Spo14142.1 (mRNA) | SpinachBase

Overview


Name	Spo14142.1
Type	mRNA
Organism	Spinacia oleracea (Spinach)
Description	Rhomboid family protein
Location	SpoScf_00850 : 243798 .. 262424 (+)
Sequence length	1096

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

This mRNA is a part of the following gene feature(s):


Feature Name	Unique Name	Type
Spo14142	Spo14142	gene

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Type
Spo14142.1	Spo14142.1-protein	polypeptide

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


Feature Name	Unique Name	Type
Spo14142.1.exon.1	Spo14142.1.exon.1	exon
Spo14142.1.exon.2	Spo14142.1.exon.2	exon
Spo14142.1.exon.3	Spo14142.1.exon.3	exon
Spo14142.1.exon.4	Spo14142.1.exon.4	exon
Spo14142.1.exon.5	Spo14142.1.exon.5	exon
Spo14142.1.exon.6	Spo14142.1.exon.6	exon
Spo14142.1.exon.7	Spo14142.1.exon.7	exon
Spo14142.1.exon.8	Spo14142.1.exon.8	exon
Spo14142.1.exon.9	Spo14142.1.exon.9	exon
Spo14142.1.exon.10	Spo14142.1.exon.10	exon

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


Feature Name	Unique Name	Type
Spo14142.1.CDS.1	Spo14142.1.CDS.1	CDS
Spo14142.1.CDS.2	Spo14142.1.CDS.2	CDS
Spo14142.1.CDS.3	Spo14142.1.CDS.3	CDS
Spo14142.1.CDS.4	Spo14142.1.CDS.4	CDS
Spo14142.1.CDS.5	Spo14142.1.CDS.5	CDS
Spo14142.1.CDS.6	Spo14142.1.CDS.6	CDS
Spo14142.1.CDS.7	Spo14142.1.CDS.7	CDS
Spo14142.1.CDS.8	Spo14142.1.CDS.8	CDS

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


Feature Name	Unique Name	Type
Spo14142.1.utr3p.1	Spo14142.1.utr3p.1	three_prime_UTR
Spo14142.1.utr3p.2	Spo14142.1.utr3p.2	three_prime_UTR
Spo14142.1.utr3p.3	Spo14142.1.utr3p.3	three_prime_UTR

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
BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
BLAST of Spo14142.1 vs. TAIR (Arabidopsis)

BLAST of Spo14142.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5

Position :

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x 1


Match Name	E-value	Identity	Description
gi\|586761535\|ref\|XP_006854488.1\|	1.7e-84	56.6	PREDICTED: transmembrane prote...	[more]
gi\|731361665\|ref\|XP_010692485.1\|	1.8e-70	89.7	PREDICTED: transmembrane prote...	[more]
gi\|720027861\|ref\|XP_010264708.1\|	2.0e-61	50.0	PREDICTED: transmembrane prote...	[more]
gi\|225449084\|ref\|XP_002275709.1\|	6.6e-60	76.9	PREDICTED: transmembrane prote...	[more]
gi\|470143468\|ref\|XP_004307397.1\|	1.6e-58	76.5	PREDICTED: transmembrane prote...	[more]

BLAST of Spo14142.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5

Position :

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Match Name	E-value	Identity	Description
U5D127_AMBTC	1.2e-84	56.6	Uncharacterized protein OS=Amb...	[more]
A0A0J8BIH5_BETVU	1.3e-70	89.7	Uncharacterized protein OS=Bet...	[more]
D7TMB0_VITVI	4.6e-60	76.9	Putative uncharacterized prote...	[more]
V7C390_PHAVU	2.5e-58	78.2	Uncharacterized protein OS=Pha...	[more]
A0A0V0HSN5_SOLCH	4.3e-58	78.4	Putative transmembrane protein...	[more]

BLAST of Spo14142.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 4

Position :

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Match Name	E-value	Identity	Description
RBL19_ARATH	2.2e-55	69.8	Rhomboid-like protein 19 OS=Ar...	[more]
TM115_HUMAN	2.1e-18	30.4	Transmembrane protein 115 OS=H...	[more]
TM115_BOVIN	2.1e-18	30.4	Transmembrane protein 115 OS=B...	[more]
TM115_MOUSE	3.1e-9	43.2	Transmembrane protein 115 OS=M...	[more]

BLAST of Spo14142.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1

Position :

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Match Name	E-value	Identity	Description
AT3G07950.1	1.2e-56	69.8	rhomboid protein-related	[more]

InterPro

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

Position :

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IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR013861	Transmembrane protein DUF1751, eukaryotic	PFAM	PF08551	DUF1751	coord: 55..153 score: 2.3
None	No IPR available	PANTHER	PTHR13377	PLACENTAL PROTEIN 6	coord: 2..274 score: 1.2E
None	No IPR available	PANTHER	PTHR13377:SF4	SUBFAMILY NOT NAMED	coord: 2..274 score: 1.2E
None	No IPR available	SMART	SM01160	DUF1751_2	coord: 55..153 score: 1.2
None	No IPR available	unknown	SSF144091	Rhomboid-like	coord: 26..163 score: 4.8

GO Annotation

GO Assignments

This mRNA is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0006890	retrograde vesicle-mediated transport, Golgi to ER
cellular_component	GO:0016021	integral component of membrane