Sgr028885 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr028885
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionL-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like
Locationtig00153210: 1184882 .. 1201903 (-)
RNA-Seq ExpressionSgr028885
SyntenySgr028885
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.
ATGAGAAGCATCGCTTTGCCGTTGTTGTCCAGTACGTTACAGCAGCGATTCTCAGCTCCATTGAAGCCATAATCTACGCTCAAGTTTTTTGAAAGTGAAGCGAAATTATTGCCAGAAACTTTTTTCTACAAGTTCAATTCCCCCTCGGTAGAGCTTCAGATGGCAATGATTCTCAAAGGAGGAGGCGGAATTGGAGTTTCAACTGCTGCTTATTTTTCTCAGAATTCCAAACCTTCCCCAGTCTTCTCGGTTCACATGGTATGATTCTTCTTATTTGTTCGGAATCCGATTCCGATAACGGTTCCGGTTCTGATTTTGTTATTCGTGTTAATTTATTCTTGTTCGGGTTCCGAAGTTTTCACACGTACCATTTATTCCTGACTTTGGTTCACTTTAATTATTTTTCCTTTTTTTCAAGTTTCAGATTCCTTTTTAGCAAACGGTTCTTGAGGAACTCGTGGTTTATATTACTTGGTTGAATTATTTCTGACTGTGAGGTGCTTGAGTAAAAAGGAAGCGAGAAGTGGAAAACGAAACTTAGAAATTCCTACGGAATCCTCGTGTTCGATAATTTCTGTTTGCGAAACTACAATATGCACCGATTGAAGAACAACATAATTTGGAATTGTAATGCCAAAATAGATCAATTCCCAGAAGAGAAAAATACCATTGGAACTTTGAAATATTCTAGAGTTGACCATTTCAGAGTTATGAGTTCAATTGTTTTTTTTTACTGTCTTGTCTCCTGTTTCAATTGGGGGCCGAGTCATGAACAAGAGAGAGTGGGGAAGGGGACTTAGTAGAGGAAAATGGCTGATAGTTCTTGTGGAGGAAATGGACCCAGAAGATAAGAGGAAAGAAATTTGAATCTAAAACTCATGAAGAGAAACACTGATGCCTGACCATTTAGCTCTGGTTCGCGACATGATAGGTAGTTGTGGCAAATGACATCGGAATGGTTAAGCCATAATTTCTGTCTTAGATATCTTTTTCTCTGATTGTTTCTAGAAATATAAGTTTTTCTTCCATTCAGTTCAGCATGATCATGTTGAATTCCTATTGGACCAGAAAGACGGTTCGTTCAACCACTTATCTTAAATCTAGCTCCTGACAAAGCAATGGTTTCACATATCACCTAGCTTTATGGTCATCTTATGGTTGGAATATATTATCTCTGTTTTGTATTTACAGATAGCATCCCACTCTTCATATTATAATTTGAGTAAACGAAACGAGTGGATATAACTTCTTTCAAATAAATTTGACTTGTGCAGATGGTATATAAACTTGTAGCTGAACGCAAAGTCATTTGCTGCTCTACTTTGCAGGAATCATCTACTCCAACAGGTTAGTTGCTAGGAAGTTTTTCATCCACTAAAGTCTAAAAGATTGACAGAATGGCCCCAATAACGTTTTGTCAATCTTTTTTCTCTTTCAATGAAAAGGGTTAGGTTCCCTTCAAAAAAAAAAAGATGCAAAGGGTTGGGATCTGGTTCATTTGTTTCTTTCTGTTGGATTTTAATGCTCATTTTATGGCATCTGCTAAAAATAGAAGTTTTTTCTATCAGTTACTGCAGAGCCAAAGGAGGAAAAGACGGTTCAGAAGGAAGCTCCAGCAAAGACCAAACCGCCAGCAAAAGCTCCAGCCAAGCCACTCCCAGAGTTAATGAAGGAGGATGTCATACCTTCACTGAGAGCAATACTTGAAGCACAAGCTGATGTCTCTGACATCGAGCTATCGTTCCAAGATGACAGAGTTAGTTTCTCCCATCTGAGTTTCTTATTCACCAATAAACTCTGAACTTGAGCTTACTGAATTTGGCTTGAAAATGGCAGTTGGATGGTTCATTCTTGAAAAATGCAGTTCCCTACTCATTTTGGGCTTTCTTCCCCAATGGCCTCACAGGTACTTAAATTCTTAGAAAATGTAATTGTTATTTTATCATCACCCTTTGATTCGTGGTTTTCACTGCCTTTCTTTCCAACTAGCACAGCGAGTTCAATTAAATACGAATATGATGTATAAAAGCAAGAACAAATTATCTTCAATCACTGATTATCTTGATGCCAAGTTCCAACCCATTGTCGCCGAAAAAAAAAGGATAAAAACTCAATGACTAATCAATCTTCTTCAATGGTGTGAATCATGAACAGGTCCAAAGGGGTTTTCACTATCTTCATATGGCTATGGAGGAAGCTCTGTTGAGCCATTTCTGGTTGATGAGAAGAAAATTACCGCAAAGCATATAGTGTTTTGGATTGAGAAGCGTTTGGCTGCCCAAGGAATTATTCCAGTCTGGCAAGACTAATCAACACAATGATTTTGTATTTTTCTTTTTTCTTTTTTCTTTTTTTTGGTGGGGGCGCTTATTGTCAAATCATGTATAGCATAATTCTCCATTCTATTGCATTGCTCCTTCAACAGTATGTAAACTGATTCTATGAATTTAATCCTTTACCCTTTTTACTATTTTTGGAGCTTAATGAATTCAATTACTATTAGAGGCATTGCTGGTTAGTACACCTTTGACCCATTGTTTATATAATATTTAAAATTAAAAAAAAAACAATTTAACAATGTTAAATTGAGTGAACGTTAAAATTAAGAGATTGAATTAAGGGGTTTTTTTTTTAACATATATAGCTAAATTATGAAGATATAATTGAAAAAGTGTCCTATCACATAATACATCAATTAGTTTAGTCATATTTGAAAATTAATAAATTTAAAGATATATTTTTCATTCAAGAGTTTATTTATTTATTCTTGAAAAGTACATTTTATTTTTTATCTACACTGAAATTTTCGTTGAATTAAATATTTGGTAAGGTTTTAAGTTTATTCTCAACTGAATAGGCAGCCAAAAAAAAAAAAAAAAAAAGGCAACAACAACAACAACAACAAACTAGCATAATAAGTCCTACGGGCCGGGCTTCCTCGTACTCCTTTTATGGGCCTTCTCATGACTAGCTATTCTAATTTATTGAGGCCCAACATAATGGATCGGTTTTTCTTTCACTTCGGCCCACTATTTAAGCTAGGTATGGACTTTGAAATTCACAATTGGGCCGATTTCTTACTAAGCCCATTTAATGCAATTCTCAAACCCTAGCTCCACGAAGACAGCTCAAGGGTTTTATTTCCTCACTTATCGACCGTCCCGAAATTCGCCGTGTGTTTGCTTCCTCTCTTTTCTTCTGCATTCTCTTCAACAGATCCAACTCAGAACCCTACGGCGTTGAAACTTTGATACGATGGTGCGTAATCGATTTAACTTTGTGTTATTCTTCTTCAATTCTTTCTGCAGGCGACAAAGAATTTGAAATTGGTGGGAAGTCTGAAGCTATTTGTCTGGATAACATGTTCGAATGAGCTTTTACTGTTCTTTGGTTCTCAATCTTCTCTCAGAATACCAACGGGAAAGCGTCTTGTTTATTTTTCTGTTTTCGTAATCGGAACTTGCATTTTGGTCTCTTATTTTGGTTCATTTGTTGTATTTTAGGCGCCGAAGAAGGATAAGGCTCCTCCACCGGCCTCGAAACCTGCTAAATCTGGCGGAGGGAAGCAGAAGAAGAAGGTGAGATTCCTGGAACTATATTTTCGACGCTATTTCAATTTTTAGCTATATTAGTTTAGTTGAACTTGCCTTTTCTTTTTTGTGTTTATTTCTAGTCTTACGGTTATAGTACCTTCCTAAAATGTCTGCCATAGATTGTTGTTTAAGTTCATCTATGATACTACTGTGTGCGTTATGGGAAAAGGATTTCCAACACTTGTACTAAAAAATGGTTTCGTTTCAACTTTATGCCGACAATGAGGATACATCGAAATAACCAAAGAAGAAGCAATGCTAGGGACGCCATGAACTTATACTTTTCTGTTTAGTAGTACTTGTGATTTCCGGAGAGAATGTCTCATGCTGTTTGTTTTGCTCGCCTGTCAACTGTAAAATTTTGTTTGCTAAGATTATGCAGTCTTCTCATTTATGTTTCTGTTTGTCAACAACAGAAGTGGAGCAAGGGAAAGCAAAAGGAGAAGGTCAACAACATGGTTTTGTTTGATCAAGGAACTTATGACAAGCTTCTCGTTGAAGTTCCCAAGTACAAGCTTGTCACTCCTTCAATCTTGTCCGATAGATTAAGGGTATGTTTCGACCTCTTCTAATCAATCCTTAATGTGGAAGATGTTTTATGTTTGTTTGGCTTGCATCTTCTATCACATTGATGTTATTCTTGTTAATTTGTGATGCACTCCTGATATAATGTGAACTATATCTATACTTCTTTCTTTCCCACCATTCACAACTATGTTTAACTTATCAATTTGAACTATTCGACTGTTTGTGTCCCTAACGAGACCAGGGTAGGAAAATGCCCGAGTATAATAGATTAAAACAGGTCCCCTCCCCCCCTCTTCCCTTCATGAAAATTTTCCCATTTGGTATCTGATTTTCTTTATATCTTCTGAAAATTGAATTGGAAACCAGGTTGGTACATTTTTAATGAACAAATGGCTTGTTTCTTGTTAAAAGGATAAATAAACATTAGATTCAAATTCCTAACAAAAATGTACGATAATGGTCGAGAGGACACAGCTTCTGTCCAGAAGCCATGGCCCAAATTCCTTTATATTAGGATATCAAGTATCTAATGATTTATGGGACTAAAGAATTCCATAAATTTATGTTGGTATTTTCAGTCATGAATTCTATAAATACAAAATGGCCCAAAATTTCTTTGTATGAGAAAATAAAATAAAATGAACATTAGATTCCTGGTCCTCTATTCTTTTTTGTTGTTTCGGAACATGGCTGGTTGCAACCGACCACTTTTTGCCATCATTGAGTTCAACTGCAACTTGATATATATGATAAATGATTCTGTCATTGCAATTTTCACAGATTAATGGATCTCTAGCACGAAGAGCAATCAAGGATTTGATGGCAAGAGGTCTCATCCGAATGGTCTCTGCACATGCCAGCCAGGAGATCTACACAAGGGCCACCAATACCTAAATTCCCTTTCTTATCTTTAGAGTTGTCATGTCATGATTTAGCCGTTACTCCCGTTTTTGCTTCCTGGTTCCAATGTCTTCTTCATATGGATGCTATAGTTTTGCAATTTTTTTGAGTTTTTCCATTTTGGAGAGGAATTATCTGATGTTATCTTCCTTGTTAATTACTATTTTTAAATTTTTATCAAGTTCTCAAACATTCGAGATTTTATCGCTTCTTATGTTTAAAGTGCACATCGATCGGTCAGAGTTGGTTTTCGGCTCAAACCTACTCTTGGATTTTAAATATTTGAAACTGTTAGTTTAAATGAATCAAACCAATTGTCTGTGACCGTACTCGGTTGGTTCAATTTGGTGGCTTCCATTTAGTATGTGTTTACAGGTTTGGTTGGTCTGATGCGTGACGGCCGTCGGTTTGAGCAGCGGGGCGGCAAGTTGTCTGAGGGCTCAGCGGAGGCTGTGCTAAGGACGCCGCCGTGAGCGGTTGGGAGGATGGGGGCATTGTGCGTGAGACTCGGAAGCGATGTAGGCAATTTTTTTCATTTATCAAAATGATGGTTTTGCATTGACTTAGTGTGTGCTTCAAATGTCTTTTGAAAAACAAAAAAGGTGTGTTTTTAAGCGAAATACGTATTATATATAAGTATTTAGAAACGAAGATTTAATATATAAGTATTTTGGAATGAAGATTAGTTAAATGTTTCTTTTAAAAATATTGTAAGTGTTTTTTATTTATTTTTTGAATTTTTCAAATCACATTTAATTATTGAATATTTTATAAAACTTTAAATTGATTAAAAGTATTTTTTACCATTCTCTAAAATTTTAAAGAGACATTCTTATAAAAGCAATTTAATCACAGAAACTAAAGTTTTTTTTCCCTTTTTCATTCTTTCTAATTTTGAAAAATATTACTAAAGTAATATTTTAATATTCTTTTACTTATAGAATGCATAATAAAAATAAAAAAAGTAAATTGATATAATAAATTTGTGTTTATAAGTACAATTTTATCTTTCCAATTAAAAATTCAAGTTTTAGACATATTCATGTTTCTTTTTTTTTAAAAAAAAGTAATAAGTAATAATTATTTAATATGTTTTCATTTGTTTTTCTGAAAAGAATAAAAAGGTTCTTCAAAAAAAAAAAAGAATAAAAAAAGAAAAGGGAACGTTTCCGAATGAAGTTTTTAATAATCGAAAAATATTTTAATGATTTTTTCGACGTTATAAGTGGGAAAGCAAGGGAAATGGATTTAATATTTATGCAATAAGATTAGGGTTTTTTTGGGAGTAATTTCAAAGCAAATAACAGAAATTTTTATTAATTGAAATAATTAACTAATTTTCGTCTCCAAACAGAATATAGCTGAATTAGTCGAGGCACTTCAGTAATTTTATTGGAGCACCCTCTTTGCTGAACTCAAAAAACAAATTTTCGTCTCCACCACTAATTCCCGCCAAAAATATCATCTTTGTCATAGGGCGGCCATAAATTCCCGCCTTTTCATAGTATTCTCAACTCCGCTGCGGACTCGCTCTCTCTCTCTCTCTCTCGTGCGGTGGAAGCATAGTCTTACAGGTACGAGTTAGCAATCTTTCTGAAGCGGCTAATTATATATGTTATAGAGGCTTTCTGTTCCTTAGTTGATCCCGCTATTTACGAGGAGTACTTGTACTTCTTCCATTGTATGTAAAGAAGTTGTTGGATGATCATTGTAAGTTTGATAGAAATGTTTCATTCAGCAGTTCTATGAATCGGAATGTATTTTACTTGCTTGATCATTATCTTCTTCGCACAGAGCATTATAATTGGTTTCTGTTTTCATCGTAGTGATATGTTACGGTCGTCATATTAGCCATGAAATTGGAAATTTGATTGCCGACAAGCCATTCCGTATTTGTTACTTCTAACTGTATTACTACATTCGCGTTTGAGATTGGATTCAGTTTTTGCACTTATGAACTCTCGTGCTTTCTTATCAAGAACTTCGGCTGTCGATTACTACTATTATTCTTTACGTCTTGTACGATTCTGCTATTCGTAACTTATCAAGAGTTAGAACGGAGTTACTAAAAGGTCATGATCTCAATTGCCTTGAAATAACCCGCTTGGTACATCAAGTTCAACATTGTTATGCCAAATATTTTAGTCGTATAAGGATATTTGTTTCTGATGTTTTACCATTGAGACAGGATGATATTTATTTGGTGAAATTCATTTTTTCCATGCGGAATAGACATCTTAATTTGGTTCCAAACGTTTTTGTTTTTTTTCATACCATGTAGAAGAAGTGCTATCATCTTAGATTTATTCAATTTGTAAGTGTCTTAAGACAACATCTTTGTTATCATGCTTCCACATTCAATTAAGATTGTTTTGAACAATGAAAATTAAACTGATTTTAATATCTGTTCAATCCTCAAAATATGTCATTGGCCATGGTTGATTTTTCAGGACATGGATACTTCAAACCCTGCAGTTTTTGTCAATGGTCAGTTATTGAACATGCACCTTGGAAGAAAGATTCGAGCAGTTGTTCAAGTTATCCAAAGTGATGGTGGAGTCGTTACAGGAAAATCTACGGATGAACAAGAGTTGACTGTAAATGGCTTGCCCACAGTCCCTCTCATGAGTTTTGTTGAGGTGATTGGTATTGCTGAGAGCAACAAGATCATCAATGTTGAACATTGGACAGACTTCGGAAACACATTTGGTATGGACAATAACCGATTCATTCTGTTATCATTATGCCACTGATAATAATCCCACTGTTACATACGGATTTGAAAGCTCAGCAAATGCCATTTGGTCTTGATATGTCTGATCTTTTCTCATATCCGTCATGAATGTTAGATTGACTGAATTGTTTGATTTTCGGCTTTAAAACCAAAACTCCCTTTGTTGAAATTTACCTCTTCTTCAGATGCTCAATCTTACAATCAGCTCTGCCAACTTGCAAATGGGGAATTCAAAAGTTTATTTCTTTGAGGAGTTGTAGCTACGCAATGAGAAGAGGTACTATTTGTTCTGTGATATTGAATCGGCAATGCCTTTTACAACTCTCTTGGGAGACTATCTTCTATGCTTGTAACCCATGTGATGCGTTAACTGTTAGACCTCCGGTCAATCAAGTGTACGTGCGAAAGGGCAGGAAACGTGGGGATCGAAATTAGGATGCAACTCCCAAGTAGTTATTTACTTTTGCTTTCTATTTTGTACCTTTTTTGTGTTTAAGTTAACTGTCAGTTAGTTATTGTAAATAGGTAAAGGGGAAAGTTATTTTCTGGAACTAGTGTTCGGTGGGAGAGGCTATAGTCCTCTCGAATTGGCTATCCCTGTAAGTTGTTCTTGTTTTCTTATTTGTATTGCAAAGAATACCTGTCATTAACTTGTTAAACTGCCGTGAATCTATTCAGAGCAACCATGATGTTTGTTTTGGCTATAATGTGTGAGCCAAAAGATGCACAGAAGTTTTCATTTTAATGTACTAAGCTGGGAATGCAGTTCAGAATTTCATGGACCTTGAGGTTCCATTTCTCATCTTCCCTGCATCCAGGTACTTGATATGACACCTTTTTCATTACCAGCCATTTGAACTGAATTACTTGTTTCTCTTAGCATTTAGCTGTACACAGTCAACCTCTTTTCTCAAATCTCCTTGACTAATTGAAAACGACAAAACTGACTGAAATCAAATCGATTCAAATTTTCTATTTTATAACCAGACTGATATTCATTGTTCAAACCAACCAAACTGATATTTGTTGTCCAAATTTTGAACTAAATTGATTAGTTAGTTTCGTCAAACTTTTTCAAAATTTGCACCCCTAGAAGGAAGGAATCCTCTCCCATTTACAAGAGTAGAAGGTGCTGTTTCATGTAGAGCTTCCAAGAAATTTGAAACAGACAGAAGAAAAGTTGTCAAGGTGTAGTCAACTCACCTTTTGAAAGCTTGATGCTATTGGTTTTTTCCATCCGAATTTCCCGAAAGAGGCTTTTATTAGGACTTTTAACAGCATAGGTGGGAAATCCTTGTTTGAAATGAGAAAGGAAAAAAAGTTCTCAACTTTTTTGGGATATAAATAAATTCTCGGATTCCAATCTCATTCTTGATCTCGACTCTATTCCAAAGAATAATCTAATTTTAAAAACACCTTTTTAGATAGAGATGTATTGAGAATATTTTTGTTAATAAGGCGAAGTGCATAGACTATATCTTTTGAATTGAGAAAAGCTTAAAAAATATATTTTCTAAAATTTGTTGGTGATTAAAAGATCTAAAAATGATAGTTCGTTAATAAATAATAAATTTGGATTGTTTTTTTTTAATTTATAAATCAATTGGTTTGATTCAACTTAAATTAAGTTTAGAAGAACTCATAAAATCAACTCAATTTTTATAAGTTCACCTGAAACTAATCTAAACAAATTTATGACTTAATTAACCAACACAATTTGGATTGGATTTAATCAAGTTTTCTGATTGTCGTAATTTTTTAAACACATTTAGAAATAGTATTGCCAGTAATCAGCCGTGACAAATGAGTGAAAAATAATTATTTAAATAAAAATAGTTATATCATGTCATTTATTATGGGAAGGATAAATTACAAATTGGGTTCTTATAATTTGAACTTATTTTCAATTTAATTTCTATAATTTTAAAAGTTTCAAATTGGTTCTTATGGTTTGAGTTTAATTTCAATTTAATTTTTATGGTTTTAAAAGTTTTAATCTCATCCTTATGATAGGGTCAAATTTTATAAATTGTCCCTATTACTATTATATTATATACATGACATGTTTTCTATTTACATGACATAAGCTTGTGTTTTCCAATTTAGCTTACCTACTGTATTAGGGTTGAAGTATGAGTGAAAATAGAGCAAAGTGAGTGGGGTTTTTTTTTTCGATAAAAATGATTTAGAGACTATTTATGAGGTTTAATCAAATTAAAACTTTTAGAATTATAAAGATTAAATTGAAAATTTTTAAATCATAAGAACTAAATCAAAACGAAATCCAAACCAATGACCAAATTTATAATTTAATCGTAGGAGAATGACTGAAATAAAAATTACTGAATAATTCCTAGAATTTCTAGTCTTTTTACGAGGTAATATTGTACATTAAAATAATGTTACACATTAAATTTAGGCTAAATATATGTTTTAATCTCTAATATTTTGGTGTTTTTTCAATTTAGTTCCTATTGTTTTAAAAGTTTTTAGTTAATCTCTTATGTTTTAACATTTTTCAATTATACTCTTCATGTCGGTGAATGTTAAGTCAATTTTAACATTCACCGATATTGAAAAATGTTAAAATTGGTTTATAGTAAACTTACATGACATAATACTTAGCGAGTTAACATAAATTTAGAATAGAATTTAGACTAATTAAAAGAAGAAATTTTCTAATTCCTCTTCCAAGTTTTTTAAGAAATTGGTAGAAATTTCAATTTTTCTTATTTTAGATGGTCTAATTTATTATCTAAATTTTGGCCAATTCACTAAATATCATGTAATGTAAGTTTATCATTAACAAATTTTAACATTCACTGATGTGAAGAGTATAATTAAAAAATTTTGAAACATAAGAGATTAAATTAAAATTTTTTAAATAGTAGAGACTAAATTAAAAAAAAAATCTAAATATTAAGCATTAAAACATATATTTAGCTTCTAACTCTAATACAATTTATTAAATTCAATATAATAGTTCTAAATCAATTAAAAATAATAAATAAATCGTTAATGATTTGTAATTTAAGTAAACTGCTATATAAAGAAAACAAAACACAGGAAAATGCGAAAGTTTCCAGTAAACGAACATTCGCGAGTGTAATCGCGGAGGAGAAAATCGATAGGCAGGGCCGGAGAATCGAGAGAAATGGCAGCTTCTTCTTCGTCTTCCTTTTTGGCCGCAGCTTCCCAGAAGGTTGGGCCAGCCGCACGCCGCCAAGTTCTAAATCTAACGGAGGCCGCCGCCGCTAGAATTCGACAACTTCTACAACAGCGCCAACGTCCATTCCTGCGCCTGGGCGTCAAGGCGCGCGGCTGCAATGGCTTATCCTATACTCTCAACTACGCAGGTTCGTAATACCTATTGTAATTCACCCTTTTCTTGATTGTATGCATCTTTTTTTTTTTTTACTTTTTTTGCATCAGAATTTAAGGATGCGACGAAATTTGTCGATTAGCTATCCTCTTTTTCTTGAAATCAGATGTTGCTGTTTAGAGTTAGTTCGAGACAATTAGATATTTGATGTTTTCGACCGATATAACCTAAATAGTTAACAAGATATGTTTTGAAACTAGTGAAACTGAAGTTTTCTATAAGATGATTTCTTGATGTCTTAGTTGTTTCCAGTTCCAATTATCAAGAATTAAGATTTCAGGACCAAGGATTTTTTTTTAAAGATAATTAGATGTAGAAAAATTAAAAGGTAAATGTTTGCGTAATTGTGATTAACCGGAATTTGAGCTGTTGAGTTCTTGCTAACCTTAACAAACGACATGAAGTTTTAATTTAACGATTTACTTGACAAACTTATGAGATAAGAATTAGTGGGTTGTAACACATCACAATCCCAGAGTAATTGCATGTTCCATCCAAATGTATGGTGACATTTGCTTCCTCAAGTACCATTTACTTTGTGGTGCGGGTCCATGGCTATTGTGAGACCACAGCAGGACTGGACATTGATTAATTTGGGAGCTTTTCTCTCTCTCTCTCTGATATGGTTAATTAGAATGTTATTGGAAACAAAGTGCTGTTACTGTTCAATTAGAATATAAATGTGTTAGCAAGTGTCCATGGGTTAACTTGGAGAGAATAGTTATTAACATGTTAGATGGTCAGAAGTTTGAGATTTTATACACTTGTGGCTAGGGACTTTTTCTTGTTTATGTGTTTATTTAAATTGGCTATCTTCCCAGTTAACAGTATTTGAATTCAGTTTTCTATGGAATCGCCCGTGATTGGAGACATTTCCTAACTCAACTCTACCTTAGTTCTATAATCACATTGTCATTAATTACCAGTCATTTTCATAGTGCAAGAAATAGGATGCAGCCGTTGTCTCTCTTTTGGCATAAATGGACTATAGTCATGATCTCTATCTTTTGAACTACTTCAAAATTGCAGTTTTTCATATTAAAGTTTTTCATATTTCAAATAATTCAGATGAGAAAGGGAAGTTTGATGAGCTGGTTGAGGATCAAGACGTGAAGATATTGATCGATCCAAAGGCTCTGATGCATGTAATAGGAACAAAGATGGACTTTGTAGATGACAAACTGAGGTATTTGAGAAATCTCTACCACAATTTTATATTTTCAGCTGTATGTCCATCCATGTGTTGAGGAAATGTCCTGCTTGTTAGTTGAGATATTAGACAGACATATTAAAGCATGTGTAATGTATGTAAATGTCGATGTGTAGGCATCTGCATCTGTATGTCAACCTATTATTCCACATTTATCATGGCTCCTCGGAAACACTACTTTTTATTCCAGAGTCCGAACATATTTTAAGGGGTTTCAGTCGGCTGTGCGCCTTTCTGTTCTGAATTTGCTTGTCAATCAATTAGCAACAGTGGTGGTGGTATTTGCAACTTGGAAGGATCATATTATTCATTCGCAATGTATATGATAGAGAGTATCTGTGCCTGAGAATGGGTTCAGATCATCTTTAGCATCCTTAAGCTAGCGACTATAATTAATGCAACTTAAGAGAGAACTGTTAATTTTAACCACCCTGAATTGGCCTAGGAGTCATTGGGGCAAATGGAAAAAGTAAAAGACTTAAAAGAAATGAGTTCAAACCATGGTGGTCACCTACGAAGAATTTAATATCCTATGAGTTTTCTGAGCAATCAAATGTAGTAGGGTTAGATAGTTGTCTCGTGAGATTAGTTGAAATGTGCGTAAGCTGGCTTAGACATTCACGGATATTAAAAAAAAAAAAAAGAATTGTTAATTTTATTAGAGTGAAGTTATCTTGAGTCTTGATGCTCAAATCAAATCAACTTTTTAATCCCTGTAATGCCGTATCCTGTGGCCAACTAAACTTTTTTTTCTCTCTCTCTTCTTGGTAGATCCGAGTTTATCTTTATCAATCCAAATTCCAAAGGACAATGTGGCTGTGGGGAGTCCTTTATGACAACAGGCAGTGCAGAAGCCAACAAAAAGTAAGAAGGCAGTGGAGGAGTGAGCACTGTTTGATAAAGCAAGCTCGCAGTTACTGATTTATTGTGTATTTTCTGGAAATACAACAAGGACAATGACCAAGAGAGTTCTTCTTTGTCAAGAACTTAAAACAGTTGTAAGAATATTTCTGTATGGTTAATTATATTCTTAGAAAGCCAGTTAAGGTTTGTATTTTGCTAATTTTTTTTTTGTCTTTTGTATGTATTATTGTAGACTGCACTGGCTAATGAGATCTGAGGTAATAAAATTCTCCTACAACTTTCTTTTGTTCAAGGACTTTGTAATGGGAACTATCTTTCTTGCCTTGTAATTGGTTGAGGTAATAAAAAATAGTCCCCAATTAATAGCTTATAAGAACGCTCACATCTAGTAAAAATCTTCAATATAACTTAAAACTAGATATCAGAGGATATTTCATATTAATTTTATCACTTTTTTTTTTTAAACATAGAATGTCTTCATCTAAATGTGTTTTTGTGATATAAAGAGAAATAGAATATGAAATTGGCAATCTAATATAATTACTCACACACAACAATCTCGACTAAAGGTTAAGGCATTTTTATTTTTTCTATGAGTTTGTAGTCTTGTATGTTTGAATCCTCATTATTTGTGATATGATATTTTAAAAAAAATCATTGAAATCCTTTTATTGGAAACGAAGGGGCAATTTTTTTCAAAAAAAAAAAAAGAAGAAAAAATGGAGGAGCAGTTGGAATGGCATTTGTGTGGTTAGGGTTTAGAGGGGGGAAAATGAAATTTTGATTTTTTTTTTGTTTTTTTTTTCCGATTAAATGATTTAGATTCCAGAGTGCAACTAACAATATTAATTGTTTTATTCTCAAAAAAAGAACAAAACTAATTCTTTTAAAGATTCGGTTCAAAGTTCAAACATATCTCATTTCACTTTATAAATTTTTTATTAAATAATTAATGTTGCGGACTAAATTCTTATATTGATAAAAGAATCTTATTAATTAAGAAAAAAAAGGACCTAAGACTTTAAAATTGGCAAATTACATTATTAAAATTATAATTTAGCGTTCTCACAAAAAAAAAAAATTATAATTTAGCAGGCGGTTCCTTTTTTTTTTTTTTTTAAGACTTTAAAATTGGCAAATTACATTATTAAAATTATAATTTAGCGTCCTCACAAAAAAAAAATTATAATTTAGCAGGCGGTTCCTCTGCAGGCGGCTTCCTTGTCGTAGCGGCGCAGCTTAATGCAGGAGGGGGCCCGTGTTCTCTGCGGATGCCCCGAGGAGAGAAAATGGACGTCAGGCGAACCGGAGCAACTTTGAAGCTTGTGTAAGTCGGTAGCCATGGAGAGGGCCGTCCAGAGATGGGCCGTCGACGTTTCTGAGTGGGACCCGTCTTCCCATGAGTTCTCCTCTGCCCTCTCTCTTCTCCCTCGCCATGAACATTCCTCCATCCTTAGGTTAGCTACTGCCACTGATTTGCTGCTGCTTTTTCTTTGCCTCCTTTTCTTTATGTCTATGTTTGTTTCTTTCAGATAATTTATAGAAATTGCTGATTGAAATCGTGAATTGACTTCCGGAAACAGGAATTTTGAATGAGGAGACATGAACTCTTCCAATATGACTTAGTTAACTTTTACATTTTTGTTTGTTTCTCCAGAAAATTGAGATAGAAATTGATATTGATCGTAAGTTTGTAACTCTTTCTGGGAACAGTGATGGAATCCATGCTTGCACTTGGTTTGGCTTTATTCGTGGGGAATATTTTGTTTTATTTTATTTTTTTGGTTTTTTGTGTTGCTAATGCCAATGCATTTCATTTTAAACTTGCTTTAAAAAAAATTGTTAGTATTTATGCATTATTGTTTTTTAGTGTGTTTGTAATGAGCTTTTTCTCATTAGAAATGATACTTATGAATGAATATCTTTCGATGAGTACATTTGGTGAATAGTAGAACTTGTGGGTAATGAAAATTCATTAGGTAATAGTAGTTGATGACCTCTTTTTATTTTCTTGTTCATAGATTTTTTAAGATGGAAGACAGGAAACGCGCACTTGTGAGTCGGTTGCTTCAGTATGCTCTTGTGCATAATATATTGAAAATCCCATACGATGAGATAATTATCAAGCGCACATTGGAAGGCAAGCCATATCTGGTACGGTTAGAATTTAGAAGTAATAAGTTACTCTCGTTTCTTTTTCGAACTCTTGTTTCTTTTTCGAGATAAGTATGATCTATGTGTTACTGACATTTCTCTTGAGTACTATACTATTAAAACGATGCCAACAATGAATGGAAACATGATTTTGTTTCCAAACTAAAATAATTTAGATTTTCGCTTTCTATTGTTATGCATTCTCTGGTTGGAAAAAAAAAATTAAATCTTCTGAAGAACAAGGAGGGAAGGACCCTCTTACTTTTTGTGTTTAAACTGTAAATATTTTGGTTACTTGCTAGTCCTAGATATGGGTTTGGATACTTTTCAGGTTTTGATGTTTAATAGCTCCATGTGTTGATGGCTTGCACTGTTAGGTTTAATTCAATTCTGATGGTCTGCATTTTTTTTTCCTTTCTATATTTAATATATTCCTCTCACTTAATGAGCCATAATAAACACCATCATGTATCCTTCTCAACAGTCATTTTTCATGGATCTACAACATTGAAGCCATCTTCACTAATAGCATGCATATTCTTTGTTTTTTTCAGGAATGTGATAAACTTGCTTCAGAATTTCCCAATTTTAACTTCAATGTATCGCATCACGGTGATTATGTGGTTATAGCCTCCGAACCCCTGTGTCTTGTGGGGTTGGATGTTGTCTCCTACACCACTCCCCAAAATGAGGATACTATTGAATATGTTAAAAACTTCTCCTCTTACTTTTCAAGTTTAGAATGGAAAAACATCATGAATGCTAGCTCTAGCGCCAGTGTTATGGTTGAGTTCTACAGGTTTGATTGAACTTCCACTTTATTGTTTAGCTTTCGATGAATGCATTTTGATTTAGTTTTCTTCACTTAGGACCTATTCTCTCCTTGAATTTTGTTATGGCCATGAATTTTCCTCCCCGCAATCCAGAAACTCCAATAATTACAATGCTATCCCCACCCCCCCCCCCCAAAAAAAAAAAAAGTAAATAAATAAATAATTGTGTTCTTAACTATTTCAGTTGCGATGCAGATACTGGTCTCTCAAAGAAGCATATGTTAAAGCTATTGGAAGTGGAATGACATACGGGTTGGGGCAAGTGGAGTTTCATCACATTGGGTGGAACGACATACTGGTTAAAGTTGGAGGGGAAATTCTGAAAGAATGGAGATTTTGGATTTCGGAGTTGGGAAGCAGACATTGTGTAAGTTTCACATATTACACTGTCTTTCTGGCCAAGGTTTTGAATGTATTGAATTTTATCATTCGGACTGAAAAAAAAAATTATATAGAGTAAGAAATCAACCTCTAAAATTTCCATTAAACTTCTATATTTCCTGAATGTAGGAGTCTGTCAATAGTATCTAAATTTTAATCTTGTTCACATAACCTGGACTAGCCACGGAAAAAATAAGTTAGCTTGATCCTAGACATTCATTGAAGACCTGTTGGAAATAACTAGAAGCTAAAAACTTGTAGACTTGTAGTCCTGTGCTCCACTGTTGAGTTTTAATAGATTGGCTGAAAGCTGCTGATCTTCACCCCTGTTCTTTTCCGATGTTCTCAGGTGGCTGTTGCCAAGGGGCATCCAAGATTAGCTACCGAGAGCTACTGGAGGACTCTAACGAGGACGGAGTTTAACCCCGAGGAGTATCATGCTG

