Cucsat.G8741 (gene) Cucumber (B10) v3

Overview
NameCucsat.G8741
Typegene
OrganismCucumis sativus L. var. sativus cv B10 (Cucumber (B10) v3)
Descriptionstromal processing peptidase, chloroplastic-like
Locationctg1558: 1928270 .. 1931831 (+)
RNA-Seq ExpressionCucsat.G8741
SyntenyCucsat.G8741
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

Coding sequence (CDS)

ATGGCCGTTGCAACCTCTTCTACTGTTTCAAATTTGACGCAAAGACGGCCCTTGTTGAGTCTAAAAGACCAAACTACTCCCATTAAGCGGGTGAACTCGGTGCAACTCCCTTCCCGCTCTATTTCCGCTCATCTCTCTCGATTCGATGTAGACTCTCGATTTGTTGTCCCTTTGAGGAGGCACTCTCGTGACGATGGTATTGGTAGACACAAGTTTAGAAGAAATAAGGATAATGCTCGAAGACCATGTGCTTATAAAATTGGGGAGCGTGGGAATGAAACGTTGACTAATTGTATCTCTTGCTTTCTTAACCAAAAAAGAAGATGTCCCAGTATCAAAAGACCAACATCTAGATTCATTCTAGACAAGTCTGCTTTTCAGTTATCCAAGAATGAACGTGATGATAGAGTTGTGAAGCATGCTCGTATTGTTTGTGGAACTGTAGGTCCAGATGAGCCTCATGCAGCACCTACAGCCTGGCCTGATGGTATTCTGGAGAAACAAGATTTAGATGTTTCATATCCTGAGTTTGGAAGGGCAGAGTTAGAAGCATTTCTTAGTTCAGAACTTCCGTCTCATCCGAAGTTGTATAGAGGGCAGTTGAAAAATGGATTGAAGTATCTAATTTTACCAAATAAAGTTCCACCCAACAGGTTTGAAGCACACATGGAAGTTCATGTGGGATCAATTGATGAAGAAGATGACGAGCAAGGAATTGCGCACATGATTGAGCATGTAGCCTTCCTTGGAAGTAAGAAACGTGAAAAGCTTTTGGGTACAGGCGCACGATCTAATGCCTACACTGATTTCCACCATACTGTGTTTCATATACATTCACCAACTAGCACAAAGGATTCTGATGGAGATCTACTTCCATCTGTTCTTGACGCCTTAAATGAGATAGCTTTCCACCCAAAGTTCCTTGCTTCACGAGTTGAAAAAGAGAGGCGTGCCATTCTCTCTGAACTACAGATGATGAATACAATAGAATATCGTGTTGATTGTCAGCTGTTACAACATCTGCATTCTGAAAACAAGCTTAGCAAAAGGTTCCCAATCGGATTGGAAGAACAGATTAAGAAATGGGATGCTGATAAAATAAGGAAGTTCCATGAACGATGGTACTTCCCTGCAAATGCAACCTTATACATTGTTGGAGATATTGATAACATCTCAAAGGCCGTTAACCAAATTGAGGCTGTCTTTGGTGAAAGTGGCCTAGAAAATGAGGCTGTTTCTACACCTAATCCCAGTGCATTTGGTGCGATGGCTAGTTTTCTTGTTCCCAAGATCTCAGTAGGATTAGGTGGCAGTTTATCAAACGAGAGATCAAATTCAGTAGATCAATCCAAGATCGTTAAGAAAGAAAGACATGCAATCCGTCCTCCTGTGATGCACAACTGGTCTCTTCCTGGGAGCAATGTACATGCAAATCCCCCACAGATATTTCAGCATGAGTTACTACAAAATTTCTCAATTAATATGTTTTGCAAGATTCCTGTAAATAAGGTTCGAACATTTAGTGACCTGAGAAATGTTCTTATGAAGAGGATATTTCTTTCTGCCTTGCATTTTCGTATAAATACAAGATACAAGAGTTCAAATCCACCATTCACTTCCATTGAGTTGGACCACAGTGATTCTGGAAGGGAAGGTTGCACTGTCACCACACTAACAGTAACGGCTGAACCAAAGAATTGGCAAAGCGCGATTAAAGTTGCTGTTCAAGAGGTACGGAGGCTTAAAGAGTTTGGTGTAACTAAGGGTGAACTGACTCGGTATATGGATGCACTTCTAAAAGACAGTGAACACCTAGCAGCAATGATTGATAACGTGTCATCAGTTGATAATTTGGATTTTATCATGGAAAGCGATGCTTTGGGGCATACAGTTATGGACCAAAGACAAGGTCATGAAAGTTTGGTTGCTGTTGCTGGAACAGTTACTCTTGAAGAGGTGAATTCCATTGGTGCTGAAGTGTTAGAGTTCATCTCAGATTATGGAAAGCCTACTGCACCCCTTCCTGCAGCTATTGTTGCATGCGTTCCAAAGAAAGCACATATTGATGGATTGGGGGAGACAGAGTTTAAAATAACTGCAAGTGAGATAACTACTGCTATTGAGGCAGGATTGAGGGAACCAATTGAAGCTGAGCCTGAACTTGAGGTGCCAAAAGAGTTGATATCATCATCACAGATAGCGGAATTAAGGATCCAACACCAGCCATCATTTATTCGTCTCAACCCAGAGACTAATGTCACCAAATTTCATGATAAAGAAACAGGGATCACTCAGTGTCGTCTGTCAAATGGAATTCCTGTGAACTATAAGATTTCAAAAAGTGAAAACAAGGCAGGCGTGATGCGGCTTATAGTTGGTGGGGGACGAGCAGCTGAAAGCCCTGACTCACAAGGAGCTGTTGTAGTCGGTGTTCGAACTCTCAGTGAGGGAGGTCGTGTAGGAACCTTTTCACGGGAGCAGGTGGAACTTTTTTGCGTCAATCACTTGATAAATTGTTCTCTCGAGTCAACCGAAGAGTTCATTGCTATGGAATTTCGTTTCACCTTGAGAGATAATGGGATGCGTGCAGCTTTCCAACTACTTCACATGGTTCTTGAGCATAGTGTCTGGCTGGAAGATGCATTTGATAGAGCAAAGCAGTTATATATGTCATACTACCGGTCTATTCCTAAAAGCCTGGAACGTTCTACTGCTCACAAACTCATGTTAGCTATGCTGAACGGGGATGAGCGGTTTGTTGAGCCTTCCCCAAAATCACTGCAGAACTTAACATTACAAACCGTGAAGGACGCTGTGATGAATCAATTTGTGGGCAATAACATGGAGGTAAGTCTTGTTGGGGACTTTTCAGAAGAAGAAATTGAGTCTTGTATTCTAGATTACCTTGGTACAGTCACAGCAACTACAACTTCTGAGGCAGCACTTGCTTCAGTTCCCATTGTGTTTCGACCATCTGCATCTGAGTTACAATTTCAGCAGGTATTTTTAAAGGATACAGACGAAAGAGCATGCGCTTATATTTCAGGTCCTGCACCCAACCGTTGGGGTGTTACATTTGAGGGTTTAGAGTTGTTAGAATCAATTAGTCAGATTTCAAGAACAGGTGAAAGTGACGAATCTGATAATGATATCGAGAAGGGGTTGCAGAGAAAACTTCGTAGTCATCCACTCTTTTTTGGAATCACAATGGGGCTTTTGGCCGAGATTATAAATTCTAGGCTTTTCACAAGTGTGAGGGATTCTCTTGGTTTGACATATGACGTATCCTTTGAATTGAGCCTGTTTGATAGGCTTAAGCTCGGATGGTATGTTATATCTGTGACATCAACTCCAGCCAAGGTGTACAAAGCTGTTGACGCTTGCAAAAGCGTTCTGAGAGGTTTACATAGCAACAAAATTGCCCAAAGAGAGTTGGACAGGGCAAAGCGTACTCTTCTTATGAGGCATGAAGCTGAAATAAAGTCCAATGCTTATTGGCTTGGCCTATTGGCTCATCTGCAAGCGTCTTCTGTTCCACGGAAGGACCTATCGTGCATCAAAGATCTTACATCATTGTATGAAGCTGCCACCATTGATGACGTCTACATTGCTTATGATCAATTGAAAGTAGATGCAGATTCTTTGTATACGTGCATCGGGATAGCTGGAGCTCAAGCTGGGGAAGAAAGTATTGTTTCTTTTGAAGAGGAAGGATCAGACCAAGATTTTCAAGGTGTTATTCCATCTGGACGCGGCTTATCTACAATGACCAGACCGACAACATGA

