Spg013600 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg013600
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionCCHC-type domain-containing protein
Locationscaffold2: 24474591 .. 24492500 (+)
RNA-Seq ExpressionSpg013600
SyntenySpg013600
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGAAGGAAAGCGCAGAAGAGGTAATACAGAGGCAGTTGGAGAATCTGGGTTTGGAGGAGGAAGAAAGGGGAAGGGTGGTTGATATCGAAGATGATGACATTGACGAGACGGACAAAGATTTCTTGAACTCTCTGGCGTGCAAAATTTTGTCCTGTCGAACAATTAATCCAAAAGGTTTTGCCAGCTTGATGCCAAAGATCTGGGGGCTCTCCGAAAATGTGCGAATAGAAAAAGCAGGGAGAAACCTTTTCTTATGCAAATTTCGACACCAGCGTTTCAAAAACAGAGTTCTACGAGAGGGACCTTGGAGTTTCGCGACTCGATCCTGGAAGTATGCAATCGCCCTAGGGAACTCGATTGGCAAATTCGTCATGGCTGAATCGGATGAGAATGGGAAGATGTCGGGCGAGACTCTACGGGTCAAAGTTCAGATGGATATAAACAAACCGCTGAGGAGAGGAACGAATATCAAGACTGGTTCGATGGCTGATAAAGCGTGGATCAGAGTTACATATGAAAAGTTACCAGATTTTTGTTATTTCTGCGGGAAGTTGGGCCATGTGGTTCAAGAATGTGAAGAGGAGGGAAGCGGCGGCTGCAGCAAATTGGATTACGGAGTAGATCTCAGAAACACCCAGGGAAGCAAAGGATACTACCGTGGAAAAAAGCCAGATCACAGGGAACCGAATCTGAGAGGAAGGGGAAGAGGTAACATGAACAGAGGCAGATCTGCGAAATGGGAGTCAGGGGGAGGAAGTGGAAAAGATGAAGACAACAGGACATGGCGACATTTAGGTGAAAATACCCAAGATGGAGAGGAAGAAAATCCATTCGAAAAGGAGGTTGCGGATCGCAACGATCTGAACGAGGAAGGAAAAAAAGAATCACCGCTGAAGCTAGGGCCAAGCCCAAGCCCATTAGGTTTATTTTTAGCCACTCACGCAGCCCTAGGTCTTCATATTTTTCCTCTTCATCTCTTTTCTCCCTCCTTCTCCAAGACAACCACGAGCAGCCCCCCATTCCCAGTTTCCATCCTCGACGGCCAGCAACGCCGAGACCCATCTCCGGCGTCCTCGAGCAGATCTCCGACCGGCCCTCTCCCTCACTCGCGTGTTCCCTCCGGCAAGTCCCGGCGTTGCAGCGGCGTGGGTGCGGTTTCAGCAGCAGTTCAGCGTGTCCAGCGGGTCTCCGGCGACAGAGGCCGCAACGGCGACGACGACTCGGCCTCAGCGGCGGCGGCGTCTCGTCTCAGCAGCAGCGGCGCACGGCATTCGCAGCAGGTTCACGTTCAACGGGTGGTGGATCTACACAGCTTTGCGGCGGCAGTGACGAGAGCTCCGACGGGCTCGTGCTTTCCGGCGTCTCCCACAGCAGATCGACGGTGGTTGGGTTGCAGCAGCGTTTGGGGGGTCGTTTTCTCCGTTTTTCCGACGTTTCGCGTAGTGGGACGTCGGCCGCTCCGCATCGCAGGCACGTGGCGACAAAATGAATGCAGGTATTTTACAAACCCGATTGACATATGGGACAAGATGCAGCAGGGGTTGGGAAAAGAAGATACAACAATTGCTATATTGGTGCTCTGGAATATATGGAACGCAAGGAACATAACCAATCTCAACAATCAGCAACCAGATCTCGACCAATTACAGAGGAATATTCTAAACAACATTGAAGAATGCAAGAGCAATCAAGATAAATCTTCGAGAGCAGAGCACGGAGAGAACCTTTTGAGTCACCTTTTGTGGAAGCCGCCGGACCCAAGTTGCTGGAAATTGAACGCTGATGCCTCGTGGTTTGAAGGGAAAGGCGTGGGAGGGCTGGGGTGGACCATCCGTGACTCTAACGGATCTCTCATCGGAGCGGGCTGCAAGAAATTTAAGAGAAATTGGTCAATCAAATGCCTTGAAGCCGAAGCGATTCTTGAGGGTATGAAAGCGTACAGTTCTCACGGCGACATCGAAGGGAGAGGATGCAAGCTACCTCTGGTCGTTGAATCTGACTCCATAGAAGCTGTTGGAGCCTTGAATCGTGACTGGGAAGACCAATCGGAGATCAAACTCATCGTGGAAGAAATCGAGAACAGCGAAGGCTTTGTAGGGGTGCTCAGCGTCTCCAAGTGTTCTAGATCGGAGAATAGGATGGCGCATAACCTCGCTCAAGCCGCTGCGTCGAATGGGTCTTTTGGTTTTTTTGGCTCATCTTTTCATCAAGATGAAGAAGATGAACAGTTTTGGAGGGAAGAAGCCTTCTCCACCTGCTTTGCCTCATGTTTTGTCGAGGGAGTTAATAGTCATAGCGGGGAAAATGAATTGGTGGTGTCTCAATTGTTGACGCTTGGTCCCTATGAAATCAAGAAAGGCGTTCTTGATATTTCAGAGACGGCAATGAGAGGGGTGGCGGAATTGAGGGGTTCATCATATCATCCACTGAGCATGGATCTCACGGTCGGTTCCCAGAACATGCATGCTTTAGGAGTAAAATTGAATGAGTTAAGTGCTTTCGATCTTCAATTGCTTCCGCATGTGTTATATGAACACCTTCAATTTGAAATTGTGTATTTGATAAAGAAATGCGACCGCATTTCTGGGAAGGCTAAAATCAAATGCGACCGCATTTCTGGAAAAAACAGAGGCCGTTCCGAGTCCGTCGCAGGTGTTCGGGATGCAAAAAGATGCCAAAGAAACGAAGTGAATCGAAGATGGAAGCTTATTGAAGTGGGCAAGCCGCAGACCAGCGTCGAGACCCTAGCTTCTGGGCGTCTCGACGCTGGGCTTTCCTTAATTAAATCAGGCGGCAAAAGGTCACAGCGTTTGTGA

