CaUC06G110070 (gene) Watermelon (USVL246-FR2) v1

Overview
NameCaUC06G110070
Typegene
OrganismCitrullus amarus (Watermelon (USVL246-FR2) v1)
DescriptionReceptor-type tyrosine-protein phosphatase N2
LocationCiama_Chr06: 4392604 .. 4412277 (-)
RNA-Seq ExpressionCaUC06G110070
SyntenyCaUC06G110070
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCATAATCGGGAGGAGGAGGAGGTGGAGATGCAGTCGGAGGTGGTGGAGATTGGACTGGTGGCGGTGGGGAGTAAACAGGCGGTGGTGGAGAATGGACTGGAGGTGGTGGGGAGTGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGAGAATGGACCGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACCGGTGGTGGCGGGGAATGGACTGGGGGTGGTGGTGAATGAATTAGTGGTTCGGGAGATTCAGCTGGGGATGGACTGGGGGGTAGGTGGTGAGATCGGAGCAGAGGTTGGTGATAATGATGGAGCAGAGGTTGGTGACAATTGTGGTGCAGAGGTTGGTGGTGAATACTCAATTGGAGACGGTGGTGATGATGTAATAGAAGTCTCACTTGGAGAAGGAGGAGTCCCCACTTCTGGGACCGAGGTGTCGATCGATTCAGGTGGAGAGCTGGCCGACGAAGCCATTGGCGCTCGCATCGAAGACCGTAAGATTGACGAGGTTTCCGATCTCGGGTGGGAAACAGCCGCCAAGCTTGTTGCCGATGAAGAGAATTTGGTTGAGGTTGGACATTTGGCCAATGGTGCTGGGAATGCAGCCATGGAACTCATTGTTGGCAAAGGAGACAACGGAGACGAAAATGGCATCGAACTCCTTGGTGAAGAGTGTGGAGGGGATTTCTCCTTCGAAGTCATTATACCTGAGATCGAGGAACTTAGCGGTGGGCCATTCAAGGACGACGTGAGGAAAATGGCCGACGAAGCGGTTGTTGCTGACATCGAACTCGAACATGAGAACAAGCTTGGAGAAGCTGGAAGGAATGATCCCACAGAACCTGTTAGAGTTAATATGGAAGAGAGCCAAATCGGTGATGAGGCCAATTTCTGGCGGCAAATACCCTGCAATGTCACCATGAATCGGGAGGAGGAGGAGGTGGAGATGCAGTCGGAGGTGGTGGAGATTGGACTGGTGGCGGTGGGGAGTAAACAGGCGGTGGTGGAGAATGGACTGGTGGGGGTGGGGAGTGAACTGGTGGGGGTGGAGAATGAACTGGTGGGGGTGGGGAGTAAACTGGTGGGGGTGGAGAGTGGACGGGGGGTGGGGGTGAGTGGACGGGGGGTGGTGGTGAGTGGACCGGGGGTGGTGGGGAGTGGACCGGGGGTGGTGGGGAGTGGACCGGGGGTGGTGGAGAGTGGACAGGAGGAGGTGGGGAATGAACTGGTGGTGGAGGAGAGGAGACAGGAGGTGGTGGGGAGTGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGAGAATGGACCGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACCGGTGGTGGCGGGGAATGGACTGGGGGTGGTGGTGAATGAATTAGTGGTTCGGGAGATTCAGCTGGGGATGGACTGGGGGGTAGGTGGTGAGATCGGAGCAGAGGTTGGTGATAATGATGGAGCAGAGGTTGGTGACAATTGTGGTGCAGAGGTTGGTGGTGAATACTCAATTGGAGACGGTGGTGATGATGTAATAGAAGTCTCACTTGGAGAAGGAGGAGTCCCCACTTCTGGGACCGAGGTGTCGATCGATTCAGGTGGAGAGCTGGCCGACGAAGCCATTGGCGCTCGCATCGAAGACCGTAAGATTGACGAGGTTTCCGATCTCGGGTGGGAAACAGCCGCCAAGCTTGTTGCCGATGAAGAGAATTTGGTTGAGGTTGGACATTTGGCCAATGGTGCTGGGAATGCAGCCATGGAATTCATTGTTGGCAAAGGAGACAACGGAGACGAAAATGGCATCGAACTCCTTGGTGAAGAGTGTGGAGGGGATTTCTCCTTCGAAGTCATTATACCTGAGATCGAGGAACTTAGCGGTGGGCCATTCAAGGACGACGTGAGGAAAATGGCCGACGAAGCGGTTGTTGCTGACATCGAACTCGAACATGAGAACAAGCTTGGAGAAGCTGGAAGGAATGATCCCACAGAACCTGTTAGAGTTAATATGGAAGAGAGCCAAATCGGTGATGAGGCCAATTTCTGGCGGCAAATACCCTGCAATGTCACCATGATATTTTTTAGAAACTAA

