACGGCAATTGCTTTTTACTATGCAACAAGGCTGGAAATTTACCTCTATATGCCAATCTCTGGCTTCCATGGAGTGCTTTCAGGGTTTCTGGTTGGTATCAAGCAAATCATCCCCGATCAGGAGCTTTCTGTATTTGGAATTGCAAAAATTAAAGCTAAGAGAAGATCAGAAACTAACTTCAGGGGTGACCCAAGTGATGAGTTTGCATTTGCCACTTTCTTCCCAGAATTTTTAAGACCAGTGGTTAATCCTATTTCAACAATTTTCCATCGGATGTTCTGTGGAAGGTCTGATATTTCTAATGAGGGAAATGGTTATGATCTGGGAGGGATCCCACTTCCAGGCTCTGATTCGATTGAGGCTTCAAGACGAAGAGAAAGAGGTGCTCGGGCTCTCGAGGAAAGGTTAGCAACAGAAAGGTTGGTTGGTGCAACAACCGTAGATGGACAACATATAGATGCCTCTGAGGAAGTCTGA

Protein sequence

MGAAAPYALPQGRAWGGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTTYGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYMPISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAKRRSETNFRGDPSDEFAFATFFPEFLRPVVNPISTIFHRMFCGRSDISNEGNGYDLGGIPLPGSDSIEASRRRERGARALEERLATERLVGATTVDGQHIDASEEV
Relationships

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

Feature NameUnique NameType
Spo14142.1Spo14142.1mRNA


Homology
[Close]
BLAST of Spo14142.1 vs. NCBI nr
Match: gi|586761535|ref|XP_006854488.1| (PREDICTED: transmembrane protein 115 [Amborella trichopoda])

HSP 1 Score: 321.2 bits (822), Expect = 1.700e-84
Identity = 174/307 (56.68%), Postives = 209/307 (68.08%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           GG LF+GFT+L KGLAVVLV G+ ++Q+ P A++Y+ALIPA+TIPFAWNL+TAGYIEQ+ 
Sbjct: 14  GGSLFSGFTRLSKGLAVVLVAGYAILQIFPPALSYVALIPAKTIPFAWNLMTAGYIEQSI 73

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG   +   LLFIGKLLEPIWGS+EF+KFI+VVNFLT VC F+T IA YY T  E +LY 
Sbjct: 74  YGLVFNTLGLLFIGKLLEPIWGSREFLKFIIVVNFLTSVCAFVTTIALYYITTQERFLYT 133

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIK-------------------------- 195
           P+SGFHGVL+GF VGIKQIIPD EL  F   K K                          
Sbjct: 134 PLSGFHGVLAGFFVGIKQIIPDHELITFISLKAKWMPSLLILTSIVITFLTSESASYLPF 193

Query: 196 --------------AKRRSETNFRGDPSDEFAFATFFPEFLRPVVNPISTIFHRMFCGRS 255
                          ++  ETN++GDPSDEFAF TFFPEFLRPV++P+ ++  R+FCGRS
Sbjct: 194 LIFGTYMSWLYLRYLQKNPETNWKGDPSDEFAFLTFFPEFLRPVIDPVGSVCERLFCGRS 253

Query: 256 DISNEGNGYDLGGIPLPGSDSIEASRRRERGARALEERLATERLV----GATTVDGQHI- 277
           ++S EGNG+ LGG PLPGSD IEASRRRERGARALEERLA E +     G       HI 
Sbjct: 254 EVSTEGNGHILGGAPLPGSDPIEASRRRERGARALEERLAAEEVAASGGGNAEESSPHIV 313
[Close]
BLAST of Spo14142.1 vs. NCBI nr
Match: gi|731361665|ref|XP_010692485.1| (PREDICTED: transmembrane protein 115 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 274.6 bits (701), Expect = 1.800e-70
Identity = 140/156 (89.74%), Postives = 147/156 (94.23%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           GGGLFTGFT+LCKGLAVVLV  HIVVQL P AVTYLALIPARTIPFAWNLLTAGY+EQT 
Sbjct: 9   GGGLFTGFTKLCKGLAVVLVVAHIVVQLFPPAVTYLALIPARTIPFAWNLLTAGYVEQTI 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG  IS FALLFIGK+LEPIWGSKEFVKFI +VNFLTYVCVFITAIAFYYATRLEIYLYM
Sbjct: 69  YGVVISTFALLFIGKILEPIWGSKEFVKFIFIVNFLTYVCVFITAIAFYYATRLEIYLYM 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           PISGFHGVLSGFLVGIKQI+PDQELS+FGIAK+KAK
Sbjct: 129 PISGFHGVLSGFLVGIKQIVPDQELSLFGIAKVKAK 164
[Close]
BLAST of Spo14142.1 vs. NCBI nr
Match: gi|720027861|ref|XP_010264708.1| (PREDICTED: transmembrane protein 115-like [Nelumbo nucifera])