Coding sequence (CDS)

ATGGAGAAGGAAAGCGCAGAAGAGGTAATACAGAGGCAGTTGGAGAATCTGGGTTTGGAGGAGGAAGAAAGGGGAAGGGTGGTTGATATCGAAGATGATGACATTGACGAGACGGACAAAGATTTCTTGAACTCTCTGGCGTGCAAAATTTTGTCCTGTCGAACAATTAATCCAAAAGGTTTTGCCAGCTTGATGCCAAAGATCTGGGGGCTCTCCGAAAATGTGCGAATAGAAAAAGCAGGGAGAAACCTTTTCTTATGCAAATTTCGACACCAGCGTTTCAAAAACAGAGTTCTACGAGAGGGACCTTGGAGTTTCGCGACTCGATCCTGGAAGTATGCAATCGCCCTAGGGAACTCGATTGGCAAATTCGTCATGGCTGAATCGGATGAGAATGGGAAGATGTCGGGCGAGACTCTACGGGTCAAAGTTCAGATGGATATAAACAAACCGCTGAGGAGAGGAACGAATATCAAGACTGGTTCGATGGCTGATAAAGCGTGGATCAGAGTTACATATGAAAAGTTACCAGATTTTTGTTATTTCTGCGGGAAGTTGGGCCATGTGGTTCAAGAATGTGAAGAGGAGGGAAGCGGCGGCTGCAGCAAATTGGATTACGGAGTAGATCTCAGAAACACCCAGGGAAGCAAAGGATACTACCGTGGAAAAAAGCCAGATCACAGGGAACCGAATCTGAGAGGAAGGGGAAGAGGTAACATGAACAGAGGCAGATCTGCGAAATGGGAGTCAGGGGGAGGAAGTGGAAAAGATGAAGACAACAGGACATGGCGACATTTAGGTGAAAATACCCAAGATGGAGAGGAAGAAAATCCATTCGAAAAGGAGGTTGCGGATCGCAACGATCTGAACGAGGAAGGAAAAAAAGAATCACCGCTGAAGCTAGGGCCAAGCCCAAGCCCATTAGGTTTATTTTTAGCCACTCACGCAGCCCTAGGTCTTCATATTTTTCCTCTTCATCTCTTTTCTCCCTCCTTCTCCAAGACAACCACGAGCAGCCCCCCATTCCCAGTTTCCATCCTCGACGGCCAGCAACGCCGAGACCCATCTCCGGCGTCCTCGAGCAGATCTCCGACCGGCCCTCTCCCTCACTCGCGTGTTCCCTCCGGCAAGTCCCGGCGTTGCAGCGGCGTGGGTGCGGTTTCAGCAGCAGTTCAGCGTGTCCAGCGGGTCTCCGGCGACAGAGGCCGCAACGGCGACGACGACTCGGCCTCAGCGGCGGCGGCGTCTCGTCTCAGCAGCAGCGGCGCACGGCATTCGCAGCAGGTTCACGTTCAACGGGTGGTGGATCTACACAGCTTTGCGGCGGCAGTGACGAGAGCTCCGACGGGCTCGTGCTTTCCGGCGTCTCCCACAGCAGATCGACGGTGGTTGGGTTGCAGCAGCGTTTGGGGGGTCGTTTTCTCCGTTTTTCCGACGTTTCGCGTAGTGGGACGTCGGCCGCTCCGCATCGCAGGCACGTGGCGACAAAATGAATGCAGGTATTTTACAAACCCGATTGACATATGGGACAAGATGCAGCAGGGGTTGGGAAAAGAAGATACAACAATTGCTATATTGGTGCTCTGGAATATATGGAACGCAAGGAACATAACCAATCTCAACAATCAGCAACCAGATCTCGACCAATTACAGAGGAATATTCTAAACAACATTGAAGAATGCAAGAGCAATCAAGATAAATCTTCGAGAGCAGAGCACGGAGAGAACCTTTTGAGTCACCTTTTGTGGAAGCCGCCGGACCCAAGTTGCTGGAAATTGAACGCTGATGCCTCGTGGTTTGAAGGGAAAGGCGTGGGAGGGCTGGGGTGGACCATCCGTGACTCTAACGGATCTCTCATCGGAGCGGGCTGCAAGAAATTTAAGAGAAATTGGTCAATCAAATGCCTTGAAGCCGAAGCGATTCTTGAGGGTATGAAAGCGTACAGTTCTCACGGCGACATCGAAGGGAGAGGATGCAAGCTACCTCTGGTCGTTGAATCTGACTCCATAGAAGCTGTTGGAGCCTTGAATCGTGACTGGGAAGACCAATCGGAGATCAAACTCATCGTGGAAGAAATCGAGAACAGCGAAGGCTTTGTAGGGGTGCTCAGCGTCTCCAAGTGTTCTAGATCGGAGAATAGGATGGCGCATAACCTCGCTCAAGCCGCTGCGTCGAATGGGTCTTTTGGTTTTTTTGGCTCATCTTTTCATCAAGATGAAGAAGATGAACAGTTTTGGAGGGAAGAAGCCTTCTCCACCTGCTTTGCCTCATGTTTTGTCGAGGGAGTTAATAGTCATAGCGGGGAAAATGAATTGGTGGTGTCTCAATTGTTGACGCTTGGTCCCTATGAAATCAAGAAAGGCGTTCTTGATATTTCAGAGACGGCAATGAGAGGGGTGGCGGAATTGAGGGGTTCATCATATCATCCACTGAGCATGGATCTCACGGTCGGTTCCCAGAACATGCATGCTTTAGGAGTAAAATTGAATGAGTTAAGTGCTTTCGATCTTCAATTGCTTCCGCATGTGTTATATGAACACCTTCAATTTGAAATTGTGTATTTGATAAAGAAATGCGACCGCATTTCTGGGAAGGCTAAAATCAAATGCGACCGCATTTCTGGAAAAAACAGAGGCCGTTCCGAGTCCGTCGCAGGTGTTCGGGATGCAAAAAGATGCCAAAGAAACGAAGTGAATCGAAGATGGAAGCTTATTGAAGTGGGCAAGCCGCAGACCAGCGTCGAGACCCTAGCTTCTGGGCGTCTCGACGCTGGGCTTTCCTTAATTAAATCAGGCGGCAAAAGGTCACAGCGTTTGTGA

