Sgr021860 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr021860
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionNon-specific serine/threonine protein kinase
Locationtig00153840: 900016 .. 931023 (+)
RNA-Seq ExpressionSgr021860
SyntenySgr021860
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.
AGGCTTCCAGAATCGAATTCAGAGTTTGGAATCGGAACAGAGAATCAAAATCAGCTGCGCCGTCATCTGGGAATCAAAATCTTCGTTGATTCCGTTGTCCTGGATATCCATCTTCTCCGCCTGTTGTTCCGCGTGTTTCTGTTGATTCACTCGCGAACTTCCCACGCACTTGCCACCCAAAACATCTCAGAGCTTCGGTTTTTTCATTTTAAGGTTCTTTTATTTCATCGCCCCAGCTGAAAGCGTTCATTCAGCTTGTCATGTCTTTGTATTATCTGAATTTTGATTGTATTTTTTCATCGAATCATGCGCTAGAACATCTGAACTTTGGTCTACACCTACGCGAGAGTGAGAGCGATTGATGTGAAGTGGAAGATGTATTCAGCGTGGTCATGAGTATTCGGCGACGAAGTCTGCTCGCAGGGCTGTGAGGTTGGTGGGTTGATTTTTATGTTTGGTTTTGGAAATGGGGCATAGTTCGAAGAAGAAGCGGCGTGGTGGGGGAGGGAGTGGGAAAAGGAGCAAGGGAAGGACGCCACTGAAAGATCACTCGTTGAGTGTTGAAGAGAGTGAGGTTGTCTCAGATGAGATCACTGCCATGTAAGTACCTGTTTGTATCAAGTGATTATGTTATGTTAATGGTGTTTGCTCCATGCATCTGATCTACTAGCAAAGTTTTTCATTGGTTATGGGAACTTGTAACCGATGCATTGTTCATTGTTTTTTGACCTTTTTAGATTCAATTCATTTGAAACCAATCCTATTTGATAAAATACAACCAGTCAAATCCAATTTAAATCATATCCTACCTGATTTTTGATTGGTTGCATTGGACTACCTCTCGTTTTCTATCTTTTCAAGAACTAAAATTTAACTATAGTCAATTATTCATTGCACTATCAACCACTATGGGTTGGCCTAATGGTCATTGGGGCCAACGAAGAAAGTAAAGGGGGAATGGGTTCAACTATAGTGGCCACTTACCTAGAATTTAATAGTCTATGAGTTTGCTTGGCAACCAAATGTATAAGGGTTAGACAATTGTCTTGTGAGATTAGTTGAGGTGCGTGAGAGCTGGCCCGGACACTCACAGATATAAAAAAAAATTATTGCAACATCAAATTACCTGCATCTAATAATTCTACACCCCTTTTGACATGGCATAACGTATGGTTTGGCAAGTTCTTATTTAGAAGGATGCAACTTCTTAACTCGGATTACGTCTTGGGTCAATGCCCTAGTGGCTATCTATAATAAAAGTGAAATATGTTGTGATCTCTTGGTATTTAAACTTGAAGAGAAGCAGTGAGCAAAGTTTTATTAGGATAATTGGGAGGGGAGGGTATTAGGGAGGATTTAATCAAGGTCTCTAATGAGTTCTATGAAAGGGGCATTGTTGATGCATCTATGAGTGAGATTGACATTTGTTTATTGCTCAAGCAGTAAAATGCACATAAAGTGAAAGACTTCAGGCCTATTAGTCTCTAGCTTGTACAAGATTATTGCTAAGGTGTTGGCTAATTGAATGAGGAGGGTGCTTCCTCACACTATTTCATATATTCAGGGGGCTTTTGTTGCTGGAAGGCTTATGTTTTTACCTTAAGTCTAACTTGACCCTATTCGGTAATTAGAGTGATATGATATGTTGCCTCTCCTCTCCTCCACTTTTTCTCTACTTTGCACCTCCTCACCCCAACCTCTTGCAATTAGAAAATATTCTTAGCTTGCAATTTCATCTTGGTTTCTTTTAAAAAGATAAAAAGACTTATTGTGCTAGTGGAGGTAGAAAACAAAGTCTTTGCCATTGATTTTGACAAGAGAGAAAAAAGAGTAGGAAACCGATACTCATTGAAAGGAGTTCCTTTAACCTCTACAAATTTACCTTGGATCACCAAGCGGTGGACTCGTTGGTGGTGCCTTAGAAAAACTGGTAATTGCCCCTATGAACATCAGATTTTTTTGAAAGTTTAGATGTGATAATGGCTTGCATTGGGATCCAAAAGATTACGATAAAAAGATATTGCTTTGCAAAGTTGACATAAATGCTAAAAAACATAGGTTAAGTCCAACATAGTTTTCAAGGTTGGAGGTGATTTTGCAATGGATAGAAAGTTGTAGTTGATATGTTGAGCAAATTCTTCAAAACAGAGCTTTCTTTTAAAAAGCATCGTTAAAGGCCAATAGGCTTTGTTTTGGTTCTTCTTTTGCCGAAGTTACTAGGGGTCGGGGGAGTTGAAACTCCCATTGATCCTAATTAAAGCTTTGTTTTTTGTCTTGAAAAAAAGGGATGTAGTGGACCCCAGTTATAGAAAATTAACTCAAAACTTAAAAGAAGGCGAAACCTGATTTTGACTTATGGTATATGAACCCTAAGTTTACATCATATAAAAAGACAAGTGAGGAATGGAGCTCTTTTTGCACTCCTCCCTCTCCAATGCAACCCCTCCCTTTATGTCCTCTTGTCCTTCCTCTACCTTTCCCCCTTGTTTTCTAATGGGGTTGAACTACACTAAACCTACCATCTCTGCTAATAGGAAATCTTTCTCCATCGAGGTAGACAAAAATATTGAGGAAGTCAAGCTAAGGTTACTGAATACGAGTGTGGGAATGCCTTCTCCTTCTCCCTCTATTATCATGTGGTTGGTTGATTGCTTTAAGCTCCATCGCTAGGGATTCACCTTCCACAATTCCTTTAGGACTCATGCTCCTGCTAGGAGCAAATCCCTTTCAATTAATAGTTGTTGGCCTGAGTTAGGTATTGGGATGAGTAAGTAGGTGCGGGGTTGGGATTTGAAGTTTAGAAGGAATTTTGAAGTTGGTAAGTTCTTAGTGTGGTGTCTCTCTTGGCCACATTGACTACAAAAGAGTACTTGGACATTTTCTCCAATATATTTTAGTTCAAAGTATCTCTTCTATCACCAATTTTATCGCAATTGAAGTTAGCAAAAAATTTTGGAAAGAAAAATAGCCAAAGAATATCAAACTGCTCCTTTGGTCCCCTTTTCTACGAGGTTGTAGTACTCATGATACTCTTCAAAGAAGGCAGCCTCACAAAAACATCTCTCCAAGGTGGTGTGCGATGTGCAAGGAACCCCCATAAGATGCTGCCCAATTGTTCCCAGATTACCCAATCTCTTTGACTCTTTGGAAGAACCTTTCAGTTTTATTTGGGTGTCCATTTTGCAAGGTAGGTAGCTTAAGCTATTCGTACAAGGTTGTTTTCATGGCATTTCTTTCTTTCTTTTTTTTTTTGGAAAAAGGAAACAAACTTTTCATTGATATAGTGAAAAGTTACAAAAAGATACAAAAAGCAAATGTGACATTTCTTTCAACAAGAAAAGAACCATTTTGTGGCTTAATGCAATAAAAGCTATTTTCAGGGAGACTTAGCAGTTCTTTTTTATTTTTTTTAAATTTTATTTATAAGAAATGATAGAATATATTCAAAAAAGAAAAAGGAGAAGACAACCTAAAGGCCTTAGGGATGAGGAATCCCTAAGCCTATAGAGGAGGAGTCAAATGAAAGGTCTCCAATCTAACGAAATGAGGAATGAAGGAATATTACAAAAGGACTTGTGTACGGCACTCCAATTAAAGGCCATATACCGAATACGATCACAAAAAATATCAAAAGAAGACGACTTATCTGAAAAAATTCTAGAATTTCTCTCTTTGCAAAGAAGCCACAAGAGAGCTCTGACAACGTTGGACCAAAGCACCTTTCCTCTATCTTTAAACCACCAGCCATATCCTAAGAGACTCTCTTCTATGTTTTTAGGAAGGCACCAAGCAAAATCAAAGCAATTACAAATGTAGTTGCAGCCTTCGTAAGCAAAAGGGCAATGGAGAAAGAGGTGGTTGATAGTTTCGACACTTCCTTTGCACATAACACAAACATTTGGAGACAGAGCTATATTCGGATTCCTACTTTGAATTTTGTCTGAGGTGTTCAAGCTTCTATGGGCCAACGACCAAACAAAAAATTTTGTTTTTTTGGCTGTTACCTTTCCAAATCTGCTTGCTAAGAGAAAGGTTCAAGATTGGAGGATTATCTTGAAGAATAGAGTAGGCCGACTTTACTAAAAAACAACCAGGAGCATCTAGTAACCAGCAAAAAGAGTTTGTGCCTTGCCGAGGGAGCCAATTTTAAAGTAACATCAAGAGATCAATCCACTCTTCCAATTCTCTGTCTTTCGGTCCTCTTCTCAACCGAAGATTGAAATTTTTATTGACCGCAGACCAGTAGCTGTCTATTGTGGAAAATTTGGAATTTGCTATAGAGTAAATGGAGGGAAAAGAAGAGCTTCATGGAATGGAAGTGATCTAGCTATCTTCCCAAAATTTAATTTTTTTACCATTACCCAATTTGAAATTGGTATTCCTTTCAATAAGGCAACTTAGTTTATTGATTTCTTTCCAGGGGCTTAAACTTGTCTTTTTCTTAGGTTGATCAGGTAGCCAAACACTATCTGAATGCCCAAATTTGCTCTTGATGATTGATTTCCAAAGAGCTTTGTCTTCTTGAGCATATCTCCATAACCATTTAGCTAGGAAAGCTTTGTTTCTTTTTCTAAAATCCCTAATTCCTAGGCCTTCTGAGTTTAAAGGAACTATCACTTTCGTCCACTTCACAAGGTGGCTTCCTCCCTCTTTGTTTGCACCCTCGCATAAAAGTCTCAGATGAATTTATCAATGATCTTCTTGATTTTGCTCGGAATGTGAAAAACAGACAAATAATAGAGAGGAGTGCTAGTGAGAACTGAGTTAATCAAGGTGAGTCTCCTTCCTTTTGAAATTGCGAAACCCTTCCATTTAGCAAGTTTGCTTTTGACCTTTTCCACAACCAGATCCCAAAAAGAGTGAGAAGAAGACTTTCCTCCTAAAGGCAAACCGAGATAAGGGAAAGGTAGATAATCAACACTGAAGCCTAGGGAAATGGCGCGGTTCTTCACTTCATCTTCATCAATGTTAACCCCAGTAAGGCTGGATTTGAGCAAATTTATGCTAGGCTTCGAAGCTTGTTCAAAGAGGTGAAGGAACTGCCACCAGTTTTCCGAAATTGAGTGATTGTAGTTGCAAAAAAGAAGTGTCGATCCCTCTTCTCATGCAGTTATTATGGAGCCAGGGCCTTCTTCGAGTCTCCCTAAGCTGAGTTTGATGTCCTGTTCTCATTCTCCCTTCATTAGGCATGATTTTTTTCACTATGGTGCAGAAACTGGGAGTACTTTTTATGAGATTAAGCCTAAAGGCCAGTTTTAGTCTTCAGAAGGGTTCTCTCGGAGTTTCTCTTGCTTCTTTTCTGCTACCTTGTCTTTTTGCTGGCTAAAGTTCCCTTTTGATAGCTTTGTTGGTGATTCCTTGTGCCTTTGGTTGCTGGTTCTTCAGTTTGGTGGCTCTTCTTTGGAAATTTTTGGCTTTGTTGGCTGGCTTTGGTGCCTTGCTCCTCTTTCCTTTTTGGCATTTACGGATATGGCTTGTCTTGTGGATTTTCCTTTTATTTTTTGGGGCCTTTGTTTGGTTGGGTCTTCTTTCTTCTTTGTTCTTCTTTCTTTCAATCCAGCTATTAAAGCGCTTCATACTTCTAGTAATGCGGCCTTGAAGAGATCTGTTTGCTACCCATCTAACCTCGTTAAATTGACCTCCCACCACCCAACACTCCCCACAAAGGCCATAAAGATCATCTAATTCTTCCAAAAAGCCTTTTTATCACGAGAAGAAGAGGGGCCATAAACCTTTGTAATCCAGTTGTGGAATTATTAAGAATAGACACTTTGGTAGTCACTGAGAAAACCCCAATAATAGAATCCTCCACTTTGACTGACAACTCTTCCCAAAGAATCAAGATGCCTCCTGTCGCCCCTTGAGCATTGAAGGAAGCCCGTCCAAGAAATCTAGAACTCCAAATATCCTTAACCATTGAAAATTTGCTGCAATTTAGTCTCCTGTAACATAACTAAATCAGGGTTAATAGAAACTAGCAAATTTTTAACTAGAAGTCTCTTTGGGCGAGCCCAAACCCCTTACATTCTAGGAAACTAGATTCATAAAGAAATTGTGTTGCCTAGAATCTCTAGTATTTGAGAATTCTGCTATGCTTCCTAGGTGCTGATGAGATTCCTTAGTTCCCTATTACCAAGCTTTTTTTTCCTGCAGAGATTAAGGGTTGCCGGTTTACTTTTTGGAATTGGCCTTATACAAAGCCCCCATTTCCACAAAAGGTGAATTTTTTTCTTGGAAATCGAACAGAAATCTTCCTCTTCTAGTGTTTGAATCGCGCAATTAGGAGTACTAGGAACAATTCCGTTCACAACCTCCCTTCTAAAGCTGCCGTATTACCTGAAGGGGTGGCAATGATCAAGGGGAGAGCTTCTTCCTTACTTTGGTTCTCGTTCCTACCCACTTCTGCCGTTTCAAAGAAATTCTGAAGGTTGACCTTGATATTTTCTTCTGGGTTTGAAAATAACTTGGCTAGAAGGAAATGAAGGATTCTTATAGGGGGAAGGATTTGACGGAGGGGTGGGATTTAATTGTCTATTACACTTTTCTTCCAAACATCAAAAAAAAAAAAAAAAGAAAAAAGAAAAAAAGAAAAATCAAAATCTACAATGTTTTGTTTTTTAGGTGTGCGATATTTCAAGAAGAATGCAAAGTTGTCACTGGCCCACCTCCTCAAGTTACCATCAAACTTAGGTATGTGATATTTTCTAAGATAACTATAGTGAATTAAAATATTTTAGTCTCACGAGCTTTTTTTTGACAATCAGGCCATATTCAAATGACATGGGGTTTGAGGATCTAGATGTATCTGCTCTTCTTTCGGTGAAGTATGGGCGTTTTCAATGTTTTTGTTTCCCATTTATTTCAGTTGAGTTGCCAAGTGAAGTCTGTATTTCGTTCTTGTTCTTAGTTAGGTACTTGCCTGGATATCCATACAAATGTCCGAAGTTACTTATAACTCCGGAGAAAGGTTTGTTGAAGGTTGATGCTGATAAGTTGCTTTCTCTTCTTCATGATCAGGTACAAGCTAGTTGTTGCTTGATGAAAATTGTACTTGTTTATTTTCTAATTTTTAAAGTACTTTTGTAGATATAGCATTTCTATGTGTAATTGTACTAATTCAAATTGTTTTCAATACTCCCCTATTTTTTAAAAGCAACACTGTTAATTTTTTAATGGGTGATTATGGAAACTCTGAAACAAAGATTTAAGTAGTTATTCTGAACTGTCTCTCATTTTTTAAAGTGACAATTTTGATCTCTCTGTCTCTCTCTCTCTCTCTCTCTCACACACACACACACAGCATATCATTAATATCAAACTGTAAGAGTCACATACCAGGCAAAGCTGGTCCTTTTTTCCCTTTTTGGAATTGGCTTGCCTTATCATCTTGTGCGAAGCAAGATCAGGATCTGAAGAATGACAGATCAGGAACTTGAAAATCCCAAGTCCAAATTATTTCTAGAAGAGTCTCTCAAAGAGAAACCTTGGGATAACAAAAAAGGTTAGAGAATTGCAGGACAATTTAGTTTCAGCTCTAAACAAGCTTATTTGGAAGTCCAAAGTCCCCAAAAAGGTGAGGTCCTTCTTTGGATTTTGTTACAGGGAAAGTTGGAACAAAAGCGATAAGCTCCAAAGAAGAATGTCGAATTGCAACCTTTCTCCTAGCTGGTGCATATTATGTAGAGTAGAATCAGAGAGCCACTCCCACATTTTCTTCCACTGTCCCGTTGCTTGGGCTTATAGGGCTAAGCTGCTTAATGTTTTTGGGCTGAGCTGGTGTTTCCCTATAGCCAATGACTGTTCTAGCATCCAATTGCTCCATGGCCCCGTTTTCAAAGGACAGGCTAAACCTTTGTGGACTAATGCTGTGTGTGCTACCCTATGGCGCTTATGGTTTGAAAGAAATCAGAGAATCTGATAGACCTCAGGTGGTCGATCAGTATTCAAACACTCAAGAGAAAAATGCAAATCAGCAGAAGCTAACAATTCACTTGTCTAGAACCCAGTAACAATCCTCCTTTGGCTCTTCGAGGTGCCAAGGAAACCTCCTCTCCAGAGATCACCCTGGAGCCCTACACTCACGCACACCAAATGTCTGCCTCCCCAAAAACGTCCACACGACCTATTACTAAAGAAGGGGGGAAGGGGGGAAGGGGGGGGCGGACCACTAAACTCTACGCACTCCCACACTCACTGTCCTTTATCCTTCTTTCTTGTCTTTTTCCTTCTCGTATAGGTGAATTGTACGGCCGGCGCTTTGCGCCCATCAATACCCTCCGCCCAAACTTTCACCTTGTCCTCAAGGTGGAAGGCTGGGAATTGCTCGCGTATGCAGTCAAATGATTCCCATGTGGACTCTTCCGCTAGCATGCCTTCCCACGAAATCAGGACTTCCTTCTCCTCGCTGGTGGAATCTACTTTAGGCCGAAGACCAATGACTGCAGCTGGTTGAAGGCTCAAGTGTAGCTCAGAAGTAAGGTTATCAGGCAAGGGGCTTGGTTGATCCAGCTCTCCTTTTGCTTTCTTGAGCAGTGAGGCGTGGAATATAGGATGTATGGAAGAAGAAGTCGGCAAGTCCAGCTTGTACGCCACCTTCCCAATCCTTTCTAGAATAACAAAAGGCCCGTAAAATCGTGGAGCTAATTTTTCGTACCTTCGATTGGCTACTGACTGCTGGCGGTAAGGCCTCAACCTTAAAAACACCTTATCCCCAACAGCAAACTCCACTTCCCTTCTGTGTTGATCAGCCTGGATTTTCATTATTTGCTGGGCTCTCATGAGTTGGACTTTCAAGTCATCCCACATGTCATCTCTGTCTTGCAAGGCTTGATCCACCGCCGAGACAACCGCAGAACCTTTATCGTACCTCAAAAGGGGGGGTGGGGGGCGGCCATATAGGAGCTGGAACAGGGTGCTTTTGCTTGACACGTGGTATGAGGTGTTGTAGCAATATTCTGCCCATGACACCCATTTGGCCCAAGACTTGGGTTTTTCCGATGCAAAACACCTTAAGTACGTCTCTAGGCCTCGGTTGACCACCTCCGTTTGGTCGTCTGTTTGTGGATGGTGTGCTGTACTTCTCTTGAGGGTGGTGCCTTGTAGTTTAAAAAGTTCAGTCCAAAATAAGCTCATGGATACTCTATCCCGATCCGAAAATATGGAGTTGGGTATTCCATGCAATCTTATCACCTCCTTTGTAAATACTTCAGCCACTCCCATGGCAGTAAAGGGGTGTCGTAGTGGGAGGAAATGGGCGTACTTGGTTAATCGGTCCACTACCACCAAAAGAGTGTCTCTCCCCTCCGATTTTGGGAGTCCTTCAATGAAATCAATGGAGATGTCCTCCCATGGCAAGTCTGGAATGGGGAGGGGTTGAAGTAAACCGGCGGGGGATAAGGCTTCGTACTTGTTTCGCTGACAAACCTCACACTTCGCCACAAATTCTTTTATGTCCTTCCTCATCTCTTCCTAATAAATATCGGCAGCCAACCTCTTAAATGTTTTGAGTTCCCCCATGTGACCACCAATCAACCCACTGTGGTATTTTGTCAATAATAAATTAATCGCCCCTGATTTTCGCGGAACCACTAGCCTTCCCTTAAATTTTAGTTGTGCATTTTCCACAGAAAAATGGGGGTAAGAGCTCTCCCCTGTTTGCACTGCAGCCAACACCTTCGAAAGGAATGGGTCTTCCTTAATTGCGTTATTTATGATTTTCAGGTAGTCTTCCTTTAGCATCGATAAAGAGGCGAGCACCTTAAGGGAGGGAGAACGTGACAAGGCGTCCGCCGCCTTATTCTCGAGCCCGGGCCGATACTGAATGTCGAAATCGTACCCCAGTAACTTTATGAGCCAGTGTTGGTGCTCCGCGCTAATCAGCCTCTGTTCCAGCAAGAATTTCAGACTCTTCTGATCGGTGCATATAAGGAATTTCCTGCCTAATACGTATGGCCTCCACTTTTGTACACCAAACACGATGGCCATGAGTTCTTTTTCGTAAATTAACTTCTGGCGGGCTTGACCGGAAAGAACTTGGCTGAAATAGGCTACAGGCCTCTGATCTTGCATCAAAACAGCTCCCACCCATACCCTGACGCGTCGGTCTCGATCACAAATTCCTTGGTGAAGTCCGGCAGTGCGAGGACTGGCACTGAAACCATAGCAGCCTTGAGTTTTTGGAATGCTTCCTCTGCCTGGGGCCCCCATGCAAATCTGTCTTTCTTCAGCTGGTCGGTCAAAGGCCCCGCAAGCTGACTATACCCCTTTACAAATTTGCGGTAATAACCCGTGAGACCCAAGAACCCCCTGAGCTCTCTGATGGTTTTCGGAGAAGGCCAATTAACCATTGCTTCAACTTTGGCGGGATCGACGTGCACCCCTTCACCGGAGATAATGTGACCCAGATATTCCATTGAGGGTTGCTCGAATGTACACTTCTTCCCATTGACGTATAAGCAATTCGACCTCAGGGTTGCCAGGACATGGGTCAGGTGCTTTCTGTGCTCGCTCATGCTCTTGCTGTACACCAAGATATCGTCAAAAAAAACTAATGCAAATTTACGAAGGAAAGGCCGGAGTACCTCATTCATGAGGGATTGGAATGTGGAAGGAGCGTTAGTGAGGCCGAATGGCATCACTAGGAACTCATAATGGCCTTCATGAGTCCGAAAAGCCGTTTTGGGAATATCCTTTGCTCGAACCCGAATTTGGTGGTATCCCGACTTTAGATCCAGCTTGGAGAATACTGTGGCGCCATTGAGTTCATCCAACAACTCGTCGATGACGGGAATGGGGAATTTGTCCAACACAGTCTCCTTATTCAAGGCCCTATAATCCACACAGAATCTCCACGAGCCGTCCTTCTTACGCACTAATAGCACCGGGCTGGAAAATGGACTGTGGCTGGACTTGAGGGTATCGGTAGGGCCGGACGTTGATTGGAGCGCTTCCGTCCTTCAAGATAATCGCATGATCATCTCTCTTTGGGGGGGGCAAACCCTTAGGTATTTGAAACACATCCTTGTACTCTTCGATTACCGGACGTAGCTCGGGAGTGATTCTACCTTCTGTGGAGGTGTTTGCCACCCCGCTGCATTCTAGGATTACCCCTTGTCCCTTTCTGTGGATGGCTCGACGCATAGCATGGAGGGAGATGGAAGATTCCCCCAAGGACGGGTCTCCCTTGATCTCGATGGTGTGTTGGCCGGATTTAAATTTCATGGTGAGCGTCTTCCAGTTCACCTTCATCTCCCCTAATGAACTAAGCCATGGCATCCCTAAAATAACTTCGCAGTCACCCAAATCCAGCGGAAAGAAATCCTCCACGACCTCTAGTTCTGGAAGGTTCAGCTTAACCCCCTTGCATGCTCCCTCCGCTTTGATAACCTTCCCATCCCCCAATACCACACTATACTCGTTGGTCTTTTCTGTCGGCAGGTTCAGCTCCTTCACTAATCCTCTTGATATGAAGTTGTGGGTGGCTCCACTGTCAATTAATACCACCACAGCACGCCCTCCGACTGTCCCTTTGACTTTCATCGAATGCGGAGAGATGACTCCCACCAAGGAATTTAAGGAAATCGCGGCAACTGTTCCACCGTTCTCAACTGGGGTCCCTTCGGCTTCGTTGTCTTCTGGTTCGTCGGGGATGATGAGTACTCTTAATCCTTTGTTTTTGCAGCGGTGTCCTGCTGAGAACTTCTCTTCACATCTGAAACAAAGCCCAAGTCCTCTCCGTCGTTTGATCTCAGCGTCTGACAGTTTCTTGTACGTAGATTCCCCTCGCATGGGGGCCGTAGACGCAACCGAGGAGGGTCGGGTAGGTTCAATTCTTTCCCCTGCGCCCCCACCTGGTCTCATTCCCATATAATGAGTGGACCTCGGGGTGGGCTGAGTTCCATAACTGGGCCCATAACTACGGCCCGCATAATTGGTCCCACTCTTTCCTTCCTTCGTTGCCAGGTTTCGATCTTCAATCAATTGGGCCACTGCCATCATCTCTTCGAGTCCGACCTGGCGATGGACCCGCAATTCGGCTCTGACCTCCGGCTTCAACCCGTTGATGAAGTTTCCTTCGAGCACCATTTCCGGCAGCCGTAGGAGGGGGGCGGTGTAAGCCTTGAATTGCCGCCGATATTCCCTAACGCTCCCTTCTTGCTTCCGGGCTTGGGACCTTTCATACAAAGTGCCTTCCTGAGACTCACAGAACCGATTTACGAGCGCCTTCCGAAACTCCGACCAACAACGAAAAGGGTTGCGATTGTCTGTCCATCTATACCACGCTAAGGCCTCCCTCGTTAGACTCACCATCACCGTCTCTAGTCGCTCTTCCTCAGAAATATGGTGGAACTCGTAATATTTTTCAGCCTGAAAAACCCACCCATCTGGGTCATCGCCTCCGAACGATGGTAGGTCCAAACTTCTCAACTCTGGGGCTGGTGTTCGGCTACCTCCCTCTCTACCTCGCTCACTTGTCTCCCAGGTCTCTGCTTCTCCCGTCATCCCGGCAATGGCTTTCCCTTTTACCGTATTTGTTACTGTTCTATCCGAGTCCTCCTGTCGCTTCATCAGGTGGCCCATACCTTCCAGAACCGCCGCTAGAGATTTTTCGATCTTTGGTAGCCGCTTTAGTTCCTCTAATACCGCGACCATTTTCCCTTCTAACGCTTCCACCCTGTTTTCCACCTTTTCCTTGTTCGCGTGTACCAGGGTCGCTGCTCTGATACCAGTTGATAGACCTCAGGTGGTCGATCAGTATTCAAACACTCAAGAGAAAAATGCAAATCAGCAGAGTCTAACGATTCACTATGTCTAGAACCCAGTAACAATCCTCCTTTGGCTCTTCAAGGTGCCAAGGAAACCTCCTCTCCAGAGATCATCCTGGAGCCCTACACTCACACACACCAAATGTCTGCCTCCCCAAAAACGTCCACACGACCTATCACCAAAGAAGGGGGGAAGGGGGTGGGGGTGGGGGGGGGGGGAACCACTAAACTCTACGCACTCCCACACTCACTGTCCTTTATCCTTCTTTCTTGTCTTTTTCCTTCTCGTATAGGTGAATTGTATGGCCGGCGCTTTGCGCCCATCAGAATCTTTGAGGGATCGACTCTAGCATAGATAATCTTTGGGACCTTATTAAATCTCATTCTTCCTGGTGGTGTCTTCGTTCTAAAGATTTTTGTAATTATGACCTTTTGCATATTCTTGCCAATTGGCAAGCCTTTTTGTAATCCCTTGGCTTTGTGGGGATATCTCATTACCCTCCTTTTGTATTTGCCTTTTTCATCAATATACTTCTCTGTTTCTTATCCAAAAAAAAAAAAAAAAAAAATTGTTGTTCCAACTGTTATAAAGAGAACCAGGGAAGAGTACTATTTGAAGGATAGCAGATATAAATGAAAAAAAAACGAATGAACTGAAGCTCACCATAATCAAACTTTTTTGGTATAGGAAACAAAAAGTTTAATGTAAAGAATCTACAAGAGCAGTTGGAGAAGAAATCTTGAGCAAAGAACCTAAAGTTACTAATGGCTGCTTGATATTTGATCCCCTTAATATTGAAAACATTCAAACAAAGGGATCCCAAAGCTTAAGATTTTATTAAGGGGGCATTTGGTATGTCGAAATTGAAATGAAATCTTATTCTTGGAGTGCTAGGAATGAGTTTCAAATGTCTGGAAACAAAGAATGTGGTGTTTGATATGCAGGAATGAGAGAGATATTAGTATAATGTACTCTTATCCCTCCTTAAACATACTAACAAGTCAAACATATTGGGGGGATAAAAAACGCTAGGAACTCATGGTCTTTTCCTGAATCTTTTATATGTTGTTGGGAGGCTATGAACTGCATGGATATAGAATTGGGACATGGACTCGACATAGACATGGAATATGACAAGAAAAATTTTATTAAAATATACACCTAATTATATATGGATATTTTCATACATTACTGTGATTTTCACATTAAAAATATAATTTAGTGTATGATATTCACATTTAAAGGACTATGCAAAAGAAGTGATGCATTATGCAATACGTTAAGGAGTTGAAGAAATTGGTTACATATTTCTAATAATGTAATGCATTATAACAATGAAAAAAAAAATCTAAGACCAACTAAACATCTTACCAAAAAGAATTATAAAATCAGTTATGTTTATGGATGGATTTGCTTAAAAAACAAGTTTCATATTTTTCACTCTCAAAATTTATTATTCTTCTCATATAGTTCTTTTTAGATGTCCAAGCATTTAGTGTATATTCTCACATTTTCCAAATAAGAAGAGAATTATCAAAGATACGTTACTGTGAAATTGATAGTTTGACAAAGTATTAGACCGTGGAGTTCTCTGGTGTGTGTTACACAGACGTATTATCTAAATTAGAATTTACGTGCTTCATTCTTCATAGATTTGAAATGTTTTATTTGCTATTGTTCATGGTTAATAGGTACATTTGAAATTTATGGTTTTCCCATCTTTTAATCTTCATAACAAGATAACTATTGTTTGTATTTTTCAGGCAAATTCTAACGCTCGAGAAGGAAGGATAATGATTTTCAATTTGGTAGAGGCTGCTCAGGAGTTCTTGTCAGAATTAGTAACTATAGGCCAATCAAACGAATCAGTAAGATATGTTCAAATGAATATCTTCTTTAAAATTCTCTTCAACAGAATCCTTTCCCTGGAAATTGGAATTTTATAAACGATGATGATAAGTGTGAAGCTTCTGAAGCAACCTGGAAAGGGAATTGTCTAAAGAAAGTTAAATTCTTTGCTTGGACTTTCTGTTTTGGGGATATCAGTGTGGCAGAAAAATTCAACTGAGATGCCTGGATAATCTTCCTGAATCTGAATCAGTATGTTATGCGTAAAGAGACTGGGAAAGTCAGATTCATTTGCTTTTTCATTGCCGTCTTAGTAGAAAATGTTGCTCAGTACTATTGCACGAGGTGGATTGTTGCTTAACCACATATTCTAAAATCCAAAAGAGCAAGGGCCTCATTGATCAACGATGGGCTTGTGTTCAGAAGTAATTTTGGAAACCGAAGTCTGTCTAGATTCCTTGAAACAAGTCTATATATTCTTTTGAAAAAAAAAATCTATTTAGCTTATGAAACGACATTGGCATAAAGCTTAGATCAAGTGAATCTCCATTTTGGGGGGGGGGGGGGGGGAGAGAGGTCTAAATGACCACTGTTGGATAGAATCATATTAAAGTTACCAGCTAAGTACATCAATGTCCAAAAAGGCTAAAAAGACTGCTGAATTTCACAAAAAAAAAACCCCCTCCCTATATGTAGAAGCTGCATAAACTCTCCTAAACTACCTAGACAGGTTAGCTTGGTTAAGGAAGCAAATAAACAAAGTAAAAGAACCATGCACTAGGCAAGAAAGACCACGGAAATCTCAAATGATTACTATATACCTTCAGAAAATCCCAAGGCTTCAAGCTCTTCCCACTCAAGATAACATCCCTTTATAAACTCTTGGCCAATCAAACAGGAAACTTGCATGTTTTATTTCTTGAAGAATGCTCAAAAGTGGGCTTTCTTGGGACAAAATATCCCTAATCAATTTTGTCTTATCCATTCCTCTAAACCGCTAAAGTTCCAGAATTTTTTTTTTTCATCAGCAAACATTAAGGGCCCCAACCTTATTAGAAGCTTGCTTTCTATTGTAATTAATGGTAGACCCCACTTCCATAGCTCTCTAGCCCCGTTTTATTAGTGCCCCCACACTATTTGACCCTACCATTCTATTTTTAAGAAATTATTGGAACACGATGTGGTTGCCACTTCATAATTATTAGGTACAGGGTTAAAAATTATTTTTGAATCTCTTTTTATGTATCTGATAGTTATAAACATGGCAGCCACCTGTGACAGCCGGAGTAAATAATTTCTCCCTATCTTTAGCTTTGAAAGCACTTTAGAAGGAACTATGGATAATCTCATTTTAATAATAACTCTACAAGAGTGGGCTAATCCTCAACAGAATGCTCAATGGAGTGAAGCTCAGATCCTCTGACGCCTCCAGAAAACTAAAAAATCCCTGGACTTGAATTGTGTTACCCTACCCAAAGAACCTCAGCCAGTAACCCAATAAACAGGAGCAAGTGCTGTCAAGAGTCTTGGAAAAAATAAAGCCCTCGGTCCAGATGGCTACACTATGGAATTCTTCATTAAATTTTGGAAGTATTTCAAAGCTGATTTTAAGAGGCTTTTTGTGGAATTCTACAAGAATGGTCATGTAAATGCTTGTTTAAAGGAGAATTTCATATGTTTAATTCAAAAAAAAAACAGGAGCAAGTGCTGCACTGTGTCTTGGGCATGCTCGTCCAGGGAGTGTTTGCCTATGGCCGCATGCCCAAACCATCCTCAACCACCTTATTTCAATGCCATGTAATTAGTTTTGTTGTTCGCTTTCATTTGCATATAGCTTTGTAAGCGAGTGACTCCTCGCCACTTTTGATGTTCATGCTTGTCATAGCTATTTTGCCTCAAAATGTACTATAGGAGGGTGCAAGTAGTCATCAAACCTCCCCCCTACCAAGTGTTGTAGCTTTCATGCAATCAAGCTTTCTTTGCATCCTTTGTCTGCAACGCTCTCTTTCAAAGCTTTTTCTCAACGCTTTCTCTTCGCACGTTTTATAAAACCATTTTCTCTCAAAATGTGAGGGGAGGCTAGACCCGTGACCCGAGAATGTCCGCGATGTCCGATTTTTCTTGGCTGACTTGCTAATTCGAGCTGAAGCAAGTGCCGTACAATCGCTAGACCCGAGTTAAGACAAGTGCGATTGTGACACACTGCACCTTCTAGTAGAAGGGATTACAACAAGATACTTGAATGCTTATTTCTTGTGAATTCAAGTGCATTTTCTTTATCTTAATATTTTCTTCTTATGCTATTATGTCTGCATAGTCATTTTCTACTTTATCGTGCCAGGTTGGCTGTTCTCATACAGATAACAATCCTCAATTGCTTCTGGACATAGTAACTTCAAATGAGAAGAAAGGACCTTATGTTCATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGATGAAAAGTTCAACTCCCAAGCACAACCTCTTGCATCAGATAGCTTGAAACTGGGAGCAGTCCAAGAAAAGAAGTTTGATAAAGTTCAAAACTTATTGGCTGGACAAAATTCAAAGCGAGGTGAATTACTGTCTCCTTCCTCTAACCTAGATACACTTGAGGAAGAAAGTGAAGATGACAGTCACAGCATAACTTCTTCTCCTTCGAGAAGATCCCTAATGGTACAGGGGGCTGGAGATCGTATTGAAGGTGAGAAGCAGGTAAGCAGTGTTTGACGTGGTTTACTATACTTAATGTTGGTTGGATGGCTTGGTAATTGCATACTTTGCTAGTGCCTTCGAAAAATTATTGTTTTGGCCATCACCCACTTGGTCATGGCATTCTTTTGCTGGATATCACTTTGCCACTATTGAGATTATCCTTTTTTTTTTTTACTTTTCATAGTTTCTTTTTTGTTGAGCACTGACATTATGTTGGTAAAGCTTTTGCTGCTTACATGGAAAAGGTAGGAAAGTTCTATTTAATGAGGATCACGTGCCTACAGATTTTGGAAAAAAGAATTTGTGATCGTCCTTAAACCATGGAAGAAATTTGAAATTGTTGATGAGTATGCTGTCATAAATTGGCTGGCTTATTAGAGTCATCAAAGTGATTAAACCTTCATTTTATATTAAGTAGAAACAAATAAGAGTAAGACACAGGAATCCTGAAAATAAAAATAACCTCAGAATAGATAGATAATTGACTTTTCATGCACAAATTTTTTCATGTTTGGTGTATGGTTGATAATTACTTTATGCTTAATGTGATTTTAGTATGTCGGCTGCTCGGTCTTTGAGCAATGCTATATTGTTCCTGTGAAAGAAAATATTTGTTCCTGCAGCATGAAGTCCTTATGCCTGCACAAGATTCTATTCTCACAGACCACGTTGCTGAAGATGATGACCGTGGATCTGATAGTGAGCCTTCAGAGTGGTCTTTTGCTTCCTTGAGTAATGATCAAGAGTCCCAAACTACCAATAGGGACATAATGATGGTAGCTCTTTTGTCACTTTCTATTATTTTGTCTATAATTTGATTTTAACTTGAATAACATGTGTAAATGAGTTTGAATTTTTTATTATTAGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTACAATTTGGGGGTATGCTCAATAATTATTCCTTACCCTCGCCCTTTCCCAATCCTTATGTCTATCTATTTGATTGTCAGATCCTGTCAGAAGTGGCTCTGGATTTAGCATCTAAACCATCTTCCATGATTCATAAAAAATTTGAGACTGCTTTCCAGGAACAGATGGTTCGTTGTAATTCTTCATATTTAATTACTTTCCTGCTTCTGCCTTCTCTATTCTTTCCTGGAATTGGACTCTTACCTTTTTTTATTTTTATTTTTCCATATTTTATTTTACCTAGAATGCTACTAGTTTCTCCCAGTTTTGGAATCCTTCTGATTTTGGCGGCCCAACATCTTCTCAACCGAGTTCTCGGTATCTTAATGATTTTGAGGAGCTAAAGCCCCTTGGTAATGTGTTTTGGTTTTTTGCACATGTGCATGCACTGTTTATGTTCAATTTGTAATAATGTTGATGGTTTCTCTTTAATGTGATGATGGTACCTTTAATTGTCTTTAGAATGTGACATGTTGAAGTTTTTAAGTTTCTATTTATCCTTTTCAAAATGTTCATTTACTGAAAGGCGACTTAATAAAGAGAATGGAAGATATTTGTGTGTTGATGTGGATGGCAGGTTAATAATTGGGATTTATTATGGTGGCAAGATGTTCTTTTTGTAGCCAATGCTGTTGCCTGATTTAAGAAACTTCATTGAAGATCGAGGGATGATATGGAAGTGGATAGAGACAACACTTTTCTCTTAGATCAAATGCTTCAATTGAACCTATATTCTCTTCTGTAGTTTTTAGTGCTAGGTTTTATTTTTGATACGATACTTCTTTGTGCCAGTTGAAGCTTTATTTTGATGAAACCTTGAGCAAAAGAACCAACTAGTTTTTCACTTTTCTTCTAGCCTTGATAACTCACTTAAATCATCCTTAGTGTGATAAGGAAAACAGAACTGTTGTTGCAGACTTCAAAAGAATTAAGATGGATTTCTAAAGGATCAAAAGGCTCGATATAAGTACGAAAAACTCATATTTATAGGGTTTAATATGCTGTTAGTTACCACAGAAACTAATTAAGTGGTGTCCATTAGCAGCAGTTGCATATCGGATGCTTTCTAACTTGTATTTCGATATTCATTCTTCCGTTGCTTTGCATTACTGCTTATATAAGTAGAACTAAGCCATGTGATCAAATCAACTGTTAATTGAGGAGGTTTAGACAATCTCGAATGGTGCTTTACTTGTTAGCCTCTATTTGTCATGTCATTGAATGGAAATTCCACTTGAGGATGACCAAGGTCCTAATGCTTAGGTTTCTCACTGCCCAAACACTATAGTATGGTGCATATGCTTAGTTTGTAATTTTTGTTTAACCATCCATTTGAGGATGGCATGTTGTTCTTCAATGAGCATCGTTAGAAATAACTCAAGAGTCTAGAGTCTCAATAGCTCGTGATTGGCTTCAGAATGTCGTGCGGTGTAATGATCTCCTTGAAGAGTAATGTAGCTGTATGGACTGCATCGTCAATCATAGGACAAGGATGAATGAGATATCTGTTCAATCTATCAACTACAACAAGAGTTAAATTATTTTCTTGTTGGGTATTTAGGATGTCCAAATATGAAGCATAGTGACATCTTGCCAAATGGTTTTGGGTATCAGTAAATGGGTACAAATCCAATGTTTTGTGATTAGTTCATAGAAATCTGCAATGGGACCAAATTGAATGTAATATGTACCTTTTTTTATTAGGTCAATGAAACAGAATGAATTAGTTGATATGTCTATCATGGCCGAAGTGTTATGCTAATCCTACCAGAGCGAGCAACTTGGATAATTTGTTGCCTTAATAGTGTTCGAGGTATGCAAAACTGATTATCTTTGACTATGAAGCCATTGGTTATGGAAAAACATGGGCTCTCTCTTCTATTATGATTTATTCTATATTTTGGCAAAATTATCATCTTGCTCGTAAACTATTTTAAAGTGATTTGGCTAGACATAGCTTACCCAATGAATATTATGAGTTAGTACATATCTTCACCTATAGTTGATCTTTAGATTGTGAGGTGATCTTTAGATTGTAGTAGAATACATTTTGTATTATTTGAAAGTTGTTCCTAGACGTGGAACCTTATATAAAGATCACAGTCATTCTAAAATTGAATATTTCTAGATGCTGGTTGAACAAGATCTAAAGCAAACGGAAGATCAACTTTAGGATATTGTGTTTTGTTGGAGGTAATTTAGTTTCTTGGAAGAATAAGAAACAAAATGTGAGTCACTGTGGGTTGGCCTAGTGGTCATTAGGGCTATTGAAAAAGTAAAGGGGTTTAGAGGAAATGGATTCAAACCATGGTAGCCACCTACCTAGGATTTAAAATCCTATGAGTTTCCTTGACAATCCAATGTTATAAGGTCAAGCGATTGTCTAGTGTGATTAGTTGAGGTGTGTGCCAGCTAGCCAGACACTCAAAAGGATATAAAAAAAATAAACAAAATGTGGTATGATGCTCAAGTGTTGAATCAAAATATGGAGTGAAAACACAACTTATGTATGAGGTATTGTGAATATATCAACTCACAATTGAGTTAGGCTCTAGTATCACAACTTTGACCAAATTGTGATGTTACAATCACTTGGAACTCCATATTGATTCTAATCCAATATTTTCTAAATGAACTAAACACTGAAGTCAACTGCCATTTTGTTCATGAGAAATTTTTCATCAAGGTTTAGTGTTTACATGACATGTGAAGACGGAAGAGTAATTGGAAGATATCTTCGTGGAGGCATTAAATAAAGCATGTATAGATTACGTTATGTACATTATAGTGTTGTAGATAGCTTAGTTATAAGTCCAATAGTCATATTATTCTTTAATGTAAATCTACATTCTTTATTTTAGGATTCCCTTATATACCTATACCTATATATATATATATATACAGATAGATATATATACATATATAGATATATATATATATATATATATATATAATTCTAGTGAATGGAAAATATTAATGTGTTTTCTCTCAAACCTTTGTTTAACTACACTTTTATTTTTTCCTTCTTCAGCTCAAAGCCTCCATTTTTTGGGCCTAAAAAATGTTCAAGCTTCCATTTTCAGATTTTCTTCCATTTTCAAATGTTTGATATACTTAAATAAATCTCGAAAACTAACATAATGCTAAGTAAAATATTTCTAATTAGTGGATAAAGGTCCCACTTATCAGTTCATATCATTGATGTGTTGGGAGAGCCATTAAGAAGAATCTTCCAGTAGCGATAACATTGGGGGATTCTTCTAGTTGAAGGTGTTGTTCAATCTTGAAAACAACAGCTTGAAACTCATCGTGGGTGGAATTTATTTCTCCAACCTCTGACAATGACTTTTCTTTTGCCATATTGGCCAGCCTAGGAAAGTTAAAATATGTTCTTGGAGCTCTGTTAGCAAAATATGTCCAATGAATTAAGATAAATTTTATCAAGGATTAAAGCAATTGATCAAATAAGTAAAAGGAACCTTTAATCATAGGGTATAATGCGCTGTTAGTTACTACAGTAACCTAAGAAGCACAGACACGGATACGCGACATGCGACACGACACGACACGGACACGGCGACACTCCAATTTCTAAAAAAATAGGACACGACACGTTAGGGACACGTTAATTTTTTTTAATATATATATGTGTGCAAGTTTACTCCGACGAATTTTTAAAATATTGAATCTTATAAAAACATATCTAATATCTAAATTTAAACGTTAAAAGATAATACATTTCATTAAAAGGTGAGAGACAATCAACAATATCCATAATCTAATAAGGTTTACAAAATAAACCTGAAAATAGACTCGAGCAAGTGCTATTTTCTCTCTTTTTTTTTAATATATTTGGTTTAGGTTTCTTTGTTAAGTAGTCTTTTCATTACCTTTATTTTTCACAGTGAGAAGTGGGCCCTTTTATTCTAGAGAATGGTCTGATTTTTTTAATTTTTTTCAAAAAGCGTGTCCTAAACGTGTCCCCAATGTGTCCTAAGCGTGTCCTCAACGTGTCGCCAACGTGTCGGAAAATGAAAAAATAATTAAATAATCGGACACTCTTTTTTCACGTGTCAGACACTTGTCAGACACGTGTCGGGCGCGTGTTGGAGCGTGTCGGTGTCACTTTGCAAAAAATAGAGTGTCCGTGCTTCCTAGACAGTAACTAATAAAGTAACTACAGGTAATTTCTAAGCTGTTTACAATTAGACTTGTTCACTTATGTATCTCCTTGTTCACTTATGTTTACAATTAGACTTGATCCATAAATCCTTACCAATACAACTTCAGCTGTTCACTTATGTATCTCCTTGCAAATAATGTTTAAGGTTCTGAGCTATAATATCTCTATTGAAGTTTTCATTTCCAAAACATTATTTATATGATAAATTGTTTGCATATTTTTTTTTTTGAAAAGGAAACAAAACTTTTCATTAATAATTGAAAAGCTAAAGAAAAGTACAAAGTAGCATTGTCTACAAAATGTAGACTAAAAGCATAATGAACAAAAGAAAAGCAATAGAGGAGGGGGGAAAAGGAAACTATCCCTATAAGAAAGCCCCCCAATTATTACAAATGTCATTAAGAGAATAGCCATCAAACTCTTTAGATAAGGAACACCAACGTGAAGCTTTGATCTTGATTAATTCAAATCGATCTTTCCAATCGAGAGACTTATCTTCAAAAATTCTTTGGTTTCTTTCGAACCAAAGATCCGAGAGAATTTCCTTGGAGACGTTAATCCATAGCACCTTAGCTTTTGTAGAGAGAGATGGACCATATAGAAGATGTTGAACATTGGAACTTGAATCCAAACCAAATACCCAGCAAGTATTGAATTGCACAAAAAAGGCACACCAACACCGATAAGAATATGGACAATGGAACAAAATGTGATTTTGGGACTCAAAATTATTCATGCAAAAAGGACAAACTGAGGGAGATAACGCCGAAGAAGGTAGTTTCCTTTGAAGTCTATCCAAAGTATTGAGACCTCCATATAGCAAAATCCAGATAAAAAAATTAATTTTCTTTGGACTTTTGGATTTCCAAACTGCTTCAAACAAATAAAGAGGCATAGAAGATCCGTTTGAAAGCTGTTGGAACAAAGAATTTACTGTGAAAGAGCTCGAAGTATCTAACAACCATGATTTCCTATCGTCTCCATCTTTTAATAGAACCTTATCTATTAGAAGCATAAAAGAGCAAAAAAACTCAATCTCCTCATCCTTTAGATTCCTTCTTAGAGTTATATTCCAAGATTGGCTGCAATGATTCCACAAATCAGAGATAGAACCGTTTGGGTTGGATGCAATTCTGTAAATTGAGGGAAAGCTAGACATCAATGATGAAGATCCAATCCAGACATCTTTCCAAAAGGAAATTCTGTTACCACTGCCCATTTTGAAAATAGAGAAGGAATCAACCATGCCTTGAAGCTTACTAATACTCAACCAAGGGCTTCTCGAACTACTACCTTTGCTAATTTTGGAAGACCAACCAGCCGCATCTGACTTTCCATGTATACTAACGATTACTTTGTGCCAAAGTTCTGAAGACTCATGGTAAAACTGCCACACCCATTTGGCTAACAAAGCTGTGTTTCTAATCTTTAAATTGCCAATGTCCAGACCCCCGTTTTGTAACGAGTATGAGACCACTTTCCAATTAACAAGATGTTTAATCTTGCCCTCACCATTGCCTACCCAAAGGAAATTCCTCATCTTCTTTTCAGTCTGCAAGCAAACTTTTCTAGGCATACAAAAAATAGACATGAAATAAATAGGTATGCTAGAGAGTACCGATTTGCATAGGGTGAGTCTTCCTCCTTTTGATAGACAATATTTACTCCGTCTATCAATCTTCTTCATGATTTTTTCCATAACTGGCAGCCAAAAGCTCTCCAATTTAGGATTACCTCCTAAAGGTAACCCAAGATATGTCATAGGTAGCTTTTCAACTTTACAATGCAGCAAGTTGGCCAAGGATTTCAGCTGATTTTCCTCCAAATGAATGCCACTGATTGCTGATTTTTCCCAATTTATCTTTATACCAGAGATAACTTCAAAAATTTTGACTGCTGAAATCAAATTATTAAGCATTTCACTGCTATCCTTACAAAAAAGGATGATGTCATCAGAAAACTGTAGATGAGAAATTTGAATAGAGTCACCGCCCACCACAAAGCCTTCAAATAAACCATTAGAGGAGAATTTCTCTAAAATACTGCTCATAACATCACTGATAAGTAAGAAGAGAAAGGGAGAGAGAGGATCTCCTTGACGCAAACCCCTGGATGCATTTATCCTTCCTCTTGGACGACCATTAATGAATATGAAAAATTTGGTATCTCGTACACAGCCCAAAATCCAGCTTATCCACTTTCTACCAAAGCCTTTTTTCTCCATTACTTGCTCAAGAAAGCCCCAATCAACGCGATCAAAGGGTTTTTCGATATCTAATTTGATAATCCAACCTTTTTTCTTCTTAGATCTGTACCCTTCTACAATCTCATTGGCAATTAAAATGGGATCCAATATTTGTCTTCCTTCAACAAAAGCGCTTTGAAAGGGGGAAATAGAATAAACCACAACCTTCTTATACGATCCGCTAGTACCTTGGAAGAATTTTATAAATTGAAGTTGTTAAGCTGATTGGCCGAAAATCTTTGATTACCGAAGCTTTGTCCTTTTTCTTGATGAGACATATGAAGTTTTCCTTCAAATAAGAATTCACATGCCCATTCACATAGAATTCTTGGAAGAAGTTCAGAAAGTCTGTTTTGAGAGAAGACCAAAACTTGCTGATGAACTCAATAGTAAGCCATCAGGCCCTGGTGCTTTGTCTTTGCCTAAATCTTTGATTGCTGCCCAAATTTCACATTCATCAAACGGTCTCTCCAGCCAGCTACTTTTGTCACTTGGAATTGGTCTCCAATTAATACCATCTGGAATGTATTGTGGGCTGGGATCTTTGCAATATAGAGCTTGGAAAAAATCAGTAATTTCTATTTCAATTTCAGCCGCAGAAGATAAAAACCGACCGTGAATTGAATGTAGATAAAAAATGAGGGCTTTCCTTCTTCTAGCTGCTAAAAATCTGTGAAAAAAAGATGAATTCTCCCAACAACTGTAATTTCAATAATTCTCCCTTGATAAATCTTCTTCTACTTTTCTCAAATTCTGATAAAGGAAAAGATTCCTCCTTTATATCCAGATCTGAAATCTCAGCTATATATTCATCATTCGTCCTTTTGTTGGATAACACTAGATTGCAATACCAATTTTTTATATGAACTTTCAGGTTTCTGAATTTTCTAGAAAGGATGAGACCTGCCCATCCGTAAGACTGGTCTTCTTCTTCTACACAATCCATATTTGAAAGCCAAGAATTATAAAATCGAAAAGGGGAAGGACCCCATGAGAAATTACCTGATTCCAAAAGAATGGGAAAATGGTCAGATGTGACTCTTGCTTTCTTTAAGGCACTTGAACTAGGGAATATTAGCTGCCATCCTTTAGAAAGGAAGAATCGATCAAGCAAAGAATGAGAAGGATTGTCTCTAAAGCTTGACCAAGAAAATCTCCCATTGGTTGGGGATATTTCGGACAAATCCAATTCCTCAATAACTTGATTGAAGAGCTTCATACTTCTTGTTCTTCTAGACCCAAAGGATCTCTCATGTGACCATCTGACTACATTAAAATCTCCTCCTAAACACCAAGGCAAATCGAAATAAGCACTGAGTGATCTAAGTTCCTGCCAAAAGTATTTTCTTTCTCTATAATCCGATGGACCATATATATTAGAGATCCAAGCTTCATGAAATCCAGCATAGGAGAATCTGATTGATAATGAATAACCACCCTTCAAAACTTCGTGGACGTTAACTTTGTTCTCATCCCAAAGGATTAACATTCCACCTGATCAGCCAAGGGATTCTACATTTGTCCAGCCAATATCTTTGGAGTTCCATATGGACTTGGTAATCTTGCTGTCTATATTTCCAAGCTTTGTTTCCTGTATAAGAACCATGTCAGGGCATATACCTAAAATCAAATGTTTTATAAGAACTCTTTTACTTTTATCTCCTAATCCTGTCGTATTCCAATAGAGGATTTTCATGACTTCTTATTGAAATCAAATGGGGATTAAGGACACCCCTGATTTTTCAAGAATGGCCGCTACTACTGTCTTTTTAGAATCTGAGGATGACGCTTGGTCTGCCCCTATGGAATGACTTGTGTTTGATAAGAGATGCCTTGCAGAATTGTCATCTAGGCAATGATTTTCTTCAAATAAAGACCTCAAATCTTCTTCAAGGTGCAAATCTTCATATAGCCTAGGAGTTTCCTTCGTAATTGGAGATTGATACTCATTTTCAATGCTGCTGAGACTTTCCACTGGGTCTTCTTCAAAATCTGAATAATCGGATTCAGAGGGTTGCTTGGAGATTAAGTTAGAAGGGGATTGAATAATTCCTTGAACAAATGGATATGGAGTAGTTGATTCATGCTTCTTGTTGTTGGAATTAATTGCTTCAGTTACTAATTGATCAGAAAACCAAAAGCCAGACGATTCATGAGGTCTAATATGCAATGTGTCTGCAAAAGAGTCTTTTGGGATATCCAATGGTAACTCATTTATTACCTCATTTACTGACAACGGTTGAGAATGATGGCTGGCTAATGTCAGCTTACCTTTTTTCTTAACATACAGCCAATCAACATTTAAACACCCACTTTCCAAAGTCACTGGATCATTTAATGCTACTTTTTTTTTGAATTTACGTCTGCTGTATGAGAATGGTAGAGCTTTAATTAAAGATCTCTTAAAAGACTTTCTATAAGGCAAAAGGTAAGGATCTTTTGACAGCCTATTCCTCTGATTATTGCATGAAAGGACCTTAGGGCTTCCAACCAATATATCCGTGTGGTTATTAAATGAATCATCATTAAATTTCTATGCTGACAAAAATTCATGCATTTTATCTGGAATGTAAACCGACTTTTCTTCAGAATTATTGATGGGATTTAAAGACCTTTCATCTTCCTCCACATCCTGCTTTTCTTTCTCTTTACTTAAAGGTAAATCATAGAAGGAAGACTGTTCATCTTCCACCACCTGCTTGATTCGTTCTGCGTCTATTTTATTGGAGAGAATCCCAAAATCCAAATTTCTAAGAGCCAAACTTCTCTTTGCATTTGATAACAAAAGTGAATCGACTTCACAGCAATCAGAAACACGGGCTAAAAACTTTCCCAAATTTGGATCTGTTATTTCAACACAAGCAGGAAGAAATCCACAAAGATTCGAGTTTACTTGGATGATAGCTTCGGTACAATCAAGCAAATTTAGGGTTTTGGTAGAAACACTCACCAAACCACCGAAATTACTTCCTAAAGCTTCAAGGCATTAGCGATTCCAGTATTTTAAAGGTAAATCATGAATTTTAGTCCATCCACCATACCCAACAATGACCTCTTTTCTACTATGCTTGCTGAAATTCCACTTCTCAATTTTGATATGAAAGCTTCCAACTTTCCTCCATTTTCCTCCCAAATTTCTCAGCAACCTTCCATCTGAGAATTTCATTAAGGCCTTATCCGCCATAAATGGGTTAATGCAACTTTGTTGTGAGAATTCCTCCTTCAGGGCATAAGAAATATCATTCCAATTGTCATGCGCAAACAGTTTAGTGATAACCATAATGTTATCCCATTCAAATTCGGCTACTTCAGATGCCTTTTTGACCCAATAACCCTGCTTCTCCTTCATATTCTCCCTTACTGAATTTGCTAGATTAGCTTGCAAACTTGTTGGAACCACGTCCGGGGCTTTTCCTTTTAGCACTTCAGCATAAGAGTTTCGGTGGTTTACAATTATATCCTCCTTGTCATCTATCATCAACCTTTCATTATGCTTAGAAAACAAATCCTTCAGCATATCCCAAAATATAAGCCAGCCTCTCTTGTTGTGATCTGCTGGAACTACAATACTCTTTCTACCTCCTGAAGAAGGCCATACAACACATTCCAAGTACCAGCTATTCTTGATACGAAATTTATGTATGCGAGAAGTTCCCATGATGATTCTTTCTTGTCTGAAAAACCGCAAATGAACGGGACTTTGCAGAATCTCAACAATATGTTTTTCAAACCATAACAACTGAGTAAGGTGAAGGGGCATCATAGCACATCTTTCCATATCTTCAACAAAAAAACTATCGTTTTCAAACCATATGCAGTAAAACTTATTCCCAATACTACAACTTCTAAACTCCATAATAGCCCTTCTGGTATAACCATCAGGAAAAAAAAAAGGAATATTTTCTTCCTGAAAAGCTTTATTTTTGTGTTCTCCTTGATAAATTGTTCGCATATTATAGTCAAGTTTCTGATTTATTATCTCTTTTATAGGGTTTTGAATCGTGTTGATTGTTGGTGAATGAAATTATCATTTTGTTGATTCAACGTTGTTAATTTTCTTCATTTTTAGTATGTACTTCTTTTTATTTATTTATTTATTTTTTATCAAGCTAGGATTTTTTTCTTAATGGCTCTATTTTGAGTTATAGGTCATGGTGGTTTTGGACACGTAGTATTATGCAAAAATAAATTAGATGGCCGACAATATGCAGTGAAAAAAATTCGCCTCAAGGACAAAATACTGCCTGTCAATGACCGCATCTTAAGGTATATGTATTTCAAAATGTATAACAACGATGGTTTATACAGCATATGTCAGAAATATGCGTCATGTAGTTGAAGAAGGCACAAAACTTTGAACTTTTAATGCAACTGTTGTTCTCAAATTGTCAAATACTAAAGATTTTATTTATTCTTTTTATCCCTAGCTTGGTACTGAGATGATTTTTCTAGCTGAATATTTCTTTCTTGATGAAAGAATACTGATATGGTATACATATGTATGTAAGTTTGTGTATGATTTATTTATTTAAAAATATAGTGAACGTGGATGTGGGAAAAAAATGCATATTATGTTCACACAATCACTATGAGTGTTGCATGAAAAAAGATGTACATAGAATATGCTATTAAAAAAACTATACTGTACTGGACTCATATGAAGGATAAACACAATGTAAAAGAAACCAGAAACTTTACTTGGTTCAGAAGTCAATTGGGCTAAAACATTAACAAAGTAGGGAATTAATTGCAATCCTATTAATGGTCTAATTCTTACTTTCATAAAGGCATTGAGCTCTTAGCTATGAGTACAGGGAAGTTATCTCAGATCATAGAAAGCAACCAAACAAACTCACAGTTCACAAGTTAGCCTCAAAGCCGGTCCCATTTATTGTAAACTAACAATGCCGCAAGACTACCTAATAACGAAAAACAGTAACTAAACCATATGGTGGATAGTAAGATGTTCAAACTGTCAGATAGCTTGATGATATTGAAAGCTTATTTTGTATAAAACTCTTAAAGTGTCAATTTTTTTTTGGTTGCAAGTTGTAACAGTTGTATTGACCAGCTGGAAACTTGGTTGTTCATATATTAATCATCACTACATCCACTTTCTTGGAAATCCAACTGCCTTTTATGAGAATCCACTACTTTCTTGTACTTGTGAGTTGGCAGTCTTTGGGTTCGCTGCGACTTATTCATGCTTGTCTTTGTCATCCTGTCAGCCAACCTCTTCAGCTTTTAAAGATGATGTCTGGGGAGGAGGGTGGTGTCACTAAGTCTAAGGTTAGTCTAGGAGCTCATCATGTACACACTTTGAAGAGAGATGTTCTAGTAGATCTCTTTCTGAGACTGTTAAATCCTAATTCTCATATAATCGTGAGGGAGGTAACACACACCCTGGAACAATTGGTAATTTTCTATAAACTTGGATATTGCGGTAGGAACACATTGGGCTGCAGAGTGGTCTTCTCTTACTATGTTAAATCTGTAAACATCTTAGCTTGGAACTGCTTGAAGGAAGAGCCTTGCACGACACTAAAATTGTCCAGAATTTGGTTATACAATACAAATGTTGCATTTATTTTTCTGTTCATATTTTATTCACAACTTTATTTTCAAGTTTGATACTTATATAAGGCATGTTTTTGCATTTATTTTGTTGAGGTATTAGGGAGGTGGCCACTCTTTCCCGTTTGCAACATCAACATGTTGTTCGGTATTATCAGGTGACAGGCTTCTTAAACGTTTCATTTCATATTACGAGAAAGTTTCTAGAGACAATATTCAGTGCTTCCTCTGCACCAAGAAATTCATTTGGCATAGAATGTATCTTTAGATGGCATGCTATTTTGCGCTAGAGTACTGAGTTAAATACTAAATTATTAATGCAACAGGAATCTTTGACTTTTATCCTTCATTTAGAGGCTAGAAAAGGGTTTCCATGATAAACTTTGTATTTTTGCATCTAAATCAGTAAAAAAGCCTTCCTCCCTAATATGATTTTTCAAGTAGGAAGAATCATCCGGTCATTAGATGATTATATAAAATTAGTCATAAAACCGTTCAGGCGTGGTATGAAGCTGGAGTTTCTGATTCTTATGGAGAGGCGGCTTGGGGTTCAATGACTCCACTGAGCTCTACTTTCAGCTATATAGGTGCGAGTGCAGCAGATACACTGGAACATGAGACTAAGCTGGAATCAACATATCTCTATATCCAAATGGAGTATTGTCCTAG