HSP 1 Score: 244.6 bits (623), Expect = 2.000e-61
Identity = 152/304 (50.00%), Postives = 178/304 (58.55%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G  LF+GFT+LCKGLA+VLVGG+ ++Q  P AVTYLAL+PARTIPFAWNL+TAGY+EQ+ 
Sbjct: 9   GSSLFSGFTRLCKGLAIVLVGGYALIQFFPGAVTYLALVPARTIPFAWNLITAGYVEQSV 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           +G  I    LLFIGKLLEPIWGS+EFVKFI++VNFLTYVCVF TAIA YY TR E YLY 
Sbjct: 69  FGVVIGTVGLLFIGKLLEPIWGSREFVKFIIIVNFLTYVCVFTTAIALYYITRQESYLYT 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAKRRSE--------TNFRGDPSDEFA 195
           P+SGFHG LSGFLVGIKQI+PDQELS+F + KIKAK  S         T+F  D S  + 
Sbjct: 129 PLSGFHGALSGFLVGIKQIVPDQELSLFSVLKIKAKWVSSIMLLLAIATSFFTDDSASYL 188

Query: 196 FATFFPEFL----------RPVVN---------PISTIFHRMF----------CGRSDIS 255
               F  +           +P  N            T F                R    
Sbjct: 189 PTLIFGTYTSWIYLRYLQRKPETNLKGDPSQEFAFLTFFPEFLRPVIDPIASVLDRMLCG 248

Query: 256 NEGNGYDLGGIPLPGSDSIEASRRRER------GARALEERLATERLVGATTVDGQHIDA 277
                 +  G  L G D +  S   E       GARALEERLA ERL  A   +  H DA
Sbjct: 249 RSETSNEATGYVL-GGDPLPGSDPIEASRRRERGARALEERLAAERLAAARGTEDSHRDA 308
[Close]
BLAST of Spo14142.1 vs. NCBI nr
Match: gi|225449084|ref|XP_002275709.1| (PREDICTED: transmembrane protein 115 [Vitis vinifera])

HSP 1 Score: 239.6 bits (610), Expect = 6.600e-60
Identity = 120/156 (76.92%), Postives = 136/156 (87.18%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G G F+GFT+LCKGLAVV+VGGH+VVQ  P AV YLALIPARTIPFAWNL+T+GYIEQT 
Sbjct: 9   GTGNFSGFTRLCKGLAVVIVGGHVVVQFFPSAVAYLALIPARTIPFAWNLITSGYIEQTI 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG  +S   LLF+GKLLEPIWG++EF+KFI VVNFLT VCVFITAIA YY TR E YLYM
Sbjct: 69  YGTVVSTVGLLFLGKLLEPIWGTREFLKFIFVVNFLTSVCVFITAIALYYITRQENYLYM 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           P+SGFHGVLSGFLVGIKQIIPDQELS+F + KI+A+
Sbjct: 129 PLSGFHGVLSGFLVGIKQIIPDQELSLFSLLKIRAR 164
[Close]
BLAST of Spo14142.1 vs. NCBI nr
Match: gi|470143468|ref|XP_004307397.1| (PREDICTED: transmembrane protein 115 [Fragaria vesca subsp. vesca])

HSP 1 Score: 235.0 bits (598), Expect = 1.600e-58
Identity = 121/158 (76.58%), Postives = 137/158 (86.71%), Query Frame = 1 