Coding sequence (CDS)

ATGCATAATCGGGAGGAGGAGGAGGTGGAGATGCAGTCGGAGGTGGTGGAGATTGGACTGGTGGCGGTGGGGAGTAAACAGGCGGTGGTGGAGAATGGACTGGAGGTGGTGGGGAGTGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGAGAATGGACCGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACCGGTGGTGGCGGGGAATGGACTGGGGGTGGTGGTGAATGAATTAGTGGTTCGGGAGATTCAGCTGGGGATGGACTGGGGGGTAGGTGGTGAGATCGGAGCAGAGGTTGGTGATAATGATGGAGCAGAGGTTGGTGACAATTGTGGTGCAGAGGTTGGTGGTGAATACTCAATTGGAGACGGTGGTGATGATGTAATAGAAGTCTCACTTGGAGAAGGAGGAGTCCCCACTTCTGGGACCGAGGTGTCGATCGATTCAGGTGGAGAGCTGGCCGACGAAGCCATTGGCGCTCGCATCGAAGACCGTAAGATTGACGAGGTTTCCGATCTCGGGTGGGAAACAGCCGCCAAGCTTGTTGCCGATGAAGAGAATTTGGTTGAGGTTGGACATTTGGCCAATGGTGCTGGGAATGCAGCCATGGAACTCATTGTTGGCAAAGGAGACAACGGAGACGAAAATGGCATCGAACTCCTTGGTGAAGAGTGTGGAGGGGATTTCTCCTTCGAAGTCATTATACCTGAGATCGAGGAACTTAGCGGTGGGCCATTCAAGGACGACGTGAGGAAAATGGCCGACGAAGCGGTTGTTGCTGACATCGAACTCGAACATGAGAACAAGCTTGGAGAAGCTGGAAGGAATGATCCCACAGAACCTGTTAGAGTTAATATGGAAGAGAGCCAAATCGGTGATGAGGCCAATTTCTGGCGGCAAATACCCTGCAATGTCACCATGAATCGGGAGGAGGAGGAGGTGGAGATGCAGTCGGAGGTGGTGGAGATTGGACTGGTGGCGGTGGGGAGTAAACAGGCGGTGGTGGAGAATGGACTGGTGGGGGTGGGGAGTGAACTGGTGGGGGTGGAGAATGAACTGGTGGGGGTGGGGAGTAAACTGGTGGGGGTGGAGAGTGGACGGGGGGTGGGGGTGAGTGGACGGGGGGTGGTGGTGAGTGGACCGGGGGTGGTGGGGAGTGGACCGGGGGTGGTGGGGAGTGGACCGGGGGTGGTGGAGAGTGGACAGGAGGAGGTGGGGAATGAACTGGTGGTGGAGGAGAGGAGACAGGAGGTGGTGGGGAGTGGACTGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGAGAATGGACCGGTGGTGGAGGAGAGTGGACAGGAGGTGGTGGGGAATGAACCGGTGGTGGAGGAGAATGGACCGGTGGTGGCGGGGAATGGACTGGGGGTGGTGGTGAATGAATTAGTGGTTCGGGAGATTCAGCTGGGGATGGACTGGGGGGTAGGTGGTGAGATCGGAGCAGAGGTTGGTGATAATGATGGAGCAGAGGTTGGTGACAATTGTGGTGCAGAGGTTGGTGGTGAATACTCAATTGGAGACGGTGGTGATGATGTAATAGAAGTCTCACTTGGAGAAGGAGGAGTCCCCACTTCTGGGACCGAGGTGTCGATCGATTCAGGTGGAGAGCTGGCCGACGAAGCCATTGGCGCTCGCATCGAAGACCGTAAGATTGACGAGGTTTCCGATCTCGGGTGGGAAACAGCCGCCAAGCTTGTTGCCGATGAAGAGAATTTGGTTGAGGTTGGACATTTGGCCAATGGTGCTGGGAATGCAGCCATGGAATTCATTGTTGGCAAAGGAGACAACGGAGACGAAAATGGCATCGAACTCCTTGGTGAAGAGTGTGGAGGGGATTTCTCCTTCGAAGTCATTATACCTGAGATCGAGGAACTTAGCGGTGGGCCATTCAAGGACGACGTGAGGAAAATGGCCGACGAAGCGGTTGTTGCTGACATCGAACTCGAACATGAGAACAAGCTTGGAGAAGCTGGAAGGAATGATCCCACAGAACCTGTTAGAGTTAATATGGAAGAGAGCCAAATCGGTGATGAGGCCAATTTCTGGCGGCAAATACCCTGCAATGTCACCATGATATTTTTTAGAAACTAA

