Sed0018902 (gene) Chayote v1

Overview
NameSed0018902
Typegene
OrganismSechium edule (Chayote v1)
DescriptionPeptidyl-prolyl cis-trans isomerase
LocationLG11: 17116890 .. 17138660 (-)
RNA-Seq ExpressionSed0018902
SyntenySed0018902
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGGGAAAGACTCGAAGTCAAAGGACGCGGGTAGCAAAGGGAAGGGGAAGGCGAAGCCAGGCGGCGGCGGCGCCGGGGCTGATGAAAGCGGTTCGAAAGGGAAAGGAAAGGGCGGAAAAGGTGCTTCCGATGGGCTCGGCACTTGCACTTACGTTAAATTAGCTGCTGAGTACTCAGAGTGTCCATCGGGGAAGAAAGGTGGGGACCTTGGATGGTTCCCTCGTGGAAAGATGGCTGGCCCATTTCAGGATGTTGCATTCAGCACTCCGGTTGCAGCGACCAGTGCTCCTTTCAAGTCAACGCATGGGTACCATATTATCTTGTCTGAAGGAAGAAAGAATTAG

Coding sequence (CDS)

ATGGGGAAAGACTCGAAGTCAAAGGACGCGGGTAGCAAAGGGAAGGGGAAGGCGAAGCCAGGCGGCGGCGGCGCCGGGGCTGATGAAAGCGGTTCGAAAGGGAAAGGAAAGGGCGGAAAAGGTGCTTCCGATGGGCTCGGCACTTGCACTTACGTTAAATTAGCTGCTGAGTACTCAGAGTGTCCATCGGGGAAGAAAGGTGGGGACCTTGGATGGTTCCCTCGTGGAAAGATGGCTGGCCCATTTCAGGATGTTGCATTCAGCACTCCGGTTGCAGCGACCAGTGCTCCTTTCAAGTCAACGCATGGGTACCATATTATCTTGTCTGAAGGAAGAAAGAATTAG

Protein sequence

MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYVKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAATSAPFKSTHGYHIILSEGRKN
Homology
[Close]
BLAST of Sed0018902 vs. NCBI nr
Match: XP_008465730.1 (PREDICTED: peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucumis melo] >XP_008465731.1 PREDICTED: peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucumis melo])

HSP 1 Score: 170.2 bits (430), Expect = 1.0e-38
Identity = 99/151 (65.56%), Postives = 103/151 (68.21%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK KDAG KGKGKAK   GG+GADES SKGKGK GK A+DGLGTCTYV        
Sbjct: 1   MGKDSKPKDAGGKGKGKAKQ--GGSGADESASKGKGKSGKAAADGLGTCTYVKARHILSE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. NCBI nr
Match: XP_022156307.1 (peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 isoform X3 [Momordica charantia])

HSP 1 Score: 169.5 bits (428), Expect = 1.7e-38
Identity = 99/151 (65.56%), Postives = 101/151 (66.89%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK KDAG KGKGKAK     AGADES SKGKGK GK A+DGLGTCTYV        
Sbjct: 1   MGKDSKQKDAGGKGKGKAKQ--AAAGADESASKGKGKSGKAAADGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKITEAYKKLQDGWLSNGDKVPPPEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. NCBI nr
Match: XP_022999389.1 (peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucurbita maxima])

HSP 1 Score: 169.1 bits (427), Expect = 2.2e-38
Identity = 99/151 (65.56%), Postives = 102/151 (67.55%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK+KDAG KGKGKAK     +GADES SKGKGK GK ASDGLGTCTYV        
Sbjct: 1   MGKDSKAKDAGGKGKGKAKQ--AASGADESASKGKGKSGKAASDGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. NCBI nr
Match: KAF8021441.1 (hypothetical protein BT93_G1775 [Corymbia citriodora subsp. variegata])

HSP 1 Score: 168.7 bits (426), Expect = 2.9e-38
Identity = 99/151 (65.56%), Postives = 104/151 (68.87%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK+KDAG KGKGK K  GG  G+D++GSKGKGK GK  SDGLGTCTYV        
Sbjct: 61  MGKDSKAKDAGGKGKGKGKQAGG--GSDDAGSKGKGKAGK--SDGLGTCTYVKARHILCE 120

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 121 KQGKINEAYKKLQDGWLGNVDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 180

[Close]
BLAST of Sed0018902 vs. NCBI nr
Match: XP_022946573.1 (peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucurbita moschata] >KAG6599002.1 Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 167.5 bits (423), Expect = 6.5e-38
Identity = 98/151 (64.90%), Postives = 101/151 (66.89%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK+KDAG KGKGK K     +GADES SKGKGK GK ASDGLGTCTYV        
Sbjct: 1   MGKDSKAKDAGGKGKGKGKQ--AASGADESASKGKGKSGKAASDGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match: B5KFL3 (Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Taeniopygia guttata OX=59729 GN=PIN4 PE=2 SV=1)