		  

Query: 14  AWGGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQ 73
           A G G F+GFT+LCKGLAVVL+GGHIVVQLLP+AVTYLALIPARTIPF WNL+T+GYIEQ
Sbjct: 7   AGGMGGFSGFTRLCKGLAVVLIGGHIVVQLLPVAVTYLALIPARTIPFVWNLVTSGYIEQ 66

Query: 74  TTYGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYL 133
           + +G  +S   LLFIGKLLEP+WGS+EF+KFI VVNFLT +C+FITAIA YY TR E YL
Sbjct: 67  SIHGVVVSTLGLLFIGKLLEPVWGSREFLKFIFVVNFLTSICIFITAIALYYITRKETYL 126

Query: 134 YMPISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           YMP+SGFHGVLSGFLVGIKQ+IPDQEL V    KIKAK
Sbjct: 127 YMPLSGFHGVLSGFLVGIKQMIPDQELPVI---KIKAK 161
[Close]
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Match: U5D127_AMBTC (Uncharacterized protein OS=Amborella trichopoda GN=AMTR_s00175p00034290 PE=4 SV=1)

HSP 1 Score: 321.2 bits (822), Expect = 1.200e-84
Identity = 174/307 (56.68%), Postives = 209/307 (68.08%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           GG LF+GFT+L KGLAVVLV G+ ++Q+ P A++Y+ALIPA+TIPFAWNL+TAGYIEQ+ 
Sbjct: 14  GGSLFSGFTRLSKGLAVVLVAGYAILQIFPPALSYVALIPAKTIPFAWNLMTAGYIEQSI 73

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG   +   LLFIGKLLEPIWGS+EF+KFI+VVNFLT VC F+T IA YY T  E +LY 
Sbjct: 74  YGLVFNTLGLLFIGKLLEPIWGSREFLKFIIVVNFLTSVCAFVTTIALYYITTQERFLYT 133

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIK-------------------------- 195
           P+SGFHGVL+GF VGIKQIIPD EL  F   K K                          
Sbjct: 134 PLSGFHGVLAGFFVGIKQIIPDHELITFISLKAKWMPSLLILTSIVITFLTSESASYLPF 193

Query: 196 --------------AKRRSETNFRGDPSDEFAFATFFPEFLRPVVNPISTIFHRMFCGRS 255
                          ++  ETN++GDPSDEFAF TFFPEFLRPV++P+ ++  R+FCGRS
Sbjct: 194 LIFGTYMSWLYLRYLQKNPETNWKGDPSDEFAFLTFFPEFLRPVIDPVGSVCERLFCGRS 253

Query: 256 DISNEGNGYDLGGIPLPGSDSIEASRRRERGARALEERLATERLV----GATTVDGQHI- 277
           ++S EGNG+ LGG PLPGSD IEASRRRERGARALEERLA E +     G       HI 
Sbjct: 254 EVSTEGNGHILGGAPLPGSDPIEASRRRERGARALEERLAAEEVAASGGGNAEESSPHIV 313
[Close]
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BIH5_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_1g020510 PE=4 SV=1)

HSP 1 Score: 274.6 bits (701), Expect = 1.300e-70
Identity = 140/156 (89.74%), Postives = 147/156 (94.23%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           GGGLFTGFT+LCKGLAVVLV  HIVVQL P AVTYLALIPARTIPFAWNLLTAGY+EQT 
Sbjct: 9   GGGLFTGFTKLCKGLAVVLVVAHIVVQLFPPAVTYLALIPARTIPFAWNLLTAGYVEQTI 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG  IS FALLFIGK+LEPIWGSKEFVKFI +VNFLTYVCVFITAIAFYYATRLEIYLYM
Sbjct: 69  YGVVISTFALLFIGKILEPIWGSKEFVKFIFIVNFLTYVCVFITAIAFYYATRLEIYLYM 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           PISGFHGVLSGFLVGIKQI+PDQELS+FGIAK+KAK
Sbjct: 129 PISGFHGVLSGFLVGIKQIVPDQELSLFGIAKVKAK 164
[Close]
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Match: D7TMB0_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_13s0019g04120 PE=4 SV=1)