Protein sequence

MHNREEEEVEMQSEVVEIGLVAVGSKQAVVENGLEVVGSGLVVEESGQEVVENGPVVEESGQEVVGNEPVVEENGLVVEESGQEVVGNEPVVEENGPVVAGNGLGVVVNELVVREIQLGMDWGVGGEIGAEVGDNDGAEVGDNCGAEVGGEYSIGDGGDDVIEVSLGEGGVPTSGTEVSIDSGGELADEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVEVGHLANGAGNAAMELIVGKGDNGDENGIELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEANFWRQIPCNVTMNREEEEVEMQSEVVEIGLVAVGSKQAVVENGLVGVGSELVGVENELVGVGSKLVGVESGRGVGVSGRGVVVSGPGVVGSGPGVVGSGPGVVESGQEEVGNELVVEERRQEVVGSGLVVEESGQEVVENGPVVEESGQEVVGNEPVVEENGPVVAGNGLGVVVNELVVREIQLGMDWGVGGEIGAEVGDNDGAEVGDNCGAEVGGEYSIGDGGDDVIEVSLGEGGVPTSGTEVSIDSGGELADEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVEVGHLANGAGNAAMEFIVGKGDNGDENGIELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEANFWRQIPCNVTMIFFRN
Homology
[Close]
BLAST of CaUC06G110070 vs. NCBI nr
Match: RCV24953.1 (hypothetical protein SETIT_5G127800v2 [Setaria italica])

HSP 1 Score: 95.5 bits (236), Expect = 2.0e-15
Identity = 84/266 (31.58%), Postives = 127/266 (47.74%), Query Frame = 0 

Query: 513 GMDWGVGGEIGAEVGDNDGAEVGDNCG------------AEVGGEYSIGDGGDDVIEV-S 572
           G D G G   G E G  DG+ VG                  + GE  +G+G  +V+E   
Sbjct: 125 GGDGGGGDGGGGEGGGADGSRVGGRLAPVAVPGHDARARRRLAGEEVVGEG--EVLEARQ 184