mRNA sequence

AGGCTTCCAGAATCGAATTCAGAGTTTGGAATCGGAACAGAGAATCAAAATCAGCTGCGCCGTCATCTGGGAATCAAAATCTTCGTTGATTCCGTTGTCCTGGATATCCATCTTCTCCGCCTGTTGTTCCGCGTGTTTCTGTTGATTCACTCGCGAACTTCCCACGCACTTGCCACCCAAAACATCTCAGAGCTTCGGTTTTTTCATTTTAAGCGTGGTCATGAGTATTCGGCGACGAAGTCTGCTCGCAGGGCTGTGAGTTCGAAGAAGAAGCGGCGTGGTGGGGGAGGGAGTGGGAAAAGGAGCAAGGGAAGGACGCCACTGAAAGATCACTCGTTGAGTGTTGAAGAGAGTGAGGTTGTCTCAGATGAGATCACTGCCATGTGTGCGATATTTCAAGAAGAATGCAAAGTTGTCACTGGCCCACCTCCTCAAGTTACCATCAAACTTAGGCCATATTCAAATGACATGGGGTTTGAGGATCTAGATGTATCTGCTCTTCTTTCGGTGAAGTACTTGCCTGGATATCCATACAAATGTCCGAAGTTACTTATAACTCCGGAGAAAGGTTTGTTGAAGGTTGATGCTGATAAGTTGCTTTCTCTTCTTCATGATCAGGCAAATTCTAACGCTCGAGAAGGAAGGATAATGATTTTCAATTTGGTAGAGGCTGCTCAGGAGTTCTTGTCAGAATTAGTAACTATAGGCCAATCAAACGAATCAGTTGGCTGTTCTCATACAGATAACAATCCTCAATTGCTTCTGGACATAGTAACTTCAAATGAGAAGAAAGGACCTTATGTTCATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGATGAAAAGTTCAACTCCCAAGCACAACCTCTTGCATCAGATAGCTTGAAACTGGGAGCAGTCCAAGAAAAGAAGTTTGATAAAGTTCAAAACTTATTGGCTGGACAAAATTCAAAGCGAGGTGAATTACTGTCTCCTTCCTCTAACCTAGATACACTTGAGGAAGAAAGTGAAGATGACAGTCACAGCATAACTTCTTCTCCTTCGAGAAGATCCCTAATGGTACAGGGGGCTGGAGATCGTATTGAAGGTGAGAAGCAGCATGAAGTCCTTATGCCTGCACAAGATTCTATTCTCACAGACCACGTTGCTGAAGATGATGACCGTGGATCTGATAGTGAGCCTTCAGAGTGGTCTTTTGCTTCCTTGAGTAATGATCAAGAGTCCCAAACTACCAATAGGGACATAATGATGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTACAATTTGGGGATCCTGTCAGAAGTGGCTCTGGATTTAGCATCTAAACCATCTTCCATGATTCATAAAAAATTTGAGACTGCTTTCCAGGAACAGATGAATGCTACTAGTTTCTCCCAGTTTTGGAATCCTTCTGATTTTGGCGGCCCAACATCTTCTCAACCGAGTTCTCGGTATCTTAATGATTTTGAGGAGCTAAAGCCCCTTGGTCATGGTGGTTTTGGACACGTAGTATTATGCAAAAATAAATTAGATGGCCGACAATATGCAGTGAAAAAAATTCGCCTCAAGGACAAAATACTGCCTGTCAATGACCGCATCTTAAGGGAGGTGGCCACTCTTTCCCGTTTGCAACATCAACATGTTGTTCGGTATTATCAGGCGTGGTATGAAGCTGGAGTTTCTGATTCTTATGGAGAGGCGGCTTGGGGTTCAATGACTCCACTGAGCTCTACTTTCAGCTATATAGGTGCGAGTGCAGCAGATACACTGGAACATGAGACTAAGCTGGAATCAACATATCTCTATATCCAAATGGAGTATTGTCCTAG

Coding sequence (CDS)

AGGCTTCCAGAATCGAATTCAGAGTTTGGAATCGGAACAGAGAATCAAAATCAGCTGCGCCGTCATCTGGGAATCAAAATCTTCGTTGATTCCGTTGTCCTGGATATCCATCTTCTCCGCCTGTTGTTCCGCGTGTTTCTGTTGATTCACTCGCGAACTTCCCACGCACTTGCCACCCAAAACATCTCAGAGCTTCGGTTTTTTCATTTTAAGCGTGGTCATGAGTATTCGGCGACGAAGTCTGCTCGCAGGGCTGTGAGTTCGAAGAAGAAGCGGCGTGGTGGGGGAGGGAGTGGGAAAAGGAGCAAGGGAAGGACGCCACTGAAAGATCACTCGTTGAGTGTTGAAGAGAGTGAGGTTGTCTCAGATGAGATCACTGCCATGTGTGCGATATTTCAAGAAGAATGCAAAGTTGTCACTGGCCCACCTCCTCAAGTTACCATCAAACTTAGGCCATATTCAAATGACATGGGGTTTGAGGATCTAGATGTATCTGCTCTTCTTTCGGTGAAGTACTTGCCTGGATATCCATACAAATGTCCGAAGTTACTTATAACTCCGGAGAAAGGTTTGTTGAAGGTTGATGCTGATAAGTTGCTTTCTCTTCTTCATGATCAGGCAAATTCTAACGCTCGAGAAGGAAGGATAATGATTTTCAATTTGGTAGAGGCTGCTCAGGAGTTCTTGTCAGAATTAGTAACTATAGGCCAATCAAACGAATCAGTTGGCTGTTCTCATACAGATAACAATCCTCAATTGCTTCTGGACATAGTAACTTCAAATGAGAAGAAAGGACCTTATGTTCATGGCTATATAGACCTCTTCAGTGGTTCTGGGGAGTTGTGGAGCTGGAGCTTTGACATGGATGAAAAGTTCAACTCCCAAGCACAACCTCTTGCATCAGATAGCTTGAAACTGGGAGCAGTCCAAGAAAAGAAGTTTGATAAAGTTCAAAACTTATTGGCTGGACAAAATTCAAAGCGAGGTGAATTACTGTCTCCTTCCTCTAACCTAGATACACTTGAGGAAGAAAGTGAAGATGACAGTCACAGCATAACTTCTTCTCCTTCGAGAAGATCCCTAATGGTACAGGGGGCTGGAGATCGTATTGAAGGTGAGAAGCAGCATGAAGTCCTTATGCCTGCACAAGATTCTATTCTCACAGACCACGTTGCTGAAGATGATGACCGTGGATCTGATAGTGAGCCTTCAGAGTGGTCTTTTGCTTCCTTGAGTAATGATCAAGAGTCCCAAACTACCAATAGGGACATAATGATGGTTCATCTGCTCCATCTTGCATGTGCCCCTAAAGGACCATTGGCTGATGCTCTGCCAAAATTGGCATCTGAACTTTACAATTTGGGGATCCTGTCAGAAGTGGCTCTGGATTTAGCATCTAAACCATCTTCCATGATTCATAAAAAATTTGAGACTGCTTTCCAGGAACAGATGAATGCTACTAGTTTCTCCCAGTTTTGGAATCCTTCTGATTTTGGCGGCCCAACATCTTCTCAACCGAGTTCTCGGTATCTTAATGATTTTGAGGAGCTAAAGCCCCTTGGTCATGGTGGTTTTGGACACGTAGTATTATGCAAAAATAAATTAGATGGCCGACAATATGCAGTGAAAAAAATTCGCCTCAAGGACAAAATACTGCCTGTCAATGACCGCATCTTAAGGGAGGTGGCCACTCTTTCCCGTTTGCAACATCAACATGTTGTTCGGTATTATCAGGCGTGGTATGAAGCTGGAGTTTCTGATTCTTATGGAGAGGCGGCTTGGGGTTCAATGACTCCACTGAGCTCTACTTTCAGCTATATAGGTGCGAGTGCAGCAGATACACTGGAACATGAGACTAAGCTGGAATCAACATATCTCTATATCCAAATGGAGTATTGTCCTAG

Protein sequence

RLPESNSEFGIGTENQNQLRRHLGIKIFVDSVVLDIHLLRLLFRVFLLIHSRTSHALATQNISELRFFHFKRGHEYSATKSARRAVSSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQVTIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGPYVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNSKRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSILTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQPSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYLYIQMEYCPX
Homology
[Close]
BLAST of Sgr021860 vs. NCBI nr
Match: XP_022150409.1 (eIF-2-alpha kinase GCN2 isoform X1 [Momordica charantia])

HSP 1 Score: 944.9 bits (2441), Expect = 3.6e-271
Identity = 481/546 (88.10%), Postives = 500/546 (91.58%), Query Frame = 0 

Query: 89  KKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQVTI 148
           KKKR GGGGSGKRSKGRTPLKD+SLS EESE++S+E+TA+CAIFQE+CKVVTGPPPQVTI
Sbjct: 3   KKKRHGGGGSGKRSKGRTPLKDYSLSGEESELLSEEMTAICAIFQEDCKVVTGPPPQVTI 62

Query: 149 KLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQAN 208
           KLRPYSN MGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGL K D DKLLSLLHDQAN
Sbjct: 63  KLRPYSNAMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLSKGDTDKLLSLLHDQAN 122

Query: 209 SNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGPYV 268
            NAR+GRIM+FNLVEAAQEFLSELVT       VGCSH+D N QLLLD VTS+ KKGPYV
Sbjct: 123 YNARDGRIMVFNLVEAAQEFLSELVT-------VGCSHSDKNSQLLLDTVTSSAKKGPYV 182

Query: 269 HGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNSKR 328
           HGYIDLFSGSGELWSWSFDM+E  NSQAQPL  DSLKLG VQEKK +K QNL  G+ SKR
Sbjct: 183 HGYIDLFSGSGELWSWSFDMEENLNSQAQPLTEDSLKLGEVQEKKLNKFQNLFTGKTSKR 242

Query: 329 GELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSILT 388
           GEL SPSSNL TLEEESEDDS SITSS SRRSLMVQ AGD I+ EKQH+V MPAQDSILT
Sbjct: 243 GELPSPSSNLGTLEEESEDDSQSITSSHSRRSLMVQRAGDGIKAEKQHDVFMPAQDSILT 302

Query: 389 DHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA 448
           DHVAEDDD GS+SEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA
Sbjct: 303 DHVAEDDDHGSESEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA 362

Query: 449 SELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQPSS 508
           SELYNLG+LSEVALDL SKPSSM HKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQ SS
Sbjct: 363 SELYNLGVLSEVALDLTSKPSSMFHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQLSS 422

Query: 509 RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL 568
           RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL
Sbjct: 423 RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL 482

Query: 569 QHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYLYI 628
           QHQHVVRYYQAWYE G SDSYGE AWGS TPLSSTFSY G SAADTLEHE+KLESTYLYI
Sbjct: 483 QHQHVVRYYQAWYETGFSDSYGETAWGSTTPLSSTFSYKGVSAADTLEHESKLESTYLYI 541

Query: 629 QMEYCP 635
           QMEYCP
Sbjct: 543 QMEYCP 541

[Close]
BLAST of Sgr021860 vs. NCBI nr
Match: XP_038885257.1 (eIF-2-alpha kinase GCN2 isoform X1 [Benincasa hispida])

HSP 1 Score: 915.6 bits (2365), Expect = 2.3e-262
Identity = 463/548 (84.49%), Postives = 500/548 (91.24%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGG  GKRSKGRTPL D+S S EESE++++E+TA+CAIFQE+CKVVTGP PQV
Sbjct: 4   SSKKKRRGGGRGGKRSKGRTPLTDYSFSGEESELITEEMTALCAIFQEDCKVVTGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKL+PYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPE+GL K D +KLLSLLH+Q
Sbjct: 64  TIKLKPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPERGLAKGDIEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           AN NAR+GRIM+FNL EAAQEFLSE+VTIG+SNESVGCSHT  +  LL D +TSNEKKGP
Sbjct: 124 ANYNARDGRIMVFNLAEAAQEFLSEIVTIGESNESVGCSHTAGSSLLLPDKITSNEKKGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSW++DMDEK NSQ QPL +DSLKLG  QEKK DKVQNLLA QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWTYDMDEKLNSQGQPLVADSLKLGTAQEKKLDKVQNLLARQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELL PSSNL TLEEE+EDDS SI+SS SRRSL+VQ   D IE EKQHEVL+P QDSI
Sbjct: 244 KRGELLFPSSNLGTLEEETEDDSRSISSSNSRRSLIVQRDEDGIEREKQHEVLIPGQDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           LT +VAE DD GS+SEPSEWSFASL+N+QESQT +RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 LTSNVAEGDDHGSESEPSEWSFASLNNEQESQTIDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYNLG+LS+VALDLASKPSS  HKKF+TAFQEQMNATSFSQFWNPSDFGG  SSQ 
Sbjct: 364 LASELYNLGVLSKVALDLASKPSSTFHKKFKTAFQEQMNATSFSQFWNPSDFGGSASSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGR YAVKKIRLKDKILP+NDRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRHYAVKKIRLKDKILPINDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAWYE+GVSDSYGEAAWGS+TPLSSTFSY GASA DT EHE K+ESTYL
Sbjct: 484 RLQHQHVVRYYQAWYESGVSDSYGEAAWGSVTPLSSTFSYKGASATDT-EHENKMESTYL 543

