ClCG08G003960 (gene) Watermelon (Charleston Gray)

Overview
NameClCG08G003960
Typegene
OrganismCitrullus lanatus (Watermelon (Charleston Gray))
DescriptionABC transporter, permease protein
LocationCG_Chr08 : 12498342 .. 12534610 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGGAGAATTCGGTCAAGGAGGATGTTTGTTCATCACCATTAGATCGTTCAACATTTGGTCTGATTGGGAGAGTACGGTCTGAGTTAGGGTTAGAGGAATCGAGCCTTGGGTTGTTTACTGGTTGTGTAATGTTGTCACTTGGATGGCTTAATGGGTTGTCTAAATTCAGATTGGATGCATTGTCTTGTTGGTGAATGGAATTTGGGCTAATGAGCTCACGAGAAGAGGTATTGTGAGCTTGGTTTTGTTGGACTATGGCCTGAGACGGTAGTGGTAGGTTATTGACTATGGGTTTTGGAAATTGGACTAGGCTTTTATGTTGGGTTTATTAGATAAGGTCGTGGGCTTTGTTGCTGAGGCAAAAGGAAATTCAAATTCATTGAATTTGACATGTTGCGAGATATACATACGCCCAGATGGACTGAGTCATTGATATTTCTTGTGTATTGGGCTCGGCCCAAGGTAGGTGCACTTCTGAGTGATATTGAAATTTGTGGTCTTGATAAGGTTTGAGGCACGAGTAGCATGCACAACCGAATACCCTGAGATTATTCAAGTCATTTTTTGTGTTAAAACATTAATTCAATTGGAGATTTGCCTTTCAAGACTGGTGTTGGTAACCCGTTGATTAGATATGTAGCTGTGAGAAATGCATCCCACCAAAATGACAAGGGCAATGACGCTTGGGCCAACAGTGTAAGCCCAGTTTCTAGAAGATATTTGTGTTTCCTCTTTGCTCTTATATTCTGGCCGACTTGATGATACCCATTTTATCACAGACTTGATGTATTTTTGTGTAGTCCCCTCCATTATCTGACTGTAAAATCTTATTGACAGCATTGAATTGAGTTTTTATTATTTGAATAAAGTGTTCTAAGAGTAAGTCCACAAAAAATGACTAAAGTCGTCGATAAATGATATATAATACTAATATCCATTTGATGATGTTATTGGTGACGCACTCCATACATCCGATGGACTAAGCCAAAACGCTCAGTTGCACGAGAGGACAATTTTGGAAACGGGAAGGCATTTGATTTCCCCAAATGACATGATTCACAGAAAAATAATTCTTCATTAGATTTAGTAGCAGAATTACATCCTCTAAGTATGTAATCTAAAACTTTGGGTGATGGGTAACCCAACCACCGATGCCAAACAATTCGAGATTCTACAACATTGACTCTATTTCTAGAAAGAACCAATGTTGCAGTGTTCTTAATTATATTCATCAACTATTTGTCTTCATTCCTTCCATCTTTGACGATCTCCATTCCTTCAAACCAATATAAAGACCATTGCTAAGCTCCCCTCTCAATAGCCTACGACCCATAACCTTGTCCTTGAAAAGACAGTGATCACCATAAAACTCAATAAATATGGCATTATCTTGGGCAAGTTGAGATACACTAAGTAGATTCTTAACTATAGTAGGAACACAGAGCACATTTCAAAGTCTAAAACTATTTTTTCCATTAGAGAAGCAAGAGTTATAGTATGTGAAATGTAATTTCTCACCATTACCAACAGTTACAAGTTTTATACCTCCATATTTAGTGGGTTTGGCTATGTTGTTGTAATCAACCGTCACATGATTTGTGGCCCCGCTGTTAGCATACTAGCTAGAGTCACCTACTGTCTCAAGAGTAGCTATGAACGGTTACCATTCTGTGTAGCGACAAATGTAGTTGGATTGTTGTTTGTATTGCCTGTCGATCCTCCATTTCCACAGTTGAGACTGGTGTCCTAAATCTCTTAGGATCTCGTGATTTGTAAAGTTGTAAATGCATTTTATTTATTTAATAAAATAAGGAGTTATTTTATTTATCTTTTGCATTAACTAAATCCAATAAACTAGGATCCATGGTTATTTTATGTAAACTTAAACATGTATATGGTTGACATACAAGATTAGATCATGTTCAAGTAATAACCAAAAAGGTCTGTAGTATGGAGATAAGGTTGGGTGTCTTATCCTGGTAACAATACGGATACAACCCGCTTTGTAATTGTTGAATGAGTTGTAAAGTGTTACAGACGATTTGATCCTAATCGTTCATGTGGAGACTATTAGGATTTGTAACCCAAAGCCTTGTAATTGTTTAGTTAATTAATTAATTTAATTATTAATTATGCAATAGTAATTTATCCATTAACGAAAAAATCCAAGGCTATTGCATGAAGTCTTAAACATATATGTAATTAACATACGGGTAGCCTAAAGGTCTATAGTATATGGATAAGGTTGGCTGCCTTATCCTAATGACACTATGAATACATCCCACTTTGTAATAGTTACAAATAGTTTGATTCAAGCCCTTCATGTGGAGACATCCGAGTGGGGGTATCCTATATAAAGAGTTTGTATAAGACTGGATCGCAAAATATTTAATCTCTCTTTGTAAATCTGTTAATTGATGAGATTAATATTTCATAAGATGATCATGTGCGACTCGATCTTAATTCTGAGTGACTTATGAACTTCTGTCTGTGAGGTCGGTTCTTTGATTTGCATGGGTGAGAGTGGCCTGGGTTGCCAACTCAATAAGCCTACCATTTTGGGGATTTGACTAAATGGAGAATTAAGAACATAACTTCACAAAATGGAATTCACTCCTTTTCAGATAGGATAAGTAGATGAGTAGTTTCCTTAGGTGCTGATTTCAGGTCTTGAACAAGGGGCCCTACCCTCTCACTAGCCCGAAAGGGACTTAGTTTATGGTTGGGCCATAAACAAATTGTTCATTAGAGAATCAGTGGTACTTAAGGAAAAATGGTAATTACAGGGGTAAAACAGACATTTGACCCAGCTGTAATTATGAACAACTCGTGCAGGATCGACCTACTTGTATTGATTATATCCATGGACACAACTTGTAACGGCCCGAAATTTAGGTAAATCACATTTTTCTCTCTTTATGAAAAAAAAACAGTATATATATAATAATAATAATAATAATAATAATAAGAATAATAATAATAATAATAATAATAATAATAATAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAATTAATTACGCAGGCGGAGAAAGTGTTAAGGGGGATTGGGGGATTCTTGGTCATTAGGAGAAATCGGGTTTCAGTTGGGGAAAGATCTCCGAATGGGTTTTTATTGGCTGAGTTGCGTTTTAGGAAAAGGAAAGAAAGGGGGAGAAGGGAAAGGTAAAAATCTCTCTCTCGATCACCTCTTTGTCACTCAGTCGCCGTCCCCTTCAACCCTCATTGCCGCCATCATCTCCCGCCCTCACTGTTGCCGTCATCGCAATACTCACCGCCATCGTCACCAGCACTCATCGCCATCATCGCAGCTTTCAGCTAGCGCCATCATCATAGTCCTCGAGCCCCAGCGTCTCAGTCCTCATCGCGTCGCATCGTCACAGCCTGCATTTCGCTGCATCATCAGTCCATCGCCGCATCGTTACAACCCGCATCTTGCAGCATCATCAGTCTTCATCGCCGCGTCGCCGCTGCCCTCTTTGCGACCTATCGTCACAATCTTCGTCGTCGTGTCGCCTGTCCTCTCCACGACGCGTTGTCACAGCCTTCATNCAGTGCATAAGAGTTCAACTGTGGGCCTATAGTGGTTTGCCCTATAGTTAATAAATGAGAATTAATATAATTAAAGAGTTTAATTAATTCATCTTGGACCAATGGAGCTTATAATCTATAGGTAAAGTCCCTTGCTAGCTCACAATACCTACAAGGATCAACTATATTGAAAGAAAAAATTGAAATGTTCACATTTACGAGGAAAAATATTAATTGTATTAGATACAATTAATTATATGATTTATTATAAAGTTTATTTGAATAAGGTTCAAATTATAACTTTCTAATATGAAGAATTAATTTATTTGAATATGATTCAAATCATTAATTATATATTTGAATGAAATCCAAGTAAATAAATAGAGGGGGAATTAATTAATTAATTTGAATTTGATTCAAATAATTAATTATTTAATTTGGATGGGATTCAGATTAAAGATTCTGCATAAGATAAATATTTAAATATGATTTAAATATTTTAAACCATTTAATATGAGATATTATTTGGGAAGATGAAGGAGTTAAGAACACACAAAGGGAAGCAATTCAGATCTAAAATGTCACACCCCATCCCAGATACACTCTATACCTAGGATTGAGCGTGATACTGTACTCCCTATATACATATTAAACATTAGACGCTAGATAAATCTCAGATTTAAAACACCATTTCTATTAAAACAATAGGAAAACATACAATCTCTCAACAGGTACTTCCTGTATATATATATATATTAGATACAAAACAACTTCCCATCATCTCTAAGAAACGTGTATGTTACAAAACATGAGTGATGTGCCACTTTTGTGTGTTAACCGCAAGTGTACGGGTCAAGTTATAATATAAAACGGTTAAGTCCGAGTATCGTTTCCACTAGAGATCCAATTGGGAAGGTTTAAGTTATTTAGCTATTCTAGAATTGAATCAATTTTATTTGAGGATTGGAATTCAACTTTTGTTTTTGGGAAAAAGAAAAATCAAGAAAGAAAATATCAAAGGAAGAATTGCAAGAGTCAAAGAGAGTTCTAAGGTTTCAAATCCTTGTTTGTTTCATCATGCAAAATTATGGATTTCATGGATTTAATTCTTATGCCTAAGTCTAGAAACTTAATTCCAAGTTATCTTCTCTCAAAGACAACTCTTTCTCATGCAACTTGATTGATAGTTAATCTCTTAAAACCAATACAAAATTACATGGCATTAAAACTAGTCTTTAGCAACTTTCATTGTAAACCTAACTACTCTCGTGATAGATTAACAACGATTCATTGTTATAGATCAAATTAAACATATAATCTCTCGATTCATACATCTAATCTAACATGTGAAGGTGGCCAATCTTCAAGAATTAAACACAATAACAATGAAAAGCATATTTATTTGAACAAAACCATGAGTTTACAAAATTATCATGAGTTTACAAACAATTCATCAAAAACCCTAAAACCAAAGAGTTTAGCCACTCATAGCGTAAAGCAACATATTGATCAAAAAGAATCAAAGAAAGAGTGTAAAGAATAGGGAAACTCTACTGAAAAGAGGTTCTTGATTGAGGCAGCACCGTCACGAACTCCTTGGCTCTCGCGTCGGACTTCGAAGGGCACCAAAACTATCTCGAACTCTTTTCCTCTTCCTTGCGGCTAACTCACTCTTGGAACTCTAGCTTAATTCTCACCTTTTTGGATCTTTCTTTTGTTCTGCAACTTTTCTTGATCTTCTTGATATTTCTCCCCCTTTTGGCTGCTGAAAACCCCTAAATTTATAGAGTTTGGCCGCCCAAAATTTAACCTAAAATACAAAACTTGCGTTTAAATTAACGCTGGCGCCGCGGCGCTGACGCATAGCGCCGCGGTACTAGCGTTGCGACCAAAATTAAGTTGCTCTCGGGTTTTAGCGCCGCGGCAGCGCCGTCCCAGCGCCGCGACGCTGTCTTGCGTTCACCAAGTACGCGTCGAAGCAGCGCCTTCCTAGCGCCGCGTTGCTGCTCTGCGTCCATGCTGATGCGTTTCTGCCTCAGCGCTGCCTTAGCGCCGTGGCGCACCATGCGTTTCAAGCAAGGATGCGTTTTTCAGCACTTTTTCTCCATATTCTTGCTCGGTTTTGATCTTTCAGTCGTTTCTTCTAATTTTCCTCGTTGTAACCTGAAAATCACTAGCAAACAAGTGAAATCTAATATAAAACTCCCTTACTTTGAGAGAATAATAAGCACTTTTCAAGTGCTTATCAATGAGCATAGACTAAATATTTACAACTATCCCAAAGGTTTGCTTCCAGATAGACCCAGACGAGATTCTTCTGTAGGCTAGGCGTCCCGGACACGCTCGCTACCTGAAACGACAAACAACAACAAACTGGATGAGCAAAAAGCCCAGTGAGTGACTAAATCTATTTAACTATCACTAACAAATATGAGCAAGCTTATCCATTAGTAACCATTACGTATCACATCTCAGAGAGTTACTAAGGTTCTCCTTCCAAATTATACATATAAATGTCAAATCCTCATGTCACACAGATTTTGCAACTATCTAGTGCCTTCACATTCTGTCCCTCAGCACTTATTCGATTATATTTACATTACCATGTGCCTTCACATAAAGTCCCTCAGCACTGGTAACCAATTCTATCTTCGCTCAAGTGCCTTCACTCATGGTCCCTCAGCACGAGCTAGTATGTGATGGGTTACTACATGCTTTCACTCATAGTCCCTCAGTATTGTAATCCATTCCTCATAGCTATTCAAGTGCTTTCACACAAAGTCCCTCAGCACTTAACTTCATGCTCACTTACATATAGGCTTTCACCATAAGGTCCCTCAGCCATTATTATATTTAGACATTAGCATTAGTACCATTTTAACTTGCTAACACATCACATTCACAATGGATACTGCAAAGGATCACATTTCCTCATCAAAAAAGTATACTAAGTTAATCTCAAGATATAATAAAAGGTCACTCACGATTTGTCTCGGCTCTAAGTGGATTATAAGCCTCCCCGAGCTCTTCCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACATTTTGATCAATTCCAGAACTTACCTCCTTCTACAAACTTGTTAAGGCGTAAGTTCTTCATCTTACCTCGAAATTTCATGAAGAGCATCCTCTTCGTTTAGGGTATATCCTTCAACAACCTCGAGTTACCCCTAATTGTCGGGCAAATTCAGCGTTAATCTCTTCTATCTGAGTTTGACACACATTAATACAATTTCAGCTCAAGCATCCTTCATGAAACTTGCTAAAAATCGAGTTAACTTACTAACCTCAAAAGTTCCAGCCCTAACCACCGTTCCTTCAGTTTGTTCTTCCTCCAAAACCGAGCGTCACTCTGATGAAGTAACACCAGCTGAGTCCCCTGCCCAACTCAAGTTCCTTCCACGGTTACGATGAGATTTCCACTCCAAATCAGCGTGAACATCTTCTTCTACCTCCTTCCGATGTTTAGCTTTAGAATGAACCCAACTCGAGCTCTGAAATGCAATTAGAACAATTGAATTCTCGATCCACTTATATATATACCACCGACTTAATCTCCATTTCAACACTACACTACACTACAATCTGTTCAACGCAATACCTTCTATATTTAGCTTCGGCAACATACAGCCTCTGATGGTGTTTCTTTTCAAAATTCTCCTGCCAGATGGTTAACAAACGCATTACTCTCTCTCGGCCAACCTTCTTTGTCCAACTCGTACTCACTTTCGACGCATGGTAGCGTTCACCGCATAATGACCTTATCGCAAATCAGCTCTCAACTCCTCGTGGCCATTAACTTCCAACGCCCCACTGCCTTCAATGCGTTTGTCGCAAGAAAATCTTCGGTACAAGGTGGTTCTCCACGCCTTATGTCCTCAACGCGTCGTGGCTTCAACGCCTAACAGTCTTCCCTCACCTTTGCGTTTACACCAAAACTGTTTCCATCAAAGCATGTTGCCACCAACGCATAGCTGATACTTAGTCATTTTTTCGCCCCAATCACAGTCCAGCCAACTACTCTTACCCAATCGTCCATCTCTCGGCCCCTTCTTACCTTGCGTTCTCACAAAATTAAGTACGGGGCTCACATAAAACACTCTAACTACCTCAATTTTAAGGATTAAAAATGCTAGTTCTAAAAACCGTAAAAACAGATAATGATACTTACTTGTTGTAGCTCAAAATTGAAGCAATTTCCTTGATAATTTTGATCACAAACACTTCATGGACCACCACAAGAGACTTGCTCGTTATTCTCTGGCCTTAGAACGGATTGTGGGATCCAAATTGTGATGAATTTGGAGCAAGTTTGAAGGCAATTGAGAGTTTTGGAGACTTTGAGAGTTAGTGAGAATTTTCAGCAAAATCCACCAAATCATTAACCCATTTTCAAGTTAATAATCCTCTATTTAAAGAAGAAACCATACAAATTAGATTTTCCATGAATTGATACCAATCAAGTGAATTAGAAGGTGTTTCAAGGATGTTTAAGACTGTTTAAAAACCACACAACTCCTACTTCATTCATGTAAAATTGAGATTCTTAATTTTAATTTTAAATTCAATTTCTAAAATTCAATTTCATAAATGAATTTTTTTTCCTTTTTTTCTTTTAAAATTCACTTACTTAATCAATAAAAAAAATATTATTTTAATATTAAATATAAAATTAATTTAAATAATAATTAATTAAACAATTTAATTAATTATATTAAATTAATATTGAATATTATTTTAATAATTTCTCCACTTATCCCGACATTCTCCAATCTGATGAATCTCTATTCATGTAATTAATATTTAAATTATATTTAAATATTTTTCAACTCTCCAATTTTTGTTTAATTCATAATTAAACAAACAAAACGTAATACGTACTCCTTAAACTGAATTTGAACGTTTTCAAATTCTCTCATCACACTGTTTTAAGGTTTAGTCCATAGCTAAGAAGGGGGCCTAATGGACCTACAGATCATGAGCTCCAACGATTCAAAATTAACCGGCTAAACTCTTTAACCTAGTTAATTAACATTCGTTAACTATCAGAACATTCCACTATAGCCTAGTGGCTATACTCTCCTCATTGTAGATATATTTCTATCCACTTGGTATAATCATGATTAGTAAGTCGATCCCTCACAAGTTGTTCATAATTACAGCTGGGTCAAAATAACCATGTTACCCATGTAATTACGTCTTATTCCTTATATCCCACTAATCCTCTAATGAACAATTGGTTGTGGTCCAATCACCAAACCGAGTCCCTCTCGGGCCAATGAGAGGGTGGGGCTGTCACACCCTCTACCAAGTTACCCTTTCAAACTTGAAAAGAGGCATGAAGACAGTAGACATCGACCCTTTTACGACATCTACTGTCAACCTAGACTCTTTTCCTACTAATATACTTAACATGCACAACTTAAACAATCATACTTTTATTAATCAGCAAACTTAGAGTTTACACAATTTACAACTCATAGCAACTCAGAATTCCAACTCTAAACCCAATAAGCTATCCTAAGGCAGACTTCGACTTTGCACAGCACGGGAACTCCTTTGCTACATGAAAGGAAAAACATAAAAGAACAGAATGAGCTAAAAAGCTCAGTAAGTGACAAGGGTACCTTTTGACCCTTAAAATATGAACAACATAAAGCAATACATGGCATAATATGATAAATATCATAAATAAGCAAAGCTTAGCGTATAGCCTCGACTTCTCTGGATTGCATGTGCTTCTCCCTCTGTCTCAACTCTACTAATCTTTGTCTCATCTTATCTTAGAGCAACATGTTTTACCCTTGAGGACTTAGCTACTCTCTACAGGCCCACACGGCTTTGCAACATAGCTTGCCTCTCATCTTAGATTTTACACTTACCTTGTTGATGTTCTCATTCCCTACTAGCACACATGGCTCAACAACTAAACTTGCCTCTTAAGTCTTATTCTTATCCTACTGGCAACACATGGCTCAACAAATACTTATTTCTCTCATGTTGTACCCTTACCCCTTTCTCAACTTAACCCTAACCTTTTCATTGTATTCCTGGCTACTCAGCTGGCACACATGGCTCAGCTAGTTTAAACTGTTCCCCTATGTGCATGTAGACTTACCTCTGAGGCTCAGAAACTAAACCCGTCGATCCTATGACCATCCTACAAGAGGTACTTCTCACAGGCTTAGAAACTAGGTTCCGGTAAGCCATTGACCATCCCATGAGGTTTAATCTCCGACACAGGCTCAAAAATTAGATCCTCTATCTTGTGCGGACTTAATTTCTACTACCAATCATTAACAAATCCATGTTAATTCTAATAGCATATCTATCAATGTTTTCTCACGATTCTTCAGCATTGAGTTCGTCACTTACAACTTAAGGGTACAACCATGACTTATCATACCTATATTCAATCATAACCCTAGATAATCCTACTTGAGTATTAAAGATTTTGAATATCTATAATCCTTGAGGCCATACCAATCATGCTTTCCACTTATTTAATACAAAGGTAAAGCATACTTGCATTCATAATTCATGTGTCTAACTTTAACCTTAGCATGAAAGCATAGAGGTTAGTCACTCACCTTTCTCCTGAGAACTTTAATACTCAAATCCCTTGTTTCCTTGCTCTGCTACACTCCTTCAACCTTTAGCTTGCTATTTACTTCTTGAGCACACAACCAGGGTTCTAATTTCTAAAACTTGCCCATAGACAGCCTTGTGGACTGCCAAACAACTCAACAGACGCCAGGAATGCAACAAATGGACGCCTGGCCAACCCTAAAACGCATAGCTGCAAATTGAATGTTTGGACTGCACCAAATGGACACACAGCAGTCCTTCTTGGACACAAAGCCACTACCTTCGACGCATAGCAGATCCTTGGACGCAGAACAGTACCCTGCTAAATGCAAGACAACTCTTTGGACGACAAAATAGTCCCTTGGACACCCAACTCACCCCTTGGATGCATGGTCACCCTCATGGACGCAAGGCAGCTTCCTTTTGCTCCTCATGGACGCAAGGCGACTTCCTCTACCTTGTCGAAGAATTTCCTTCCCTTTGTCGACGAAGTTTCTTTCCCTCTTTCTACTTTCTCTTTATTTCAAACTCAAGGTGATCTCCTTTTCTTAAGAACTCAATCTCTATTTGTAGGAATTGGATGGCAAGCCTTGTCATCCAATCCTTTCCTCCAAGCTTGACACTTAAGCCTAGGAAATGTCCTCATCATGTCCTATCTTCACATGCAAGATGACACCTCCTACTTGTGACATGTTTAACTCAAAATCTGCCACCTCCTACTTTCTCTTAACCCTTGGACGCATCCTCAAGCTTCCCCCAGGCATCACCTATGCGTCCAACATGGTAAAATCCTACCATGCATTTTACTTGGCTTGTACACACACCATGCATTTCTCACTTGCATTTCAACTTAGGTTTTCACTTGTAACTCCATATAGATGCATCCAACTTGGCTTATTCCTTAAGTTATGCATCCAAGCCTCCTCACACAATTTCATGGACTCCTCATTAACTCTTCCTATGCGTCCATGATGCTCTTTCTAGGCTTGTGCATCCAACTTTCTCCTCCCATGTGTCTCACTCTTGCTTCCTTAAGCATACTTTCGTTGCTTTCCACATGAATCATCTGACACTTAGTCATTTCCTTCCAAGATCTAGGGTATGTGTCCATCACACTTGAACTTAGCCAAAACTTTTGTCTTAATACCCTCCCATGCGTTTCATCTCTCTTTTCTTAGCTTAGGTGTTCCTTTCAATACTTCAACACTTAGTCAAATTCTCCTTAACTTCTTATCATGCGTTCTAGCAAGGTTCTTTGCGTGCATAGCCTCTTCCCTACCCACGAAGCATGTGTTTCATCCATAGTTCTCAGCTACCAAACTAACCCTCAAGCATGTTTCCAACTCTTCCCTTTTTAACACTTAGAAAATTCTCCTTCTAGCCCAGTCTATGTGTTTATGGCTTGCTTCCTAATCATACTTAGGAAGTTTTTACACAATTTCTTGTCGTCCAACACTTGGAAAAATCACCTACCTTGTTTTCTCCCAAATTCATCTATGACTTATTCTCTTCTCAAAACCTAAGTTGACACAAATACTTTTCTTCTTTCATCCTTTTGTCAAACGCATGGGCATCCCTTAGTCAAAATTTTGTCTAACTTCACAAGCTTAGAAATTTTGCCTCAAAATTTTTCTAACTCCATAGGCTTGTACTCAACTTTTCCCTTACATTCCCATTTCTTCTCCCAAGTACTAGGTCAGAATTTCGGGTCTCACAAGGGCCCTTTGTCCAAGACCCGGAGTCAATACTTAAGGGAACAACTTCTCTACTAACCTTGAATTAGGTAGGAGTGAATTCCATACTATATCCTCAACTATCTACCTGGTATGGTAGGCTTATTGAGTCGGTGAACTACAGCCACTCTCACCCATGCAGATTAAAGGTTAGTATCCCAAATAAGCAGGAGTTCATAGTCAGCTCAGGATTAAGATCAAGTTACCTAGTTCATCATATTGAAATAATCAGTCTTTATAGTAAACAACGTTATAAAGTAAAAGTGATTATCTCACGGTTCAGTCTTATGCAAACCCATTGCATAGGATGCCCCTACTCTTATGTCTTTACATGAACGATATAGGATCACATTGTTTGTATCAAATACAAAATGGGTCACATCCATAGAGTCTTCGATCGTTTTGGCTATTACCTAAACTTAATCCATTTTTATTTCTACACATAAAGTCTAAGTATTCAAACTATAGCCAGGGGTTCTTTGTTTATTGAATTAGAATTAGATTAAATGCAATTCACATATTCAATAACATCTTTATTGAGTAAACCTCGATAACAACTTTATTGAAAATAAAATATATATGTTTAATGTTTACAAACCACAAGTTTTAGGACATAATCCCAACAGTACATATTTATTAATATTGGATATTATTAAATATTTAATTTAAAATCTCTAGAGAGGGGTTATCCTAATAAGATTGGGAGTAACCCACAGAGTTCTATAAATAGGGCCCTTGGGAACCCTCATAGGACACACACTCTCTACAAGAATGATCTCTACGATTATTCTCCCAATTTCTTAGAAAAGTTCTAAGAAAATTCTTCTTCTCATTTCTTCTATTCTTTCAAGAAGCGGTTCCCACAAATCGGATCCTTGCCAGAGTCATAGCAAGGAAGATCTCTTGGAAAAGGAAGACTATTGGTTTGAGGAGAAAAATTTGCTGAAATTATGAGTCGATAAAGGTATGTTGCTTAACCTTTTCTTAATTATTTGTATTTTAATTCTTTCAAGAAATCAAAGAACGCAATCACACACTTCCGCCAGGATTCAATTCCCTTTAGACATATGAGCGGGGGTATCCTATATAAAGAGTTTATATAGGACCGGACCGCGAAATGCTTAATTTCTATTTGTAATACCGCTAAATGAAGAAATTAACGTTTCATAAGATGACCATAGGTGACTTGACTTTAATCCTGAGTGGGTTATGAACTCTTGTCTATGAGGAAAATTCTTTGATCTGTATAGGTGAGAGTGACTAGATCGTCGACTCAATATGCCTACCATTTTGGGGATTCGTCTAAGTAAGAAGCTGGGAACATATCTTCACAAGATTTAATTCATTCCTTCCTATCTTTAGGGTAAGTAGATAAATTGCTCCATTAAGAACTAATTTCGGGTCTTAAACAAAGAGGTCTCACCCTCTCAGGCCACTGAGAGGGGTTAGTTTATATTTGCACTATAAACTGTTTGTTCATTAGAAGGATCGGTGGTACTTAAGAAGTTATATGTACCTACAAAGGTAAAACGATAATTTGATCTAGCTGTAGTTACGAGCAATTTGTGAAGGGTCAACTTACTGTTGATTGGTTATATCCGTGGACACAAAAATATAACTATAGTGCGAAAAGTGCAGTTGTAAGTCTTTGATGGAATGACTTACAGTTAATGAATATTGATGAATTTAATTAAAGAGTTTAATTAATTAATCTCATATCATTGAAGCTTCTAATCTATAGGTCCATAAGGTCCCATTTCTAGCTCATTAAAGGTTTGAATAAGAATTAGTTATTTAGGATTAATTTAAAGTGTTCAAATTATTAAGGAAATTAATTATATATGATACAATTAATATAATGTATATATAAGATACCCCCACTTACATGTCATTACACGAACAATTTGGATCAAACCGTTTGTAACACTTACAAAGTGGGTTGTATCCATAGTGTTACCAGGATGAGGCACCCAACCTCACCCATATACTACAGATCTTTTAGGTTATTTATTGAACACAATCCAATTATATGTCAGCCACATATTGTTAAAGATACATTAAATAACCTAGAATCTTAGTTTATTAGATTTTGAGTTATGCAAATAAATAACAATTATTATATAAATAAATAATACTTTATTTATTAATTTATTTACAAATTTACACAGACTACAAGATTTAGAACATAAATCCAACATGATGAACAAATATTCCATCTACTAAATGCTCAATTTGCAATCCAAGGCAAAATTTTGTTTTTCCAAGATCGTTTATCTCAAATTCTTTCTTAAGATATTCTATTACCTTTGAAAGCTCTTTAGGAGTTCCAATTATATTTAGGTCATGAACATATACAGTTATAATAGCAAATCCTAACTGTGATTTCTTTATAAAAACACATGGACATGTTGGATTATTTTGATATCCTTCTTTCAACAAATATCCACTCAGCCGATCATACCACATTCGTCCTGATTGTTTCAATCAATATAGTGATCTCTCTAACTTTATTGAATATAGTTCTCGAGAACTTGATTTATGTATTTCAGGTATCTTAAATCCTTCTAGATTCTCATATAAATATTATTATCGAGAGATCCATATAAATATGTTGTGACTACATCCATAAGATGCATGTCCAGATTTTCATACACAGTCAGACCAATTAAATATATTAATGTAATTGCATCCACCACTGGAGAATATGTCTTCTCATAATCAATATCAGGTCTTTGTGAAAAACCTTGTGCAACTCGTCTTGCTTTATATCTTGTGACCTCATTATTTTCATTTTTTTTTCTCACAAATACCCATTTGTATCCCGCAGATTTGACATCCTCTGGTGTTCGGACTACTGGTCCAAAAACTTGACGTTTTAAAAGTGAGTTTAATTCTGCCTCAATTACTTTTTTCCACTGAAGCCAATATTTTCTATGTCAACATTCTTCAACAGATTTTGGTTAAGGATCCTCATTTTCAGATAGAATATCAAGTGCAACATTATATGCAAAATTGTTATCAATAAATACATAAGTTCGGTTCCATCTTTTCTCTATCATGACATAATTTATTGAAATCTCATTATTATCTTTAGGTATTTTACCTTCTTCACTAATTGGATTATCAGTCATGTCCAGGGTTTCTTCATGGATATTTACATCCTCAATCACGTCTTTCTTACTATTGTTTATTTTTCTTTTCCGAGGACTTTTATCTTTGGAACTCACTGGTCTACCACGCTACTCGAGTGTTCCTGACTCATTAGTGATAACTTGTTGTGTTGGAATATCAATTTTCGACGAAACATTTGCAATAGGTATATGTGACTTAGTTACTTTCTTTACATCTATAAATGCATCTGGTAATTGATTTGCTATATTTTGCAAATGAATTGTTTTCTGAACTTCAAGTTCACATTAATTTGTACGAGGATTTAAATGAAACAATAATGATGTATTCCATGCAATTTCATTTTCCAACTTCTTAATTCCTCCCTCTAATGTTGGAAAATTTGTCTCATTAAAATGATAATCAACAAATCGTGTAGTAAATACATCACCTGTCAAGGGTTCAAGATATTTAATAATTGATGGGGGAATCATATCCAATGTATATTTCTAACCTCTTTTGAGGACCCATCTTAGTACGTTGTGGTAGAGCAATTGGAACATATATTGTACATCTAAAAATTCGCAGATGAGAAATATTTGACCCATAGCCGTAAGCTGCAATGATGAGTATTTGTGATAAACTACTAGCCTAGTGCATGCAAGTGACACAACATGCATAATAGCATATTCCCGTACGGATGTAGGAAGCTTAGCTCTCATAAGTAATGATCTATCAATTAATTGCAAACGTTTTATAAATGATTATGCTAAACCATTTTGTATATGAACATGAGCTACAAGATGTTCAACATTTATCCCAATTGACATACAATAATTATCAAAAGTTTGGGATGTAAATTCACCAACATTATCAAGATATTCGATCTTAATTGTATAATTAGAAAATTGTGCTCTTAACTTAATTATTTGAGCAAGTAATCTTCCAAATGCAAGGTTTCGATTTGATAATAAGCACATGTGTGACCATTTACGGGATACGTCTATTAATACCATAAAATATTTAAATGGTTCACTTGGTGAGTTAATATGTCCACATATATTACCATGAATTTGTTCTAAAAATGCAAGTGATTCAGTTCCCATTTTAGCTAGTGATGTCTAATTATTAATTTGCTTTGAGAGCAAGCATCACATGATAATTCACTAGATTGAAGAATCTTCTGGTTTTTCAATTGGTGTCCATTTGAATTTTGTACAATTCTCCTCATCATTGTAGATCCTGGATGACCCAATCAGTCATGTCAAATTGTAAATATATCTGGATTCATGAACTTCAGGTTCATTGTTGCATATATTTCAATGACTCGTATATGAATATAATATAATCTAGAAGATAAAACAGGCAGCTTTTCCAATATACTTTTTTCATGTGAGACAGTAGATATGATATAAAGATATTCTAACTGATTGTTTCGATCAGTCTCAATATGATAAACATTGTTACGTATATCTTTAAAACTTAATAGATTTCTCTTTGATTGACTAGAGAACAATGCATTGTTAATTGTAAATTTTGTTCCTCTAGGCAAAATAATATTTGTTTTTCCAAAATCTTTAATTAGATTTGCAGAACCTAATATTGTATTGATTTTTTCTTCGAGCATTAAAATTTGGAAAAATATTTTCTACTTGTAAGTATTGTATGTATAGTTGCACAGCCTAACAGACATAGATCTTCATTCCTCATGTTATAGTCACTCAAAAAAAATTGTCCATGATTCTTAATTTAAACAAGATAATTATAATAAGATAAACAAAACTTGAAATACAAAATTTTAACTTAAAAAAAACATGAAAGATAGATAGACAAAACAAACAACATTAATTCTAAATATTATCAAAATCAAAGGAAACACCTGATATTGAATCATTTATGTTGATTTTTCTTCAAGAGATCCATAGAAGTCCGCCACATCCAAATTTGTCATATTGGATGAGTCAAATATATCATTATCGCAAAATTTGTTTCCATGTTTTCCCCTTTTTTCCTTCATGGAAGCTTGATAGAGATTAACTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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ACACATGGCTCAGCTAGTTTAAACTGTTCCCCTATGTGCATGTAGACTTACCTCTGAGGCTCAGAAACTAAACCCGTCGATCCTATGACCATCCTACAAGAGGTACTTCTCACAGGCTTAGAAACTAGGTTCCGGTAAGCCATTGACCATCCCATGAGGTTTAATCTCCGACACAGGCTCAAAAATTAGATCCTCTATCTTGTGCGGACTTAATTTCTACTACCAATCATTAACAAATCCATGTTAATTCTAATAGCATATCTATCAATGTTTTCTCACGATTCTTCAGCATTGAGTTCGTCACTTACAACTTAAGGGTACAACCATGACTTATCATACCTATATTCAATCATAACCCTAGATAATCCTACTTGAGTATTAAAGATTTTGAATATCTATAATCCTTGAGGCCATACCAATCATGCTTTCCACTTATTTAATACAAAGGTAAAGCATACTTGCATTCATAATTCATGTGTCTAACTTTAACCTTAGCATGAAAGCATAGAGGTTAGTCACTCACCTTTCTCCTGAGAACTTTAATACTCAAATCCCTTGTTTCCTTGCTCTGCTACACTCCTTCAACCTTTAGCTTGCTATTTACTTCTTGAGCACACAACCAGGGTTCTAATTTCTAAAACTTGCCCATAGACAGCCTTGTGGACTGCCAAACAACTCAACAGACGCCAGGAATGCAACAAATGGACGCCTGGCCAACCCTAAAACGCATAGCTGCAAATTGAATGTTTGGACTGCACCAAATGGACACACAGCAGTCCTTCTTGGACACAAAGCCACTACCTTCGACGCATAGCAGATCCTTGGACGCAGAACAGTACCCTGCTAAATGCAAGACAACTCTTTGGACGACAAAATAGTCCCTTGGACACCCAACTCACCCCTTGGATGCATGGTCACCCTCATGGACGCAAGGCAGCTTCCTTTTGCTCCTCATGGACGCAAGGCGACTTCCTCTACCTTGTCGAAGAATTTCCTTCCCTTTGTCGACGAAGTTTCTTTCCCTCTTTCTACTTTCTCTTTATTTCAAACTCAAGGTGATCTCCTTTTCTTAAGAACTCAATCTCTATTTGTAGGAATTGGATGGCAAGCCTTGTCATCCAATCCTTTCCTCCAAGCTTGACACTTAAGCCTAGGAAATGTCCTCATCATGTCCTATCTTCACATGCAAGATGACACCTCCTACTTGTGACATGTTTAACTCAAAATCTGCCACCTCCTACTTTCTCTTAACCCTTGGACGCATCCTCAAGCTTCCCCCAGGCATCACCTATGCGTCCAACATGGTAAAATCCTACCATGCATTTTACTTGGCTTGTACACACACCATGCATTTCTCACTTGCATTTCAACTTAGGTTTTCACTTGTAACTCCATATAGATGCATCCAACTTGGCTTATTCCTTAAGTTATGCATCCAAGCCTCCTCACACAATTTCATGGACTCCTCATTAACTCTTCCTATGCGTCCATGATGCTCTTTCTAGGCTTGTGCATCCAACTTTCTCCTCCCATGTGTCTCACTCTTGCTTCCTTAAGCATACTTTCGTTGCTTTCCACATGAATCATCTGACACTTAGTCATTTCCTTCCAAGATCTAGGGTATGTGTCCATCACACTTGAACTTAGCCAAAACTTTTGTCTTAATACCCTCCCATGCGTTTCATCTCTCTTTTCTTAGCTTAGGTGTTCCTTTCAATACTTCAACACTTAGTCAAATTCTCCTTAACTTCTTATCATGCGTTCTAGCAAGGTTCTTTGCGTGCATAGCCTCTTCCCTACCCACGAAGCATGTGTTTCATCCATAGTTCTCAGCTACCAAACTAACCCTCAAGCATGTTTCCAACTCTTCCCTTTTTAACACTTAGAAAATTCTCCTTCTAGCCCAGTCTATGTGTTTATGGCTTGCTTCCTAATCATACTTAGGAAGTTTTTACACAATTTCTTGTCGTCCAACACTTGGAAAAATCACCTACCTTGTTTTCTCCCAAATTCATCTATGACTTATTCTCTTCTCAAAACCTAAGTTGACACAAATACTTTTCTTCTTTCATCCTTTTGTCAAACGCATGGGCATCCCTTAGTCAAAATTTTGTCTAACTTCACAAGCTTAGAAATTTTGCCTCAAAATTTTTCTAACTCCATAGGCTTGTACTCAACTTTTCCCTTACATTCCCATTTCTTCTCCCAAGTACTAGGTCAGAATTTCGGGTCTCACAAGGGCCCTTTGTCCAAGACCCGGAGTCAATACTTAAGGGAACAACTTCTCTACTAACCTTGAATTAGGTAGGAGTGAATTCCATACTATATCCTCAACTATCTACCTGGTATGGTAGGCTTATTGAGTCGGTGAACTACAGCCACTCTCACCCATGCAGATTAAAGGTTAGTATCCCAAATAAGCAGGAGTTCATAGTCAGCTCAGGATTAAGATCAAGTTACCTAGTTCATCATATTGAAATAATCAGTCTTTATAGTAAACAACGTTATAAAGTAAAAGTGATTATCTCACGGTTCAGTCTTATGCAAACCCATTGCATAGGATGCCCCTACTCTTATGTCTTTACATGAACGATATAGGATCACATTGTTTGTATCAAATACAAAATGGGTCACATCCATAGAGTCTTCGATCGTTTTGGCTATTACCTAAACTTAATCCATTTTTATTTCTACACATAAAGTCTAAGTATTCAAACTATAGCCAGGGGTTCTTTGTTTATTGAATTAGAATTAGATTAAATGCAATTCACATATTCAATAACATCTTTATTGAGTAAACCTCGATAACAACTTTATTGAAAATAAAATATATATGTTTAATGTTTACAAACCACAAGTTTTAGGACATAATCCCAACAGTACATATTTATTAATATTGGATATTATTAAATATTTAATTTAAAATCTCTAGAGAGGGGTTATCCTAATAAGATTGGGAGTAACCCACAGAGTTCTATAAATAGGGCCCTTGGGAACCCTCATAGGACACACACTCTCTACAAGAATGATCTCTACGATTATTCTCCCAATTTCTTAGAAAAGTTCTAAGAAAATTCTTCTTCTCATTTCTTCTATTCTTTCAAGAAGCGGTTCCCACAAATCGGATCCTTGCCAGAGTCATAGCAAGGAAGATCTCTTGGAAAAGGAAGACTATTGGTTTGAGGAGAAAAATTTGCTGAAATTATGAGTCGATAAAGGTATGTTGCTTAACCTTTTCTTAATTATTTGTATTTTAATTCTTTCAAGAAATCAAAGAACGCAATCACACACTTCCGCCAGGATTCAATTCCCTTTAGACATATGAGCGGGGGTATCCTATATAAAGAGTTTATATAGGACCGGACCGCGAAATGCTTAATTTCTATTTGTAATACCGCTAAATGAAGAAATTAACGTTTCATAAGATGACCATAGGTGACTTGACTTTAATCCTGAGTGGGTTATGAACTCTTGTCTATGAGGAAAATTCTTTGATCTGTATAGGTGAGAGTGACTAGATCGTCGACTCAATATGCCTACCATTTTGGGGATTCGTCTAAGTAAGAAGCTGGGAACATATCTTCACAAGATTTAATTCATTCCTTCCTATCTTTAGGGTAAGTAGATAAATTGCTCCATTAAGAACTAATTTCGGGTCTTAAACAAAGAGGTCTCACCCTCTCAGGCCACTGAGAGGGGTTAGTTTATATTTGCACTATAAACTGTTTGTTCATTAGAAGGATCGGTGGTACTTAAGAAGTTATATGTACCTACAAAGGTAAAACGATAATTTGATCTAGCTGTAGTTACGAGCAATTTGTGAAGGGTCAACTTACTGTTGATTGGTTATATCCGTGGACACAAAAATATAACTATAGTGCGAAAAGTGCAGTTGTAAGTCTTTGATGGAATGACTTACAGTTAATGAATATTGATGAATTTAATTAAAGAGTTTAATTAATTAATCTCATATCATTGAAGCTTCTAATCTATAGGTCCATAAGGTCCCATTTCTAGCTCATTAAAGGTTTGAATAAGAATTAGTTATTTAGGATTAATTTAAAGTGTTCAAATTATTAAGGAAATTAATTATATATGATACAATTAATATAATGTATATATAAGATACCCCCACTTACATGTCATTACACGAACAATTTGGATCAAACCGTTTGTAACACTTACAAAGTGGGTTGTATCCATAGTGTTACCAGGATGAGGCACCCAACCTCACCCATATACTACAGATCTTTTAGGTTATTTATTGAACACAATCCAATTATATGTCAGCCACATATTGTTAAAGATACATTAAATAACCTAGAATCTTAGTTTATTAGATTTTGAGTTATGCAAATAAATAACAATTATTATATAAATAAATAATACTTTATTTATTAATTTATTTACAAATTTACACAGACTACAAGATTTAGAACATAAATCCAACATGATGAACAAATATTCCATCTACTAAATGCTCAATTTGCAATCCAAGGCAAAATTTTGTTTTTCCAAGATCGTTTATCTCAAATTCTTTCTTAAGATATTCTATTACCTTTGAAAGCTCTTTAGGAGTTCCAATTATATTTAGGTCATGAACATATACAGTTATAATAGCAAATCCTAACTGTGATTTCTTTATAAAAACACATGGACATGTTGGATTATTTTGATATCCTTCTTTCAACAAATATCCACTCAGCCGATCATACCACATTCGTCCTGATTGTTTCAATCAATATAGTGATCTCTCTAACTTTATTGAATATAGTTCTCGAGAACTTGATTTATGTATTTCAGGTATCTTAAATCCTTCTAGATTCTCATATAAATATTATTATCGAGAGATCCATATAAATATGTTGTGACTACATCCATAAGATGCATGTCCAGATTTTCATACACAGTCAGACCAATTAAATATATTAATGTAATTGCATCCACCACTGGAGAATATGTCTTCTCATAATCAATATCAGGTCTTTGTGAAAAACCTTGTGCAACTCGTCTTGCTTTATATCTTGTGACCTCATTATTTTCATTTTTTTTTCTCACAAATACCCATTTGTATCCCGCAGATTTGACATCCTCTGGTGTTCGGACTACTGGTCCAAAAACTTGACGTTTTAAAAGTGAGTTTAATTCTGCCTCAATTACTTTTTTCCACTGAAGCCAATATTTTCTATGTCAACATTCTTCAACAGATTTTGGTTAAGGATCCTCATTTTCAGATAGAATATCAAGTGCAACATTATATGCAAAATTGTTATCAATAAATACATAAGTTCGGTTCCATCTTTTCTCTATCATGACATAATTTATTGAAATCTCATTATTATCTTTAGGTATTTTACCTTCTTCACTAATTGGATTATCAGTCATGTCCAGGGTTTCTTCATGGATATTTACATCCTCAATCACGTCTTTCTTACTATTGTTTATTTTTCTTTTCCGAGGACTTTTATCTTTGGAACTCACTGGTCTACCACGCTACTCGAGTGTTCCTGACTCATTAGTGATAACTTGTTGTGTTGGAATATCAATTTTCGACGAAACATTTGCAATAGGTATATGTGACTTAGTTACTTTCTTTACATCTATAAATGCATCTGGTAATTGATTTGCTATATTTTGCAAATGAATTGTTTTCTGAACTTCAAGTTCACATTAATTTGTACGAGGATTTAAATGAAACAATAATGATGTATTCCATGCAATTTCATTTTCCAACTTCTTAATTCCTCCCTCTAATGTTGGAAAATTTGTCTCATTAAAATGATAATCAACAAATCGTGTAGTAAATACATCACCTGTCAAGGGTTCAAGATATTTAATAATTGATGGGGGAATCATATCCAATGTATATTTCTAACCTCTTTTGAGGACCCATCTTAGTACGTTGTGGTAGAGCAATTGGAACATATATTGTACATCTAAAAATTCGCAGATGAGAAATATTTGACCCATAGCCGTAAGCTGCAATGATGAGTATTTGTGATAAACTACTAGCCTAGTGCATGCAAGTGACACAACATGCATAATAGCATATTCCCGTACGGATGTAGGAAGCTTAGCTCTCATAAGTAATGATCTATCAATTAATTGCAAACGTTTTATAAATGATTATGCTAAACCATTTTGTATATGAACATGAGCTACAAGATGTTCAACATTTATCCCAATTGACATACAATAATTATCAAAAGTTTGGGATGTAAATTCACCAACATTATCAAGATATTCGATCTTAATTGTATAATTAGAAAATTGTGCTCTTAACTTAATTATTTGAGCAAGTAATCTTCCAAATGCAAGGTTTCGATTTGATAATAAGCACATGTGTGACCATTTACGGGATACGTCTATTAATACCATAAAATATTTAAATGGTTCACTTGGTGAGTTAATATGTCCACATATATTACCATGAATTTGTTCTAAAAATGCAAGTGATTCAGTTCCCATTTTAGCTAGTGATGTCTAATTATTAATTTGCTTTGAGAGCAAGCATCACATGATAATTCACTAGATTGAAGAATCTTCTGGTTTTTCAATTGGTGTCCATTTGAATTTTGTACAATTCTCCTCATCATTGTAGATCCTGGATGACCCAATCAGTCATGTCAAATTGTAAATATATCTGGATTCATGAACTTCAGGTTCATTGTTGCATATATTTCAATGACTCGTATATGAATATAATATAATCTAGAAGATAAAACAGGCAGCTTTTCCAATATACTTTTTTCATGTGAGACAGTAGATATGATATAAAGATATTCTAACTGATTGTTTCGATCAGTCTCAATATGATAAACATTGTTACGTATATCTTTAAAACTTAATAGATTTCTCTTTGATTGACTAGAGAACAATGCATTGTTAATTGTAAATTTTGTTCCTCTAGGCAAAATAATATTTGTTTTTCCAAAATCTTTAATTAGATTTGCAGAACCTAATATTGTATTGATTTTTTCTTCGAGCATTAAAATTTGGAAAAATATTTTCTACTTGTAAGTATTGTATGTATAGTTGCACAGCCTAACAGACATAGATCTTCATTCCTCATGTTATAGTCACTCAAAAAAAATTGTCCATGATTCTTAATTTAAACAAGATAATTATAATAAGATAAACAAAACTTGAAATACAAAATTTTAACTTAAAAAAAACATGAAAGATAGATAGACAAAACAAACAACATTAATTCTAAATATTATCAAAATCAAAGGAAACACCTGATATTGAATCATTTATGTTGATTTTTCTTCAAGAGATCCATAGAAGTCCGCCACATCCAAATTTGTCATATTGGATGAGTCAAATATATCATTATCGCAAAATTTGTTTCCATGTTTTCCCCTTTTTTCCTTCATGGAAGCTTGATAGAGATTAACTAGGTGTTTTGATGTAAGACAAACATGGGACCAATGCGGAGTCATCCCGCATCGGAATCATTTATGCTCATTGAATTTTTATCTTGTGGAGCTTTTCCTTTATGATCATTATTTCAAGTGGTTCTTTTGAGATTTGGATGATTAGAATGACCACCATGAAAATAATAATTATTTCTTCCTTTGCCATGGTCACGACCTCAACCACGACCACGATTATGAAAATTTACAGCATTCACTTCAGGGAATGGTTGTTCCAGTTGGTCGAGATTCGTGGTGCTTCATCAATAGCTCATTATTTTGTTTAGCCACGAGAAGACATGAAATTAATTTAGAATATTGTTTAAAACCTTTCTCTTGATATTGCTGCTGCAGGAGCATATTCGAGGCATGAAATGTAAAAAATGTCTTCTCCAACATATCCGCATCAGTAATTTTCTTTCCGCATAACAACAATTTTGAAATGATTTTAAATAATGTTGAGTTGTAGTCACTTATTGATTTGAAATCTTGGAGCCTCAAATGCATCCATTCATAACAAGCTTTAGGAAAAATTACCGTTTTCTGGTGATCATATCTCTTTTTAAAATTTCTCCACAAGATACAATGATCTTTTATTGTTAGATATTTCATCTTTAATCTCTCGTGGAGATGATAACGAAGGAAAATCATAACTTTTGCTTTTTCCTGCATGGATGTTGTATTTATCTCTTTAATTGTTTCTCCCAAGTTCATAGCATTCAGATGTATTTCAGCGTCAAGCACCTATGACAAATAATTATTTCCATTGATGTCAATGGTTGTGAATTCTATTTTTGTAAGATTTGTCATGATAACACTATCACAAACAATTGTATTTATATTAGCAATTTAATATATACTAAACATGCAAAACAACATTTAATTTACTAATTATAATAAAAAGAAAAATGACATACCTTCAAAATCTACCTTCAAAGGAAAAATGACAAAAGCTCGTGCTGATAACGTATTGTAAAATTGAAGAGCAAAATGACGAAAAAACAAGAGCACGAATATCGAGATATTATAATATTAAAATAATAAATAATAAAATAAAATAAAGAAATGGAAATGAAATTTTAACAATGTGTGTATTTACAACATCCACCAAATGCTAGTATTTATAGGCGGCAATTTGACAGGTAGGTGGTGGTGGAACTACATGGACACCAAGGATATGTCATTAAGAGACACATTTCCTTTAGACACGTGGTTATATAATGTACATCTATTTTATTAAAATATTTATAATAATAGTTATATTCTAATATTTAATTTTTACGTTTTGTAGATTTTTTTTTGTAAGAATAATGAAAATCTCAATTAAAAAATTTAATACAAAGACTGAAATAGATTGTTTCTCTCACGACGAAAACAGAAATATTTGTAGTTATACCCAGACTTGAGTCAGTCTTCTTCTCTCTCTTTCGATTCCTTCGATTTGGTGGGTCTTCCTCCTCAGACAAGAATTGATCCACAACGAACAAAGGCTGCCTTTGTGTTCTTTGATTCATTCGAAACAGCTCAAAGAGGAGGCCGATTCAAATCAACAAAATCTGAGCTGCTGAGGTTAATTTCGCTTCTAAACCCAAAATCTGATTCTAATTTCCCCTCGTCCTCTCGCCTTCTCCCTCCCTCCCCAATGCGATATGAATTTTGATTTATGTTATTTTGTTTCTAATCTTCTGATTCCACTCGCCAGGCCTTTACTGATTTCGTTCAAGTTTTGTTCGAGTTTGTAAAAAAAGTAGTGTTTCATTTCTGTTACATTTCTGCTGTATTGAACTAATTAAATCTTCAATAATGCTTTTGGGGGGTTTTGGGGCTTCAACTCTCAGTTCTTTGCATCGGGAGGATGAGGCTTTTTGTGTCCTTAGTGATACTTCAATTTTTGTGGCCATGGTTGTGGAATGATGAGAATGCCCTGTTCTTATGTTGTCGTTAGCCTCTTTCCCCAGGATGTTGGTGGAATTAGGGTATTTTCCAAGATGGGGAATTTGAGGTTCACTTTTTAACATTTGAACTCCACTTTCTAAAAGAATAGTTTTCCTTTCTCTCTAGTTTTTGTATTTTATTTTTTTCACTAGTGAAATTAAATTTATTTATTTAGTTCTGCATTGAAAGTTATAATATGCCTCCTGTAAAGAAGTTGCTGCTATTATCTGCTTGTTGTGGGATACTGGAAAATGATTTGGTGATCAGGTTTTCTTTTTCCTCTTTTGTTTTCGAAATGCAATTTCTTTTCAGGTGGTGCTACCCAATCTTTTCCATCTTGTTTCTTGCTTGAAACTTTCGATTATTATATTAATAGTTTGATAATGATGCCTTTATCATGTGATGACATTCTGTTTTCAGAGTGAAATTTTTGATGTGATAAATACTACATCTTCAGAGTTACTCAGCATCATATCTCTAATCTCTTTAACTCGAATGATTTTTGTCATATCATCAGGAGTCTGTTCCATGTAATTGTTCTAACTTCCATGAGTTTGAGTTCAAGAAATGTTTATGACATTGATTTGGAATCTCCATTCTTTCTAGTGCCCTGATTTTCAAAGTGAATCAAAGAAACTGGACCATCTGTTCCACAGCAGGAACACACTATGCAAATAGCTTGTCGACCCCATCCACTGGTTTACTTCTCTATCAGGTCTCTCTTTTCTCTACCTCGTGCACAAAACTTCTCATTGTTAATTTTTAGGCTGTAAATTGATGTTTTAATCTGCAATGCAGAAGCAGCTCTAAAAGACAAGATGGATGGAAGAACGTACAAAATTTGCATTCAAGAAACTTTGTTAACCTTGTATTTGTGGAACCTCAGACCCTTAAATTCGCTATGCCTCTGTGCAAAAACAGATTGAATGCAATCCCAAATGCAGAAGATGGGCATCCTTCTGCCTCAATGTCAGAGGACATCAATTCGAATCCCGTGCTTGATTCTATAGGAGGAGAGTTGTGGAATAAATGGTCGCCTCCAAGATACCTATGGAGGGGGCTATCGGTTCTTTTTCTGACTGGGCAGGTCATTATGAGGACTTTAAAGGGTAAAGTCCATTGGAAAAACACTCTCCAACAGCTAGAGAGAGTAGGGCCAAGATCTGTAGGGGTTTGCCTTCTAACATCTGCATTTGTTGGCATGGCCTTTACTATCCAGTTTGTCAGAGAATTTACTAGATTAGGATTGAACAGGTCTGTTGGTGGTGTATTAGCTCTGGCATTCTCGAGGGAGCTAAGTCCTGTGATTACATCGATTGTGGTTGCAGGGAGAATTGGAAGTTCATATGCTGCAGAATTAGGAACAATGCAAGTATCTGAGCAAACAGACACGTTAAGAGTCTTGGGTTCGAACCCTGTCGATTATCTCGTCACTCCAAGAGTTATAGCCTCCTGCATTGCTCTTCCAATTCTAACTTTAGTGTGTTTCACAGTTGGGATGGCATCAAGTGCCCTATTGGCTGACAGTGTTTATGGTGTTAGCATCAACATTATCCTTGACTCAGCTCTAAGAGCTCTAAATTCGTGGGATATTATCAGTGCTATGATCAAATCACAGGTTTTTGGTGCTATTATATCGATTGTAAGCTGTGCTTGGGGTATTACTACTTCTGGGGGCGCTAAGGGGGTTGGCGAGTCCACAACTTCAGCTGTTGTCATCTCTCTTGTGGGCATATTTGTTGCTGATTTCACCCTTTCTTGTTTCTTCTTCCAGGGAGCTGGAGATTCCCTAAAGAACTGTATGTAAATTCACACATACTTCTAAATTTTTCAGTTGGGAAAAGAGCATTTCAGAATCTGCTGTTTACAACAAACATGTCTCCAAGAAGTTTAACAAATGGGAAGCCTTGGAGGCA