Query: 573 LGEGGVPTSGTEV-------SIDSGGEL----ADEAIGARIEDRKIDEVSDLGWETAAKL 632
           L       +G  V        +   G L    A E + A +E R++ + +DL  E  A+ 
Sbjct: 185 LANPRRYRAGEPVVRDVQLLQLPHEGHLRRQRARELVEADVEHRELPQQADLRREAGAEP 244

Query: 633 VADEENLVE-VGHLANGAGNAAMEFIVGKGDNG------------------DENGIELLG 692
           V DE++LVE  GH+ +    A+ E +V + D+G                  +E+G+E   
Sbjct: 245 VVDEQDLVERAGHVGDAGREASAEAVVREDDDGGRRVAEVVRELEAEAVVVEEDGVERAV 304

Query: 693 EECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPV 736
           EE G   + EV+ PE+EE   G  +DD R+ ADEAVVA++EL  E +  E GR D  E V
Sbjct: 305 EEAGRHGALEVVEPEVEEAERGEVEDDARERADEAVVAEVELVEEAEAAERGREDAAEAV 364

[Close]
BLAST of CaUC06G110070 vs. NCBI nr
Match: EMS52162.1 (hypothetical protein TRIUR3_19982 [Triticum urartu])

HSP 1 Score: 90.1 bits (222), Expect = 8.5e-14
Identity = 84/250 (33.60%), Postives = 129/250 (51.60%), Query Frame = 0 

Query: 113 VREIQLGMDWGVGGEIGAEVGDNDGAEVGDNCGAEVG--GEYSIG---DGGDDVIEVSLG 172
           V E+ LG    VGG     +G     EVG  C AEV   GE + G   D G+DV      
Sbjct: 519 VVEVDLGF---VGGHARRRLGLE---EVG--CVAEVDEHGELADGLVHDAGEDV------ 578

Query: 173 EGGVPTSGTEVSIDSGGELADEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVE-VGH 232
            G V       + D  G+ ADEA+ A ++D  + E +DL    A + V +E++LVE +GH
Sbjct: 579 PGDVELLELAAAGDLLGQRADEAVAADVDDGGVGEHADLERHAALERVVEEDDLVERLGH 638

Query: 233 LANGAGNAAMELIVGKGDNG------------------DENGIELLGEECGGDFSFEVII 292
            A+  G+A+ EL++ + D+G                  DE+G+  L EE G   + E++ 
Sbjct: 639 AADALGDASDELVICEDDDGGGGVADGLRDGADEAVAVDEDGVVGLVEERGRQLALELVE 698

Query: 293 PEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEA 339
            ++E L  G  + DV + ADEAVVAD+EL  + +   A  +D  E V V++EE ++G++A
Sbjct: 699 ADVEVLERGHLEADVGEGADEAVVADVELPEDGEARHALGDDAAEAVGVDVEEGKVGEQA 754

[Close]
BLAST of CaUC06G110070 vs. NCBI nr
Match: XP_028980182.2 (caM kinase-like vesicle-associated, like [Esox lucius])

HSP 1 Score: 83.6 bits (205), Expect = 8.0e-12
Identity = 97/253 (38.34%), Postives = 126/253 (49.80%), Query Frame = 0 

Query: 353 VVEIGLVAVGSKQAVVEN--GLVGVGSELVGVENELVGVGSKLVG-----VESGRGVGVS 412
           VV  G   VGS Q VV +  G+VG G  +VG    +VG G  +VG     V SG+GV  S
Sbjct: 624 VVGSGHGVVGSGQGVVGSGTGVVGSGQGVVGSGQGVVGSGHGVVGSGHGVVGSGQGVVGS 683

Query: 413 GRGVVVSGPGVVGSGPGVVGSGPGVVESGQEEVGNELVVEERRQEVVGSGLVVEESGQEV 472
           G+GVV SG GVVGSG GVVGSG GVV SGQ  VG+   +      VVGSG  V  SGQ V
Sbjct: 684 GQGVVGSGQGVVGSGHGVVGSGSGVVGSGQGGVGSGPGIVGSGPGVVGSGSGVVGSGQGV 743