HSP 1 Score: 239.6 bits (610), Expect = 4.600e-60
Identity = 120/156 (76.92%), Postives = 136/156 (87.18%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G G F+GFT+LCKGLAVV+VGGH+VVQ  P AV YLALIPARTIPFAWNL+T+GYIEQT 
Sbjct: 9   GTGNFSGFTRLCKGLAVVIVGGHVVVQFFPSAVAYLALIPARTIPFAWNLITSGYIEQTI 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG  +S   LLF+GKLLEPIWG++EF+KFI VVNFLT VCVFITAIA YY TR E YLYM
Sbjct: 69  YGTVVSTVGLLFLGKLLEPIWGTREFLKFIFVVNFLTSVCVFITAIALYYITRQENYLYM 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           P+SGFHGVLSGFLVGIKQIIPDQELS+F + KI+A+
Sbjct: 129 PLSGFHGVLSGFLVGIKQIIPDQELSLFSLLKIRAR 164
[Close]
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Match: V7C390_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_004G071600g PE=4 SV=1)

HSP 1 Score: 233.8 bits (595), Expect = 2.500e-58
Identity = 122/156 (78.21%), Postives = 131/156 (83.97%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G GLFTGFT+LCKGLAVVLV GHI VQ  P AVTY+ALIPARTIPFAWNL+TAGY+EQ+T
Sbjct: 9   GTGLFTGFTRLCKGLAVVLVCGHIAVQFFPSAVTYVALIPARTIPFAWNLITAGYVEQST 68

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG  IS   LLFIGKLLEP+WGS+EF KFI VVN LT VCVFITAIA YY TRLE YLYM
Sbjct: 69  YGVVISTLGLLFIGKLLEPVWGSREFFKFIFVVNLLTSVCVFITAIALYYITRLETYLYM 128

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           P+SGFHGV+SGFLVGIKQIIPDQEL      KIK K
Sbjct: 129 PLSGFHGVISGFLVGIKQIIPDQELP---FIKIKTK 161
[Close]
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Match: A0A0V0HSN5_SOLCH (Putative transmembrane protein-like OS=Solanum chacoense PE=4 SV=1)

HSP 1 Score: 233.0 bits (593), Expect = 4.300e-58
Identity = 120/153 (78.43%), Postives = 136/153 (88.89%), Query Frame = 1 

		  

Query: 19  LFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTTYGA 78
           ++TGFT+LCKGLAVVLVGGHIVVQ+LP A++YLALIPA+TIPFAWNL+TAGY EQT YGA
Sbjct: 5   MYTGFTRLCKGLAVVLVGGHIVVQILPSALSYLALIPAKTIPFAWNLITAGYTEQTVYGA 64

Query: 79  AISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYMPIS 138
            IS   LLF+GKLLEPIWGS+EF+KFI +VNFLT V VFITAI+ YY TRLEIYLYMPIS
Sbjct: 65  IISTIGLLFLGKLLEPIWGSREFLKFIFIVNFLTSVFVFITAISLYYVTRLEIYLYMPIS 124

Query: 139 GFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           GF GVLSGFLVG+KQI+PDQELS   I K+KAK
Sbjct: 125 GFKGVLSGFLVGVKQIMPDQELS---ILKLKAK 154
[Close]
BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Match: RBL19_ARATH (Rhomboid-like protein 19 OS=Arabidopsis thaliana GN=RBL19 PE=2 SV=1)

HSP 1 Score: 217.2 bits (552), Expect = 2.200e-55
Identity = 109/156 (69.87%), Postives = 128/156 (82.05%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G  +FT FT+LCKGLA+VLV GH+VVQ +P  V YLALIPARTIPFAWNL+T+GY E + 
Sbjct: 5   GTSMFTNFTKLCKGLALVLVVGHLVVQFIPATVPYLALIPARTIPFAWNLITSGYFELSV 64

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG   S  +LLF+GK LEP+WGS EF+KFI VVNFLTY+CVF+TAIA YY TRLE+YLYM
Sbjct: 65  YGVVFSTVSLLFMGKFLEPVWGSTEFLKFIFVVNFLTYLCVFVTAIALYYITRLEVYLYM 124