mRNA sequence

ATGGAGAATTCGGTCAAGGAGGATGTTTGTTCATCACCATTAGATCGTTCAACATTTGGTCTGATTGGGAGAGTACGGTCTGAGTTAGGGTTAGAGGAATCGAGCCTTGGGTTGTTTACTGACTTGAGTCAGTCTTCTTCTCTCTCTTTCGATTCCTTCGATTTGGTGGGTCTTCCTCCTCAGACAAGAATTGATCCACAACGAACAAAGGCTGCCTTTGTGTTCTTTGATTCATTCGAAACAGCTCAAAGAGGAGGCCGATTCAAATCAACAAAATCTGAGCTGCTGAGTGCCCTGATTTTCAAAGTGAATCAAAGAAACTGGACCATCTGTTCCACAGCAGGAACACACTATGCAAATAGCTTAAGCAGCTCTAAAAGACAAGATGGATGGAAGAACGTACAAAATTTGCATTCAAGAAACTTTGTTAACCTTGTATTTGTGGAACCTCAGACCCTTAAATTCGCTATGCCTCTGTGCAAAAACAGATTGAATGCAATCCCAAATGCAGAAGATGGGCATCCTTCTGCCTCAATGTCAGAGGACATCAATTCGAATCCCGTGCTTGATTCTATAGGAGGAGAGTTGTGGAATAAATGGTCGCCTCCAAGATACCTATGGAGGGGGCTATCGGTTCTTTTTCTGACTGGGCAGGTCATTATGAGGACTTTAAAGGGTAAAGTCCATTGGAAAAACACTCTCCAACAGCTAGAGAGAGTAGGGCCAAGATCTGTAGGGGTTTGCCTTCTAACATCTGCATTTGTTGGCATGGCCTTTACTATCCAGTTTGTCAGAGAATTTACTAGATTAGGATTGAACAGGTCTGTTGGTGGTGTATTAGCTCTGGCATTCTCGAGGGAGCTAAGTCCTGTGATTACATCGATTGTGGTTGCAGGGAGAATTGGAAGTTCATATGCTGCAGAATTAGGAACAATGCAAGTATCTGAGCAAACAGACACGTTAAGAGTCTTGGGTTCGAACCCTGTCGATTATCTCGTCACTCCAAGAGTTATAGCCTCCTGCATTGCTCTTCCAATTCTAACTTTAGTGTGTTTCACAGTTGGGATGGCATCAAGTGCCCTATTGGCTGACAGTGTTTATGGTGTTAGCATCAACATTATCCTTGACTCAGCTCTAAGAGCTCTAAATTCGTGGGATATTATCAGTGCTATGATCAAATCACAGGTTTTTGGTGCTATTATATCGATTGTAAGCTGTGCTTGGGGTATTACTACTTCTGGGGGCGCTAAGGGGGTTGGCGAGTCCACAACTTCAGCTGTTGTCATCTCTCTTGTGGGCATATTTGTTGCTGATTTCACCCTTTCTTGTTTCTTCTTCCAGGGAGCTGGAGATTCCCTAAAGAACTGTATTTGGGAAAAGAGCATTTCAGAATCTGCTGTTTACAACAAACATGTCTCCAAGAAGTTTAACAAATGGGAAGCCTTGGAGGCA

Coding sequence (CDS)

ATGGAGAATTCGGTCAAGGAGGATGTTTGTTCATCACCATTAGATCGTTCAACATTTGGTCTGATTGGGAGAGTACGGTCTGAGTTAGGGTTAGAGGAATCGAGCCTTGGGTTGTTTACTGACTTGAGTCAGTCTTCTTCTCTCTCTTTCGATTCCTTCGATTTGGTGGGTCTTCCTCCTCAGACAAGAATTGATCCACAACGAACAAAGGCTGCCTTTGTGTTCTTTGATTCATTCGAAACAGCTCAAAGAGGAGGCCGATTCAAATCAACAAAATCTGAGCTGCTGAGTGCCCTGATTTTCAAAGTGAATCAAAGAAACTGGACCATCTGTTCCACAGCAGGAACACACTATGCAAATAGCTTAAGCAGCTCTAAAAGACAAGATGGATGGAAGAACGTACAAAATTTGCATTCAAGAAACTTTGTTAACCTTGTATTTGTGGAACCTCAGACCCTTAAATTCGCTATGCCTCTGTGCAAAAACAGATTGAATGCAATCCCAAATGCAGAAGATGGGCATCCTTCTGCCTCAATGTCAGAGGACATCAATTCGAATCCCGTGCTTGATTCTATAGGAGGAGAGTTGTGGAATAAATGGTCGCCTCCAAGATACCTATGGAGGGGGCTATCGGTTCTTTTTCTGACTGGGCAGGTCATTATGAGGACTTTAAAGGGTAAAGTCCATTGGAAAAACACTCTCCAACAGCTAGAGAGAGTAGGGCCAAGATCTGTAGGGGTTTGCCTTCTAACATCTGCATTTGTTGGCATGGCCTTTACTATCCAGTTTGTCAGAGAATTTACTAGATTAGGATTGAACAGGTCTGTTGGTGGTGTATTAGCTCTGGCATTCTCGAGGGAGCTAAGTCCTGTGATTACATCGATTGTGGTTGCAGGGAGAATTGGAAGTTCATATGCTGCAGAATTAGGAACAATGCAAGTATCTGAGCAAACAGACACGTTAAGAGTCTTGGGTTCGAACCCTGTCGATTATCTCGTCACTCCAAGAGTTATAGCCTCCTGCATTGCTCTTCCAATTCTAACTTTAGTGTGTTTCACAGTTGGGATGGCATCAAGTGCCCTATTGGCTGACAGTGTTTATGGTGTTAGCATCAACATTATCCTTGACTCAGCTCTAAGAGCTCTAAATTCGTGGGATATTATCAGTGCTATGATCAAATCACAGGTTTTTGGTGCTATTATATCGATTGTAAGCTGTGCTTGGGGTATTACTACTTCTGGGGGCGCTAAGGGGGTTGGCGAGTCCACAACTTCAGCTGTTGTCATCTCTCTTGTGGGCATATTTGTTGCTGATTTCACCCTTTCTTGTTTCTTCTTCCAGGGAGCTGGAGATTCCCTAAAGAACTGTATTTGGGAAAAGAGCATTTCAGAATCTGCTGTTTACAACAAACATGTCTCCAAGAAGTTTAACAAATGGGAAGCCTTGGAGGCA

Protein sequence

MENSVKEDVCSSPLDRSTFGLIGRVRSELGLEESSLGLFTDLSQSSSLSFDSFDLVGLPPQTRIDPQRTKAAFVFFDSFETAQRGGRFKSTKSELLSALIFKVNQRNWTICSTAGTHYANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSASMSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCIWEKSISESAVYNKHVSKKFNKWEALEA
Homology
[Close]
BLAST of ClCG08G003960 vs. Swiss-Prot
Match: TGD1_ARATH (Protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic OS=Arabidopsis thaliana GN=TGD1 PE=1 SV=1)

HSP 1 Score: 464.5 bits (1194), Expect = 1.4e-129
Identity = 231/309 (74.76%), Postives = 270/309 (87.38%), Query Frame = 1 

Query: 151 QTLKFAMPLCKNRLNAIPNAEDGHPSASM-SEDINSNPVLDSIGGEL-WNKWSPPRYLWR 210
           Q+   + P+ + RL    NA DGHPS SM  E+ ++     S   EL ++KWSP +Y+WR
Sbjct: 42  QSYGISSPIRQRRLYVNLNANDGHPSMSMLEEETSTENNAPSQEAELPFSKWSPSKYIWR 101

Query: 211 GLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFT 270
           GLSV  + GQV++R LKGK+HW+NTLQQLER GP+S+GVCLLTS FVGMAFTIQFVREFT
Sbjct: 102 GLSVPIIAGQVVLRILKGKIHWRNTLQQLERTGPKSLGVCLLTSTFVGMAFTIQFVREFT 161

Query: 271 RLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNP 330
           RLGLNRS+GGVLALAFSRELSPVITSIVVAGR+GS++AAELGTMQVSEQTDTLRVLG++P
Sbjct: 162 RLGLNRSIGGVLALAFSRELSPVITSIVVAGRMGSAFAAELGTMQVSEQTDTLRVLGADP 221

Query: 331 VDYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDII 390
           +DYL+TPRVIASC+ALP LTL+CFTVGMASSALL+D+VYG+SINII+DSA RAL  WDI+
Sbjct: 222 IDYLITPRVIASCLALPFLTLMCFTVGMASSALLSDAVYGISINIIMDSAHRALRPWDIV 281

Query: 391 SAMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQG 450
           SAMIKSQVFGAIIS++SC+WG+TT+GGAKGVGESTTSAVV+SLVGIF+ADF LS FFFQG
Sbjct: 282 SAMIKSQVFGAIISVISCSWGVTTTGGAKGVGESTTSAVVMSLVGIFIADFVLSSFFFQG 341

Query: 451 AGDSLKNCI 458
           AGDSLKNC+
Sbjct: 342 AGDSLKNCV 350

[Close]
BLAST of ClCG08G003960 vs. Swiss-Prot
Match: Y1045_SYNY3 (Probable ABC transporter permease protein slr1045 OS=Synechocystis sp. (strain PCC 6803 / Kazusa) GN=slr1045 PE=3 SV=1)

HSP 1 Score: 266.2 bits (679), Expect = 7.2e-70
Identity = 127/249 (51.00%), Postives = 182/249 (73.09%), Query Frame = 1 

Query: 206 LW--RGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQF 265
           LW  R ++  FLTGQV +  L+G+++ +NTL+Q+  VGP S+ + L+T+ FVGM FTIQ 
Sbjct: 12  LWFQRLVAAFFLTGQVFLHILQGRINRRNTLEQMNMVGPESMAIALITAGFVGMVFTIQV 71

Query: 266 VREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRV 325
            REF   G   ++GGVL+L+ +REL+PV+T++V+AGR+GS++AAE+GTM+V+EQ D L +
Sbjct: 72  AREFIYYGATTTIGGVLSLSLTRELAPVLTAVVIAGRVGSAFAAEIGTMRVTEQLDALYM 131

Query: 326 LGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALN 385
           L ++P+DYLV PRVIA  + LPILT +   VGMA   +++ S+Y ++  I L+S      
Sbjct: 132 LRTDPIDYLVVPRVIACGLMLPILTGLSLFVGMAGGLVISSSLYAINPTIFLNSVQNFTQ 191

Query: 386 SWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSC 445
            WD+ + + KS VFG II+I+ C+WG+TT+GGAKGVGESTT+AVV SL+ IF+++F LS 
Sbjct: 192 LWDVFACLFKSLVFGVIIAIIGCSWGLTTTGGAKGVGESTTTAVVTSLLAIFISNFFLSW 251

Query: 446 FFFQGAGDS 453
             FQG GD+
Sbjct: 252 LMFQGTGDT 260

[Close]
BLAST of ClCG08G003960 vs. Swiss-Prot
Match: YCF63_PORPU (Probable ABC transporter permease protein ycf63 OS=Porphyra purpurea GN=ycf63 PE=3 SV=1)

HSP 1 Score: 225.3 bits (573), Expect = 1.4e-57
Identity = 112/243 (46.09%), Postives = 160/243 (65.84%), Query Frame = 1 

Query: 211 SVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRL 270
           S L L   ++ R    K++  +  +Q+  VGP S+ + LLT+ F+ M FT+Q  +EF  L
Sbjct: 15  STLSLFVSLLARLRTMKINTSSLAEQIYLVGPGSLNITLLTACFISMVFTMQIAKEFLHL 74

Query: 271 GLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVD 330
               ++G V+ +AF+RELSPV+T++++AG+IGSS+ AE+ TM+ +EQ D L +L +NP+D
Sbjct: 75  DAASALGAVIVIAFTRELSPVLTAVIIAGKIGSSFTAEIATMETTEQIDALYLLNTNPID 134