Query: 473 VENGPVVEESGQEVVGNEPVVEENGPVVAGNGLGVVVNELVV--------REIQLGMDWG 532
           V +GP V  SG  VVG+   V  +GP V G+GLG+  +   +        +  + G+  G
Sbjct: 744 VGSGPAVVGSGPRVVGSGQGVVGSGPGVVGSGLGLRGDTSPMSRERRSDRQSSEFGLSRG 803

Query: 533 VGGEIGAEVGDNDGAEVGDNCGAEVGGEYSIGDGGDDVIEVSLGEGGVPTSGTEVSIDSG 591
                          E+G   G+     YS G GG       L   G+ +  T+  +DS 
Sbjct: 804 AYSYTRVSTAYGPEVELGGYGGSYCSSLYSSGPGGG--AYAGLEHTGLGSGATDWQMDSV 863

[Close]
BLAST of CaUC06G110070 vs. NCBI nr
Match: CAA7403051.1 (unnamed protein product [Spirodela intermedia])

HSP 1 Score: 80.9 bits (198), Expect = 5.2e-11
Identity = 56/173 (32.37%), Postives = 91/173 (52.60%), Query Frame = 0 

Query: 582 DEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVE-VGHLANGAGNAAMEFIVGKGDNG 641
           D+ + A ++ R+  E  DL  E   K V  + +LVE +GH+A     A +E +VG+ D+ 
Sbjct: 119 DQLVVADVQHRQAREKPDLRREARPKAVVYDNDLVESLGHVAEARREATLEVVVGEDDHR 178

Query: 642 ------------------DENGIELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMAD 701
                             DENGIE+L EE     S E++  ++EEL     +D   ++A 
Sbjct: 179 HRRVAEVVGEIEGEAVVVDENGIEILVEELTRHLSLELVESDVEELERREAEDHPGELAG 238

Query: 702 EAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEANFWRQIPCNVTMI 736
           E VVA IELE E ++ +  R+   E VRV++E+ ++  +A   R+IP +V ++
Sbjct: 239 ETVVAQIELEEELQILKLVRDRAAEAVRVDVEQREVLQQAELLRKIPGDVPVV 291

[Close]
BLAST of CaUC06G110070 vs. NCBI nr
Match: RCV18925.1 (LOW QUALITY PROTEIN: hypothetical protein SETIT_3G342300v2 [Setaria italica])

HSP 1 Score: 79.3 bits (194), Expect = 1.5e-10
Identity = 99/329 (30.09%), Postives = 149/329 (45.29%), Query Frame = 0 

Query: 156 DGGDDVIEVSLGEGGVPTSGTEVS----IDSGGELAD--EAIGARIEDRKIDEVSDLGWE 215
           D  + V E  +GE    T   + +    +   GEL      I A ++ R +DE+ +L  +
Sbjct: 437 DAEEVVREAEVGERRELTDALQHAAGEPVPRNGELLQPGHLISADVDYRGVDELGELRRD 496

Query: 216 TAAKLVADEENLVE-VGHLANGAGNAAMELIVGKGDNG------------------DENG 275
            A K V ++  LVE   H A+   +A+ E +V + D+                   DE+G
Sbjct: 497 AAIKAVVEQHELVECADHSADATRDASDEGVVSEHDHRGRRVAEVLRDDADEAVAVDEDG 556

Query: 276 IELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRND 335
           +E+L EE   + + EV++PE+E L  G  + DV + ADEAVVAD+EL  E +  EA  +D
Sbjct: 557 VEVLLEELRRELTVEVVVPEVEVLEHGDLEHDVGEAADEAVVADVELVEECEAAEALGDD 616

Query: 336 PTEPVRVNMEESQIGDEANFWRQIPCNVTMNREEEEVEMQSEVV--------EIGLVAVG 395
             E V V++EE ++G EA    ++P +V     +   +    VV        E+G   VG
Sbjct: 617 SAEAVGVDVEEGEVGQEAELGGEVPRDVAAVEVDARDDGSGVVVESRSACDAEVG-AHVG 676