mRNA sequence

ATGAGAAGCATCGCTTTGCCGTTGTTGTCCAAAACTTTTTTCTACAAGTTCAATTCCCCCTCGGTAGAGCTTCAGATGGCAATGATTCTCAAAGGAGGAGGCGGAATTGGAGTTTCAACTGCTGCTTATTTTTCTCAGAATTCCAAACCTTCCCCAGTCTTCTCGGTTCACATGATGGTATATAAACTTGTAGCTGAACGCAAAGTCATTTGCTGCTCTACTTTGCAGGAATCATCTACTCCAACAGTTACTGCAGAGCCAAAGGAGGAAAAGACGGTTCAGAAGGAAGCTCCAGCAAAGACCAAACCGCCAGCAAAAGCTCCAGCCAAGCCACTCCCAGAGTTAATGAAGGAGGATGTCATACCTTCACTGAGAGCAATACTTGAAGCACAAGCTGATGTCTCTGACATCGAGCTATCGTTCCAAGATGACAGATTGGATGGTTCATTCTTGAAAAATGCAGTTCCCTACTCATTTTGGGCTTTCTTCCCCAATGGCCTCACAGGTCCAAAGGGGTTTTCACTATCTTCATATGGCTATGGAGGAAGCTCTGTTGAGCCATTTCTGGTTGATGAGAAGAAAATTACCGCAAAGCATATAGTGTTTTGGATTGAGAAGCGTTTGGCTGCCCAAGGAATTATTCCAGCGCCGAAGAAGGATAAGGCTCCTCCACCGGCCTCGAAACCTGCTAAATCTGGCGGAGGGAAGCAGAAGAAGAAGAAGTGGAGCAAGGGAAAGCAAAAGGAGAAGGTCAACAACATGGTTTTGTTTGATCAAGGAACTTATGACAAGCTTCTCGTTGAAGTTCCCAAGTACAAGCTTGTCACTCCTTCAATCTTGTCCGATAGATTAAGGATTAATGGATCTCTAGCACGAAGAGCAATCAAGGATTTGATGGCAAGAGGTTTGGTTGGTCTGATGCGTGACGGCCGTCGGTTTGAGCAGCGGGGCGGCAAGTTGTCTGAGGGCTCAGCGGAGGCTGTGCTAAGGACGCCGCCGGCGGCCATAAATTCCCGCCTTTTCATAGTATTCTCAACTCCGCTGCGGACTCGCTCTCTCTCTCTCTCTCTCGTGCGGTGGAAGCATAGTCTTACAGTTTTTGCACTTATGAACTCTCGTGCTTTCTTATCAAGAACTTCGGCTGTCGATTACTACTATTATTCTTTACGTCTTGACATGGATACTTCAAACCCTGCAGTTTTTGTCAATGGTCAGTTATTGAACATGCACCTTGGAAGAAAGATTCGAGCAGTTGTTCAAGTTATCCAAAGTGATGGTGGAGTCGTTACAGGAAAATCTACGGATGAACAAGAGTTGACTGTAAATGGCTTGCCCACAGTCCCTCTCATGAGTTTTGTTGAGGTGATTGGTATTGCTGAGAGCAACAAGATCATCAATGTTGAACATTGGACAGACTTCGGAAACACATTTGCTCTGCCAACTTGCAAATGGGGAATTCAAAAGTTTATTTCTTTGAGGAGTTGTAGCTACGCAATGAGAAGAGGTACTATTTGTTCTGTGATATTGAATCGGCAATGCCTTTTACAACTCTCTTGGGAGACTATCTTCTATGCTTGTAACCCATGTGATGCGTTAACTGTTAGACCTCCGGTCAATCAAGTGTACGTGCGAAAGGGCAGGAAACGTAAAGGGGAAAGTTATTTTCTGGAACTAGTGTTCGGTGGGAGAGGCTATAGTCCTCTCGAATTGGCTATCCCTCTGGGAATGCAGTTCAGAATTTCATGGACCTTGAGGTTCCATTTCTCATCTTCCCTGCATCCAGGCAGGGCCGGAGAATCGAGAGAAATGGCAGCTTCTTCTTCGTCTTCCTTTTTGGCCGCAGCTTCCCAGAAGGTTGGGCCAGCCGCACGCCGCCAAGTTCTAAATCTAACGGAGGCCGCCGCCGCTAGAATTCGACAACTTCTACAACAGCGCCAACGTCCATTCCTGCGCCTGGGCGTCAAGGCGCGCGGCTGCAATGGCTTATCCTATACTCTCAACTACGCAGATGAGAAAGGGAAGTTTGATGAGCTGGTTGAGGATCAAGACGTGAAGATATTGATCGATCCAAAGGCTCTGATGCATGTAATAGGAACAAAGATGGACTTTGTAGATGACAAACTGAGAGTCCGAACATATTTTAAGGGGTTTCAGTCGGCTGTGCGCCTTTCTGTTCTGAATTTGCTTGTCAATCAATTAGCAACAGTGGTGGTGGTATTTGCAACTTGGAAGGATCATATTATTCATTCGCAATGCGGCTTCCTTGTCGTAGCGGCGCAGCTTAATGCAGGAGGGGGCCCGTGTTCTCTGCGGATGCCCCGAGGAGAGAAAATGGACGTCAGGCGAACCGGAGCAACTTTGAAGCTTGTATTTTTTAAGATGGAAGACAGGAAACGCGCACTTGTGAGTCGGTTGCTTCAGTATGCTCTTGTGCATAATATATTGAAAATCCCATACGATGAGATAATTATCAAGCGCACATTGGAAGGCAAGCCATATCTGGAATGTGATAAACTTGCTTCAGAATTTCCCAATTTTAACTTCAATGTATCGCATCACGGTGATTATGTGGTTATAGCCTCCGAACCCCTGTGTCTTGTGGGGTTGGATGTTGTCTCCTACACCACTCCCCAAAATGAGGATACTATTGAATATGTTAAAAACTTCTCCTCTTACTTTTCAAGTTTAGAATGGAAAAACATCATGAATGCTAGCTCTAGCGCCAGTGTTATGGTTGAGTTCTACAGATACTGGTCTCTCAAAGAAGCATATGTTAAAGCTATTGGAAGTGGAATGACATACGGGTTGGGGCAAGTGGAGTTTCATCACATTGGGTGGAACGACATACTGGTTAAAGTTGGAGGGGAAATTCTGAAAGAATGGAGATTTTGGATTTCGGAGTTGGGAAGCAGACATTGTGTGGCTGTTGCCAAGGGGCATCCAAGATTAGCTACCGAGAGCTACTGGAGGACTCTAACGAGGACGGAGTTTAACCCCGAGGAGTATCATGCTG

Coding sequence (CDS)