Protein sequence

MAVATSSTVSNLTQRRPLLSLKDQTTPIKRVNSVQLPSRSISAHLSRFDVDSRFVVPLRRHSRDDGIGRHKFRRNKDNARRPCAYKIGERGNETLTNCISCFLNQKRRCPSIKRPTSRFILDKSAFQLSKNERDDRVVKHARIVCGTVGPDEPHAAPTAWPDGILEKQDLDVSYPEFGRAELEAFLSSELPSHPKLYRGQLKNGLKYLILPNKVPPNRFEAHMEVHVGSIDEEDDEQGIAHMIEHVAFLGSKKREKLLGTGARSNAYTDFHHTVFHIHSPTSTKDSDGDLLPSVLDALNEIAFHPKFLASRVEKERRAILSELQMMNTIEYRVDCQLLQHLHSENKLSKRFPIGLEEQIKKWDADKIRKFHERWYFPANATLYIVGDIDNISKAVNQIEAVFGESGLENEAVSTPNPSAFGAMASFLVPKISVGLGGSLSNERSNSVDQSKIVKKERHAIRPPVMHNWSLPGSNVHANPPQIFQHELLQNFSINMFCKIPVNKVRTFSDLRNVLMKRIFLSALHFRINTRYKSSNPPFTSIELDHSDSGREGCTVTTLTVTAEPKNWQSAIKVAVQEVRRLKEFGVTKGELTRYMDALLKDSEHLAAMIDNVSSVDNLDFIMESDALGHTVMDQRQGHESLVAVAGTVTLEEVNSIGAEVLEFISDYGKPTAPLPAAIVACVPKKAHIDGLGETEFKITASEITTAIEAGLREPIEAEPELEVPKELISSSQIAELRIQHQPSFIRLNPETNVTKFHDKETGITQCRLSNGIPVNYKISKSENKAGVMRLIVGGGRAAESPDSQGAVVVGVRTLSEGGRVGTFSREQVELFCVNHLINCSLESTEEFIAMEFRFTLRDNGMRAAFQLLHMVLEHSVWLEDAFDRAKQLYMSYYRSIPKSLERSTAHKLMLAMLNGDERFVEPSPKSLQNLTLQTVKDAVMNQFVGNNMEVSLVGDFSEEEIESCILDYLGTVTATTTSEAALASVPIVFRPSASELQFQQVFLKDTDERACAYISGPAPNRWGVTFEGLELLESISQISRTGESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Homology
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BLAST of Cucsat.G8741 vs. ExPASy Swiss-Prot
Match: Q9FIH8 (Stromal processing peptidase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=SPP PE=2 SV=1)

HSP 1 Score: 340.1 bits (871), Expect = 1.9e-92
Identity = 170/210 (80.95%), Postives = 190/210 (90.48%), Query Frame = 0 

Query: 17   EKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDVSFELSLFDRLKLGWYV 76
            ++ LQ+KLR+HPLFFG+TMGLLAEIINSRLFT+VRDSLGLTYDVSFEL+LFDRL LGWYV
Sbjct: 1056 DRELQKKLRAHPLFFGVTMGLLAEIINSRLFTTVRDSLGLTYDVSFELNLFDRLNLGWYV 1115

Query: 77   ISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMRHEAEIKSNAYWLGLLA 136
            ISVTSTP KVYKAVDACKSVLRGLHSN+IA RELDRAKRTLLMRHEAE+KSNAYWL LLA
Sbjct: 1116 ISVTSTPGKVYKAVDACKSVLRGLHSNQIAPRELDRAKRTLLMRHEAELKSNAYWLNLLA 1175

Query: 137  HLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSLYTCIGIAGAQAGEESI 196
            HLQASSVPRK+LSCIK+L SLYEAA+I+D+Y+AY+QL+VD DSLY+CIGIAGAQAGEE  
Sbjct: 1176 HLQASSVPRKELSCIKELVSLYEAASIEDIYLAYNQLRVDEDSLYSCIGIAGAQAGEEIT 1235

Query: 197  VSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 227
            V  EEE  +  F GV+P GRG S  TRPTT
Sbjct: 1236 VLSEEEEPEDVFSGVVPVGRGSSMTTRPTT 1265