Query: 396 SKQAVVENGLVGVGSELVGVENELVGVGSKLVG---VESGRGVGVSGRGVVVSGPGVV-- 442
           +  A  E   VGV     G+E   V     +VG   V++   + V G   V    G    
Sbjct: 677 ADPAAGEVPGVGVDGAAPGLERR-VRAAEPVVGEGDVDADLELEVVGEVAVALAEGQKLP 736

[Close]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match: A0A368R482 (Uncharacterized protein OS=Setaria italica OX=4555 GN=SETIT_5G127800v2 PE=4 SV=1)

HSP 1 Score: 95.5 bits (236), Expect = 9.8e-16
Identity = 84/266 (31.58%), Postives = 127/266 (47.74%), Query Frame = 0 

Query: 513 GMDWGVGGEIGAEVGDNDGAEVGDNCG------------AEVGGEYSIGDGGDDVIEV-S 572
           G D G G   G E G  DG+ VG                  + GE  +G+G  +V+E   
Sbjct: 125 GGDGGGGDGGGGEGGGADGSRVGGRLAPVAVPGHDARARRRLAGEEVVGEG--EVLEARQ 184

Query: 573 LGEGGVPTSGTEV-------SIDSGGEL----ADEAIGARIEDRKIDEVSDLGWETAAKL 632
           L       +G  V        +   G L    A E + A +E R++ + +DL  E  A+ 
Sbjct: 185 LANPRRYRAGEPVVRDVQLLQLPHEGHLRRQRARELVEADVEHRELPQQADLRREAGAEP 244

Query: 633 VADEENLVE-VGHLANGAGNAAMEFIVGKGDNG------------------DENGIELLG 692
           V DE++LVE  GH+ +    A+ E +V + D+G                  +E+G+E   
Sbjct: 245 VVDEQDLVERAGHVGDAGREASAEAVVREDDDGGRRVAEVVRELEAEAVVVEEDGVERAV 304

Query: 693 EECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPV 736
           EE G   + EV+ PE+EE   G  +DD R+ ADEAVVA++EL  E +  E GR D  E V
Sbjct: 305 EEAGRHGALEVVEPEVEEAERGEVEDDARERADEAVVAEVELVEEAEAAERGREDAAEAV 364

[Close]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match: M7YX06 (Uncharacterized protein OS=Triticum urartu OX=4572 GN=TRIUR3_19982 PE=4 SV=1)

HSP 1 Score: 90.1 bits (222), Expect = 4.1e-14
Identity = 84/250 (33.60%), Postives = 129/250 (51.60%), Query Frame = 0 

Query: 113 VREIQLGMDWGVGGEIGAEVGDNDGAEVGDNCGAEVG--GEYSIG---DGGDDVIEVSLG 172
           V E+ LG    VGG     +G     EVG  C AEV   GE + G   D G+DV      
Sbjct: 519 VVEVDLGF---VGGHARRRLGLE---EVG--CVAEVDEHGELADGLVHDAGEDV------ 578

Query: 173 EGGVPTSGTEVSIDSGGELADEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVE-VGH 232
            G V       + D  G+ ADEA+ A ++D  + E +DL    A + V +E++LVE +GH
Sbjct: 579 PGDVELLELAAAGDLLGQRADEAVAADVDDGGVGEHADLERHAALERVVEEDDLVERLGH 638

Query: 233 LANGAGNAAMELIVGKGDNG------------------DENGIELLGEECGGDFSFEVII 292
            A+  G+A+ EL++ + D+G                  DE+G+  L EE G   + E++ 
Sbjct: 639 AADALGDASDELVICEDDDGGGGVADGLRDGADEAVAVDEDGVVGLVEERGRQLALELVE 698