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 550

[Close]
BLAST of Sgr021860 vs. NCBI nr
Match: KAG6592986.1 (eIF-2-alpha kinase GCN2, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 911.0 bits (2353), Expect = 5.8e-261
Identity = 470/548 (85.77%), Postives = 497/548 (90.69%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGGG GKRSKGRTP KDHS S EESE++S+E+TA+C IFQE+CKVV+GP PQV
Sbjct: 4   SSKKKRRGGGGGGKRSKGRTPQKDHSFSGEESELISEELTALCGIFQEDCKVVSGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKLRPYSNDMGFEDLDVSA LSVKYLPGYPYKCPKLLITPEKGL K D +KLLSLLH+Q
Sbjct: 64  TIKLRPYSNDMGFEDLDVSAFLSVKYLPGYPYKCPKLLITPEKGLAKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           A+ NAR+GRIMIFNL EAAQEFLSE+VTIGQSNESVGCS+TDNN QLL D VTSNE KGP
Sbjct: 124 ASYNARDGRIMIFNLAEAAQEFLSEIVTIGQSNESVGCSNTDNNSQLLPDKVTSNE-KGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSWSFDMDEK  SQAQPLA DSLKLG VQEK  DKVQNLL  QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWSFDMDEKPYSQAQPLA-DSLKLGTVQEKNLDKVQNLLTKQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPS NL TLEEESED+SHSITSS SRRSL+VQ AGD  E EK        QDSI
Sbjct: 244 KRGELLSPSFNLGTLEEESEDESHSITSSHSRRSLIVQKAGDVTEDEK--------QDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           + DH AEDDD GS++EPSEWSFAS+S +QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 IVDHAAEDDDHGSENEPSEWSFASMSKEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYN GILS+VALDLASKPSSM HKKFE+AFQE+MNATSFS+FWNPSDFGGPTSSQ 
Sbjct: 364 LASELYNSGILSKVALDLASKPSSMFHKKFESAFQEEMNATSFSEFWNPSDFGGPTSSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPV+DRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVDDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAW EAGVSDSYGEAAWGS TPLSSTFSY GASA DTL+HE KLESTYL
Sbjct: 484 RLQHQHVVRYYQAWSEAGVSDSYGEAAWGSTTPLSSTFSYKGASATDTLDHENKLESTYL 541

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 541

[Close]
BLAST of Sgr021860 vs. NCBI nr
Match: XP_022959907.1 (eIF-2-alpha kinase GCN2 isoform X1 [Cucurbita moschata])

HSP 1 Score: 908.3 bits (2346), Expect = 3.7e-260
Identity = 470/548 (85.77%), Postives = 496/548 (90.51%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGGG GKRSKGRTP KDHS S EESE++S+E+TA+C IFQE+CKVV+GP PQV
Sbjct: 4   SSKKKRRGGGGGGKRSKGRTPQKDHSFSGEESELISEELTALCGIFQEDCKVVSGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKLRPYSNDMGFEDLDVSA LSVKYLPGYPYKCPKLLITPEKGL K D +KLLSLLH+Q
Sbjct: 64  TIKLRPYSNDMGFEDLDVSAFLSVKYLPGYPYKCPKLLITPEKGLAKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           A+ NAR+GRIMIFNL EAAQEFLSE+VTIGQSNESVG S+TDNN QLL D VTSNE KGP
Sbjct: 124 ASYNARDGRIMIFNLAEAAQEFLSEIVTIGQSNESVGSSNTDNNSQLLPDKVTSNE-KGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSWSFDMDEK  SQAQPLA DSLKLG VQEK  DKVQNLL  QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWSFDMDEKPYSQAQPLA-DSLKLGTVQEKNLDKVQNLLTKQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPS NL TLEEESED+SHSITSS SRRSL+VQ AGD  E EK        QDSI
Sbjct: 244 KRGELLSPSFNLGTLEEESEDESHSITSSHSRRSLIVQKAGDVTEDEK--------QDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           + DH AEDDD GS+SEPSEWSFAS+S +QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 IVDHAAEDDDHGSESEPSEWSFASMSKEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYN GILS+VALDLASKPSSM HKKFE+AFQE+MNATSFS+FWNPSDFGGPTSSQ 
Sbjct: 364 LASELYNSGILSKVALDLASKPSSMFHKKFESAFQEEMNATSFSEFWNPSDFGGPTSSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPV+DRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVDDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAW EAGVSDSYGEAAWGS TPLSSTFSY GASA DTL+HE KLESTYL
Sbjct: 484 RLQHQHVVRYYQAWSEAGVSDSYGEAAWGSTTPLSSTFSYKGASATDTLDHENKLESTYL 541

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 541

[Close]
BLAST of Sgr021860 vs. NCBI nr
Match: XP_023004333.1 (eIF-2-alpha kinase GCN2 isoform X1 [Cucurbita maxima])

HSP 1 Score: 905.2 bits (2338), Expect = 3.2e-259
Identity = 467/548 (85.22%), Postives = 494/548 (90.15%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGGG GKRSKGRTP KDHS S EE E++S+E+TA+C IFQE+CKVV+GP PQV
Sbjct: 4   SSKKKRRGGGGGGKRSKGRTPQKDHSFSGEEGELISEELTALCGIFQEDCKVVSGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKLRPYSNDMGFEDLDVSA LSVKYLPGYPYKCPKLLITPEKGL K D +KLLSLLH+Q
Sbjct: 64  TIKLRPYSNDMGFEDLDVSAFLSVKYLPGYPYKCPKLLITPEKGLAKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           A+ NAR+GRIMIFNL EAAQEFLSE+VTIGQSNESVGCS+TDNN QLL D VTSNE KGP
Sbjct: 124 ASYNARDGRIMIFNLAEAAQEFLSEIVTIGQSNESVGCSNTDNNSQLLPDKVTSNE-KGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSWSFDMDEK  SQAQPLA DSLKLG VQEK  DKVQNLL  QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWSFDMDEKPYSQAQPLA-DSLKLGTVQEKSLDKVQNLLTKQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPS NL TLEEESED+SHSITSS SRRSL+VQ AGD  E EK        QDSI
Sbjct: 244 KRGELLSPSFNLGTLEEESEDESHSITSSHSRRSLIVQKAGDVTEDEK--------QDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           + DH AEDDD GS+SEPSEWSFAS+S +QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 IVDHAAEDDDHGSESEPSEWSFASMSKEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYN GILS+VALDLASKPSS  HKKFE+AFQE+MNATSFS+FWNPSDFGGPTSSQ 
Sbjct: 364 LASELYNSGILSKVALDLASKPSSTFHKKFESAFQEEMNATSFSEFWNPSDFGGPTSSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPV+DRILREV+TLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVDDRILREVSTLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAW EAGVSDSYGEAAWGS TPLSSTFSY GASA D L+HE KLESTYL
Sbjct: 484 RLQHQHVVRYYQAWSEAGVSDSYGEAAWGSTTPLSSTFSYKGASATDALDHENKLESTYL 541

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 541

[Close]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match: Q9LX30 (eIF-2-alpha kinase GCN2 OS=Arabidopsis thaliana OX=3702 GN=GCN2 PE=2 SV=2)

HSP 1 Score: 534.6 bits (1376), Expect = 1.5e-150
Identity = 309/557 (55.48%), Postives = 379/557 (68.04%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDH-SLSVEESEVVSDEITAMCAIFQEECKVVTG--PP 146
           SS KK++  GGSG+R +    LKDH S + E++E++S+EITA+ AIFQE+CKVV+    P
Sbjct: 4   SSSKKKKKRGGSGRRGQ----LKDHGSNADEDNELLSEEITALSAIFQEDCKVVSDSRSP 63

Query: 147 PQVTIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLL 206
           PQ+ IKLRPYS DMG+ED D+SA+L V+ LPGYPYKCPKL ITPE+GL   DA+KLLSLL
Sbjct: 64  PQIAIKLRPYSKDMGYEDTDISAMLIVRCLPGYPYKCPKLQITPEQGLTTADAEKLLSLL 123

Query: 207 HDQANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEK 266
            DQANSNAREGR+MIFNLVEAAQEFLSE++      ESV C     + Q +   + SN  
Sbjct: 124 EDQANSNAREGRVMIFNLVEAAQEFLSEIIPESHDEESVPCLTAHRSTQFIEQPMLSNIA 183

Query: 267 K----GPYVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQN 326
           K    GP+V+G+IDLFSG  +  +WS   DE        + S  L    +  +K DK   
Sbjct: 184 KSCSGGPFVYGFIDLFSGLEDARNWSLTPDEN-RGIVSSVQSHPLDTSRILHQKPDKNLK 243

Query: 327 LLAGQNSKRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVL 386
                  +   L +P + L+T++EE+ DD+ SI+S  S +S       D   G  Q+E  
Sbjct: 244 RFEDHAKEEVALPAPIAKLNTVQEENVDDT-SISSFDSSKS-----TDDVESGLFQNE-- 303

Query: 387 MPAQDSILTDHVAEDDDRGSDSEP-SEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKG 446
              ++S L D  AEDD   S+SE    WS  SL+ DQ  Q + +D++MVHLL +AC  +G
Sbjct: 304 --KKESNLQDDTAEDDSTNSESESLGSWSSDSLAQDQVPQISKKDLLMVHLLRVACTSRG 363

Query: 447 PLADALPKLASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWN-PSD 506
           PLADALP++  EL+ LGILSE  LDLASK S   ++ FE AF + M +TS  QFW  PSD
Sbjct: 364 PLADALPQITDELHELGILSEEVLDLASKSSPDFNRTFEHAFNQNMASTSVPQFWEPPSD 423

Query: 507 FGGPTSSQPSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDR 566
              P +S PSSRYLNDFEELKPLG GGFGHVVLCKNKLDGRQYAVKKIRLKDK +PVN R
Sbjct: 424 SCEPNASLPSSRYLNDFEELKPLGQGGFGHVVLCKNKLDGRQYAVKKIRLKDKEIPVNSR 483

Query: 567 ILREVATLSRLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEH 626
           I+REVATLSRLQHQHVVRYYQAW+E GV D +  A WGS T  SS FSY GA + +  E 
Sbjct: 484 IVREVATLSRLQHQHVVRYYQAWFETGVVDPFAGANWGSKTAGSSMFSYSGAVSTEIPEQ 543

Query: 627 ETKLESTYLYIQMEYCP 635
           +  LESTYLYIQMEYCP
Sbjct: 544 DNNLESTYLYIQMEYCP 545

[Close]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match: Q75JN1 (Probable serine/threonine-protein kinase ifkC OS=Dictyostelium discoideum OX=44689 GN=ifkC PE=3 SV=1)

HSP 1 Score: 110.9 bits (276), Expect = 5.3e-23
Identity = 148/579 (25.56%), Postives = 239/579 (41.28%), Query Frame = 0 

Query: 86  VSSKKKRRGGGGSGKRSKGRTPLK------DHSLSVEESEVVSDEITAMCAIFQEEC--- 145
           + S  +  GG     +S  +  LK      D  L  +  +    E+ A+ AIF +E    
Sbjct: 31  ILSSDEEEGGVKLPTKSSVKNALKKVKKERDRELIRQLKDQQDMELEALQAIFNDEFITM 90

Query: 146 ----------KVVTGPPP-----QVTIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCP 205
                      ++ G  P     +  I ++PY  D   E   VS  L V +   YP   P
Sbjct: 91  DPIIINRNMDTIIEGIKPIRESARFRITIKPYVGD--DEKCFVSIYLVVGFPEKYPVVLP 150

Query: 206 KLLITPEKGLLKVDADKLLSLLHDQANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNES 265
            + +   KGL +  A +L   L  +  S  + G IMIF+L E A++FL+E     +  +S
Sbjct: 151 SIQVLVNKGLPQKKAIELEEKLIRE--SQGKIGNIMIFDLCEIAKDFLNE--NNFEPTQS 210

Query: 266 VGCSHTDNNPQLLLDIVTSNEKKGPYVH-GYIDLFSGSGELWSWSFDMDEKFNSQAQPLA 325
           +      +  ++ ++I T+ +++        + L   +     W   ++E   SQ +   
Sbjct: 211 IHHDFRSHQQKISIEISTNEQQQQQLQQLQQLQLQYNNDTKKEWESTLEE---SQLKEDR 270

Query: 326 SDSLKLGAVQEKKFDKVQNLLAGQNSKRGELLSPSSNLDTLEEESEDDSHSITSSPSRRS 385
            +     ++Q  +++K +          G    P S    L ++  +  +SI  S +  +
Sbjct: 271 KNYRLQKSIQRAQYEKERKKTIVNEFTNG----PQSK---LSKQQRNIDYSIDHSINNNN 330

Query: 386 LMVQGAGDRIEGEKQHEVLMPAQDSILTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTT 445
                A +       +       ++    +V+  D++  D + +                
Sbjct: 331 NNNNNAFNNFNNNNNN-------NNTNNSNVSSIDNKTIDKQQT---------------- 390

Query: 446 NRDIMMVHLLHLACAPKGPLA-DALPKLASELYNLGILSEVALDLASKPSSMIHKKFETA 505
               M++HLL L C     +  D +  L  +L  +GI +   L L +  +S  ++ ++  
Sbjct: 391 ----MILHLLRLLCQNDSNITNDHIKTLGEQLVQMGIFNRNHLSLLNMHNSNDNQIYQHI 450

Query: 506 FQE----QMNATSFS------------------QFW--------------NPSDF----- 565
           FQ+    Q N  S S                  +FW              +PS F     
Sbjct: 451 FQDYFLKQFNDISLSDLKNNVDSAANNSGHFLNKFWDTLNKTNENSGLKKSPSTFEYSGE 510

Query: 566 ------GGPTSSQ-----PSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRL 587
                 GG +S +       SRY +DFEE++ LG GGFG VV  +NKLDGR YA+KKI+L
Sbjct: 511 GGGGGVGGGSSQKTINPHQQSRYHSDFEEIQLLGRGGFGQVVKVRNKLDGRYYAIKKIKL 565

[Close]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match: Q9HGN1 (eIF-2-alpha kinase GCN2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=gcn2 PE=2 SV=2)

HSP 1 Score: 93.6 bits (231), Expect = 8.7e-18
Identity = 84/249 (33.73%), Postives = 120/249 (48.19%), Query Frame = 0 

Query: 402 EPSEWSFASLSNDQESQTTNRDIMMV----HLLHLACAPKGPLADALPKLASELYNLGIL 461
           E SE SFA+ S   +       ++ +    H+L+   + K  +   +P L     +L + 
Sbjct: 430 EVSESSFAAASRKTDIWCFGLLVLQMLCGAHVLNKFSSLKLIMTHVIPLLPGSYQDL-VR 489

Query: 462 SEVALDLASKPSSM----IHK-KFETAFQEQMNATSFSQFWNPSDFGGPTSS-------Q 521
             +  D   +PS++     H  +  TA    +   +FS+   PS +GG           +
Sbjct: 490 RCLMRDSRKRPSAIDLLSSHVIRLGTAVLPPVEQGTFSKSARPS-YGGQQDGIIDLLYRK 549