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BLAST of Cucsat.G8741 vs. ExPASy Swiss-Prot
Match: Q40983 (Stromal processing peptidase, chloroplastic OS=Pisum sativum OX=3888 GN=SPP PE=1 SV=2)

HSP 1 Score: 336.7 bits (862), Expect = 2.1e-91
Identity = 167/206 (81.07%), Postives = 188/206 (91.26%), Query Frame = 0 

Query: 21   QRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDVSFELSLFDRLKLGWYVISVT 80
            +R LRSHPLFFGITMGLL+EIINSRLFT+VRDSLGLTYDVSFEL+LFDRLKLGWYV+SVT
Sbjct: 1052 RRSLRSHPLFFGITMGLLSEIINSRLFTTVRDSLGLTYDVSFELNLFDRLKLGWYVVSVT 1111

Query: 81   STPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMRHEAEIKSNAYWLGLLAHLQA 140
            STP+KV+KAVDACK+VLRGLHSN I  RELDRAKRTLLMRHEAEIKSNAYWLGLLAHLQ+
Sbjct: 1112 STPSKVHKAVDACKNVLRGLHSNGITVRELDRAKRTLLMRHEAEIKSNAYWLGLLAHLQS 1171

Query: 141  SSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSLYTCIGIAGAQAGEESIVSFE 200
            SSVPRKDLSCIKDLTSLYEAATI+D  +AY+QLKVD DSLY+CIG++GAQA ++     E
Sbjct: 1172 SSVPRKDLSCIKDLTSLYEAATIEDTCLAYEQLKVDEDSLYSCIGVSGAQAAQDIAAPVE 1231

Query: 201  EEGSDQDFQGVIPSGRGLSTMTRPTT 227
            EE + + + GV+P GRGLSTMTRPTT
Sbjct: 1232 EEEAGEGYPGVLPMGRGLSTMTRPTT 1257

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BLAST of Cucsat.G8741 vs. ExPASy Swiss-Prot
Match: B8B0E2 (Stromal processing peptidase, chloroplastic OS=Oryza sativa subsp. indica OX=39946 GN=OsI_23765 PE=1 SV=2)

HSP 1 Score: 304.3 bits (778), Expect = 1.2e-81
Identity = 153/219 (69.86%), Postives = 186/219 (84.93%), Query Frame = 0 

Query: 9    SDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDVSFELSLFD 68
            S+ ++ D+ +     +RSH LFFGIT+ LLAEIINSRLFT+VRDS+GLTYDVSFEL+LFD
Sbjct: 1032 SESANTDLTERKHNDVRSHSLFFGITLSLLAEIINSRLFTTVRDSMGLTYDVSFELNLFD 1091

Query: 69   RLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMRHEAEIKSN 128
            +L LGWYVI+VTSTP+KV+KAVDACK VLRGLHSNKI +RELDRAKRTLLM+HEAE K+N
Sbjct: 1092 KLDLGWYVIAVTSTPSKVHKAVDACKGVLRGLHSNKIVERELDRAKRTLLMKHEAETKTN 1151

Query: 129  AYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSLYTCIGIAG 188
            AYWLGLLAHLQ+SSVPRK++SCIK+LT LYE+ATI+D+Y+AY+ LKVD  SL+ CIGIAG
Sbjct: 1152 AYWLGLLAHLQSSSVPRKEISCIKELTMLYESATIEDLYLAYEHLKVDESSLFACIGIAG 1211

Query: 189  AQAGEESIVSFEEEGSDQDFQGVIP-SGRGLSTMTRPTT 227
            A++GEE+     ++  D    G+ P  GRGLSTMTRPTT
Sbjct: 1212 AESGEET----TDDELDMGLHGMGPIGGRGLSTMTRPTT 1246

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BLAST of Cucsat.G8741 vs. ExPASy Swiss-Prot
Match: Q69TY5 (Stromal processing peptidase, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=SPP PE=2 SV=2)

HSP 1 Score: 304.3 bits (778), Expect = 1.2e-81
Identity = 153/219 (69.86%), Postives = 186/219 (84.93%), Query Frame = 0 