HSP 1 Score: 66.6 bits (161), Expect = 2.0e-10
Identity = 51/128 (39.84%), Postives = 66/128 (51.56%), Query Frame = 0 

Query: 13  KGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGT----C-----------------TY 72
           KGKG  K G GG G   S S+GK +G KG    +      C                  +
Sbjct: 4   KGKGGGKAGKGGDGG--SSSEGKAQGPKGGGSAVKVRHILCEKHGRAMEAMEKLKSGQRF 63

Query: 73  VKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAA------TSAPFKSTHGYH 114
            ++AA+YSE    ++GGDLGW  RG M GPFQ+ AF+ PV++      T  P K+  GYH
Sbjct: 64  SEVAAQYSE-DKARQGGDLGWMTRGSMVGPFQEAAFALPVSSMDKPVYTDPPVKTKFGYH 123

[Close]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match: Q9Y237 (Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Homo sapiens OX=9606 GN=PIN4 PE=1 SV=1)

HSP 1 Score: 65.1 bits (157), Expect = 5.9e-10
Identity = 49/128 (38.28%), Postives = 66/128 (51.56%), Query Frame = 0 

Query: 11  GSKGKGKAKPGGGGAGADESGSKGKGKGGKG------------------ASDGLGT-CTY 70
           G  G GKA  GG  +G+D +  K +G  G G                  A + L +   +
Sbjct: 5   GKSGSGKAGKGGAASGSDSADKKAQGPKGGGNAVKVRHILCEKHGKIMEAMEKLKSGMRF 64

Query: 71  VKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAA------TSAPFKSTHGYH 114
            ++AA+YSE    ++GGDLGW  RG M GPFQ+ AF+ PV+       T  P K+  GYH
Sbjct: 65  NEVAAQYSE-DKARQGGDLGWMTRGSMVGPFQEAAFALPVSGMDKPVFTDPPVKTKFGYH 124

[Close]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match: A6QPY8 (Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Bos taurus OX=9913 GN=PIN4 PE=2 SV=1)

HSP 1 Score: 62.4 bits (150), Expect = 3.9e-09
Identity = 47/129 (36.43%), Postives = 64/129 (49.61%), Query Frame = 0 

Query: 15  KGKAKPGGGGAGADESGSKG---KGKGGKGASDGL---------------------GTCT 74
           KGK+  G GG G   SGS+    K +G KG  + +                         
Sbjct: 4   KGKSGSGKGGKGKAASGSESSEKKAQGPKGGGNAVKVRHILCEKHGKILEAMEKLKSGMK 63

Query: 75  YVKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAA------TSAPFKSTHGY 114
           + ++AA+YSE    ++GGDLGW  RG M GPFQ+ AF+ P++       T  P K+  GY
Sbjct: 64  FNEVAAQYSE-DKARQGGDLGWMTRGSMVGPFQEAAFALPISVLDKPVFTDPPVKTKFGY 123

[Close]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match: Q9CWW6 (Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Mus musculus OX=10090 GN=Pin4 PE=1 SV=1)

HSP 1 Score: 62.4 bits (150), Expect = 3.9e-09
Identity = 47/128 (36.72%), Postives = 64/128 (50.00%), Query Frame = 0 

Query: 11  GSKGKGKAKPGGGGAGADESGSKGKGKGGKG------------------ASDGLGT-CTY 70
           G  G GK   GG  +G+D +  K +G  G G                  A + L +   +
Sbjct: 5   GKSGSGKGGKGGAASGSDSADKKSQGPKGGGNAVKVRHILCEKHGKIMEAMEKLKSGMRF 64

Query: 71  VKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAA------TSAPFKSTHGYH 114
            ++A +YSE    ++GGDLGW  RG M GPFQ+ AF+ PV+       T  P K+  GYH
Sbjct: 65  SEVATQYSE-DKARQGGDLGWMTRGSMVGPFQEAAFALPVSGMDKPVFTDPPVKTKFGYH 124

[Close]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match: Q503Y7 (Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Danio rerio OX=7955 GN=pin4 PE=2 SV=1)

HSP 1 Score: 57.8 bits (138), Expect = 9.5e-08
Identity = 47/126 (37.30%), Postives = 61/126 (48.41%), Query Frame = 0 

Query: 8   KDAGSKG-KGKAKPGGGGAGADESGSKG-------------KGKGGKGASDGLGTCTYVK 67
           K  G KG KG A  G G +   E   KG              GK  +          + +
Sbjct: 4   KGKGGKGAKGAAASGSGDSDKKEKAQKGGTAVKVRHILCEKHGKCMEAMEKIKSGMRFSE 63