Protein sequence

MEKESAEEVIQRQLENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLMPKIWGLSENVRIEKAGRNLFLCKFRHQRFKNRVLREGPWSFATRSWKYAIALGNSIGKFVMAESDENGKMSGETLRVKVQMDINKPLRRGTNIKTGSMADKAWIRVTYEKLPDFCYFCGKLGHVVQECEEEGSGGCSKLDYGVDLRNTQGSKGYYRGKKPDHREPNLRGRGRGNMNRGRSAKWESGGGSGKDEDNRTWRHLGENTQDGEEENPFEKEVADRNDLNEEGKKESPLKLGPSPSPLGLFLATHAALGLHIFPLHLFSPSFSKTTTSSPPFPVSILDGQQRRDPSPASSSRSPTGPLPHSRVPSGKSRRCSGVGAVSAAVQRVQRVSGDRGRNGDDDSASAAAASRLSSSGARHSQQVHVQRVVDLHSFAAAVTRAPTGSCFPASPTADRRWLGCSSVWGVVFSVFPTFRVVGRRPLRIAGTWRQNECRYFTNPIDIWDKMQQGLGKEDTTIAILVLWNIWNARNITNLNNQQPDLDQLQRNILNNIEECKSNQDKSSRAEHGENLLSHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEAEAILEGMKAYSSHGDIEGRGCKLPLVVESDSIEAVGALNRDWEDQSEIKLIVEEIENSEGFVGVLSVSKCSRSENRMAHNLAQAAASNGSFGFFGSSFHQDEEDEQFWREEAFSTCFASCFVEGVNSHSGENELVVSQLLTLGPYEIKKGVLDISETAMRGVAELRGSSYHPLSMDLTVGSQNMHALGVKLNELSAFDLQLLPHVLYEHLQFEIVYLIKKCDRISGKAKIKCDRISGKNRGRSESVAGVRDAKRCQRNEVNRRWKLIEVGKPQTSVETLASGRLDAGLSLIKSGGKRSQRL
Homology
[Close]
BLAST of Spg013600 vs. NCBI nr
Match: XP_035547259.1 (uncharacterized protein LOC118348856 [Juglans regia])

HSP 1 Score: 122.9 bits (307), Expect = 1.5e-23
Identity = 68/200 (34.00%), Postives = 106/200 (53.00%), Query Frame = 0 

Query: 15  ENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLMPKIWGLSEN 74
           ++L L E+E+G  + +E   ++         L   +L+ R  N +   ++M K+W  +  
Sbjct: 10  QHLSLSEKEKGE-IHVESSLLESNITRGERCLVMSLLTDRYYNREALKNMMRKVWQPACK 69

Query: 75  VRIEKAGRNLFLCKFRHQRFKNRVLREGPWSF---------ATRSWKYAIALGNSIGKFV 134
           V  +  G NLFL +F   R K R+L EGPWSF            ++K    +GN IG   
Sbjct: 70  VPFKDLGSNLFLVEFEDDRDKQRILWEGPWSFDCYLVLLKQLEGNYKGGRLIGNKIGIVE 129