Query: 331 YLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDIISA 390
           YLV P+V A CI LPIL+ +  T  +A S  ++  +YG+  +I L SA  AL+  D  S 
Sbjct: 135 YLVFPKVAACCIMLPILSTISLTASIAISIFVSFVMYGIPSSIFLKSAFLALSVSDFFSC 194

Query: 391 MIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQGAG 450
           + KS  FG II+ +SC WG+T+SGGAKGVG STTS+VV  L+ IF+ DF LS F FQ  G
Sbjct: 195 LQKSLCFGTIIAFISCQWGLTSSGGAKGVGNSTTSSVVTILLTIFITDFILSYFMFQSTG 254

Query: 451 DSL 454
            S+
Sbjct: 255 SSI 257

[Close]
BLAST of ClCG08G003960 vs. Swiss-Prot
Match: YCF63_PYRYE (Probable ABC transporter permease protein ycf63 OS=Pyropia yezoensis GN=ycf63 PE=3 SV=1)

HSP 1 Score: 216.5 bits (550), Expect = 6.5e-55
Identity = 106/250 (42.40%), Postives = 163/250 (65.20%), Query Frame = 1 

Query: 204 RYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQF 263
           +++ R  S + L  ++++R    KV+  N ++Q+  VGP S+ + LLT+ F+ M FT+Q 
Sbjct: 8   KWIQRFSSTIRLFFRLLIRLKTIKVNTNNLVEQIYIVGPGSLNITLLTACFISMVFTMQI 67

Query: 264 VREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRV 323
            +EF  L    ++G V+ +AF+RELSPV+T++++AG+IGSS+ AE+ TM+ +EQ D L +
Sbjct: 68  AKEFLYLDAASAIGAVIVIAFTRELSPVLTAVIIAGKIGSSFTAEIATMETTEQIDALYL 127

Query: 324 LGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALN 383
           L +NP+DYLV P+V +  + LPIL+++  T  +A S  +A  +Y +  ++ L SA  AL+
Sbjct: 128 LNTNPIDYLVFPKVASCFLMLPILSIISLTASIAISLFVAFVMYDIPSSVFLKSAFNALS 187

Query: 384 SWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSC 443
             D +  + KS  F  II  +SC WG+T++GGAKGVG STTS+VV  L  +F+ DF LS 
Sbjct: 188 ISDFLICLEKSMFFAIIIGFISCQWGLTSNGGAKGVGNSTTSSVVTILFTVFITDFVLSY 247

Query: 444 FFFQGAGDSL 454
           F FQ  G S+
Sbjct: 248 FMFQTTGSSI 257

[Close]
BLAST of ClCG08G003960 vs. Swiss-Prot
Match: Y096_RICPR (Probable ABC transporter permease protein RP096 OS=Rickettsia prowazekii (strain Madrid E) GN=RP096 PE=3 SV=1)

HSP 1 Score: 157.9 bits (398), Expect = 2.8e-37
Identity = 87/228 (38.16%), Postives = 133/228 (58.33%), Query Frame = 1 

Query: 220 IMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGV 279
           I   +K  ++    ++QL  +G  S+ V  +T+ F G    +Q    F+R     S+  V
Sbjct: 31  ISSIIKPPLYLSLIIRQLLFIGFHSLPVVAMTTFFSGAVLALQSYTGFSRFSAENSIATV 90

Query: 280 LALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIA 339
           + L+ +REL PV+  ++VAGR+G+S AAE+ TM+V+EQ D L  L ++P+ YLV PRVIA
Sbjct: 91  VVLSLTRELGPVLAGLIVAGRVGASIAAEIATMRVTEQVDALYTLSTDPIKYLVCPRVIA 150

Query: 340 SCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGA 399
           + I +P L L+   +G+    L+       +    L S  + L   D+IS +IK+ VFG 
Sbjct: 151 AIITMPCLVLIGDIIGVMGGYLVGIYKLDFNSTAYLTSTFQYLEPIDVISGLIKATVFGF 210

Query: 400 IISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQ 448
           IISI+SC  G  +  GAKGVG +TTSAVV S + I ++++ ++  FF+
Sbjct: 211 IISIISCYSGYYSGKGAKGVGRATTSAVVNSSILILISNYLITELFFK 258

[Close]
BLAST of ClCG08G003960 vs. TrEMBL
Match: A0A0A0KC25_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G022380 PE=3 SV=1)

HSP 1 Score: 628.2 bits (1619), Expect = 8.0e-177
Identity = 319/340 (93.82%), Postives = 328/340 (96.47%), Query Frame = 1 

Query: 118 YANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSA 177
           Y +  S SKRQDGW+NVQNLHSRNFV LV +EPQ  KFAM LCKNRL+AIPNAEDG PSA
Sbjct: 12  YFSVRSISKRQDGWRNVQNLHSRNFVKLVLLEPQMHKFAMSLCKNRLHAIPNAEDGDPSA 71

Query: 178 SMSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 237
           SMSEDINSNPVLDSI GELWNKWSPP+YLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL
Sbjct: 72  SMSEDINSNPVLDSIAGELWNKWSPPKYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 131

Query: 238 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 297
           ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV
Sbjct: 132 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 191

Query: 298 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMA 357
           AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTL+CFTVGMA
Sbjct: 192 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLMCFTVGMA 251

Query: 358 SSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 417
           SSALLADSVYGVSINIILDSA+RAL SWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK
Sbjct: 252 SSALLADSVYGVSINIILDSAMRALKSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 311

Query: 418 GVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           GVGESTTSAVVISLVGIF+ADFTLSCFFFQGAGDSLKNC+
Sbjct: 312 GVGESTTSAVVISLVGIFIADFTLSCFFFQGAGDSLKNCM 351

[Close]
BLAST of ClCG08G003960 vs. TrEMBL
Match: A0A0B0NUK1_GOSAR (Trigalactosyldiacylglycerol 1, chloroplastic-like protein OS=Gossypium arboreum GN=F383_16756 PE=3 SV=1)

HSP 1 Score: 493.4 bits (1269), Expect = 3.1e-136
Identity = 255/308 (82.79%), Postives = 276/308 (89.61%), Query Frame = 1 

Query: 151 QTLKFAMPLCKNRLNAIPNAEDGHPSASM-SEDINSNPVLDSIGGELWNKWSPPRYLWRG 210
           Q+L+F  P+ K RL  I NA+DGH  A +  EDIN+N    S     ++KWSPP+YLWRG
Sbjct: 68  QSLRFLTPIRKTRLFVISNADDGHAYAPVIEEDINTNHAPSSEPETFFSKWSPPKYLWRG 127

Query: 211 LSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTR 270
           LSVL L GQVI+RTLKGKVHW+NTLQQLERVGP+SVGVCLLTSAFVGMAFTIQFVREFTR
Sbjct: 128 LSVLVLAGQVIIRTLKGKVHWRNTLQQLERVGPKSVGVCLLTSAFVGMAFTIQFVREFTR 187

Query: 271 LGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPV 330
           LGLNRSVGGVLALAFSRELSPV+TSIVVAGRIGS++AAELGTMQVSEQTDTLRVLGSNPV
Sbjct: 188 LGLNRSVGGVLALAFSRELSPVVTSIVVAGRIGSAFAAELGTMQVSEQTDTLRVLGSNPV 247

Query: 331 DYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDIIS 390
           DYLVTPRVIAS +ALP LTL+CFTVGMASSALLADSVYG+SINIILDSA RAL SWDIIS
Sbjct: 248 DYLVTPRVIASSLALPFLTLMCFTVGMASSALLADSVYGISINIILDSAQRALRSWDIIS 307

Query: 391 AMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQGA 450
           AMIKSQVFG IISIVSCAWG+TT GGAKGVGESTTSAVVISLVGIF+ADF LS  FFQGA
Sbjct: 308 AMIKSQVFGMIISIVSCAWGVTTMGGAKGVGESTTSAVVISLVGIFMADFALSYCFFQGA 367

Query: 451 GDSLKNCI 458
           GDSLKNC+
Sbjct: 368 GDSLKNCV 375

[Close]
BLAST of ClCG08G003960 vs. TrEMBL
Match: F6I493_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0062g00940 PE=3 SV=1)

HSP 1 Score: 493.0 bits (1268), Expect = 4.0e-136
Identity = 254/336 (75.60%), Postives = 287/336 (85.42%), Query Frame = 1 

Query: 125 SKRQDGWKNVQNLHSRNFVNLVFV--EPQTLKFAMPLCKNRLNAIPNAEDGHPSASMSED 184
           + + DGW  ++  +   F+  V    + QT KF +P+ + RL +IP+A+DGHPS S+SE+
Sbjct: 17  ANKVDGWMKMKTSNLSPFLGRVSFTGKSQTCKFHIPVQRTRLFSIPSADDGHPSVSVSEE 76

Query: 185 -INSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVG 244
             ++N   +     L +KWSPPRYLWRGLSV  + GQVI+R L GKVHW NTLQQLERVG
Sbjct: 77  NSDTNHAFNHEEESLLSKWSPPRYLWRGLSVFIMAGQVIIRILTGKVHWVNTLQQLERVG 136

Query: 245 PRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRI 304
           PRSVGVC+LT+AFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPV+TSIVVAGRI
Sbjct: 137 PRSVGVCILTAAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVVTSIVVAGRI 196

Query: 305 GSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSAL 364
           GS++AAELGTMQVSEQTDTLRVLG+NPVDYLVTPRVIASCIALP LTL+CFTVGMASSAL
Sbjct: 197 GSAFAAELGTMQVSEQTDTLRVLGTNPVDYLVTPRVIASCIALPFLTLLCFTVGMASSAL 256

Query: 365 LADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGE 424
           LADSVYG+SINIILDSA RALNSWDIISAMIKS  FG IIS VSCAWG+TT GGAKGVGE
Sbjct: 257 LADSVYGISINIILDSAQRALNSWDIISAMIKSVAFGGIISTVSCAWGVTTMGGAKGVGE 316

Query: 425 STTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           STTSAVVISLVGIF+ADF LS  FFQGAGD+LKNC+
Sbjct: 317 STTSAVVISLVGIFIADFALSYCFFQGAGDALKNCV 352

[Close]
BLAST of ClCG08G003960 vs. TrEMBL
Match: B9GNC5_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0002s23540g PE=3 SV=2)

HSP 1 Score: 491.1 bits (1263), Expect = 1.5e-135
Identity = 259/345 (75.07%), Postives = 290/345 (84.06%), Query Frame = 1 

Query: 117 HYANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEP-QTLKFAMPLCKNRLNAIPNAEDGHP 176
           +Y+N  S  K  +GW   ++L   NF  L F    Q  KF  P+ + +L  +PN +DG+P
Sbjct: 12  YYSNRRSYLK-PNGWIKTKSL---NFSQLGFSRHCQMYKFTSPVQQTKLFVMPNMDDGNP 71

Query: 177 SASMS---EDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKN 236
           S  MS   ED N+N    S G +  +KWSPPRYLWRGLSVL L GQVI+R+L GK+HW+N
Sbjct: 72  SVPMSILEEDTNTNHAPSSGGEKFLSKWSPPRYLWRGLSVLVLAGQVIIRSLMGKIHWRN 131

Query: 237 TLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVI 296
           TLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRS+GGVLALAFSRELSPV+
Sbjct: 132 TLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSIGGVLALAFSRELSPVV 191

Query: 297 TSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCF 356
           TSIVVAGRIGS++AAELGTMQVSEQ DTLRVLG++PVDYLV PRVIASC+ALP LTL+CF
Sbjct: 192 TSIVVAGRIGSAFAAELGTMQVSEQIDTLRVLGADPVDYLVIPRVIASCLALPFLTLMCF 251