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           P +GFHGVL+G LVGIKQIIPDQE+    + KIKAK
Sbjct: 125 PFAGFHGVLAGLLVGIKQIIPDQEIL---LLKIKAK 157
[Close]
BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Match: TM115_HUMAN (Transmembrane protein 115 OS=Homo sapiens GN=TMEM115 PE=1 SV=1)

HSP 1 Score: 94.4 bits (233), Expect = 2.100e-18
Identity = 90/296 (30.41%), Postives = 129/296 (43.58%), Query Frame = 1 

		  

Query: 8   ALPQGRAWGGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTY--LALIPARTIP---FA 67
           ALP  R   G +    + + K L   +    + + LL  AV    LA+ P    P   + 
Sbjct: 4   ALPGARQHLGAILASASVVVKALCAAV----LFLYLLSFAVDTGCLAVTPGYLFPPNFWI 63

Query: 68  WNLLTAGYIEQTTYGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIA 127
           W L T G +EQ  +  AIS+  ++  G+LLEP+WG+ E + F  VVN    +      + 
Sbjct: 64  WTLATHGLMEQHVWDVAISLTTVVVAGRLLEPLWGALELLIFFSVVNVSVGLLGAFAYLL 123

Query: 128 FYYATRLEIYLY-MPISGFHGVLSGFLVGIKQI--------IPDQELSV----------- 187
            Y A+   +YL+ + I G  G L G LV +KQ         +P   +SV           
Sbjct: 124 TYMASFNLVYLFTVRIHGALGFLGGVLVALKQTMGDCVVLRVPQVRVSVMPMLLLALLLL 183

Query: 188 ----------------FGIAKIKAKRR---SETNFRGDPSDEFAFATFFPEFLRPVVNPI 247
                           FG+       R     +  RGD +D FAFATFFPE L+PVV  +
Sbjct: 184 LRLATLLQSPALASYGFGLLSSWVYLRFYQRHSRGRGDMADHFAFATFFPEILQPVVGLL 243

Query: 248 STIFHRMFCGRSDISNEGNGYDLGG-----IPLPGSDSIEASRRRERGARALEERL 255
           + + H +             YD+G      I LPG+D  +A RRR+   +AL ERL
Sbjct: 244 ANLVHSLLVKVKICQKTVKRYDVGAPSSITISLPGTDPQDAERRRQLALKALNERL 295
[Close]
BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Match: TM115_BOVIN (Transmembrane protein 115 OS=Bos taurus GN=TMEM115 PE=2 SV=1)

HSP 1 Score: 94.4 bits (233), Expect = 2.100e-18
Identity = 90/296 (30.41%), Postives = 130/296 (43.92%), Query Frame = 1 

		  

Query: 8   ALPQGRAWGGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTY--LALIPARTIP---FA 67
           ALP  R   G + +  + + K L   +    + + LL  AV    LA+ P    P   + 
Sbjct: 4   ALPGARQHLGAILSSASVVVKALCAAV----LFLYLLSFAVDTGCLAVTPGYLFPPNFWI 63

Query: 68  WNLLTAGYIEQTTYGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIA 127
           W L T G +EQ  +  AIS+  ++  G+LLEP+WG+ E + F  VVN    +      + 
Sbjct: 64  WTLATHGLMEQHVWDVAISLATVVVAGRLLEPLWGALELLIFFSVVNVSVGLLGAFAYLL 123

Query: 128 FYYATRLEIYLY-MPISGFHGVLSGFLVGIKQI--------IPDQELSV----------- 187
            Y A+   +YL+ + I G  G L G LV +KQ         +P   +SV           
Sbjct: 124 TYMASFNLVYLFTVRIHGALGFLGGVLVALKQTMGDCVVLRVPQVRVSVVPMLLLGLLLL 183

Query: 188 ----------------FGIAKIKAKRR---SETNFRGDPSDEFAFATFFPEFLRPVVNPI 247
                           FG+       R     +  RGD +D FAFATFFPE L+PVV  +
Sbjct: 184 LRLATLLQSPALASYGFGLISSWVYLRFYQRHSRGRGDMADHFAFATFFPEILQPVVGLL 243