Query: 135 MAESDENGKMSGETLRVKVQMDINKPLRRGTNIKTGSMADKAWIRVTYEKLPDFCYFCGK 194
             + +++    GE LR++V+++I++PL RG  +K G      WIR  YE+LP+FCY CGK
Sbjct: 130 EVDGEQSEVAWGEYLRIRVRVNISQPLMRGITVKLGQFG-SVWIRFAYERLPNFCYMCGK 189

Query: 195 LGHVVQECEEEGSGGCSKLD 206
           LGH  ++CE  G+ G    D
Sbjct: 190 LGHQQKDCEINGTQGARDTD 207

[Close]
BLAST of Spg013600 vs. NCBI nr
Match: XP_022156777.1 (uncharacterized protein LOC111023608 [Momordica charantia])

HSP 1 Score: 119.8 bits (299), Expect = 1.3e-22
Identity = 73/222 (32.88%), Postives = 121/222 (54.50%), Query Frame = 0 

Query: 517 GKEDTTIAILVLWNIWNARN---ITNLNNQQPDLD-QLQRNILN------NIEECKSNQD 576
           G+E+   ++++ W IW  RN      ++++  D+   + R I+N      N++   +N+D
Sbjct: 5   GEEERRRSMIIAWQIWEMRNKSIFKGVHSETRDIQLVIDRYIINSAGRDTNLKGKSANKD 64

Query: 577 KSSRAEHGENLLSHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKK 636
                  G+N  +   WKPP  + WKLN DA+W      GG+GW +RD  G +I A C+ 
Sbjct: 65  LHLIRRIGDN--TGARWKPPTSNSWKLNTDAAWRADTNTGGIGWILRDEKGEVIKADCRI 124

Query: 637 FKRNWSIKCLEAEAILEGMKAYSSH--GDIEGRGCKLPLVVESDSIEAVGALNRDWEDQS 696
            +   +I  LE  AI EG++A        I+   C+ P+ +ESDS+EA+  L+R  +DQ+
Sbjct: 125 IRTERNITYLEVMAICEGLRAIRQEHCRPIQQEHCR-PIHLESDSLEAIHLLHRQCQDQT 184

Query: 697 EIKLIVEEIENSEGFVGVLSVSKCSRSENRMAHNLAQAAASN 727
           EI  ++EEI      + ++S+   SR  N++AH+LA+ A  N
Sbjct: 185 EIIWLLEEIWQMMEDMKIVSMRHISREANKVAHDLARRAMEN 223

[Close]
BLAST of Spg013600 vs. NCBI nr
Match: XP_022143535.1 (uncharacterized protein LOC111013412 [Momordica charantia])

HSP 1 Score: 117.1 bits (292), Expect = 8.3e-22
Identity = 72/220 (32.73%), Postives = 116/220 (52.73%), Query Frame = 0 

Query: 517 GKEDTTIAILVLWNIWNARNITNLNNQQPDLDQLQ----RNILN------NIEECKSNQD 576
           G+E+   ++++ W IW  RN +      P+   +Q    R I+N      N++   +N+D
Sbjct: 5   GEEERRRSMIIAWQIWEMRNKSIFKGVHPETRDIQLAIDRYIINSAGRNTNLKGKSTNKD 64

Query: 577 KSSRAEHGENLLSHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKK 636
                   +N  +   WKPP  + WKLN +A+W      GG+GW +RD  G +I A C+ 
Sbjct: 65  LHLIRRIEDN--TGAQWKPPTSNSWKLNTNAAWRADTNTGGIGWILRDEKGEVIKASCRI 124

Query: 637 FKRNWSIKCLEAEAILEGMKAYSSHGDIEGRGCKLPLVVESDSIEAVGALNRDWEDQSEI 696
            +   +I  LE  AI EG++A      I    C+ P+ +ESDS+EA+  L+R  +DQ+EI
Sbjct: 125 IRAERNITYLEVMAICEGLRA------IRQEHCR-PIHLESDSLEAIHLLHRQCQDQTEI 184

Query: 697 KLIVEEIENSEGFVGVLSVSKCSRSENRMAHNLAQAAASN 727
             ++EEI      + ++S+   SR  N++AH LA+ A  N
Sbjct: 185 IWLLEEIWQMMKDMEIVSMRHISREANKVAHGLARRAMEN 215

[Close]
BLAST of Spg013600 vs. NCBI nr
Match: XP_022155262.1 (uncharacterized protein LOC111022403 [Momordica charantia])

HSP 1 Score: 115.5 bits (288), Expect = 2.4e-21
Identity = 70/206 (33.98%), Postives = 107/206 (51.94%), Query Frame = 0 

Query: 519 EDTTIAILVLWNIWNARNITNLNNQQPDLDQLQRNILNNIEECKSNQDKSSRAEHGENLL 578
           ED  + ++  W IWN RN      +      + + +   + E  S Q ++S +   + L 
Sbjct: 8   EDLDVLLIGSWVIWNHRNYVIFRGEHSSFSTMIQQLTKFVTE-SSYQSETSLSMLHKTLN 67

Query: 579 SHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEA 638
           + L W+PP    W LNADASW +    GG+GW IR  +G ++ AG +  +   ++K LEA
Sbjct: 68  NKLKWEPPPMHIWTLNADASWSDSTHRGGIGWIIRSWDGDIVLAGNRFVEACNNVKLLEA 127