Query: 9    SDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDVSFELSLFD 68
            S+ ++ D+ +     +RSH LFFGIT+ LLAEIINSRLFT+VRDS+GLTYDVSFEL+LFD
Sbjct: 1032 SESANTDLTERKHNDVRSHSLFFGITLSLLAEIINSRLFTTVRDSMGLTYDVSFELNLFD 1091

Query: 69   RLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMRHEAEIKSN 128
            +L LGWYVI+VTSTP+KV+KAVDACK VLRGLHSNKI +RELDRAKRTLLM+HEAE K+N
Sbjct: 1092 KLDLGWYVIAVTSTPSKVHKAVDACKGVLRGLHSNKIVERELDRAKRTLLMKHEAETKTN 1151

Query: 129  AYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSLYTCIGIAG 188
            AYWLGLLAHLQ+SSVPRK++SCIK+LT LYE+ATI+D+Y+AY+ LKVD  SL+ CIGIAG
Sbjct: 1152 AYWLGLLAHLQSSSVPRKEISCIKELTMLYESATIEDLYLAYEHLKVDESSLFACIGIAG 1211

Query: 189  AQAGEESIVSFEEEGSDQDFQGVIP-SGRGLSTMTRPTT 227
            A++GEE+     ++  D    G+ P  GRGLSTMTRPTT
Sbjct: 1212 AESGEET----TDDELDMGLHGMGPIGGRGLSTMTRPTT 1246

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BLAST of Cucsat.G8741 vs. NCBI nr
Match: XP_011648983.1 (stromal processing peptidase, chloroplastic isoform X2 [Cucumis sativus])

HSP 1 Score: 440 bits (1132), Expect = 6.44e-143
Identity = 226/226 (100.00%), Postives = 226/226 (100.00%), Query Frame = 0 

Query: 1    ISQISRTESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 60
            ISQISRTESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV
Sbjct: 1035 ISQISRTESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 1094

Query: 61   SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 120
            SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR
Sbjct: 1095 SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 1154

Query: 121  HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 180
            HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL
Sbjct: 1155 HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 1214

Query: 181  YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1260

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BLAST of Cucsat.G8741 vs. NCBI nr
Match: XP_008441915.1 (PREDICTED: stromal processing peptidase, chloroplastic isoform X2 [Cucumis melo])

HSP 1 Score: 438 bits (1126), Expect = 4.89e-142
Identity = 224/226 (99.12%), Postives = 226/226 (100.00%), Query Frame = 0 

Query: 1    ISQISRTESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 60
            +SQISRTESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV
Sbjct: 1035 VSQISRTESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 1094

Query: 61   SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 120
            SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR
Sbjct: 1095 SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 1154

Query: 121  HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 180
            HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL
Sbjct: 1155 HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 1214

Query: 181  YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1260

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BLAST of Cucsat.G8741 vs. NCBI nr
Match: XP_004152885.1 (stromal processing peptidase, chloroplastic isoform X1 [Cucumis sativus] >KGN61235.1 hypothetical protein Csa_006672 [Cucumis sativus])

HSP 1 Score: 436 bits (1120), Expect = 3.77e-141
Identity = 226/227 (99.56%), Postives = 226/227 (99.56%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 60
            ISQISRT ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD
Sbjct: 1035 ISQISRTGESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 1094

Query: 61   VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 120
            VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM
Sbjct: 1095 VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 1154

Query: 121  RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 180
            RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS
Sbjct: 1155 RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 1214

Query: 181  LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1261

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BLAST of Cucsat.G8741 vs. NCBI nr
Match: XP_008441914.1 (PREDICTED: stromal processing peptidase, chloroplastic isoform X1 [Cucumis melo])

HSP 1 Score: 433 bits (1114), Expect = 2.86e-140
Identity = 224/227 (98.68%), Postives = 226/227 (99.56%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 60
            +SQISRT ESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD
Sbjct: 1035 VSQISRTGESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 1094

Query: 61   VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 120
            VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM
Sbjct: 1095 VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 1154

Query: 121  RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 180
            RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS
Sbjct: 1155 RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 1214

Query: 181  LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1261

[Close]
BLAST of Cucsat.G8741 vs. NCBI nr
Match: KAA0047681.1 (stromal processing peptidase [Cucumis melo var. makuwa] >TYK08337.1 stromal processing peptidase [Cucumis melo var. makuwa])