Query: 248 STIFHRMFCGRSDISNEGNGYDLGG-----IPLPGSDSIEASRRRERGARALEERL 255
           + + H +             YD+G      I LPG+D  +A RRR+   +AL ERL
Sbjct: 244 ANLVHGLLVKVKICQKTVKRYDVGAPSSITISLPGTDPQDAERRRQLALKALNERL 295
[Close]
BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Match: TM115_MOUSE (Transmembrane protein 115 OS=Mus musculus GN=Tmem115 PE=1 SV=1)

HSP 1 Score: 63.9 bits (154), Expect = 3.100e-9
Identity = 35/81 (43.21%), Postives = 46/81 (56.79%), Query Frame = 1 

		  

Query: 179 RGDPSDEFAFATFFPEFLRPVVNPISTIFHRMFCGRSDISNEGNGYDLGG-----IPLPG 238
           RGD +D FAFATFFPE L+PVV  ++ + H +             YD+G      I LPG
Sbjct: 215 RGDMADHFAFATFFPEILQPVVGLLANLVHGLLVKVKICQKTVKRYDVGAPSSITISLPG 274

Query: 239 SDSIEASRRRERGARALEERL 255
           +D  +A RRR+   +AL ERL
Sbjct: 275 TDPQDAERRRQLALKALNERL 295
[Close]
BLAST of Spo14142.1 vs. TAIR (Arabidopsis)
Match: AT3G07950.1 (rhomboid protein-related)

HSP 1 Score: 217.2 bits (552), Expect = 1.200e-56
Identity = 109/156 (69.87%), Postives = 128/156 (82.05%), Query Frame = 1 

		  

Query: 16  GGGLFTGFTQLCKGLAVVLVGGHIVVQLLPLAVTYLALIPARTIPFAWNLLTAGYIEQTT 75
           G  +FT FT+LCKGLA+VLV GH+VVQ +P  V YLALIPARTIPFAWNL+T+GY E + 
Sbjct: 5   GTSMFTNFTKLCKGLALVLVVGHLVVQFIPATVPYLALIPARTIPFAWNLITSGYFELSV 64

Query: 76  YGAAISIFALLFIGKLLEPIWGSKEFVKFILVVNFLTYVCVFITAIAFYYATRLEIYLYM 135
           YG   S  +LLF+GK LEP+WGS EF+KFI VVNFLTY+CVF+TAIA YY TRLE+YLYM
Sbjct: 65  YGVVFSTVSLLFMGKFLEPVWGSTEFLKFIFVVNFLTYLCVFVTAIALYYITRLEVYLYM 124

Query: 136 PISGFHGVLSGFLVGIKQIIPDQELSVFGIAKIKAK 172
           P +GFHGVL+G LVGIKQIIPDQE+    + KIKAK
Sbjct: 125 PFAGFHGVLAGLLVGIKQIIPDQEIL---LLKIKAK 157
The following BLAST results are available for this feature:
BLAST of Spo14142.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|586761535|ref|XP_006854488.1|1.7e-8456.6PREDICTED: transmembrane prote... [more]
gi|731361665|ref|XP_010692485.1|1.8e-7089.7PREDICTED: transmembrane prote... [more]
gi|720027861|ref|XP_010264708.1|2.0e-6150.0PREDICTED: transmembrane prote... [more]
gi|225449084|ref|XP_002275709.1|6.6e-6076.9PREDICTED: transmembrane prote... [more]
gi|470143468|ref|XP_004307397.1|1.6e-5876.5PREDICTED: transmembrane prote... [more]
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BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
U5D127_AMBTC1.2e-8456.6Uncharacterized protein OS=Amb... [more]
A0A0J8BIH5_BETVU1.3e-7089.7Uncharacterized protein OS=Bet... [more]
D7TMB0_VITVI4.6e-6076.9Putative uncharacterized prote... [more]
V7C390_PHAVU2.5e-5878.2Uncharacterized protein OS=Pha... [more]
A0A0V0HSN5_SOLCH4.3e-5878.4Putative transmembrane protein... [more]
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BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 4
Match NameE-valueIdentityDescription
RBL19_ARATH2.2e-5569.8Rhomboid-like protein 19 OS=Ar... [more]
TM115_HUMAN2.1e-1830.4Transmembrane protein 115 OS=H... [more]
TM115_BOVIN2.1e-1830.4Transmembrane protein 115 OS=B... [more]
TM115_MOUSE3.1e-943.2Transmembrane protein 115 OS=M... [more]
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BLAST of Spo14142.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT3G07950.11.2e-5669.8rhomboid protein-related[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR013861Transmembrane protein DUF1751, eukaryoticPFAMPF08551DUF1751coord: 55..153
score: 2.3
NoneNo IPR availablePANTHERPTHR13377PLACENTAL PROTEIN 6coord: 2..274
score: 1.2E
NoneNo IPR availablePANTHERPTHR13377:SF4SUBFAMILY NOT NAMEDcoord: 2..274
score: 1.2E
NoneNo IPR availableSMARTSM01160DUF1751_2coord: 55..153
score: 1.2
NoneNo IPR availableunknownSSF144091Rhomboid-likecoord: 26..163
score: 4.8