ATGAGAAGCATCGCTTTGCCGTTGTTGTCCAAAACTTTTTTCTACAAGTTCAATTCCCCCTCGGTAGAGCTTCAGATGGCAATGATTCTCAAAGGAGGAGGCGGAATTGGAGTTTCAACTGCTGCTTATTTTTCTCAGAATTCCAAACCTTCCCCAGTCTTCTCGGTTCACATGATGGTATATAAACTTGTAGCTGAACGCAAAGTCATTTGCTGCTCTACTTTGCAGGAATCATCTACTCCAACAGTTACTGCAGAGCCAAAGGAGGAAAAGACGGTTCAGAAGGAAGCTCCAGCAAAGACCAAACCGCCAGCAAAAGCTCCAGCCAAGCCACTCCCAGAGTTAATGAAGGAGGATGTCATACCTTCACTGAGAGCAATACTTGAAGCACAAGCTGATGTCTCTGACATCGAGCTATCGTTCCAAGATGACAGATTGGATGGTTCATTCTTGAAAAATGCAGTTCCCTACTCATTTTGGGCTTTCTTCCCCAATGGCCTCACAGGTCCAAAGGGGTTTTCACTATCTTCATATGGCTATGGAGGAAGCTCTGTTGAGCCATTTCTGGTTGATGAGAAGAAAATTACCGCAAAGCATATAGTGTTTTGGATTGAGAAGCGTTTGGCTGCCCAAGGAATTATTCCAGCGCCGAAGAAGGATAAGGCTCCTCCACCGGCCTCGAAACCTGCTAAATCTGGCGGAGGGAAGCAGAAGAAGAAGAAGTGGAGCAAGGGAAAGCAAAAGGAGAAGGTCAACAACATGGTTTTGTTTGATCAAGGAACTTATGACAAGCTTCTCGTTGAAGTTCCCAAGTACAAGCTTGTCACTCCTTCAATCTTGTCCGATAGATTAAGGATTAATGGATCTCTAGCACGAAGAGCAATCAAGGATTTGATGGCAAGAGGTTTGGTTGGTCTGATGCGTGACGGCCGTCGGTTTGAGCAGCGGGGCGGCAAGTTGTCTGAGGGCTCAGCGGAGGCTGTGCTAAGGACGCCGCCGGCGGCCATAAATTCCCGCCTTTTCATAGTATTCTCAACTCCGCTGCGGACTCGCTCTCTCTCTCTCTCTCTCGTGCGGTGGAAGCATAGTCTTACAGTTTTTGCACTTATGAACTCTCGTGCTTTCTTATCAAGAACTTCGGCTGTCGATTACTACTATTATTCTTTACGTCTTGACATGGATACTTCAAACCCTGCAGTTTTTGTCAATGGTCAGTTATTGAACATGCACCTTGGAAGAAAGATTCGAGCAGTTGTTCAAGTTATCCAAAGTGATGGTGGAGTCGTTACAGGAAAATCTACGGATGAACAAGAGTTGACTGTAAATGGCTTGCCCACAGTCCCTCTCATGAGTTTTGTTGAGGTGATTGGTATTGCTGAGAGCAACAAGATCATCAATGTTGAACATTGGACAGACTTCGGAAACACATTTGCTCTGCCAACTTGCAAATGGGGAATTCAAAAGTTTATTTCTTTGAGGAGTTGTAGCTACGCAATGAGAAGAGGTACTATTTGTTCTGTGATATTGAATCGGCAATGCCTTTTACAACTCTCTTGGGAGACTATCTTCTATGCTTGTAACCCATGTGATGCGTTAACTGTTAGACCTCCGGTCAATCAAGTGTACGTGCGAAAGGGCAGGAAACGTAAAGGGGAAAGTTATTTTCTGGAACTAGTGTTCGGTGGGAGAGGCTATAGTCCTCTCGAATTGGCTATCCCTCTGGGAATGCAGTTCAGAATTTCATGGACCTTGAGGTTCCATTTCTCATCTTCCCTGCATCCAGGCAGGGCCGGAGAATCGAGAGAAATGGCAGCTTCTTCTTCGTCTTCCTTTTTGGCCGCAGCTTCCCAGAAGGTTGGGCCAGCCGCACGCCGCCAAGTTCTAAATCTAACGGAGGCCGCCGCCGCTAGAATTCGACAACTTCTACAACAGCGCCAACGTCCATTCCTGCGCCTGGGCGTCAAGGCGCGCGGCTGCAATGGCTTATCCTATACTCTCAACTACGCAGATGAGAAAGGGAAGTTTGATGAGCTGGTTGAGGATCAAGACGTGAAGATATTGATCGATCCAAAGGCTCTGATGCATGTAATAGGAACAAAGATGGACTTTGTAGATGACAAACTGAGAGTCCGAACATATTTTAAGGGGTTTCAGTCGGCTGTGCGCCTTTCTGTTCTGAATTTGCTTGTCAATCAATTAGCAACAGTGGTGGTGGTATTTGCAACTTGGAAGGATCATATTATTCATTCGCAATGCGGCTTCCTTGTCGTAGCGGCGCAGCTTAATGCAGGAGGGGGCCCGTGTTCTCTGCGGATGCCCCGAGGAGAGAAAATGGACGTCAGGCGAACCGGAGCAACTTTGAAGCTTGTATTTTTTAAGATGGAAGACAGGAAACGCGCACTTGTGAGTCGGTTGCTTCAGTATGCTCTTGTGCATAATATATTGAAAATCCCATACGATGAGATAATTATCAAGCGCACATTGGAAGGCAAGCCATATCTGGAATGTGATAAACTTGCTTCAGAATTTCCCAATTTTAACTTCAATGTATCGCATCACGGTGATTATGTGGTTATAGCCTCCGAACCCCTGTGTCTTGTGGGGTTGGATGTTGTCTCCTACACCACTCCCCAAAATGAGGATACTATTGAATATGTTAAAAACTTCTCCTCTTACTTTTCAAGTTTAGAATGGAAAAACATCATGAATGCTAGCTCTAGCGCCAGTGTTATGGTTGAGTTCTACAGATACTGGTCTCTCAAAGAAGCATATGTTAAAGCTATTGGAAGTGGAATGACATACGGGTTGGGGCAAGTGGAGTTTCATCACATTGGGTGGAACGACATACTGGTTAAAGTTGGAGGGGAAATTCTGAAAGAATGGAGATTTTGGATTTCGGAGTTGGGAAGCAGACATTGTGTGGCTGTTGCCAAGGGGCATCCAAGATTAGCTACCGAGAGCTACTGGAGGACTCTAACGAGGACGGAGTTTAACCCCGAGGAGTATCATGCTG

Protein sequence

MRSIALPLLSKTFFYKFNSPSVELQMAMILKGGGGIGVSTAAYFSQNSKPSPVFSVHMMVYKLVAERKVICCSTLQESSTPTVTAEPKEEKTVQKEAPAKTKPPAKAPAKPLPELMKEDVIPSLRAILEAQADVSDIELSFQDDRLDGSFLKNAVPYSFWAFFPNGLTGPKGFSLSSYGYGGSSVEPFLVDEKKITAKHIVFWIEKRLAAQGIIPAPKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLVTPSILSDRLRINGSLARRAIKDLMARGLVGLMRDGRRFEQRGGKLSEGSAEAVLRTPPAAINSRLFIVFSTPLRTRSLSLSLVRWKHSLTVFALMNSRAFLSRTSAVDYYYYSLRLDMDTSNPAVFVNGQLLNMHLGRKIRAVVQVIQSDGGVVTGKSTDEQELTVNGLPTVPLMSFVEVIGIAESNKIINVEHWTDFGNTFALPTCKWGIQKFISLRSCSYAMRRGTICSVILNRQCLLQLSWETIFYACNPCDALTVRPPVNQVYVRKGRKRKGESYFLELVFGGRGYSPLELAIPLGMQFRISWTLRFHFSSSLHPGRAGESREMAASSSSSFLAAASQKVGPAARRQVLNLTEAAAARIRQLLQQRQRPFLRLGVKARGCNGLSYTLNYADEKGKFDELVEDQDVKILIDPKALMHVIGTKMDFVDDKLRVRTYFKGFQSAVRLSVLNLLVNQLATVVVVFATWKDHIIHSQCGFLVVAAQLNAGGGPCSLRMPRGEKMDVRRTGATLKLVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGKPYLECDKLASEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSSYFSSLEWKNIMNASSSASVMVEFYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILVKVGGEILKEWRFWISELGSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHAX
Homology
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BLAST of Sgr028885 vs. NCBI nr
Match: KAG6601223.1 (Replication protein A 14 kDa subunit B, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 433.0 bits (1112), Expect = 7.3e-117
Identity = 261/456 (57.24%), Postives = 278/456 (60.96%), Query Frame = 0 

Query: 26  MAMILKGGGGIGVSTAAYFSQNSKPSPVFSVHMMVYKLVAERKVICCSTLQESSTPTVTA 85
           MAMILKGGGGIGVSTA YF QNSKPSPVFSVH  V+KL AER+VICCSTLQESSTPTV+A
Sbjct: 1   MAMILKGGGGIGVSTATYFPQNSKPSPVFSVH-TVHKLPAERRVICCSTLQESSTPTVSA 60

Query: 86  EPKEEKTVQKEAPAKTKPPAKAPAKPLPELMKEDVIPSLRAILEAQADVSDIELSFQDDR 145
           EPKE K VQKEAPAK KPPAKAP KPLP++M+EDVIPSL+AILEAQADV+DIELSFQDDR
Sbjct: 61  EPKEIKAVQKEAPAKPKPPAKAPVKPLPQMMEEDVIPSLKAILEAQADVADIELSFQDDR 120

Query: 146 LDGSFLKNAVPYSFWAFFPNGLTGPKGFSLSSYGYGGSSVEPFLVDEKKITAKHIVFWIE 205
           LDGSF KN VPYSFWAFFPNGLTGPKGFSLSSYG GGSSVEPFLVDEKK+TAK +VFWIE
Sbjct: 121 LDGSFSKNGVPYSFWAFFPNGLTGPKGFSLSSYGNGGSSVEPFLVDEKKVTAKLLVFWIE 180

Query: 206 KRLAAQGIIPAPKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKL 265
           KRLAAQGII                                                   
Sbjct: 181 KRLAAQGII--------------------------------------------------- 240

Query: 266 LVEVPKYKLVTPSILSDRLRINGSLARRAIKDLMARGLVGLMRDGRRFEQRGGKLSEGSA 325
                                                                       
Sbjct: 241 ------------------------------------------------------------ 300

Query: 326 EAVLRTPPAAINSRLFIVFSTPLRTR---SLSLSL-VRWKHSLTVFALMNSRAFLSRTSA 385
                 P  AINSR  +V     ++    SLSLSL  R KH                   
Sbjct: 301 ------PNRAINSRFLVVLRLEYQSHCELSLSLSLSARKKH------------------- 313

Query: 386 VDYYYYSLRLDMDTSNPAVFVNGQLLNMHLGRKIRAVVQVIQSDGGVVTGKSTDEQELTV 445
                 S   DMDTSNPAVF NG+LLNMH GRKIRAVVQVIQSDGGVVTGKSTDEQ LTV
Sbjct: 361 ------STHADMDTSNPAVFCNGELLNMHSGRKIRAVVQVIQSDGGVVTGKSTDEQHLTV 313

Query: 446 NGLPTVPLMSFVEVIGIAESNKIINVEHWTDFGNTF 478
           +GLPTVPLM+FVEV+GIAE NKIINVEHWTDFGNTF
Sbjct: 421 HGLPTVPLMNFVEVVGIAEGNKIINVEHWTDFGNTF 313

[Close]
BLAST of Sgr028885 vs. NCBI nr
Match: KAG6601225.1 (Replication protein A 14 kDa subunit B, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 412.5 bits (1059), Expect = 1.0e-110
Identity = 247/454 (54.41%), Postives = 263/454 (57.93%), Query Frame = 0 