Query: 639 EAILEGMKAYSSHGDIEGRGCKLPLVVESDSIEAVGALNRDWEDQSEIKLIVEEIENSEG 698
            AILEG++      ++   G   PL +E+DS E    LNR  ED ++   +VEEI N   
Sbjct: 128 SAILEGLR------NLTNLGVLRPLHIETDSAEVESLLNRKREDLTKTGWVVEEILNLRD 187

Query: 699 FVGVLSVSKCSRSENRMAHNLAQAAA 725
              +L+ +K  R  N  AH+LAQ A+
Sbjct: 188 SCEILAFAKVGRETNGCAHSLAQRAS 206

[Close]
BLAST of Spg013600 vs. NCBI nr
Match: TXG48193.1 (hypothetical protein EZV62_027487 [Acer yangbiense])

HSP 1 Score: 112.1 bits (279), Expect = 2.7e-20
Identity = 71/231 (30.74%), Postives = 110/231 (47.62%), Query Frame = 0 

Query: 6   AEEVIQRQLENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLM 65
           +E  I +  ENL LE+E+   V +I +D I + D+D    L  K+L+ + +N + F  L+
Sbjct: 2   SEAEITQLYENLSLEDED-AAVHEITEDYIQDGDEDVDRCLVGKVLTGKKVNREAFKGLI 61

Query: 66  PKIWGLSENVRIEKAGRNLFLCKFRHQRFKNRVLREGPWSFA------------------ 125
            +IW     V +E  G N F+  F ++ ++N+V   GPW F                   
Sbjct: 62  EQIWNQFGQVEVELVGENTFMFHFTNKEYRNKVWNRGPWLFGKSLIVLEKPKGPGDITKL 121

Query: 126 ----------------------TRSWKYAIALGNSIGKFVMAESDENGKMSGETLRVKVQ 185
                                 T  W     L   IG+ V   + E+ +  G+ +RVKVQ
Sbjct: 122 KFNQADFWVQIHDIPIMCMNQRTTKW-----LAEYIGEVVEIPT-ESRECWGKYVRVKVQ 181

Query: 186 MDINKPLRRGTNIKTGSMADKAWIRVTYEKLPDFCYFCGKLGHVVQECEEE 197
           +DI KPL+R   IK G   +   + + YE+LPDFC+ CG++GH V+EC +E
Sbjct: 182 VDITKPLKRWLRIKLGKYEEITMVALKYERLPDFCFACGRIGHSVRECLDE 225

[Close]
BLAST of Spg013600 vs. ExPASy TrEMBL
Match: A0A6P9EID8 (uncharacterized protein LOC118348856 OS=Juglans regia OX=51240 GN=LOC118348856 PE=4 SV=1)

HSP 1 Score: 122.9 bits (307), Expect = 7.3e-24
Identity = 68/200 (34.00%), Postives = 106/200 (53.00%), Query Frame = 0 

Query: 15  ENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLMPKIWGLSEN 74
           ++L L E+E+G  + +E   ++         L   +L+ R  N +   ++M K+W  +  
Sbjct: 10  QHLSLSEKEKGE-IHVESSLLESNITRGERCLVMSLLTDRYYNREALKNMMRKVWQPACK 69

Query: 75  VRIEKAGRNLFLCKFRHQRFKNRVLREGPWSF---------ATRSWKYAIALGNSIGKFV 134
           V  +  G NLFL +F   R K R+L EGPWSF            ++K    +GN IG   
Sbjct: 70  VPFKDLGSNLFLVEFEDDRDKQRILWEGPWSFDCYLVLLKQLEGNYKGGRLIGNKIGIVE 129

Query: 135 MAESDENGKMSGETLRVKVQMDINKPLRRGTNIKTGSMADKAWIRVTYEKLPDFCYFCGK 194
             + +++    GE LR++V+++I++PL RG  +K G      WIR  YE+LP+FCY CGK
Sbjct: 130 EVDGEQSEVAWGEYLRIRVRVNISQPLMRGITVKLGQFG-SVWIRFAYERLPNFCYMCGK 189

Query: 195 LGHVVQECEEEGSGGCSKLD 206
           LGH  ++CE  G+ G    D
Sbjct: 190 LGHQQKDCEINGTQGARDTD 207

[Close]
BLAST of Spg013600 vs. ExPASy TrEMBL
Match: A0A6J1DNV9 (uncharacterized protein LOC111022403 OS=Momordica charantia OX=3673 GN=LOC111022403 PE=4 SV=1)

HSP 1 Score: 115.5 bits (288), Expect = 1.2e-21
Identity = 70/206 (33.98%), Postives = 107/206 (51.94%), Query Frame = 0 

Query: 519 EDTTIAILVLWNIWNARNITNLNNQQPDLDQLQRNILNNIEECKSNQDKSSRAEHGENLL 578
           ED  + ++  W IWN RN      +      + + +   + E  S Q ++S +   + L 
Sbjct: 8   EDLDVLLIGSWVIWNHRNYVIFRGEHSSFSTMIQQLTKFVTE-SSYQSETSLSMLHKTLN 67