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006913 nucleocytoplasmic transport
biological_process GO:0044238 primary metabolic process
biological_process GO:0031124 mRNA 3'-end processing
biological_process GO:0006810 transport
biological_process GO:0048731 system development
biological_process GO:0050896 response to stimulus
biological_process GO:0050793 regulation of developmental process
biological_process GO:0050794 regulation of cellular process
biological_process GO:0071702 organic substance transport
biological_process GO:0006511 ubiquitin-dependent protein catabolic process
biological_process GO:0006807 nitrogen compound metabolic process
biological_process GO:0033036 macromolecule localization
biological_process GO:0010467 gene expression
biological_process GO:0009987 cellular process
biological_process GO:0044237 cellular metabolic process
biological_process GO:0007178 transmembrane receptor protein serine/threonine kinase signaling pathway
biological_process GO:0010075 regulation of meristem growth
biological_process GO:0008152 metabolic process
biological_process GO:0016126 sterol biosynthetic process
biological_process GO:0050790 regulation of catalytic activity
biological_process GO:0006457 protein folding
biological_process GO:0001510 RNA methylation
biological_process GO:0042542 response to hydrogen peroxide
biological_process GO:0009644 response to high light intensity
biological_process GO:0009408 response to heat
biological_process GO:0034976 response to endoplasmic reticulum stress
biological_process GO:0051510 regulation of unidimensional cell growth
biological_process GO:0000741 karyogamy
biological_process GO:0019745 pentacyclic triterpenoid biosynthetic process
biological_process GO:0006890 retrograde vesicle-mediated transport, Golgi to ER
biological_process GO:0016070 RNA metabolic process
biological_process GO:0006312 mitotic recombination
biological_process GO:0009560 embryo sac egg cell differentiation
biological_process GO:0006487 protein N-linked glycosylation
biological_process GO:0000956 nuclear-transcribed mRNA catabolic process
biological_process GO:0016567 protein ubiquitination
biological_process GO:0000165 MAPK cascade
biological_process GO:0009069 serine family amino acid metabolic process
biological_process GO:0006396 RNA processing
biological_process GO:0010051 xylem and phloem pattern formation
biological_process GO:0000278 mitotic cell cycle
biological_process GO:0010014 meristem initiation
biological_process GO:0043547 positive regulation of GTPase activity
biological_process GO:0009965 leaf morphogenesis
biological_process GO:0006468 protein phosphorylation
biological_process GO:0048439 flower morphogenesis
biological_process GO:0045595 regulation of cell differentiation
biological_process GO:0033044 regulation of chromosome organization
biological_process GO:0043087 regulation of GTPase activity
biological_process GO:0009733 response to auxin
biological_process GO:0048765 root hair cell differentiation
biological_process GO:0010090 trichome morphogenesis
biological_process GO:0048449 floral organ formation
biological_process GO:0048519 negative regulation of biological process
biological_process GO:0010089 xylem development
biological_process GO:0006897 endocytosis
biological_process GO:0048589 developmental growth
biological_process GO:0009855 determination of bilateral symmetry
biological_process GO:0071555 cell wall organization
biological_process GO:0016049 cell growth
biological_process GO:0007155 cell adhesion
biological_process GO:0045010 actin nucleation
biological_process GO:0007165 signal transduction
biological_process GO:0006470 protein dephosphorylation