HSP 1 Score: 426 bits (1094), Expect = 3.56e-139
Identity = 224/236 (94.92%), Postives = 226/236 (95.76%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSR---------LFTSV 60
            +SQISRT ESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSR         LFTSV
Sbjct: 813  VSQISRTGESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRQVFSPNCILLFTSV 872

Query: 61   RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL 120
            RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL
Sbjct: 873  RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL 932

Query: 121  DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY 180
            DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY
Sbjct: 933  DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY 992

Query: 181  DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 993  DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1048

[Close]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match: A0A1S3B595 (stromal processing peptidase, chloroplastic isoform X2 OS=Cucumis melo OX=3656 GN=LOC103485911 PE=4 SV=1)

HSP 1 Score: 438 bits (1126), Expect = 2.37e-142
Identity = 224/226 (99.12%), Postives = 226/226 (100.00%), Query Frame = 0 

Query: 1    ISQISRTESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 60
            +SQISRTESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV
Sbjct: 1035 VSQISRTESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYDV 1094

Query: 61   SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 120
            SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR
Sbjct: 1095 SFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLMR 1154

Query: 121  HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 180
            HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL
Sbjct: 1155 HEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADSL 1214

Query: 181  YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 YTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1260

[Close]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match: A0A0A0LH02 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G072490 PE=4 SV=1)

HSP 1 Score: 436 bits (1120), Expect = 1.83e-141
Identity = 226/227 (99.56%), Postives = 226/227 (99.56%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 60
            ISQISRT ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD
Sbjct: 1035 ISQISRTGESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 1094

Query: 61   VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 120
            VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM
Sbjct: 1095 VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 1154

Query: 121  RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 180
            RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS
Sbjct: 1155 RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 1214

Query: 181  LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1261

[Close]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match: A0A1S3B556 (stromal processing peptidase, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103485911 PE=4 SV=1)

HSP 1 Score: 433 bits (1114), Expect = 1.38e-140
Identity = 224/227 (98.68%), Postives = 226/227 (99.56%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 60
            +SQISRT ESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD
Sbjct: 1035 VSQISRTGESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 1094

Query: 61   VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 120
            VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM
Sbjct: 1095 VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 1154

Query: 121  RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 180
            RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS
Sbjct: 1155 RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 1214

Query: 181  LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 1215 LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1261

[Close]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match: A0A5A7U266 (Stromal processing peptidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold648G001360 PE=4 SV=1)

HSP 1 Score: 426 bits (1094), Expect = 1.72e-139
Identity = 224/236 (94.92%), Postives = 226/236 (95.76%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSR---------LFTSV 60
            +SQISRT ESDESD+DIEKGLQRKLRSHPLFFGITMGLLAEIINSR         LFTSV
Sbjct: 813  VSQISRTGESDESDSDIEKGLQRKLRSHPLFFGITMGLLAEIINSRQVFSPNCILLFTSV 872

Query: 61   RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL 120
            RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL
Sbjct: 873  RDSLGLTYDVSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQREL 932

Query: 121  DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY 180
            DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY
Sbjct: 933  DRAKRTLLMRHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAY 992

Query: 181  DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT
Sbjct: 993  DQLKVDADSLYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 1048

[Close]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match: A0A6J1HNZ8 (stromal processing peptidase, chloroplastic-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111465360 PE=4 SV=1)

HSP 1 Score: 428 bits (1101), Expect = 1.19e-138
Identity = 218/227 (96.04%), Postives = 225/227 (99.12%), Query Frame = 0 

Query: 1    ISQISRT-ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTSVRDSLGLTYD 60
            +SQISRT ESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFT+VRDSLGLTYD
Sbjct: 1039 VSQISRTDESDESDNDIEKGLQRKLRSHPLFFGITMGLLAEIINSRLFTNVRDSLGLTYD 1098

Query: 61   VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKSVLRGLHSNKIAQRELDRAKRTLLM 120
            VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACK+VLRGLH NKI+QRELDRAKRTLLM
Sbjct: 1099 VSFELSLFDRLKLGWYVISVTSTPAKVYKAVDACKNVLRGLHGNKISQRELDRAKRTLLM 1158

Query: 121  RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 180
            RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS
Sbjct: 1159 RHEAEIKSNAYWLGLLAHLQASSVPRKDLSCIKDLTSLYEAATIDDVYIAYDQLKVDADS 1218