Query: 522 PSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRL--KDKILPVNDRILREVA 581
             SRY  DFEEL+ LG GGFG VV  KN++DGR YAVKK+ L   DK    N RILREV 
Sbjct: 550 SVSRYETDFEELEFLGRGGFGEVVKVKNRIDGRFYAVKKLVLLSDDK---ENSRILREVM 609

Query: 582 TLSRLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLES 633
           TLSRL H+HVVRYY AW E   +D+  E        LS + +        +     KL S
Sbjct: 610 TLSRLHHEHVVRYYTAWVETEANDTVTEIISSDSESLSQSLNMAVDFRQSSSLPADKLSS 669

[Close]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match: Q558U1 (Probable serine/threonine-protein kinase ifkA OS=Dictyostelium discoideum OX=44689 GN=ifkA PE=2 SV=1)

HSP 1 Score: 90.5 bits (223), Expect = 7.4e-17
Identity = 46/79 (58.23%), Postives = 56/79 (70.89%), Query Frame = 0 

Query: 508 SRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLK----DKILPVNDRILREVA 567
           SRY  DFEE++ +G GGFG VV  +NKLD R YA+KKI+ K        P+ +++LREV 
Sbjct: 888 SRYRTDFEEIEMIGKGGFGVVVKSRNKLDCRYYAIKKIKTKGYTDSNQEPLTNKLLREVT 947

Query: 568 TLSRLQHQHVVRYYQAWYE 583
           TLSRL HQ VVRYYQAW E
Sbjct: 948 TLSRLHHQFVVRYYQAWIE 966

[Close]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match: Q9NZJ5 (Eukaryotic translation initiation factor 2-alpha kinase 3 OS=Homo sapiens OX=9606 GN=EIF2AK3 PE=1 SV=3)

HSP 1 Score: 84.0 bits (206), Expect = 6.9e-15
Identity = 47/110 (42.73%), Postives = 67/110 (60.91%), Query Frame = 0 

Query: 474 KKFETAFQEQMNATSFSQFWNPSDFGGPTSSQPSSRYLNDFEELKPLGHGGFGHVVLCKN 533
           K+ ET  Q +    S S   N S +    +S   SRYL DFE ++ LG GGFG V   KN
Sbjct: 553 KESETQCQTENKYDSVSGEANDSSWNDIKNSGYISRYLTDFEPIQCLGRGGFGVVFEAKN 612

Query: 534 KLDGRQYAVKKIRLKDKILPVNDRILREVATLSRLQHQHVVRYYQAWYEA 584
           K+D   YA+K+IRL ++ L   ++++REV  L++L+H  +VRY+ AW EA
Sbjct: 613 KVDDCNYAIKRIRLPNREL-AREKVMREVKALAKLEHPGIVRYFNAWLEA 661

[Close]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match: A0A6J1D9Z7 (Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=LOC111018572 PE=4 SV=1)

HSP 1 Score: 944.9 bits (2441), Expect = 1.7e-271
Identity = 481/546 (88.10%), Postives = 500/546 (91.58%), Query Frame = 0 

Query: 89  KKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQVTI 148
           KKKR GGGGSGKRSKGRTPLKD+SLS EESE++S+E+TA+CAIFQE+CKVVTGPPPQVTI
Sbjct: 3   KKKRHGGGGSGKRSKGRTPLKDYSLSGEESELLSEEMTAICAIFQEDCKVVTGPPPQVTI 62

Query: 149 KLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQAN 208
           KLRPYSN MGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGL K D DKLLSLLHDQAN
Sbjct: 63  KLRPYSNAMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLSKGDTDKLLSLLHDQAN 122

Query: 209 SNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGPYV 268
            NAR+GRIM+FNLVEAAQEFLSELVT       VGCSH+D N QLLLD VTS+ KKGPYV
Sbjct: 123 YNARDGRIMVFNLVEAAQEFLSELVT-------VGCSHSDKNSQLLLDTVTSSAKKGPYV 182

Query: 269 HGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNSKR 328
           HGYIDLFSGSGELWSWSFDM+E  NSQAQPL  DSLKLG VQEKK +K QNL  G+ SKR
Sbjct: 183 HGYIDLFSGSGELWSWSFDMEENLNSQAQPLTEDSLKLGEVQEKKLNKFQNLFTGKTSKR 242

Query: 329 GELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSILT 388
           GEL SPSSNL TLEEESEDDS SITSS SRRSLMVQ AGD I+ EKQH+V MPAQDSILT
Sbjct: 243 GELPSPSSNLGTLEEESEDDSQSITSSHSRRSLMVQRAGDGIKAEKQHDVFMPAQDSILT 302

Query: 389 DHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA 448
           DHVAEDDD GS+SEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA
Sbjct: 303 DHVAEDDDHGSESEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPKLA 362

Query: 449 SELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQPSS 508
           SELYNLG+LSEVALDL SKPSSM HKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQ SS
Sbjct: 363 SELYNLGVLSEVALDLTSKPSSMFHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQLSS 422

Query: 509 RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL 568
           RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL
Sbjct: 423 RYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRL 482

Query: 569 QHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYLYI 628
           QHQHVVRYYQAWYE G SDSYGE AWGS TPLSSTFSY G SAADTLEHE+KLESTYLYI
Sbjct: 483 QHQHVVRYYQAWYETGFSDSYGETAWGSTTPLSSTFSYKGVSAADTLEHESKLESTYLYI 541

Query: 629 QMEYCP 635
           QMEYCP
Sbjct: 543 QMEYCP 541

[Close]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match: A0A6J1H5V7 (Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LOC111460823 PE=4 SV=1)

HSP 1 Score: 908.3 bits (2346), Expect = 1.8e-260
Identity = 470/548 (85.77%), Postives = 496/548 (90.51%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGGG GKRSKGRTP KDHS S EESE++S+E+TA+C IFQE+CKVV+GP PQV
Sbjct: 4   SSKKKRRGGGGGGKRSKGRTPQKDHSFSGEESELISEELTALCGIFQEDCKVVSGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKLRPYSNDMGFEDLDVSA LSVKYLPGYPYKCPKLLITPEKGL K D +KLLSLLH+Q
Sbjct: 64  TIKLRPYSNDMGFEDLDVSAFLSVKYLPGYPYKCPKLLITPEKGLAKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           A+ NAR+GRIMIFNL EAAQEFLSE+VTIGQSNESVG S+TDNN QLL D VTSNE KGP
Sbjct: 124 ASYNARDGRIMIFNLAEAAQEFLSEIVTIGQSNESVGSSNTDNNSQLLPDKVTSNE-KGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSWSFDMDEK  SQAQPLA DSLKLG VQEK  DKVQNLL  QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWSFDMDEKPYSQAQPLA-DSLKLGTVQEKNLDKVQNLLTKQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPS NL TLEEESED+SHSITSS SRRSL+VQ AGD  E EK        QDSI
Sbjct: 244 KRGELLSPSFNLGTLEEESEDESHSITSSHSRRSLIVQKAGDVTEDEK--------QDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           + DH AEDDD GS+SEPSEWSFAS+S +QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 IVDHAAEDDDHGSESEPSEWSFASMSKEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYN GILS+VALDLASKPSSM HKKFE+AFQE+MNATSFS+FWNPSDFGGPTSSQ 
Sbjct: 364 LASELYNSGILSKVALDLASKPSSMFHKKFESAFQEEMNATSFSEFWNPSDFGGPTSSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPV+DRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVDDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAW EAGVSDSYGEAAWGS TPLSSTFSY GASA DTL+HE KLESTYL
Sbjct: 484 RLQHQHVVRYYQAWSEAGVSDSYGEAAWGSTTPLSSTFSYKGASATDTLDHENKLESTYL 541

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 541

[Close]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match: A0A6J1KZ64 (Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC111497683 PE=4 SV=1)

HSP 1 Score: 905.2 bits (2338), Expect = 1.5e-259
Identity = 467/548 (85.22%), Postives = 494/548 (90.15%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGGG GKRSKGRTP KDHS S EE E++S+E+TA+C IFQE+CKVV+GP PQV
Sbjct: 4   SSKKKRRGGGGGGKRSKGRTPQKDHSFSGEEGELISEELTALCGIFQEDCKVVSGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKLRPYSNDMGFEDLDVSA LSVKYLPGYPYKCPKLLITPEKGL K D +KLLSLLH+Q
Sbjct: 64  TIKLRPYSNDMGFEDLDVSAFLSVKYLPGYPYKCPKLLITPEKGLAKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           A+ NAR+GRIMIFNL EAAQEFLSE+VTIGQSNESVGCS+TDNN QLL D VTSNE KGP
Sbjct: 124 ASYNARDGRIMIFNLAEAAQEFLSEIVTIGQSNESVGCSNTDNNSQLLPDKVTSNE-KGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YVHGYIDLFSGSGELWSWSFDMDEK  SQAQPLA DSLKLG VQEK  DKVQNLL  QNS
Sbjct: 184 YVHGYIDLFSGSGELWSWSFDMDEKPYSQAQPLA-DSLKLGTVQEKSLDKVQNLLTKQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPS NL TLEEESED+SHSITSS SRRSL+VQ AGD  E EK        QDSI
Sbjct: 244 KRGELLSPSFNLGTLEEESEDESHSITSSHSRRSLIVQKAGDVTEDEK--------QDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           + DH AEDDD GS+SEPSEWSFAS+S +QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 IVDHAAEDDDHGSESEPSEWSFASMSKEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYN GILS+VALDLASKPSS  HKKFE+AFQE+MNATSFS+FWNPSDFGGPTSSQ 
Sbjct: 364 LASELYNSGILSKVALDLASKPSSTFHKKFESAFQEEMNATSFSEFWNPSDFGGPTSSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPV+DRILREV+TLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVDDRILREVSTLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAW EAGVSDSYGEAAWGS TPLSSTFSY GASA D L+HE KLESTYL
Sbjct: 484 RLQHQHVVRYYQAWSEAGVSDSYGEAAWGSTTPLSSTFSYKGASATDALDHENKLESTYL 541

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 541

[Close]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match: A0A1S3BE48 (eIF-2-alpha kinase GCN2 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1)

HSP 1 Score: 894.8 bits (2311), Expect = 2.1e-256
Identity = 461/548 (84.12%), Postives = 489/548 (89.23%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGG  GKRSKGRTPL D+S S EES+++++EITA+CAIFQE+CKVVTGP PQV
Sbjct: 4   SSKKKRRGGGRGGKRSKGRTPLTDYSFSGEESDLITEEITALCAIFQEDCKVVTGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKL+PYSNDMGFED DVSALLSVKYLPGYPYKCPKLLITPE+GL K D +KLLSLLH+Q
Sbjct: 64  TIKLKPYSNDMGFEDRDVSALLSVKYLPGYPYKCPKLLITPERGLEKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           AN NAR+GRIMIFNL EAAQEFLSE+VTIG+SNESVGCSHT +  QLL D +TSNEKKGP
Sbjct: 124 ANYNARDGRIMIFNLAEAAQEFLSEIVTIGESNESVGCSHTASTSQLLPDKITSNEKKGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YV+GYIDLFSGSGELWSWSFDMDEK NSQAQPL ++SLKLG VQEKK DKVQNLL  QNS
Sbjct: 184 YVYGYIDLFSGSGELWSWSFDMDEKLNSQAQPLVAESLKLGTVQEKKLDKVQNLLTRQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPSSNL TLEEE+E DS SI SS S RSL+VQ   D  EGEKQHEVL+   DSI
Sbjct: 244 KRGELLSPSSNLGTLEEETEGDSQSINSSNS-RSLIVQRNEDGNEGEKQHEVLITGLDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           LT  VAE  D GS+SEPSEWSFAS SN+QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 LTSDVAEGGDHGSESEPSEWSFASFSNEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYNLGILS+ ALDLASKPSS  HKKFETAFQEQMNATSFSQFW  SDFGG  SSQ 
Sbjct: 364 LASELYNLGILSKAALDLASKPSSTFHKKFETAFQEQMNATSFSQFWTASDFGGSASSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGR YAVKKIRLKDKILPVNDRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRHYAVKKIRLKDKILPVNDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAWYE GVSDSYGEAAWGSMTPLSSTFSY G SA D  EHE K+ESTYL
Sbjct: 484 RLQHQHVVRYYQAWYEIGVSDSYGEAAWGSMTPLSSTFSYKGVSATDA-EHENKMESTYL 543

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 549

[Close]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match: A0A1S3BE99 (Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 SV=1)

HSP 1 Score: 894.8 bits (2311), Expect = 2.1e-256
Identity = 461/548 (84.12%), Postives = 489/548 (89.23%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDHSLSVEESEVVSDEITAMCAIFQEECKVVTGPPPQV 146
           SSKKKRRGGG  GKRSKGRTPL D+S S EES+++++EITA+CAIFQE+CKVVTGP PQV
Sbjct: 4   SSKKKRRGGGRGGKRSKGRTPLTDYSFSGEESDLITEEITALCAIFQEDCKVVTGPSPQV 63

Query: 147 TIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLLHDQ 206
           TIKL+PYSNDMGFED DVSALLSVKYLPGYPYKCPKLLITPE+GL K D +KLLSLLH+Q
Sbjct: 64  TIKLKPYSNDMGFEDRDVSALLSVKYLPGYPYKCPKLLITPERGLEKGDTEKLLSLLHEQ 123

Query: 207 ANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEKKGP 266
           AN NAR+GRIMIFNL EAAQEFLSE+VTIG+SNESVGCSHT +  QLL D +TSNEKKGP
Sbjct: 124 ANYNARDGRIMIFNLAEAAQEFLSEIVTIGESNESVGCSHTASTSQLLPDKITSNEKKGP 183

Query: 267 YVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQNLLAGQNS 326
           YV+GYIDLFSGSGELWSWSFDMDEK NSQAQPL ++SLKLG VQEKK DKVQNLL  QNS
Sbjct: 184 YVYGYIDLFSGSGELWSWSFDMDEKLNSQAQPLVAESLKLGTVQEKKLDKVQNLLTRQNS 243

Query: 327 KRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVLMPAQDSI 386
           KRGELLSPSSNL TLEEE+E DS SI SS S RSL+VQ   D  EGEKQHEVL+   DSI
Sbjct: 244 KRGELLSPSSNLGTLEEETEGDSQSINSSNS-RSLIVQRNEDGNEGEKQHEVLITGLDSI 303

Query: 387 LTDHVAEDDDRGSDSEPSEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKGPLADALPK 446
           LT  VAE  D GS+SEPSEWSFAS SN+QESQTT+RDIMMVHLLHLACAPKGPLADALPK
Sbjct: 304 LTSDVAEGGDHGSESEPSEWSFASFSNEQESQTTDRDIMMVHLLHLACAPKGPLADALPK 363

Query: 447 LASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWNPSDFGGPTSSQP 506
           LASELYNLGILS+ ALDLASKPSS  HKKFETAFQEQMNATSFSQFW  SDFGG  SSQ 
Sbjct: 364 LASELYNLGILSKAALDLASKPSSTFHKKFETAFQEQMNATSFSQFWTASDFGGSASSQL 423

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGR YAVKKIRLKDKILPVNDRILREVATLS
Sbjct: 424 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRHYAVKKIRLKDKILPVNDRILREVATLS 483

Query: 567 RLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEHETKLESTYL 626
           RLQHQHVVRYYQAWYE GVSDSYGEAAWGSMTPLSSTFSY G SA D  EHE K+ESTYL
Sbjct: 484 RLQHQHVVRYYQAWYEIGVSDSYGEAAWGSMTPLSSTFSYKGVSATDA-EHENKMESTYL 543

Query: 627 YIQMEYCP 635
           YIQMEYCP
Sbjct: 544 YIQMEYCP 549

[Close]
BLAST of Sgr021860 vs. TAIR 10
Match: AT3G59410.1 (protein kinase family protein )