Query: 579 SHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEA 638
           + L W+PP    W LNADASW +    GG+GW IR  +G ++ AG +  +   ++K LEA
Sbjct: 68  NKLKWEPPPMHIWTLNADASWSDSTHRGGIGWIIRSWDGDIVLAGNRFVEACNNVKLLEA 127

Query: 639 EAILEGMKAYSSHGDIEGRGCKLPLVVESDSIEAVGALNRDWEDQSEIKLIVEEIENSEG 698
            AILEG++      ++   G   PL +E+DS E    LNR  ED ++   +VEEI N   
Sbjct: 128 SAILEGLR------NLTNLGVLRPLHIETDSAEVESLLNRKREDLTKTGWVVEEILNLRD 187

Query: 699 FVGVLSVSKCSRSENRMAHNLAQAAA 725
              +L+ +K  R  N  AH+LAQ A+
Sbjct: 188 SCEILAFAKVGRETNGCAHSLAQRAS 206

[Close]
BLAST of Spg013600 vs. ExPASy TrEMBL
Match: A0A5C7GU64 (CCHC-type domain-containing protein OS=Acer yangbiense OX=1000413 GN=EZV62_027487 PE=4 SV=1)

HSP 1 Score: 112.1 bits (279), Expect = 1.3e-20
Identity = 71/231 (30.74%), Postives = 110/231 (47.62%), Query Frame = 0 

Query: 6   AEEVIQRQLENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLM 65
           +E  I +  ENL LE+E+   V +I +D I + D+D    L  K+L+ + +N + F  L+
Sbjct: 2   SEAEITQLYENLSLEDED-AAVHEITEDYIQDGDEDVDRCLVGKVLTGKKVNREAFKGLI 61

Query: 66  PKIWGLSENVRIEKAGRNLFLCKFRHQRFKNRVLREGPWSFA------------------ 125
            +IW     V +E  G N F+  F ++ ++N+V   GPW F                   
Sbjct: 62  EQIWNQFGQVEVELVGENTFMFHFTNKEYRNKVWNRGPWLFGKSLIVLEKPKGPGDITKL 121

Query: 126 ----------------------TRSWKYAIALGNSIGKFVMAESDENGKMSGETLRVKVQ 185
                                 T  W     L   IG+ V   + E+ +  G+ +RVKVQ
Sbjct: 122 KFNQADFWVQIHDIPIMCMNQRTTKW-----LAEYIGEVVEIPT-ESRECWGKYVRVKVQ 181

Query: 186 MDINKPLRRGTNIKTGSMADKAWIRVTYEKLPDFCYFCGKLGHVVQECEEE 197
           +DI KPL+R   IK G   +   + + YE+LPDFC+ CG++GH V+EC +E
Sbjct: 182 VDITKPLKRWLRIKLGKYEEITMVALKYERLPDFCFACGRIGHSVRECLDE 225

[Close]
BLAST of Spg013600 vs. ExPASy TrEMBL
Match: A0A2K3PIT6 (Ribonuclease H (Fragment) OS=Trifolium pratense OX=57577 GN=L195_g011865 PE=4 SV=1)

HSP 1 Score: 111.7 bits (278), Expect = 1.7e-20
Identity = 74/216 (34.26%), Postives = 107/216 (49.54%), Query Frame = 0 

Query: 15  ENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLMPKIWGLSEN 74
           EN   +EEE   VV   DD +   D+ F  SL  K+ +    N + F  ++ + W L   
Sbjct: 93  ENPLTKEEEEEIVV---DDTVACEDESFKRSLVGKLWTEDHFNVRIFKQVVSQSWRLKNP 152

Query: 75  VRIEKAGRNLFLCKFRHQRFKNRVLREGPWSF---------------------------- 134
           V I+   +NLFL +F  +R    VLR GPWSF                            
Sbjct: 153 VEIQDLSKNLFLFRFTSKRDLEMVLRNGPWSFDRNLVILKRISGEEQPSDLEMFTAEFWA 212

Query: 135 -------ATRSWKYAIALGNSIGKFVMAESDENGKMSGETLRVKVQMDINKPLRRGTNIK 194
                    RS   A+ LGN+IG+FV A+S ++G   G+ LRVKV +D+ KPL+RGT + 
Sbjct: 213 RIYDLPLKLRSDAMALRLGNTIGQFVEADS-KDGHRLGKFLRVKVSIDLRKPLKRGTVL- 272

Query: 195 TGSMADKAWIRVTYEKLPDFCYFCGKLGHVVQECEE 196
                 +  +   YE+LP+FCY CG++GH +++CEE
Sbjct: 273 -NYQGKRLHVFFKYERLPNFCYMCGRIGHQMKDCEE 302

[Close]
BLAST of Spg013600 vs. ExPASy TrEMBL
Match: A0A6J1BSZ1 (uncharacterized protein LOC111005481 OS=Momordica charantia OX=3673 GN=LOC111005481 PE=4 SV=1)

HSP 1 Score: 110.5 bits (275), Expect = 3.7e-20
Identity = 78/240 (32.50%), Postives = 109/240 (45.42%), Query Frame = 0 

Query: 15  ENLGLEEEERGRVVDIEDDDIDETDKDFLNSLACKILSCRTINPKGFASLMPKIWGLS-E 74
           +N  L  EE    VDI+   ++ T K    SL CK+LS R+I+     + +   W L  +
Sbjct: 11  KNFKLTSEEDKIAVDIDSSALEGTGKCLELSLICKLLSKRSISCTVLKNTLKIAWKLDCK 70