Query: 68  LAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAA------TSAPFKSTHGYHII 114
           +AA+YSE    ++GGDLGW  RG M GPFQD AF+ P++       T  P K+  GYHII
Sbjct: 64  VAAQYSE-DKARQGGDLGWMTRGSMVGPFQDAAFALPISTMDKPVYTDPPVKTKFGYHII 123

[Close]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match: A0A1S3CPJ7 (Peptidyl-prolyl cis-trans isomerase OS=Cucumis melo OX=3656 GN=LOC103503344 PE=3 SV=1)

HSP 1 Score: 170.2 bits (430), Expect = 4.8e-39
Identity = 99/151 (65.56%), Postives = 103/151 (68.21%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK KDAG KGKGKAK   GG+GADES SKGKGK GK A+DGLGTCTYV        
Sbjct: 1   MGKDSKPKDAGGKGKGKAKQ--GGSGADESASKGKGKSGKAAADGLGTCTYVKARHILSE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match: A0A6J1DRP8 (Peptidyl-prolyl cis-trans isomerase OS=Momordica charantia OX=3673 GN=LOC111023231 PE=3 SV=1)

HSP 1 Score: 169.5 bits (428), Expect = 8.3e-39
Identity = 99/151 (65.56%), Postives = 101/151 (66.89%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK KDAG KGKGKAK     AGADES SKGKGK GK A+DGLGTCTYV        
Sbjct: 1   MGKDSKQKDAGGKGKGKAKQ--AAAGADESASKGKGKSGKAAADGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKITEAYKKLQDGWLSNGDKVPPPEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match: A0A6J1KGY7 (Peptidyl-prolyl cis-trans isomerase OS=Cucurbita maxima OX=3661 GN=LOC111493775 PE=3 SV=1)

HSP 1 Score: 169.1 bits (427), Expect = 1.1e-38
Identity = 99/151 (65.56%), Postives = 102/151 (67.55%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK+KDAG KGKGKAK     +GADES SKGKGK GK ASDGLGTCTYV        
Sbjct: 1   MGKDSKAKDAGGKGKGKAKQ--AASGADESASKGKGKSGKAASDGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match: A0A6J1G492 (Peptidyl-prolyl cis-trans isomerase OS=Cucurbita moschata OX=3662 GN=LOC111450594 PE=3 SV=1)

HSP 1 Score: 167.5 bits (423), Expect = 3.1e-38
Identity = 98/151 (64.90%), Postives = 101/151 (66.89%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSK+KDAG KGKGK K     +GADES SKGKGK GK ASDGLGTCTYV        
Sbjct: 1   MGKDSKAKDAGGKGKGKGKQ--AASGADESASKGKGKSGKAASDGLGTCTYVKARHILCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match: A0A5C7H413 (Peptidyl-prolyl cis-trans isomerase OS=Acer yangbiense OX=1000413 GN=EZV62_024242 PE=3 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 4.1e-38
Identity = 98/151 (64.90%), Postives = 103/151 (68.21%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKDSKSKDAG KGKGK   GGG    DE+ SKGKGKGGK A+DGLGTCTYV        
Sbjct: 1   MGKDSKSKDAGGKGKGKQAAGGG----DENASKGKGKGGK-AADGLGTCTYVKARHVLCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        K+AAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPAAEFAKIAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. TAIR 10
Match: AT1G26550.1 (FKBP-like peptidyl-prolyl cis-trans isomerase family protein )

HSP 1 Score: 148.7 bits (374), Expect = 2.9e-36
Identity = 90/151 (59.60%), Postives = 98/151 (64.90%), Query Frame = 0 

Query: 1   MGKDSKSKDAGSKGKGKAKPGGGGAGADESGSKGKGKGGKGASDGLGTCTYV-------- 60
           MGKD+K   AG KGKGK       +G++E+ SKGKGK GK A+DGLGTCTYV        
Sbjct: 1   MGKDAK---AGGKGKGKQ-----ASGSEEAPSKGKGKAGK-AADGLGTCTYVKARHVLCE 60

Query: 61  -----------------------------KLAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 115
                                        K+AAEYSECPSGKKGGDLGWFPRGKMAGPFQ
Sbjct: 61  KQGKINEAYKKLQDGWLSNGDKVPPAEFAKIAAEYSECPSGKKGGDLGWFPRGKMAGPFQ 120

[Close]
BLAST of Sed0018902 vs. TAIR 10
Match: AT2G18040.1 (peptidylprolyl cis/trans isomerase, NIMA-interacting 1 )

HSP 1 Score: 50.1 bits (118), Expect = 1.4e-06
Identity = 23/61 (37.70%), Postives = 34/61 (55.74%), Query Frame = 0 