HSP 1 Score: 534.6 bits (1376), Expect = 1.0e-151
Identity = 309/557 (55.48%), Postives = 379/557 (68.04%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDH-SLSVEESEVVSDEITAMCAIFQEECKVVTG--PP 146
           SS KK++  GGSG+R +    LKDH S + E++E++S+EITA+ AIFQE+CKVV+    P
Sbjct: 4   SSSKKKKKRGGSGRRGQ----LKDHGSNADEDNELLSEEITALSAIFQEDCKVVSDSRSP 63

Query: 147 PQVTIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYKCPKLLITPEKGLLKVDADKLLSLL 206
           PQ+ IKLRPYS DMG+ED D+SA+L V+ LPGYPYKCPKL ITPE+GL   DA+KLLSLL
Sbjct: 64  PQIAIKLRPYSKDMGYEDTDISAMLIVRCLPGYPYKCPKLQITPEQGLTTADAEKLLSLL 123

Query: 207 HDQANSNAREGRIMIFNLVEAAQEFLSELVTIGQSNESVGCSHTDNNPQLLLDIVTSNEK 266
            DQANSNAREGR+MIFNLVEAAQEFLSE++      ESV C     + Q +   + SN  
Sbjct: 124 EDQANSNAREGRVMIFNLVEAAQEFLSEIIPESHDEESVPCLTAHRSTQFIEQPMLSNIA 183

Query: 267 K----GPYVHGYIDLFSGSGELWSWSFDMDEKFNSQAQPLASDSLKLGAVQEKKFDKVQN 326
           K    GP+V+G+IDLFSG  +  +WS   DE        + S  L    +  +K DK   
Sbjct: 184 KSCSGGPFVYGFIDLFSGLEDARNWSLTPDEN-RGIVSSVQSHPLDTSRILHQKPDKNLK 243

Query: 327 LLAGQNSKRGELLSPSSNLDTLEEESEDDSHSITSSPSRRSLMVQGAGDRIEGEKQHEVL 386
                  +   L +P + L+T++EE+ DD+ SI+S  S +S       D   G  Q+E  
Sbjct: 244 RFEDHAKEEVALPAPIAKLNTVQEENVDDT-SISSFDSSKS-----TDDVESGLFQNE-- 303

Query: 387 MPAQDSILTDHVAEDDDRGSDSEP-SEWSFASLSNDQESQTTNRDIMMVHLLHLACAPKG 446
              ++S L D  AEDD   S+SE    WS  SL+ DQ  Q + +D++MVHLL +AC  +G
Sbjct: 304 --KKESNLQDDTAEDDSTNSESESLGSWSSDSLAQDQVPQISKKDLLMVHLLRVACTSRG 363

Query: 447 PLADALPKLASELYNLGILSEVALDLASKPSSMIHKKFETAFQEQMNATSFSQFWN-PSD 506
           PLADALP++  EL+ LGILSE  LDLASK S   ++ FE AF + M +TS  QFW  PSD
Sbjct: 364 PLADALPQITDELHELGILSEEVLDLASKSSPDFNRTFEHAFNQNMASTSVPQFWEPPSD 423

Query: 507 FGGPTSSQPSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDR 566
              P +S PSSRYLNDFEELKPLG GGFGHVVLCKNKLDGRQYAVKKIRLKDK +PVN R
Sbjct: 424 SCEPNASLPSSRYLNDFEELKPLGQGGFGHVVLCKNKLDGRQYAVKKIRLKDKEIPVNSR 483

Query: 567 ILREVATLSRLQHQHVVRYYQAWYEAGVSDSYGEAAWGSMTPLSSTFSYIGASAADTLEH 626
           I+REVATLSRLQHQHVVRYYQAW+E GV D +  A WGS T  SS FSY GA + +  E 
Sbjct: 484 IVREVATLSRLQHQHVVRYYQAWFETGVVDPFAGANWGSKTAGSSMFSYSGAVSTEIPEQ 543

Query: 627 ETKLESTYLYIQMEYCP 635
           +  LESTYLYIQMEYCP
Sbjct: 544 DNNLESTYLYIQMEYCP 545

[Close]
BLAST of Sgr021860 vs. TAIR 10
Match: AT3G59410.2 (protein kinase family protein )

HSP 1 Score: 521.2 bits (1341), Expect = 1.2e-147
Identity = 309/581 (53.18%), Postives = 379/581 (65.23%), Query Frame = 0 

Query: 87  SSKKKRRGGGGSGKRSKGRTPLKDH-SLSVEESEVVSDEITAM----------------- 146
           SS KK++  GGSG+R +    LKDH S + E++E++S+EITA+                 
Sbjct: 4   SSSKKKKKRGGSGRRGQ----LKDHGSNADEDNELLSEEITALNCVNVGIMGFDRSDVTG 63

Query: 147 -------CAIFQEECKVVTG--PPPQVTIKLRPYSNDMGFEDLDVSALLSVKYLPGYPYK 206
                   AIFQE+CKVV+    PPQ+ IKLRPYS DMG+ED D+SA+L V+ LPGYPYK
Sbjct: 64  KNNSNYFSAIFQEDCKVVSDSRSPPQIAIKLRPYSKDMGYEDTDISAMLIVRCLPGYPYK 123

Query: 207 CPKLLITPEKGLLKVDADKLLSLLHDQANSNAREGRIMIFNLVEAAQEFLSELVTIGQSN 266
           CPKL ITPE+GL   DA+KLLSLL DQANSNAREGR+MIFNLVEAAQEFLSE++      
Sbjct: 124 CPKLQITPEQGLTTADAEKLLSLLEDQANSNAREGRVMIFNLVEAAQEFLSEIIPESHDE 183

Query: 267 ESVGCSHTDNNPQLLLDIVTSNEKK----GPYVHGYIDLFSGSGELWSWSFDMDEKFNSQ 326
           ESV C     + Q +   + SN  K    GP+V+G+IDLFSG  +  +WS   DE     
Sbjct: 184 ESVPCLTAHRSTQFIEQPMLSNIAKSCSGGPFVYGFIDLFSGLEDARNWSLTPDEN-RGI 243

Query: 327 AQPLASDSLKLGAVQEKKFDKVQNLLAGQNSKRGELLSPSSNLDTLEEESEDDSHSITSS 386
              + S  L    +  +K DK          +   L +P + L+T++EE+ DD+ SI+S 
Sbjct: 244 VSSVQSHPLDTSRILHQKPDKNLKRFEDHAKEEVALPAPIAKLNTVQEENVDDT-SISSF 303

Query: 387 PSRRSLMVQGAGDRIEGEKQHEVLMPAQDSILTDHVAEDDDRGSDSEP-SEWSFASLSND 446
            S +S       D   G  Q+E     ++S L D  AEDD   S+SE    WS  SL+ D
Sbjct: 304 DSSKS-----TDDVESGLFQNE----KKESNLQDDTAEDDSTNSESESLGSWSSDSLAQD 363

Query: 447 QESQTTNRDIMMVHLLHLACAPKGPLADALPKLASELYNLGILSEVALDLASKPSSMIHK 506
           Q  Q + +D++MVHLL +AC  +GPLADALP++  EL+ LGILSE  LDLASK S   ++
Sbjct: 364 QVPQISKKDLLMVHLLRVACTSRGPLADALPQITDELHELGILSEEVLDLASKSSPDFNR 423

Query: 507 KFETAFQEQMNATSFSQFWN-PSDFGGPTSSQPSSRYLNDFEELKPLGHGGFGHVVLCKN 566
            FE AF + M +TS  QFW  PSD   P +S PSSRYLNDFEELKPLG GGFGHVVLCKN
Sbjct: 424 TFEHAFNQNMASTSVPQFWEPPSDSCEPNASLPSSRYLNDFEELKPLGQGGFGHVVLCKN 483

Query: 567 KLDGRQYAVKKIRLKDKILPVNDRILREVATLSRLQHQHVVRYYQAWYEAGVSDSYGEAA 626
           KLDGRQYAVKKIRLKDK +PVN RI+REVATLSRLQHQHVVRYYQAW+E GV D +  A 
Sbjct: 484 KLDGRQYAVKKIRLKDKEIPVNSRIVREVATLSRLQHQHVVRYYQAWFETGVVDPFAGAN 543

Query: 627 WGSMTPLSSTFSYIGASAADTLEHETKLESTYLYIQMEYCP 635
           WGS T  SS FSY GA + +  E +  LESTYLYIQMEYCP
Sbjct: 544 WGSKTAGSSMFSYSGAVSTEIPEQDNNLESTYLYIQMEYCP 569

[Close]
BLAST of Sgr021860 vs. TAIR 10
Match: AT1G02970.1 (WEE1 kinase homolog )

HSP 1 Score: 54.7 bits (130), Expect = 3.2e-07
Identity = 30/82 (36.59%), Postives = 44/82 (53.66%), Query Frame = 0 

Query: 502 TSSQPSSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILRE 561
           TS    SRYL DF E++ +G G F  V     ++DG  YAVK    K  +     + + E
Sbjct: 237 TSGDGLSRYLTDFHEIRQIGAGHFSRVFKVLKRMDGCLYAVKHSTRKLYLDSERRKAMME 296

Query: 562 VATLSRLQ-HQHVVRYYQAWYE 583
           V  L+ L  H+++V YY +W+E
Sbjct: 297 VQALAALGFHENIVGYYSSWFE 318

[Close]
BLAST of Sgr021860 vs. TAIR 10
Match: AT3G20860.1 (NIMA-related kinase 5 )

HSP 1 Score: 51.2 bits (121), Expect = 3.5e-06
Identity = 29/93 (31.18%), Postives = 51/93 (54.84%), Query Frame = 0 

Query: 511 LNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLSRLQH 570
           ++D+E ++ +G G FG   L  +K + R+Y VKKIRL  +        ++E++ +S+L+ 
Sbjct: 12  MDDYEVVEQIGRGAFGSAFLVIHKSERRKYVVKKIRLAKQTERCKLAAIQEMSLISKLKS 71

Query: 571 QHVVRYYQAWYEAG---VSDSYGEAAWGSMTPL 601
            ++V Y  +W E     +  SY E   G MT +
Sbjct: 72  PYIVEYKDSWVEKDCVCIVTSYCEG--GDMTQM 102

[Close]
BLAST of Sgr021860 vs. TAIR 10
Match: AT3G61960.1 (Protein kinase superfamily protein )

HSP 1 Score: 50.1 bits (118), Expect = 7.8e-06
Identity = 25/73 (34.25%), Postives = 43/73 (58.90%), Query Frame = 0 

Query: 507 SSRYLNDFEELKPLGHGGFGHVVLCKNKLDGRQYAVKKIRLKDKILPVNDRILREVATLS 566
           S+R + D+     +G G F  V L K++  G + AVK+I  K     V D +L+E++ LS
Sbjct: 3   SARLVGDYALGPRIGSGSFAVVWLAKHRSSGLEVAVKEIDKKLLSPKVRDNLLKEISILS 62

Query: 567 RLQHQHVVRYYQA 580
            + H +++R+Y+A
Sbjct: 63  TIDHPNIIRFYEA 75

The following BLAST results are available for this feature:
BLAST of Sgr021860 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022150409.13.6e-27188.10eIF-2-alpha kinase GCN2 isoform X1 [Momordica charantia][more]
XP_038885257.12.3e-26284.49eIF-2-alpha kinase GCN2 isoform X1 [Benincasa hispida][more]
KAG6592986.15.8e-26185.77eIF-2-alpha kinase GCN2, partial [Cucurbita argyrosperma subsp. sororia][more]
XP_022959907.13.7e-26085.77eIF-2-alpha kinase GCN2 isoform X1 [Cucurbita moschata][more]
XP_023004333.13.2e-25985.22eIF-2-alpha kinase GCN2 isoform X1 [Cucurbita maxima][more]
BLAST of Sgr021860 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9LX301.5e-15055.48eIF-2-alpha kinase GCN2 OS=Arabidopsis thaliana OX=3702 GN=GCN2 PE=2 SV=2[more]
Q75JN15.3e-2325.56Probable serine/threonine-protein kinase ifkC OS=Dictyostelium discoideum OX=446... [more]
Q9HGN18.7e-1833.73eIF-2-alpha kinase GCN2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) O... [more]
Q558U17.4e-1758.23Probable serine/threonine-protein kinase ifkA OS=Dictyostelium discoideum OX=446... [more]
Q9NZJ56.9e-1542.73Eukaryotic translation initiation factor 2-alpha kinase 3 OS=Homo sapiens OX=960... [more]
BLAST of Sgr021860 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1D9Z71.7e-27188.10Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=L... [more]
A0A6J1H5V71.8e-26085.77Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LO... [more]
A0A6J1KZ641.5e-25985.22Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC1... [more]
A0A1S3BE482.1e-25684.12eIF-2-alpha kinase GCN2 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103488674 PE=4 ... [more]
A0A1S3BE992.1e-25684.12Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC10348... [more]
BLAST of Sgr021860 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G59410.11.0e-15155.48protein kinase family protein [more]
AT3G59410.21.2e-14753.18protein kinase family protein [more]
AT1G02970.13.2e-0736.59WEE1 kinase homolog [more]
AT3G20860.13.5e-0631.18NIMA-related kinase 5 [more]
AT3G61960.17.8e-0634.25Protein kinase superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR006575RWD domainSMARTSM00591RWD2001bcoord: 123..232
e-value: 9.1E-18
score: 75.0
IPR006575RWD domainPFAMPF05773RWDcoord: 121..229
e-value: 1.4E-12
score: 47.9
IPR006575RWD domainPROSITEPS50908RWDcoord: 123..232
score: 18.826324
NoneNo IPR availableGENE3D3.30.200.20Phosphorylase Kinase; domain 1coord: 502..632
e-value: 7.6E-32
score: 111.8
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 84..99
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 325..339
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 325..368
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 79..112
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 392..417
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 403..417
NoneNo IPR availablePANTHERPTHR11476HISTIDYL-TRNA SYNTHETASEcoord: 118..582
NoneNo IPR availablePANTHERPTHR11476:SF10EIF-2-ALPHA KINASE GCN2coord: 118..582
IPR000719Protein kinase domainPFAMPF00069Pkinasecoord: 514..633
e-value: 9.9E-14
score: 51.3
IPR000719Protein kinase domainPROSITEPS50011PROTEIN_KINASE_DOMcoord: 514..634
score: 14.817392
IPR016135Ubiquitin-conjugating enzyme/RWD-likeGENE3D3.10.110.10Ubiquitin Conjugating Enzymecoord: 111..239
e-value: 3.5E-24
score: 87.0
IPR016135Ubiquitin-conjugating enzyme/RWD-likeSUPERFAMILY54495UBC-likecoord: 117..229
IPR017441Protein kinase, ATP binding sitePROSITEPS00107PROTEIN_KINASE_ATPcoord: 520..544
IPR011009Protein kinase-like domain superfamilySUPERFAMILY56112Protein kinase-like (PK-like)coord: 502..634

Relationships

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

Feature NameUnique NameType
Sgr021860.1Sgr021860.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0018105 peptidyl-serine phosphorylation
biological_process GO:0006521 regulation of cellular amino acid metabolic process
biological_process GO:0010998 regulation of translational initiation by eIF2 alpha phosphorylation
biological_process GO:0009635 response to herbicide
biological_process GO:0006468 protein phosphorylation
cellular_component GO:0005886 plasma membrane
molecular_function GO:0005524 ATP binding
molecular_function GO:0004694 eukaryotic translation initiation factor 2alpha kinase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0106310 protein serine kinase activity
molecular_function GO:0004712 protein serine/threonine/tyrosine kinase activity
molecular_function GO:0000049 tRNA binding
molecular_function GO:0004672 protein kinase activity