Query: 293 PEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEA 339
            ++E L  G  + DV + ADEAVVAD+EL  + +   A  +D  E V V++EE ++G++A
Sbjct: 699 ADVEVLERGHLEADVGEGADEAVVADVELPEDGEARHALGDDAAEAVGVDVEEGKVGEQA 754

[Close]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match: A0A6Q2ZAQ4 (CaM kinase-like vesicle-associated, like OS=Esox lucius OX=8010 PE=4 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 3.9e-12
Identity = 97/253 (38.34%), Postives = 126/253 (49.80%), Query Frame = 0 

Query: 353 VVEIGLVAVGSKQAVVEN--GLVGVGSELVGVENELVGVGSKLVG-----VESGRGVGVS 412
           VV  G   VGS Q VV +  G+VG G  +VG    +VG G  +VG     V SG+GV  S
Sbjct: 662 VVGSGPGVVGSGQGVVGSGTGVVGSGQGVVGSGQGVVGSGHGVVGSGHGVVGSGQGVVGS 721

Query: 413 GRGVVVSGPGVVGSGPGVVGSGPGVVESGQEEVGNELVVEERRQEVVGSGLVVEESGQEV 472
           G+GVV SG GVVGSG GVVGSG GVV SGQ  VG+   +      VVGSG  V  SGQ V
Sbjct: 722 GQGVVGSGQGVVGSGHGVVGSGSGVVGSGQGGVGSGPGIVGSGPGVVGSGSGVVGSGQGV 781

Query: 473 VENGPVVEESGQEVVGNEPVVEENGPVVAGNGLGVVVNELVV--------REIQLGMDWG 532
           V +GP V  SG  VVG+   V  +GP V G+GLG+  +   +        +  + G+  G
Sbjct: 782 VGSGPAVVGSGPRVVGSGQGVVGSGPGVVGSGLGLRGDTSPMSRERRSDRQSSEFGLSRG 841

Query: 533 VGGEIGAEVGDNDGAEVGDNCGAEVGGEYSIGDGGDDVIEVSLGEGGVPTSGTEVSIDSG 591
                          E+G   G+     YS G GG       L   G+ +  T+  +DS 
Sbjct: 842 AYSYTRVSTAYGPEVELGGYGGSYCSSLYSSGPGGG--AYAGLEHTGLGSGATDWQMDSV 901

[Close]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match: A0A7I8KZC1 (Hypothetical protein OS=Spirodela intermedia OX=51605 GN=SI8410_09013729 PE=4 SV=1)

HSP 1 Score: 80.9 bits (198), Expect = 2.5e-11
Identity = 56/173 (32.37%), Postives = 91/173 (52.60%), Query Frame = 0 

Query: 582 DEAIGARIEDRKIDEVSDLGWETAAKLVADEENLVE-VGHLANGAGNAAMEFIVGKGDNG 641
           D+ + A ++ R+  E  DL  E   K V  + +LVE +GH+A     A +E +VG+ D+ 
Sbjct: 119 DQLVVADVQHRQAREKPDLRREARPKAVVYDNDLVESLGHVAEARREATLEVVVGEDDHR 178

Query: 642 ------------------DENGIELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMAD 701
                             DENGIE+L EE     S E++  ++EEL     +D   ++A 
Sbjct: 179 HRRVAEVVGEIEGEAVVVDENGIEILVEELTRHLSLELVESDVEELERREAEDHPGELAG 238

Query: 702 EAVVADIELEHENKLGEAGRNDPTEPVRVNMEESQIGDEANFWRQIPCNVTMI 736
           E VVA IELE E ++ +  R+   E VRV++E+ ++  +A   R+IP +V ++
Sbjct: 239 ETVVAQIELEEELQILKLVRDRAAEAVRVDVEQREVLQQAELLRKIPGDVPVV 291

[Close]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match: A0A368QLS4 (Uncharacterized protein OS=Setaria italica OX=4555 GN=SETIT_3G342300v2 PE=4 SV=1)