Query: 47  GTCTYVKLAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAFSTPVAATSAPFKSTHGYHI 106
           G   + ++A   S+C S K+GGDLG F RG+M  PF++  ++  V   S    +  G HI
Sbjct: 55  GKANFEEVATRVSDCSSAKRGGDLGSFGRGQMQKPFEEATYALKVGDISDIVDTDSGVHI 114

Query: 107 I 108
           I
Sbjct: 115 I 115

[Close]
BLAST of Sed0018902 vs. TAIR 10
Match: AT5G19370.1 (rhodanese-like domain-containing protein / PPIC-type PPIASE domain-containing protein )

HSP 1 Score: 44.3 bits (103), Expect = 7.7e-05
Identity = 20/34 (58.82%), Postives = 23/34 (67.65%), Query Frame = 0 

Query: 54  LAAEYSECPSGKKGGDLGWFPRGKMAGPFQDVAF 88
           LAAEYS CPS K GG LGW   G+M   F++ AF
Sbjct: 127 LAAEYSICPSKKDGGILGWVKLGQMVPEFEEAAF 160

The following BLAST results are available for this feature:
BLAST of Sed0018902 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008465730.11.0e-3865.56PREDICTED: peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucumis melo]... [more]
XP_022156307.11.7e-3865.56peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 isoform X3 [Momordica cha... [more]
XP_022999389.12.2e-3865.56peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucurbita maxima][more]
KAF8021441.12.9e-3865.56hypothetical protein BT93_G1775 [Corymbia citriodora subsp. variegata][more]
XP_022946573.16.5e-3864.90peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 [Cucurbita moschata] >KAG... [more]
BLAST of Sed0018902 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
B5KFL32.0e-1039.84Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Taeniopygia guttata OX... [more]
Q9Y2375.9e-1038.28Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Homo sapiens OX=9606 G... [more]
A6QPY83.9e-0936.43Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Bos taurus OX=9913 GN=... [more]
Q9CWW63.9e-0936.72Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Mus musculus OX=10090 ... [more]
Q503Y79.5e-0837.30Peptidyl-prolyl cis-trans isomerase NIMA-interacting 4 OS=Danio rerio OX=7955 GN... [more]
BLAST of Sed0018902 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3CPJ74.8e-3965.56Peptidyl-prolyl cis-trans isomerase OS=Cucumis melo OX=3656 GN=LOC103503344 PE=3... [more]
A0A6J1DRP88.3e-3965.56Peptidyl-prolyl cis-trans isomerase OS=Momordica charantia OX=3673 GN=LOC1110232... [more]
A0A6J1KGY71.1e-3865.56Peptidyl-prolyl cis-trans isomerase OS=Cucurbita maxima OX=3661 GN=LOC111493775 ... [more]
A0A6J1G4923.1e-3864.90Peptidyl-prolyl cis-trans isomerase OS=Cucurbita moschata OX=3662 GN=LOC11145059... [more]
A0A5C7H4134.1e-3864.90Peptidyl-prolyl cis-trans isomerase OS=Acer yangbiense OX=1000413 GN=EZV62_02424... [more]
BLAST of Sed0018902 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G26550.12.9e-3659.60FKBP-like peptidyl-prolyl cis-trans isomerase family protein [more]
AT2G18040.11.4e-0637.70peptidylprolyl cis/trans isomerase, NIMA-interacting 1 [more]
AT5G19370.17.7e-0558.82rhodanese-like domain-containing protein / PPIC-type PPIASE domain-containing pr... [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000297Peptidyl-prolyl cis-trans isomerase, PpiC-typePFAMPF00639Rotamasecoord: 51..108
e-value: 7.0E-15
score: 55.7
IPR000297Peptidyl-prolyl cis-trans isomerase, PpiC-typePROSITEPS50198PPIC_PPIASE_2coord: 50..111
score: 18.968603
NoneNo IPR availableGENE3D3.10.50.40coord: 33..109
e-value: 6.6E-22
score: 80.1
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..15
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..46
NoneNo IPR availablePANTHERPTHR45995:SF5PEPTIDYL-PROLYL CIS-TRANS ISOMERASEcoord: 53..114
NoneNo IPR availableSUPERFAMILY54534FKBP-likecoord: 50..113
IPR043323Peptidyl-prolyl cis-trans isomerase PIN4PANTHERPTHR45995FAMILY NOT NAMEDcoord: 53..114

Relationships

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

Feature NameUnique NameType
Sed0018902.1Sed0018902.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006364 rRNA processing
molecular_function GO:0003677 DNA binding
molecular_function GO:0003755 peptidyl-prolyl cis-trans isomerase activity