Query: 75  NVRIEKAGRNLFLCKFRHQRFKNRVLREGPWSF--------------------------- 134
              ++  G N+FL  F     +NR+LR GPW+F                           
Sbjct: 71  AFSVDIIGFNIFLFNFNRSSDRNRILRMGPWTFDRALIIIDNPVSLTKPLDMDFRNVSLW 130

Query: 135 --------ATRSWKYAIALGNSIGKFVMAESDENGKMSGETLRVKVQMDINKPLRRGTNI 194
                   A  +   A  LGN+IG F   ES+ N    G  LRV+V+ D+ KPL RG  +
Sbjct: 131 VHFFDLSLACMNKTMATRLGNAIGLFEDVESNANNFCWGSCLRVRVRFDVMKPLHRGIKL 190

Query: 195 KTGSMADKAWIRVTYEKLPDFCYFCGKLGHVVQECEEEGSGGCSK-LDYGVDLRNTQGSK 218
                    WI + YE+LPDF Y CG+L H++++C +      SK L YG  LR  QG K
Sbjct: 191 NLDGPMGGCWIPIQYERLPDFRYHCGRLDHILKDCSDCCVDSVSKNLQYGPWLR-FQGHK 249

[Close]
BLAST of Spg013600 vs. TAIR 10
Match: AT5G65005.1 (Polynucleotidyl transferase, ribonuclease H-like superfamily protein )

HSP 1 Score: 54.7 bits (130), Expect = 4.7e-07
Identity = 34/128 (26.56%), Postives = 55/128 (42.97%), Query Frame = 0 

Query: 527 VLWNIWNARNITNLNNQQPDLDQLQRNILNNIEECKSNQDKSSRAEHGENL--LSHLLWK 586
           ++W IW + N    N+ +          LN+ +E   N   + +     N     +  W 
Sbjct: 47  LMWRIWKSGNDLVFNHTRTKFQTTVEMALNDTKEWLDNTMTNEQQNGNRNADPSRNTKWS 106

Query: 587 PPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEAEAILEG 646
           PP     K N DAS  E   V GLGW +R+S G++I  G  KF+   + +  E   ++  
Sbjct: 107 PPGRDKLKCNYDASHHERNTVSGLGWILRNSQGTVIECGMGKFQGRMTTEEAECSTLIWA 166

Query: 647 MKAYSSHG 653
           ++A    G
Sbjct: 167 IQASYGFG 174

[Close]
BLAST of Spg013600 vs. TAIR 10
Match: AT2G02650.1 (Ribonuclease H-like superfamily protein )

HSP 1 Score: 52.4 bits (124), Expect = 2.3e-06
Identity = 54/217 (24.88%), Postives = 91/217 (41.94%), Query Frame = 0 

Query: 520 DTTIAILVLWNIWNARNITNLNN--QQPDLDQLQRNILNNIEECKSNQDKSSRAEH---- 579
           D  +   ++W +W +RN+       Q PD  + ++ I +  E   +N+   +   H    
Sbjct: 136 DRFLPFWIMWRLWKSRNVFLFQQKCQSPDY-EARKGIQDATEWLNANETTENTNVHVATN 195

Query: 580 --GENLLSHLLWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNW 639
               +      W PP     K N D+ + +G      GWTIR+ NG ++  G  K + + 
Sbjct: 196 PIQTSRRDSSQWNPPPEGWVKCNFDSGYTQGSPYTRSGWTIRECNGHIVLCGNAKLQSST 255

Query: 640 SIKCLEAEAILEGMKAYSSHGDIEGRGCKLPLV-VESDSIEAVGALNRDWEDQSEIKLIV 699
                EA   L  ++   +HG        L  V  ESDS   V  +N + ED S +  ++
Sbjct: 256 CSLHAEALGFLHALQVIWAHG--------LRYVWFESDSKSLVTLIN-NGEDHSLLGTLI 315

Query: 700 EEIENSEGFVGVLSVSKCS-RSENRMAHNLAQAAASN 727
            +I +      +L +  CS    NR  ++ A A AS+
Sbjct: 316 YDIRH-----WMLKLPYCSLEFVNRERNSAADALASH 337

[Close]
BLAST of Spg013600 vs. TAIR 10
Match: AT2G33160.1 (glycoside hydrolase family 28 protein / polygalacturonase (pectinase) family protein )

HSP 1 Score: 52.0 bits (123), Expect = 3.0e-06
Identity = 35/122 (28.69%), Postives = 52/122 (42.62%), Query Frame = 0 

Query: 510 DKMQQGLGKEDTT-------IAILVLWNIWNARNITNLNNQQPDLDQLQRNILNNIEECK 569
           DKMQ      +TT       + + +LW +WN+RNI     +    +   +    +++E  
Sbjct: 422 DKMQGIFQLANTTQTQRFHQLPLWILWRLWNSRNILYFQRRHVPWETTLQLAQMDLQEWN 481

Query: 570 SNQDKSSRAEHGENLLSHL-LWKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIG 624
                S    HG  + SH+  W+ P     K N D S+  G   G  GW +RD NG    
Sbjct: 482 EAVTPSHINSHGTTIRSHIPNWRRPTNGWVKCNVDGSFINGNIPGKGGWIVRDHNGRYEF 541