Query: 26  MAMILKGGGGIGVSTAAYFSQNSKPSPVFSVHMMVYKLVAERKVICCSTLQESSTPTVTA 85
           MAMILKGGGGIGVSTA YF QNSKPSPVFSVH  V+KL AER+VICCSTLQESSTPTV+A
Sbjct: 1   MAMILKGGGGIGVSTATYFPQNSKPSPVFSVH-TVHKLPAERRVICCSTLQESSTPTVSA 60

Query: 86  EPKEEKTVQKEAPAKTKPPAKAPAKPLPELMKEDVIPSLRAILEAQADVSDIELSFQDDR 145
           EPKE K VQKEAPAK KPPAKAP KPLP++M+EDVIPSL+AILEAQADV+DIELSFQDDR
Sbjct: 61  EPKEIKAVQKEAPAKPKPPAKAPVKPLPQMMEEDVIPSLKAILEAQADVADIELSFQDDR 120

Query: 146 LDGSFLKNAVPYSFWAFFPNGLTGPKGFSLSSYGYGGSSVEPFLVDEKKITAKHIVFWIE 205
           LDGSF KN VPYSFWAFFPNGLTGPKGFSLSSYG GGSSVEPFLVDEKK+TAK +VFWIE
Sbjct: 121 LDGSFSKNGVPYSFWAFFPNGLTGPKGFSLSSYGNGGSSVEPFLVDEKKVTAKLLVFWIE 180

Query: 206 KRLAAQGIIPAPKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKL 265
           KRLAAQGIIP                                                  
Sbjct: 181 KRLAAQGIIP-------------------------------------------------- 240

Query: 266 LVEVPKYKLVTPSILSDRLRINGSLARRAIKDLMARGLVGLMRDGRRFEQRGGKLSEGSA 325
                                                                       
Sbjct: 241 ------------------------------------------------------------ 283

Query: 326 EAVLRTPPAAINSRLFIVFSTPLRTRSLSLSLVRWKHSLTVFALMNSRAFLSRTSAVDYY 385
                                              KH                       
Sbjct: 301 -----------------------------------KH----------------------- 283

Query: 386 YYSLRLDMDTSNPAVFVNGQLLNMHLGRKIRAVVQVIQSDGGVVTGKSTDEQELTVNGLP 445
             S   DMDTSNPAVF NG+LLNM+ GRKIRAVVQVIQSDGGVVTGKSTDEQ LTV+GLP
Sbjct: 361 --STHADMDTSNPAVFCNGELLNMYSGRKIRAVVQVIQSDGGVVTGKSTDEQHLTVHGLP 283

Query: 446 TVPLMSFVEVIGIAESNKIINVEHWTDFGNTFAL 480
           TVPLM+FVEV+GIAE NKIINVEHWTDFGNTF +
Sbjct: 421 TVPLMNFVEVVGIAEGNKIINVEHWTDFGNTFGM 283

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BLAST of Sgr028885 vs. NCBI nr
Match: XP_022150581.1 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like isoform X1 [Momordica charantia])

HSP 1 Score: 401.7 bits (1031), Expect = 1.8e-107
Identity = 193/216 (89.35%), Postives = 202/216 (93.52%), Query Frame = 0 

Query: 789  LVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGKPYLECDKLASEFPNFNF 848
            L FFKMEDRKRALVSRLLQYALVHNIL+IPYDEIIIKRTLEGKPYLECDKL S+ PNFNF
Sbjct: 38   LRFFKMEDRKRALVSRLLQYALVHNILEIPYDEIIIKRTLEGKPYLECDKLTSDIPNFNF 97

Query: 849  NVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSSYFSSLEWKNIMNASSSA 908
            NVSHHGDYVVIASEPLCLVGLDVVSYT PQNEDTIEYV++FSSYFSSLEWKNIMN SSS 
Sbjct: 98   NVSHHGDYVVIASEPLCLVGLDVVSYTAPQNEDTIEYVESFSSYFSSLEWKNIMNPSSST 157

Query: 909  SVMVEFYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILVKVGGEILKEWRFWISEL 968
            SV+VEFYRYWSLKEAYVKAIGSGM YGL QVEFHHIGWN+I VKVGGEILKEWRFWISEL
Sbjct: 158  SVLVEFYRYWSLKEAYVKAIGSGMAYGLEQVEFHHIGWNEIQVKVGGEILKEWRFWISEL 217

Query: 969  GSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            G+ HCVAVAKGHPRLAT+SY  TL R+EF PEEYHA
Sbjct: 218  GNGHCVAVAKGHPRLATKSYRSTLMRSEFEPEEYHA 253

[Close]
BLAST of Sgr028885 vs. NCBI nr
Match: XP_023542347.1 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 395.2 bits (1014), Expect = 1.7e-105
Identity = 195/234 (83.33%), Postives = 206/234 (88.03%), Query Frame = 0 

Query: 772  MPRGEKMDVRRTGATLKLVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGK 831
            +PR E   + R        FFKMEDRKRALVSRLLQY LVHNILKIPYDEIIIKRTLEGK
Sbjct: 29   LPRHEHSSILR--------FFKMEDRKRALVSRLLQYVLVHNILKIPYDEIIIKRTLEGK 88

Query: 832  PYLECDKLASEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSS 891
            PYLECDK+ SEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYT PQNEDTI +VKNFSS
Sbjct: 89   PYLECDKVGSEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTIPQNEDTIAFVKNFSS 148

Query: 892  YFSSLEWKNIMNASSSASVMVEFYRYWSLKEAYVKAIGSG-MTYGLGQVEFHHIGWNDIL 951
            YFSSLEWKNIMNASSS+SV+VEFYRYWSLKEAYVKAIGSG M YGL QVEF H GWN+I 
Sbjct: 149  YFSSLEWKNIMNASSSSSVLVEFYRYWSLKEAYVKAIGSGMMAYGLEQVEFLHDGWNNIR 208

Query: 952  VKVGGEILKEWRFWISELGSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
             KVGGEILKEWRFW+SE+G+RHCVAVAKGHPR ATESY RTLTRTEF P+EY A
Sbjct: 209  AKVGGEILKEWRFWLSEMGNRHCVAVAKGHPRSATESYQRTLTRTEFEPDEYRA 254

[Close]
BLAST of Sgr028885 vs. NCBI nr
Match: XP_022150582.1 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like isoform X2 [Momordica charantia])

HSP 1 Score: 394.8 bits (1013), Expect = 2.2e-105
Identity = 189/211 (89.57%), Postives = 198/211 (93.84%), Query Frame = 0 

Query: 794  MEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGKPYLECDKLASEFPNFNFNVSHH 853
            MEDRKRALVSRLLQYALVHNIL+IPYDEIIIKRTLEGKPYLECDKL S+ PNFNFNVSHH
Sbjct: 1    MEDRKRALVSRLLQYALVHNILEIPYDEIIIKRTLEGKPYLECDKLTSDIPNFNFNVSHH 60

Query: 854  GDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSSYFSSLEWKNIMNASSSASVMVE 913
            GDYVVIASEPLCLVGLDVVSYT PQNEDTIEYV++FSSYFSSLEWKNIMN SSS SV+VE
Sbjct: 61   GDYVVIASEPLCLVGLDVVSYTAPQNEDTIEYVESFSSYFSSLEWKNIMNPSSSTSVLVE 120

Query: 914  FYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILVKVGGEILKEWRFWISELGSRHC 973
            FYRYWSLKEAYVKAIGSGM YGL QVEFHHIGWN+I VKVGGEILKEWRFWISELG+ HC
Sbjct: 121  FYRYWSLKEAYVKAIGSGMAYGLEQVEFHHIGWNEIQVKVGGEILKEWRFWISELGNGHC 180

Query: 974  VAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            VAVAKGHPRLAT+SY  TL R+EF PEEYHA
Sbjct: 181  VAVAKGHPRLATKSYRSTLMRSEFEPEEYHA 211

[Close]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match: Q8LBM4 (Iron-sulfur assembly protein IscA-like 1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At2g16710 PE=2 SV=2)

HSP 1 Score: 162.2 bits (409), Expect = 3.1e-38
Identity = 81/107 (75.70%), Postives = 94/107 (87.85%), Query Frame = 0 

Query: 608 SSSFLAAASQKVGPAARRQVLNLTEAAAARIRQLLQQRQRPFLRLGVKARGCNGLSYTLN 667
           +S  LAAA+ +VGPA R+QVL LT+ AA+R+  LLQQRQ+PFLRLGVKARGCNGLSYTLN
Sbjct: 3   ASQILAAAAARVGPALRKQVLTLTDEAASRVHHLLQQRQKPFLRLGVKARGCNGLSYTLN 62

Query: 668 YADEKGKFDELVEDQDVKILIDPKALMHVIGTKMDFVDDKLRVRTYF 715
           YADEKGKFDELVE++ V+IL++PKALMHVIGTKMDFVDDKLR    F
Sbjct: 63  YADEKGKFDELVEEKGVRILVEPKALMHVIGTKMDFVDDKLRSEFVF 109

[Close]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match: Q9SIK2 (40S ribosomal protein S25-2 OS=Arabidopsis thaliana OX=3702 GN=RPS25B PE=3 SV=1)

HSP 1 Score: 157.1 bits (396), Expect = 1.0e-36
Identity = 78/92 (84.78%), Postives = 88/92 (95.65%), Query Frame = 0 

Query: 216 APKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLV 275
           APKKDK PPP+SKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLL E PK+KL+
Sbjct: 2   APKKDKVPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLTEAPKFKLI 61

Query: 276 TPSILSDRLRINGSLARRAIKDLMARGLVGLM 308
           TPSILSDR+RINGSLARRAI++LMA+GL+ ++
Sbjct: 62  TPSILSDRMRINGSLARRAIRELMAKGLIRMV 93

[Close]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match: Q9T029 (40S ribosomal protein S25-4 OS=Arabidopsis thaliana OX=3702 GN=RPS25E PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 1.1e-35
Identity = 76/92 (82.61%), Postives = 87/92 (94.57%), Query Frame = 0 

Query: 216 APKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLV 275
           APKKDK PPP+SKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQ TYDKLL E PK+KL+
Sbjct: 2   APKKDKVPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQATYDKLLTEAPKFKLI 61

Query: 276 TPSILSDRLRINGSLARRAIKDLMARGLVGLM 308
           TPSILSDR+RINGSLARRAI++LMA+G++ ++
Sbjct: 62  TPSILSDRMRINGSLARRAIRELMAKGVIRMV 93

[Close]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match: Q8GYL5 (40S ribosomal protein S25-3 OS=Arabidopsis thaliana OX=3702 GN=RPS25D PE=3 SV=2)

HSP 1 Score: 152.9 bits (385), Expect = 1.9e-35
Identity = 77/92 (83.70%), Postives = 86/92 (93.48%), Query Frame = 0 

Query: 216 APKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLV 275
           APKKDK PPP+SKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQ TYDKLL E PK+KL+
Sbjct: 2   APKKDKVPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQATYDKLLSEAPKFKLI 61

Query: 276 TPSILSDRLRINGSLARRAIKDLMARGLVGLM 308
           TPSILSDRLRINGSLARRAI++LMA+G + ++
Sbjct: 62  TPSILSDRLRINGSLARRAIRELMAKGTIRMV 93

[Close]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match: Q9SIW5 (40S ribosomal protein S25-1 OS=Arabidopsis thaliana OX=3702 GN=RPS25A PE=3 SV=3)

HSP 1 Score: 151.0 bits (380), Expect = 7.3e-35
Identity = 75/92 (81.52%), Postives = 85/92 (92.39%), Query Frame = 0 

Query: 216 APKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLV 275
           APKKDK PPP+SKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQ TYDKL+ E PK+KL+
Sbjct: 2   APKKDKVPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQATYDKLMSEAPKFKLI 61

Query: 276 TPSILSDRLRINGSLARRAIKDLMARGLVGLM 308
           TPSILSDRLRINGSLAR+AI+DLM +G + ++
Sbjct: 62  TPSILSDRLRINGSLARKAIRDLMVKGTIRMV 93

[Close]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match: A0A6J1DBY1 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111018686 PE=4 SV=1)

HSP 1 Score: 401.7 bits (1031), Expect = 8.7e-108
Identity = 193/216 (89.35%), Postives = 202/216 (93.52%), Query Frame = 0 

Query: 789  LVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGKPYLECDKLASEFPNFNF 848
            L FFKMEDRKRALVSRLLQYALVHNIL+IPYDEIIIKRTLEGKPYLECDKL S+ PNFNF
Sbjct: 38   LRFFKMEDRKRALVSRLLQYALVHNILEIPYDEIIIKRTLEGKPYLECDKLTSDIPNFNF 97

Query: 849  NVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSSYFSSLEWKNIMNASSSA 908
            NVSHHGDYVVIASEPLCLVGLDVVSYT PQNEDTIEYV++FSSYFSSLEWKNIMN SSS 
Sbjct: 98   NVSHHGDYVVIASEPLCLVGLDVVSYTAPQNEDTIEYVESFSSYFSSLEWKNIMNPSSST 157

Query: 909  SVMVEFYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILVKVGGEILKEWRFWISEL 968
            SV+VEFYRYWSLKEAYVKAIGSGM YGL QVEFHHIGWN+I VKVGGEILKEWRFWISEL
Sbjct: 158  SVLVEFYRYWSLKEAYVKAIGSGMAYGLEQVEFHHIGWNEIQVKVGGEILKEWRFWISEL 217

Query: 969  GSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            G+ HCVAVAKGHPRLAT+SY  TL R+EF PEEYHA
Sbjct: 218  GNGHCVAVAKGHPRLATKSYRSTLMRSEFEPEEYHA 253

[Close]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match: A0A6J1DB41 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018686 PE=4 SV=1)

HSP 1 Score: 394.8 bits (1013), Expect = 1.1e-105
Identity = 189/211 (89.57%), Postives = 198/211 (93.84%), Query Frame = 0 

Query: 794  MEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGKPYLECDKLASEFPNFNFNVSHH 853
            MEDRKRALVSRLLQYALVHNIL+IPYDEIIIKRTLEGKPYLECDKL S+ PNFNFNVSHH
Sbjct: 1    MEDRKRALVSRLLQYALVHNILEIPYDEIIIKRTLEGKPYLECDKLTSDIPNFNFNVSHH 60

Query: 854  GDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSSYFSSLEWKNIMNASSSASVMVE 913
            GDYVVIASEPLCLVGLDVVSYT PQNEDTIEYV++FSSYFSSLEWKNIMN SSS SV+VE
Sbjct: 61   GDYVVIASEPLCLVGLDVVSYTAPQNEDTIEYVESFSSYFSSLEWKNIMNPSSSTSVLVE 120

Query: 914  FYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILVKVGGEILKEWRFWISELGSRHC 973
            FYRYWSLKEAYVKAIGSGM YGL QVEFHHIGWN+I VKVGGEILKEWRFWISELG+ HC
Sbjct: 121  FYRYWSLKEAYVKAIGSGMAYGLEQVEFHHIGWNEIQVKVGGEILKEWRFWISELGNGHC 180

Query: 974  VAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            VAVAKGHPRLAT+SY  TL R+EF PEEYHA
Sbjct: 181  VAVAKGHPRLATKSYRSTLMRSEFEPEEYHA 211

[Close]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match: A0A6J1FZV0 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111449434 PE=4 SV=1)

HSP 1 Score: 389.8 bits (1000), Expect = 3.4e-104
Identity = 195/236 (82.63%), Postives = 206/236 (87.29%), Query Frame = 0 

Query: 772  MPRGEKMDVRRTGATLKLVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGK 831
            +PR E   + R        FFKMEDRKRALVSRLLQY LVHNILKIPYDEIIIKRTLEGK
Sbjct: 29   LPRHEHSSILR--------FFKMEDRKRALVSRLLQYVLVHNILKIPYDEIIIKRTLEGK 88

Query: 832  PYLECDKLASEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSS 891
            PYLECDK+ SEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYT PQNEDTI +VKNFSS
Sbjct: 89   PYLECDKVGSEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTIPQNEDTIAFVKNFSS 148

Query: 892  YFSSLEWKNIMNA--SSSASVMVEFYRYWSLKEAYVKAIGSG-MTYGLGQVEFHHIGWND 951
            YFSSLEWKNIMNA  SSS+SV+VEFYRYWSLKEAYVKAIGSG M YGL QVEF H GWN+
Sbjct: 149  YFSSLEWKNIMNASSSSSSSVLVEFYRYWSLKEAYVKAIGSGMMAYGLEQVEFLHDGWNN 208

Query: 952  ILVKVGGEILKEWRFWISELGSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            I  KVGGEILKEWRFW+SE+G+RHCVAVAKGHPR ATESY RTLTRTEF P+EY A
Sbjct: 209  IRAKVGGEILKEWRFWLSEMGNRHCVAVAKGHPRSATESYRRTLTRTEFEPDEYRA 256

[Close]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match: A0A5A7STW8 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold475G001980 PE=4 SV=1)

HSP 1 Score: 389.0 bits (998), Expect = 5.8e-104
Identity = 193/233 (82.83%), Postives = 204/233 (87.55%), Query Frame = 0 

Query: 772  MPRGEKMDVRRTGATLKLVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGK 831
            +PR E   + R        FFKMEDRKRALVSRLLQYALVH ILKIP++EIIIKRTLEGK
Sbjct: 29   LPRHEHSSILR--------FFKMEDRKRALVSRLLQYALVHYILKIPFNEIIIKRTLEGK 88

Query: 832  PYLECDKLASEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSS 891
            PYLECDKLASEFPNFNFNVSHHGD+VVIASEPLCLVGLDVVSYTTPQNEDTIE+VKNFSS
Sbjct: 89   PYLECDKLASEFPNFNFNVSHHGDFVVIASEPLCLVGLDVVSYTTPQNEDTIEFVKNFSS 148

Query: 892  YFSSLEWKNIMNASSSASVMVEFYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILV 951
            YFSSLEWKNI+NA SS SV+VEFYRYWSLKEAYVKAIGSGM  GL QVEF HI WNDI V
Sbjct: 149  YFSSLEWKNIVNAGSSFSVLVEFYRYWSLKEAYVKAIGSGMASGLEQVEFLHIEWNDIQV 208

Query: 952  KVGGEILKEWRFWISELGSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            KVGGEILKEWRFWISELG+ HCVAVAKGHPR ATESY  TL R+EF+  EYHA
Sbjct: 209  KVGGEILKEWRFWISELGNGHCVAVAKGHPRFATESYQMTLRRSEFDSNEYHA 253

[Close]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match: A0A1S3BGH5 (L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like OS=Cucumis melo OX=3656 GN=LOC103489390 PE=4 SV=1)

HSP 1 Score: 389.0 bits (998), Expect = 5.8e-104
Identity = 193/233 (82.83%), Postives = 204/233 (87.55%), Query Frame = 0 

Query: 772  MPRGEKMDVRRTGATLKLVFFKMEDRKRALVSRLLQYALVHNILKIPYDEIIIKRTLEGK 831
            +PR E   + R        FFKMEDRKRALVSRLLQYALVH ILKIP++EIIIKRTLEGK
Sbjct: 29   LPRHEHSSILR--------FFKMEDRKRALVSRLLQYALVHYILKIPFNEIIIKRTLEGK 88

Query: 832  PYLECDKLASEFPNFNFNVSHHGDYVVIASEPLCLVGLDVVSYTTPQNEDTIEYVKNFSS 891
            PYLECDKLASEFPNFNFNVSHHGD+VVIASEPLCLVGLDVVSYTTPQNEDTIE+VKNFSS
Sbjct: 89   PYLECDKLASEFPNFNFNVSHHGDFVVIASEPLCLVGLDVVSYTTPQNEDTIEFVKNFSS 148

Query: 892  YFSSLEWKNIMNASSSASVMVEFYRYWSLKEAYVKAIGSGMTYGLGQVEFHHIGWNDILV 951
            YFSSLEWKNI+NA SS SV+VEFYRYWSLKEAYVKAIGSGM  GL QVEF HI WNDI V
Sbjct: 149  YFSSLEWKNIVNAGSSFSVLVEFYRYWSLKEAYVKAIGSGMASGLEQVEFLHIEWNDIQV 208

Query: 952  KVGGEILKEWRFWISELGSRHCVAVAKGHPRLATESYWRTLTRTEFNPEEYHA 1005
            KVGGEILKEWRFWISELG+ HCVAVAKGHPR ATESY  TL R+EF+  EYHA
Sbjct: 209  KVGGEILKEWRFWISELGNGHCVAVAKGHPRFATESYQMTLRRSEFDSNEYHA 253

[Close]
BLAST of Sgr028885 vs. TAIR 10
Match: AT2G04039.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; LOCATED IN: chloroplast; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF2996 (InterPro:IPR021374); Has 159 Blast hits to 159 proteins in 52 species: Archae - 0; Bacteria - 76; Metazoa - 0; Fungi - 0; Plants - 38; Viruses - 0; Other Eukaryotes - 45 (source: NCBI BLink). )

HSP 1 Score: 174.9 bits (442), Expect = 3.3e-43
Identity = 109/196 (55.61%), Postives = 135/196 (68.88%), Query Frame = 0 

Query: 33  GGGIGVSTAAYFSQNSKPSPVFSVHMMVYKLVAER-----KVICCSTLQESSTPTVTAEP 92
           GG  GV +    S+ S  +P  S   ++  L  +       ++ C+ LQESST  V  E 
Sbjct: 6   GGSFGVPS----SRISITTPTLSSSSLLPPLTLQSGTRKDNLLRCA-LQESSTSAVATEK 65

Query: 93  K-----EEKTVQKEAPAKTKPPAKAP--AKPLPELMKEDVIPSLRAILEAQADVSDIELS 152
           K     EE TV   A  K KP AKA   AKPL ++M+EDVIP L+AILE+Q D+SDI+LS
Sbjct: 66  KNKEEGEESTVAVPA-KKPKPAAKAAAVAKPLRQMMEEDVIPPLQAILESQDDISDIDLS 125