Query: 181  LYTCIGIAGAQAGEESIVSFEEEGSDQDFQGVIPSGRGLSTMTRPTT 226
            LYTCIG+AGAQAGEESIVSFEEEGSDQDFQGV+P+GRGLSTMTRPTT
Sbjct: 1219 LYTCIGVAGAQAGEESIVSFEEEGSDQDFQGVVPTGRGLSTMTRPTT 1265

The following BLAST results are available for this feature:
BLAST of Cucsat.G8741 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FIH81.9e-9280.95Stromal processing peptidase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=S... [more]
Q409832.1e-9181.07Stromal processing peptidase, chloroplastic OS=Pisum sativum OX=3888 GN=SPP PE=1... [more]
B8B0E21.2e-8169.86Stromal processing peptidase, chloroplastic OS=Oryza sativa subsp. indica OX=399... [more]
Q69TY51.2e-8169.86Stromal processing peptidase, chloroplastic OS=Oryza sativa subsp. japonica OX=3... [more]
BLAST of Cucsat.G8741 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_011648983.16.44e-143100.00stromal processing peptidase, chloroplastic isoform X2 [Cucumis sativus][more]
XP_008441915.14.89e-14299.12PREDICTED: stromal processing peptidase, chloroplastic isoform X2 [Cucumis melo][more]
XP_004152885.13.77e-14199.56stromal processing peptidase, chloroplastic isoform X1 [Cucumis sativus] >KGN612... [more]
XP_008441914.12.86e-14098.68PREDICTED: stromal processing peptidase, chloroplastic isoform X1 [Cucumis melo][more]
KAA0047681.13.56e-13994.92stromal processing peptidase [Cucumis melo var. makuwa] >TYK08337.1 stromal proc... [more]
BLAST of Cucsat.G8741 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3B5952.37e-14299.12stromal processing peptidase, chloroplastic isoform X2 OS=Cucumis melo OX=3656 G... [more]
A0A0A0LH021.83e-14199.56Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G072490 PE=4 SV=1[more]
A0A1S3B5561.38e-14098.68stromal processing peptidase, chloroplastic isoform X1 OS=Cucumis melo OX=3656 G... [more]
A0A5A7U2661.72e-13994.92Stromal processing peptidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_sca... [more]
A0A6J1HNZ81.19e-13896.04stromal processing peptidase, chloroplastic-like isoform X1 OS=Cucurbita maxima ... [more]
InterPro
Analysis Name: InterPro Annotations of Cucumber (B10) v3
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR007863Peptidase M16, C-terminalPFAMPF05193Peptidase_M16_Ccoord: 361..598
e-value: 1.5E-41
score: 142.4
IPR011765Peptidase M16, N-terminalPFAMPF00675Peptidase_M16coord: 212..343
e-value: 1.2E-21
score: 77.3
NoneNo IPR availableGENE3D3.30.830.10coord: 191..410
e-value: 6.3E-57
score: 194.6
NoneNo IPR availableGENE3D3.30.830.10coord: 473..661
e-value: 2.1E-11
score: 45.6
NoneNo IPR availablePANTHERPTHR43690:SF17STROMAL PROCESSING PEPTIDASE, CHLOROPLASTIC-RELATEDcoord: 149..873
NoneNo IPR availablePANTHERPTHR43690NARDILYSINcoord: 149..873
IPR011249Metalloenzyme, LuxS/M16 peptidase-likeSUPERFAMILY63411LuxS/MPP-like metallohydrolasecoord: 193..402

Relationships

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

Feature NameUnique NameType
Cucsat.G8741.T1Cucsat.G8741.T1mRNA
Cucsat.G8741.T5Cucsat.G8741.T5mRNA
Cucsat.G8741.T4Cucsat.G8741.T4mRNA
Cucsat.G8741.T3Cucsat.G8741.T3mRNA
Cucsat.G8741.T2Cucsat.G8741.T2mRNA
Cucsat.G8741.T7Cucsat.G8741.T7mRNA
Cucsat.G8741.T6Cucsat.G8741.T6mRNA
Cucsat.G8741.T8Cucsat.G8741.T8mRNA
Cucsat.G8741.T9Cucsat.G8741.T9mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009793 embryo development ending in seed dormancy
molecular_function GO:0046872 metal ion binding
molecular_function GO:0003729 mRNA binding