[Close]
BLAST of Spg013600 vs. TAIR 10
Match: AT4G09775.1 (BEST Arabidopsis thaliana protein match is: Ribonuclease H-like superfamily protein (TAIR:AT2G02650.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )

HSP 1 Score: 50.1 bits (118), Expect = 1.2e-05
Identity = 23/59 (38.98%), Postives = 35/59 (59.32%), Query Frame = 0 

Query: 583 WKPPDPSCWKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEAEAI 642
           W PP     K N D+ + +G+      W IRDSNG +I +GC K ++++S   L+AEA+
Sbjct: 62  WSPPPEGYLKCNFDSGYVQGRDYTSTCWIIRDSNGHVIHSGCAKLQQSYS--ALQAEAL 118

[Close]
BLAST of Spg013600 vs. TAIR 10
Match: AT1G52990.1 (thioredoxin family protein )

HSP 1 Score: 49.7 bits (117), Expect = 1.5e-05
Identity = 27/66 (40.91%), Postives = 39/66 (59.09%), Query Frame = 0 

Query: 588 PSC-WKLNADASWFEGKGVGGLGWTIRDSNGSLIGAGCKKFKRNWSIKCLEAEAILEGMK 647
           PSC  K N DAS  EG  V GLGW IR+S G+++  G  KF+   + +  E  A++  ++
Sbjct: 44  PSCRVKCNYDASHHEGDVVSGLGWLIRNSQGTVLECGMGKFQGRMTPEEAECSALIWAIQ 103

Query: 648 AYSSHG 653
           A S+ G
Sbjct: 104 ATSAFG 109

The following BLAST results are available for this feature:
BLAST of Spg013600 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_035547259.11.5e-2334.00uncharacterized protein LOC118348856 [Juglans regia][more]
XP_022156777.11.3e-2232.88uncharacterized protein LOC111023608 [Momordica charantia][more]
XP_022143535.18.3e-2232.73uncharacterized protein LOC111013412 [Momordica charantia][more]
XP_022155262.12.4e-2133.98uncharacterized protein LOC111022403 [Momordica charantia][more]
TXG48193.12.7e-2030.74hypothetical protein EZV62_027487 [Acer yangbiense][more]
BLAST of Spg013600 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg013600 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6P9EID87.3e-2434.00uncharacterized protein LOC118348856 OS=Juglans regia OX=51240 GN=LOC118348856 P... [more]
A0A6J1DNV91.2e-2133.98uncharacterized protein LOC111022403 OS=Momordica charantia OX=3673 GN=LOC111022... [more]
A0A5C7GU641.3e-2030.74CCHC-type domain-containing protein OS=Acer yangbiense OX=1000413 GN=EZV62_02748... [more]
A0A2K3PIT61.7e-2034.26Ribonuclease H (Fragment) OS=Trifolium pratense OX=57577 GN=L195_g011865 PE=4 SV... [more]
A0A6J1BSZ13.7e-2032.50uncharacterized protein LOC111005481 OS=Momordica charantia OX=3673 GN=LOC111005... [more]
BLAST of Spg013600 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G65005.14.7e-0726.56Polynucleotidyl transferase, ribonuclease H-like superfamily protein [more]
AT2G02650.12.3e-0624.88Ribonuclease H-like superfamily protein [more]
AT2G33160.13.0e-0628.69glycoside hydrolase family 28 protein / polygalacturonase (pectinase) family pro... [more]
AT4G09775.11.2e-0538.98BEST Arabidopsis thaliana protein match is: Ribonuclease H-like superfamily prot... [more]
AT1G52990.11.5e-0540.91thioredoxin family protein [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 3..23
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 352..368
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 220..235
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 251..298
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 215..304
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 334..426
NoneNo IPR availablePANTHERPTHR31286:SF84SUBFAMILY NOT NAMEDcoord: 111..207
IPR002156Ribonuclease H domainPFAMPF13456RVT_3coord: 594..723
e-value: 3.1E-16
score: 59.3
IPR025558Domain of unknown function DUF4283PFAMPF14111DUF4283coord: 35..108
e-value: 6.7E-9
score: 35.4
IPR036397Ribonuclease H superfamilyGENE3D3.30.420.10coord: 591..728
e-value: 5.2E-11
score: 44.6
IPR025836Zinc knuckle CX2CX4HX4CPFAMPF14392zf-CCHC_4coord: 146..194
e-value: 4.3E-15
score: 55.1
IPR040256Uncharacterized protein At4g02000-likePANTHERPTHR31286GLYCINE-RICH CELL WALL STRUCTURAL PROTEIN 1.8-LIKEcoord: 111..207
IPR001878Zinc finger, CCHC-typePROSITEPS50158ZF_CCHCcoord: 180..195
score: 9.652719
IPR044730Ribonuclease H-like domain, plant typeCDDcd06222RNase_H_likecoord: 593..720
e-value: 4.38184E-19
score: 81.9768
IPR012337Ribonuclease H-like superfamilySUPERFAMILY53098Ribonuclease H-likecoord: 590..726

Relationships

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

Feature NameUnique NameType
Spg013600.1Spg013600.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0004523 RNA-DNA hybrid ribonuclease activity
molecular_function GO:0008270 zinc ion binding