biological_process GO:0009944 polarity specification of adaxial/abaxial axis
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0009535 chloroplast thylakoid membrane
cellular_component GO:0005768 endosome
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0030140 trans-Golgi network transport vesicle
cellular_component GO:0009507 chloroplast
cellular_component GO:0000159 protein phosphatase type 2A complex
cellular_component GO:0005773 vacuole
cellular_component GO:0009506 plasmodesma
cellular_component GO:0005849 mRNA cleavage factor complex
cellular_component GO:0005886 plasma membrane
cellular_component GO:0005829 cytosol
cellular_component GO:0005643 nuclear pore
cellular_component GO:0005802 trans-Golgi network
molecular_function GO:0019888 protein phosphatase regulator activity
molecular_function GO:0008289 lipid binding
molecular_function GO:0005488 binding
molecular_function GO:0008173 RNA methyltransferase activity
molecular_function GO:0000166 nucleotide binding
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0046983 protein dimerization activity
molecular_function GO:0003824 catalytic activity
molecular_function GO:0008171 O-methyltransferase activity
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0046872 metal ion binding
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0005096 GTPase activator activity
molecular_function GO:0035091 phosphatidylinositol binding
molecular_function GO:0016757 transferase activity, transferring glycosyl groups
molecular_function GO:0003723 RNA binding
molecular_function GO:0004707 MAP kinase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0003924 GTPase activity
molecular_function GO:0005525 GTP binding
molecular_function GO:0008234 cysteine-type peptidase activity
molecular_function GO:0036459 thiol-dependent ubiquitinyl hydrolase activity
molecular_function GO:0003677 DNA binding
molecular_function GO:0004721 phosphoprotein phosphatase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo229700.72Barchart | Table
Spo015900.71Barchart | Table
Spo074410.71Barchart | Table
Spo189610.71Barchart | Table
Spo245490.70Barchart | Table
Spo122210.70Barchart | Table
Spo087260.69Barchart | Table
Spo093500.69Barchart | Table
Spo101640.69Barchart | Table
Spo049730.69Barchart | Table
Spo168810.69Barchart | Table
Spo028180.69Barchart | Table
Spo220470.68Barchart | Table
Spo148260.68Barchart | Table
Spo137490.68Barchart | Table
Spo231040.68Barchart | Table
Spo176770.68Barchart | Table
Spo020130.68Barchart | Table
Spo239300.67Barchart | Table
Spo021150.67Barchart | Table
Spo022800.67Barchart | Table
Spo031970.67Barchart | Table
Spo049850.67Barchart | Table
Spo076940.67Barchart | Table
Spo084030.67Barchart | Table
Spo085110.67Barchart | Table
Spo088840.67Barchart | Table
Spo091200.67Barchart | Table
Spo107930.67Barchart | Table
Spo113530.67Barchart | Table
Spo205660.67Barchart | Table
Spo234340.67Barchart | Table
Spo003970.67Barchart | Table
Spo169190.66Barchart | Table
Spo173860.66Barchart | Table
Spo154200.66Barchart | Table
Spo088070.66Barchart | Table
Spo190480.66Barchart | Table
Spo204500.66Barchart | Table
Spo258790.66Barchart | Table
Spo208260.66Barchart | Table
Spo208520.66Barchart | Table
Spo227480.66Barchart | Table
Spo039700.66Barchart | Table
Spo231000.66Barchart | Table
Spo242940.66Barchart | Table
Spo007830.66Barchart | Table
Spo167590.66Barchart | Table
Spo164140.66Barchart | Table
Spo173400.66Barchart | Table
Spo220120.66Barchart | Table
Spo210940.65Barchart | Table
Spo267060.65Barchart | Table
Spo069150.65Barchart | Table
Spo268060.65Barchart | Table
Spo250130.65Barchart | Table
Spo254540.65Barchart | Table
Spo026720.65Barchart | Table
Spo233460.65Barchart | Table