HSP 1 Score: 79.3 bits (194), Expect = 7.3e-11
Identity = 99/329 (30.09%), Postives = 149/329 (45.29%), Query Frame = 0 

Query: 156 DGGDDVIEVSLGEGGVPTSGTEVS----IDSGGELAD--EAIGARIEDRKIDEVSDLGWE 215
           D  + V E  +GE    T   + +    +   GEL      I A ++ R +DE+ +L  +
Sbjct: 437 DAEEVVREAEVGERRELTDALQHAAGEPVPRNGELLQPGHLISADVDYRGVDELGELRRD 496

Query: 216 TAAKLVADEENLVE-VGHLANGAGNAAMELIVGKGDNG------------------DENG 275
            A K V ++  LVE   H A+   +A+ E +V + D+                   DE+G
Sbjct: 497 AAIKAVVEQHELVECADHSADATRDASDEGVVSEHDHRGRRVAEVLRDDADEAVAVDEDG 556

Query: 276 IELLGEECGGDFSFEVIIPEIEELSGGPFKDDVRKMADEAVVADIELEHENKLGEAGRND 335
           +E+L EE   + + EV++PE+E L  G  + DV + ADEAVVAD+EL  E +  EA  +D
Sbjct: 557 VEVLLEELRRELTVEVVVPEVEVLEHGDLEHDVGEAADEAVVADVELVEECEAAEALGDD 616

Query: 336 PTEPVRVNMEESQIGDEANFWRQIPCNVTMNREEEEVEMQSEVV--------EIGLVAVG 395
             E V V++EE ++G EA    ++P +V     +   +    VV        E+G   VG
Sbjct: 617 SAEAVGVDVEEGEVGQEAELGGEVPRDVAAVEVDARDDGSGVVVESRSACDAEVG-AHVG 676

Query: 396 SKQAVVENGLVGVGSELVGVENELVGVGSKLVG---VESGRGVGVSGRGVVVSGPGVV-- 442
           +  A  E   VGV     G+E   V     +VG   V++   + V G   V    G    
Sbjct: 677 ADPAAGEVPGVGVDGAAPGLERR-VRAAEPVVGEGDVDADLELEVVGEVAVALAEGQKLP 736

The following BLAST results are available for this feature:
BLAST of CaUC06G110070 vs. NCBI nr
Match NameE-valueIdentityDescription
RCV24953.12.0e-1531.58hypothetical protein SETIT_5G127800v2 [Setaria italica][more]
EMS52162.18.5e-1433.60hypothetical protein TRIUR3_19982 [Triticum urartu][more]
XP_028980182.28.0e-1238.34caM kinase-like vesicle-associated, like [Esox lucius][more]
CAA7403051.15.2e-1132.37unnamed protein product [Spirodela intermedia][more]
RCV18925.11.5e-1030.09LOW QUALITY PROTEIN: hypothetical protein SETIT_3G342300v2 [Setaria italica][more]
BLAST of CaUC06G110070 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A368R4829.8e-1631.58Uncharacterized protein OS=Setaria italica OX=4555 GN=SETIT_5G127800v2 PE=4 SV=1[more]
M7YX064.1e-1433.60Uncharacterized protein OS=Triticum urartu OX=4572 GN=TRIUR3_19982 PE=4 SV=1[more]
A0A6Q2ZAQ43.9e-1238.34CaM kinase-like vesicle-associated, like OS=Esox lucius OX=8010 PE=4 SV=1[more]
A0A7I8KZC12.5e-1132.37Hypothetical protein OS=Spirodela intermedia OX=51605 GN=SI8410_09013729 PE=4 SV... [more]
A0A368QLS47.3e-1130.09Uncharacterized protein OS=Setaria italica OX=4555 GN=SETIT_3G342300v2 PE=4 SV=1[more]
BLAST of CaUC06G110070 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
CaUC06G110070.1CaUC06G110070.1mRNA