Query: 153 FQDDRLDGSFLKNAVPYSFWAFFPNG-LTGPKGFSLSSYGYGGSSVEPFLVDEKKITAKH 212
           FQDD+L+G FLK ++PYSFWAFFP G LTG KGFS+SS+G G S+VEPFLVDE+K TA H
Sbjct: 126 FQDDKLEGFFLKKSIPYSFWAFFPTGNLTGAKGFSISSHGSGPSTVEPFLVDERKPTANH 185

Query: 213 IVFWIEKRLAAQGIIP 216
           +VFW+EKRLAAQGIIP
Sbjct: 186 VVFWVEKRLAAQGIIP 195

[Close]
BLAST of Sgr028885 vs. TAIR 10
Match: AT2G04039.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; LOCATED IN: chloroplast; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF2996 (InterPro:IPR021374); Has 157 Blast hits to 157 proteins in 52 species: Archae - 0; Bacteria - 76; Metazoa - 0; Fungi - 0; Plants - 37; Viruses - 0; Other Eukaryotes - 44 (source: NCBI BLink). )

HSP 1 Score: 167.9 bits (424), Expect = 4.1e-41
Identity = 92/140 (65.71%), Postives = 110/140 (78.57%), Query Frame = 0 

Query: 79  STPTVTAEPKEEKTVQKEAPAKTKPPAKAP--AKPLPELMKEDVIPSLRAILEAQADVSD 138
           +T     E  EE TV   A  K KP AKA   AKPL ++M+EDVIP L+AILE+Q D+SD
Sbjct: 23  ATEKKNKEEGEESTVAVPA-KKPKPAAKAAAVAKPLRQMMEEDVIPPLQAILESQDDISD 82

Query: 139 IELSFQDDRLDGSFLKNAVPYSFWAFFPNG-LTGPKGFSLSSYGYGGSSVEPFLVDEKKI 198
           I+LSFQDD+L+G FLK ++PYSFWAFFP G LTG KGFS+SS+G G S+VEPFLVDE+K 
Sbjct: 83  IDLSFQDDKLEGFFLKKSIPYSFWAFFPTGNLTGAKGFSISSHGSGPSTVEPFLVDERKP 142

Query: 199 TAKHIVFWIEKRLAAQGIIP 216
           TA H+VFW+EKRLAAQGIIP
Sbjct: 143 TANHVVFWVEKRLAAQGIIP 161

[Close]
BLAST of Sgr028885 vs. TAIR 10
Match: AT2G16710.2 (Iron-sulphur cluster biosynthesis family protein )

HSP 1 Score: 164.9 bits (416), Expect = 3.5e-40
Identity = 82/106 (77.36%), Postives = 95/106 (89.62%), Query Frame = 0 

Query: 608 SSSFLAAASQKVGPAARRQVLNLTEAAAARIRQLLQQRQRPFLRLGVKARGCNGLSYTLN 667
           +S  LAAA+ +VGPA R+QVL LT+ AA+R+  LLQQRQ+PFLRLGVKARGCNGLSYTLN
Sbjct: 3   ASQILAAAAARVGPALRKQVLTLTDEAASRVHHLLQQRQKPFLRLGVKARGCNGLSYTLN 62

Query: 668 YADEKGKFDELVEDQDVKILIDPKALMHVIGTKMDFVDDKLRVRTY 714
           YADEKGKFDELVE++ V+IL++PKALMHVIGTKMDFVDDKLRV  Y
Sbjct: 63  YADEKGKFDELVEEKGVRILVEPKALMHVIGTKMDFVDDKLRVCVY 108

[Close]
BLAST of Sgr028885 vs. TAIR 10
Match: AT2G16710.1 (Iron-sulphur cluster biosynthesis family protein )

HSP 1 Score: 162.2 bits (409), Expect = 2.2e-39
Identity = 81/107 (75.70%), Postives = 94/107 (87.85%), Query Frame = 0 

Query: 608 SSSFLAAASQKVGPAARRQVLNLTEAAAARIRQLLQQRQRPFLRLGVKARGCNGLSYTLN 667
           +S  LAAA+ +VGPA R+QVL LT+ AA+R+  LLQQRQ+PFLRLGVKARGCNGLSYTLN
Sbjct: 3   ASQILAAAAARVGPALRKQVLTLTDEAASRVHHLLQQRQKPFLRLGVKARGCNGLSYTLN 62

Query: 668 YADEKGKFDELVEDQDVKILIDPKALMHVIGTKMDFVDDKLRVRTYF 715
           YADEKGKFDELVE++ V+IL++PKALMHVIGTKMDFVDDKLR    F
Sbjct: 63  YADEKGKFDELVEEKGVRILVEPKALMHVIGTKMDFVDDKLRSEFVF 109

[Close]
BLAST of Sgr028885 vs. TAIR 10
Match: AT2G21580.1 (Ribosomal protein S25 family protein )

HSP 1 Score: 157.1 bits (396), Expect = 7.2e-38
Identity = 78/92 (84.78%), Postives = 88/92 (95.65%), Query Frame = 0 

Query: 216 APKKDKAPPPASKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLVEVPKYKLV 275
           APKKDK PPP+SKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLL E PK+KL+
Sbjct: 2   APKKDKVPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDQGTYDKLLTEAPKFKLI 61

Query: 276 TPSILSDRLRINGSLARRAIKDLMARGLVGLM 308
           TPSILSDR+RINGSLARRAI++LMA+GL+ ++
Sbjct: 62  TPSILSDRMRINGSLARRAIRELMAKGLIRMV 93

The following BLAST results are available for this feature:
BLAST of Sgr028885 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG6601223.17.3e-11757.24Replication protein A 14 kDa subunit B, partial [Cucurbita argyrosperma subsp. s... [more]
KAG6601225.11.0e-11054.41Replication protein A 14 kDa subunit B, partial [Cucurbita argyrosperma subsp. s... [more]
XP_022150581.11.8e-10789.35L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like i... [more]
XP_023542347.11.7e-10583.33L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like [... [more]
XP_022150582.12.2e-10589.57L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like i... [more]
BLAST of Sgr028885 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8LBM43.1e-3875.70Iron-sulfur assembly protein IscA-like 1, mitochondrial OS=Arabidopsis thaliana ... [more]
Q9SIK21.0e-3684.7840S ribosomal protein S25-2 OS=Arabidopsis thaliana OX=3702 GN=RPS25B PE=3 SV=1[more]
Q9T0291.1e-3582.6140S ribosomal protein S25-4 OS=Arabidopsis thaliana OX=3702 GN=RPS25E PE=3 SV=1[more]
Q8GYL51.9e-3583.7040S ribosomal protein S25-3 OS=Arabidopsis thaliana OX=3702 GN=RPS25D PE=3 SV=2[more]
Q9SIW57.3e-3581.5240S ribosomal protein S25-1 OS=Arabidopsis thaliana OX=3702 GN=RPS25A PE=3 SV=3[more]
BLAST of Sgr028885 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DBY18.7e-10889.35L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like i... [more]
A0A6J1DB411.1e-10589.57L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like i... [more]
A0A6J1FZV03.4e-10482.63L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like i... [more]
A0A5A7STW85.8e-10482.83L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like O... [more]
A0A1S3BGH55.8e-10482.83L-aminoadipate-semialdehyde dehydrogenase-phosphopantetheinyl transferase-like O... [more]
BLAST of Sgr028885 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G04039.13.3e-4355.61unknown protein; FUNCTIONS IN: molecular_function unknown; LOCATED IN: chloropla... [more]
AT2G04039.24.1e-4165.71unknown protein; FUNCTIONS IN: molecular_function unknown; LOCATED IN: chloropla... [more]
AT2G16710.23.5e-4077.36Iron-sulphur cluster biosynthesis family protein [more]
AT2G16710.12.2e-3975.70Iron-sulphur cluster biosynthesis family protein [more]
AT2G21580.17.2e-3884.78Ribosomal protein S25 family protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000361FeS cluster biogenesisPFAMPF01521Fe-S_biosyncoord: 628..709
e-value: 4.0E-14
score: 52.7
IPR035903HesB-like domain superfamilyGENE3D2.60.300.12coord: 627..717
e-value: 5.4E-22
score: 79.6
IPR035903HesB-like domain superfamilySUPERFAMILY89360HesB-like domaincoord: 624..708
NoneNo IPR availableGENE3D2.40.50.140coord: 393..484
e-value: 8.5E-11
score: 43.6
NoneNo IPR availableGENE3D3.30.63.20coord: 235..314
e-value: 1.4E-30
score: 107.2
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 214..247
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 80..109
IPR0371434'-phosphopantetheinyl transferase domain superfamilyGENE3D3.90.470.20coord: 867..978
e-value: 9.7E-29
score: 102.0
IPR0371434'-phosphopantetheinyl transferase domain superfamilyGENE3D3.90.470.20coord: 791..984
e-value: 9.7E-29
score: 102.0
IPR0371434'-phosphopantetheinyl transferase domain superfamilySUPERFAMILY562144'-phosphopantetheinyl transferasecoord: 867..982
IPR0371434'-phosphopantetheinyl transferase domain superfamilySUPERFAMILY562144'-phosphopantetheinyl transferasecoord: 792..858
IPR0082784'-phosphopantetheinyl transferase domainPFAMPF01648ACPScoord: 867..977
e-value: 1.1E-12
score: 48.1
IPR013970Replication factor A protein 3PFAMPF08661Rep_fac-A_3coord: 393..479
e-value: 1.3E-10
score: 41.5
IPR021374Protein of unknown function DUF2996PFAMPF11210DUF2996coord: 109..211
e-value: 1.5E-10
score: 41.6
IPR021374Protein of unknown function DUF2996PANTHERPTHR36341DUF2996 FAMILY PROTEINcoord: 38..217
IPR004977Ribosomal protein S25PFAMPF03297Ribosomal_S25coord: 221..312
e-value: 3.2E-33
score: 113.9
IPR016092FeS cluster insertion proteinTIGRFAMTIGR00049TIGR00049coord: 628..709
e-value: 1.7E-20
score: 71.2
IPR012340Nucleic acid-binding, OB-foldSUPERFAMILY50249Nucleic acid-binding proteinscoord: 398..475

Relationships

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

Feature NameUnique NameType
Sgr028885.1Sgr028885.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006310 DNA recombination
biological_process GO:0006281 DNA repair
biological_process GO:0006260 DNA replication
biological_process GO:0016226 iron-sulfur cluster assembly
biological_process GO:0019878 lysine biosynthetic process via aminoadipic acid
biological_process GO:0018215 protein phosphopantetheinylation
cellular_component GO:0005829 cytosol
cellular_component GO:0005634 nucleus
molecular_function GO:0003677 DNA binding
molecular_function GO:0008897 holo-[acyl-carrier-protein] synthase activity
molecular_function GO:0051536 iron-sulfur cluster binding
molecular_function GO:0000287 magnesium ion binding