Query: 357 TVGMASSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITT 416
           TVGMASS LLADSVYG+S+NIILDSA RALNSWDIISAMIKS VFGAIISIVSCAWG+TT
Sbjct: 252 TVGMASSGLLADSVYGISLNIILDSAQRALNSWDIISAMIKSGVFGAIISIVSCAWGVTT 311

Query: 417 SGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
            GGAKGVGESTTSAVVISLVGIF+ADF LS  FFQGAGDSLKNC+
Sbjct: 312 MGGAKGVGESTTSAVVISLVGIFMADFALSYCFFQGAGDSLKNCV 352

[Close]
BLAST of ClCG08G003960 vs. TrEMBL
Match: A0A061EJJ3_THECC (Trigalactosyldiacylglycerol 1 isoform 3 OS=Theobroma cacao GN=TCM_020149 PE=3 SV=1)

HSP 1 Score: 489.2 bits (1258), Expect = 5.8e-135
Identity = 257/341 (75.37%), Postives = 285/341 (83.58%), Query Frame = 1 

Query: 118 YANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSA 177
           + +S  +S + DGW  +   +S      V    ++L+   P+ K RL  I N +DGH  A
Sbjct: 12  FFSSRKNSIKSDGWMKLGGWNSSRLG--VTARGESLRLLAPIHKTRLFVISNTDDGHQYA 71

Query: 178 S-MSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQ 237
             + ED N+N    S     ++KWSPP YLWRGLSVL L GQVI+RTLKGKVHW+NTLQQ
Sbjct: 72  PVLEEDSNTNHAPCSEPETFFSKWSPPGYLWRGLSVLVLAGQVIIRTLKGKVHWRNTLQQ 131

Query: 238 LERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIV 297
           LERVGP+SVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPV+TS+V
Sbjct: 132 LERVGPKSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVVTSVV 191

Query: 298 VAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGM 357
           VAGRIGS++AAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIAS +ALP LTL+CFTVGM
Sbjct: 192 VAGRIGSAFAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASSLALPFLTLMCFTVGM 251

Query: 358 ASSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGA 417
           ASSALLADSVYG+SINIILDSA RAL SWDIISAMIKSQVFG IISIVSCAWG+TT GGA
Sbjct: 252 ASSALLADSVYGISINIILDSAQRALQSWDIISAMIKSQVFGMIISIVSCAWGVTTMGGA 311

Query: 418 KGVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           KGVGESTTSAVVISLVGIF+ADF LS  FFQGAGDSLKNC+
Sbjct: 312 KGVGESTTSAVVISLVGIFMADFALSYCFFQGAGDSLKNCV 350

[Close]
BLAST of ClCG08G003960 vs. TAIR10
Match: AT1G19800.2 (AT1G19800.2 trigalactosyldiacylglycerol 1)

HSP 1 Score: 464.5 bits (1194), Expect = 7.8e-131
Identity = 231/309 (74.76%), Postives = 270/309 (87.38%), Query Frame = 1 

Query: 151 QTLKFAMPLCKNRLNAIPNAEDGHPSASM-SEDINSNPVLDSIGGEL-WNKWSPPRYLWR 210
           Q+   + P+ + RL    NA DGHPS SM  E+ ++     S   EL ++KWSP +Y+WR
Sbjct: 42  QSYGISSPIRQRRLYVNLNANDGHPSMSMLEEETSTENNAPSQEAELPFSKWSPSKYIWR 101

Query: 211 GLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFT 270
           GLSV  + GQV++R LKGK+HW+NTLQQLER GP+S+GVCLLTS FVGMAFTIQFVREFT
Sbjct: 102 GLSVPIIAGQVVLRILKGKIHWRNTLQQLERTGPKSLGVCLLTSTFVGMAFTIQFVREFT 161

Query: 271 RLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNP 330
           RLGLNRS+GGVLALAFSRELSPVITSIVVAGR+GS++AAELGTMQVSEQTDTLRVLG++P
Sbjct: 162 RLGLNRSIGGVLALAFSRELSPVITSIVVAGRMGSAFAAELGTMQVSEQTDTLRVLGADP 221

Query: 331 VDYLVTPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDII 390
           +DYL+TPRVIASC+ALP LTL+CFTVGMASSALL+D+VYG+SINII+DSA RAL  WDI+
Sbjct: 222 IDYLITPRVIASCLALPFLTLMCFTVGMASSALLSDAVYGISINIIMDSAHRALRPWDIV 281

Query: 391 SAMIKSQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQG 450
           SAMIKSQVFGAIIS++SC+WG+TT+GGAKGVGESTTSAVV+SLVGIF+ADF LS FFFQG
Sbjct: 282 SAMIKSQVFGAIISVISCSWGVTTTGGAKGVGESTTSAVVMSLVGIFIADFVLSSFFFQG 341

Query: 451 AGDSLKNCI 458
           AGDSLKNC+
Sbjct: 342 AGDSLKNCV 350

[Close]
BLAST of ClCG08G003960 vs. NCBI nr
Match: gi|778709996|ref|XP_011656497.1| (PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X2 [Cucumis sativus])

HSP 1 Score: 628.6 bits (1620), Expect = 8.8e-177
Identity = 319/340 (93.82%), Postives = 328/340 (96.47%), Query Frame = 1 

Query: 118 YANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSA 177
           Y +  S SKRQDGW+NVQNLHSRNFV LV +EPQ  KFAM LCKNRL+AIPNAEDG PSA
Sbjct: 12  YFSCRSISKRQDGWRNVQNLHSRNFVKLVLLEPQMHKFAMSLCKNRLHAIPNAEDGDPSA 71

Query: 178 SMSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 237
           SMSEDINSNPVLDSI GELWNKWSPP+YLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL
Sbjct: 72  SMSEDINSNPVLDSIAGELWNKWSPPKYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 131

Query: 238 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 297
           ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV
Sbjct: 132 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 191

Query: 298 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMA 357
           AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTL+CFTVGMA
Sbjct: 192 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLMCFTVGMA 251

Query: 358 SSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 417
           SSALLADSVYGVSINIILDSA+RAL SWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK
Sbjct: 252 SSALLADSVYGVSINIILDSAMRALKSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 311

Query: 418 GVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           GVGESTTSAVVISLVGIF+ADFTLSCFFFQGAGDSLKNC+
Sbjct: 312 GVGESTTSAVVISLVGIFIADFTLSCFFFQGAGDSLKNCM 351

[Close]
BLAST of ClCG08G003960 vs. NCBI nr
Match: gi|449441161|ref|XP_004138352.1| (PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X1 [Cucumis sativus])

HSP 1 Score: 628.2 bits (1619), Expect = 1.2e-176
Identity = 319/340 (93.82%), Postives = 328/340 (96.47%), Query Frame = 1 

Query: 118 YANSLSSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSA 177
           Y +  S SKRQDGW+NVQNLHSRNFV LV +EPQ  KFAM LCKNRL+AIPNAEDG PSA
Sbjct: 12  YFSVRSISKRQDGWRNVQNLHSRNFVKLVLLEPQMHKFAMSLCKNRLHAIPNAEDGDPSA 71

Query: 178 SMSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 237
           SMSEDINSNPVLDSI GELWNKWSPP+YLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL
Sbjct: 72  SMSEDINSNPVLDSIAGELWNKWSPPKYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQL 131

Query: 238 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 297
           ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV
Sbjct: 132 ERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVV 191

Query: 298 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMA 357
           AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTL+CFTVGMA
Sbjct: 192 AGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLMCFTVGMA 251

Query: 358 SSALLADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 417
           SSALLADSVYGVSINIILDSA+RAL SWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK
Sbjct: 252 SSALLADSVYGVSINIILDSAMRALKSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAK 311

Query: 418 GVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           GVGESTTSAVVISLVGIF+ADFTLSCFFFQGAGDSLKNC+
Sbjct: 312 GVGESTTSAVVISLVGIFIADFTLSCFFFQGAGDSLKNCM 351

[Close]
BLAST of ClCG08G003960 vs. NCBI nr
Match: gi|659089636|ref|XP_008445618.1| (PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X1 [Cucumis melo])

HSP 1 Score: 624.0 bits (1608), Expect = 2.2e-175
Identity = 318/335 (94.93%), Postives = 325/335 (97.01%), Query Frame = 1 

Query: 123 SSSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSASMSED 182
           SSSKRQDGWKNVQNLHSRN V LVF+E Q  KFAM LCKNRL+AIPNAEDG PSASMSED
Sbjct: 17  SSSKRQDGWKNVQNLHSRNLVKLVFLERQMHKFAMSLCKNRLHAIPNAEDGDPSASMSED 76

Query: 183 INSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGP 242
           INSNPVLDSI GELW+KWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGP
Sbjct: 77  INSNPVLDSIAGELWSKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGP 136

Query: 243 RSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIG 302
           RSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIG
Sbjct: 137 RSVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIG 196

Query: 303 SSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSALL 362
           SSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTL+CFTVGMASSALL
Sbjct: 197 SSYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLMCFTVGMASSALL 256

Query: 363 ADSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGES 422
           ADSVYGVSINIILDSALRAL SWDIISAMIKSQVFGAIIS+VSCAWGITTSGGAKGVGES
Sbjct: 257 ADSVYGVSINIILDSALRALKSWDIISAMIKSQVFGAIISVVSCAWGITTSGGAKGVGES 316

Query: 423 TTSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           TTSAVVISLVGI +ADFTLSCFFFQGAGDSLKNC+
Sbjct: 317 TTSAVVISLVGICIADFTLSCFFFQGAGDSLKNCM 351

[Close]
BLAST of ClCG08G003960 vs. NCBI nr
Match: gi|659089640|ref|XP_008445621.1| (PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X2 [Cucumis melo])

HSP 1 Score: 622.5 bits (1604), Expect = 6.3e-175
Identity = 317/334 (94.91%), Postives = 324/334 (97.01%), Query Frame = 1 

Query: 124 SSKRQDGWKNVQNLHSRNFVNLVFVEPQTLKFAMPLCKNRLNAIPNAEDGHPSASMSEDI 183
           SSKRQDGWKNVQNLHSRN V LVF+E Q  KFAM LCKNRL+AIPNAEDG PSASMSEDI
Sbjct: 16  SSKRQDGWKNVQNLHSRNLVKLVFLERQMHKFAMSLCKNRLHAIPNAEDGDPSASMSEDI 75

Query: 184 NSNPVLDSIGGELWNKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPR 243
           NSNPVLDSI GELW+KWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPR
Sbjct: 76  NSNPVLDSIAGELWSKWSPPRYLWRGLSVLFLTGQVIMRTLKGKVHWKNTLQQLERVGPR 135

Query: 244 SVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGS 303
           SVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGS
Sbjct: 136 SVGVCLLTSAFVGMAFTIQFVREFTRLGLNRSVGGVLALAFSRELSPVITSIVVAGRIGS 195

Query: 304 SYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLVCFTVGMASSALLA 363
           SYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTL+CFTVGMASSALLA
Sbjct: 196 SYAAELGTMQVSEQTDTLRVLGSNPVDYLVTPRVIASCIALPILTLMCFTVGMASSALLA 255

Query: 364 DSVYGVSINIILDSALRALNSWDIISAMIKSQVFGAIISIVSCAWGITTSGGAKGVGEST 423
           DSVYGVSINIILDSALRAL SWDIISAMIKSQVFGAIIS+VSCAWGITTSGGAKGVGEST
Sbjct: 256 DSVYGVSINIILDSALRALKSWDIISAMIKSQVFGAIISVVSCAWGITTSGGAKGVGEST 315

Query: 424 TSAVVISLVGIFVADFTLSCFFFQGAGDSLKNCI 458
           TSAVVISLVGI +ADFTLSCFFFQGAGDSLKNC+
Sbjct: 316 TSAVVISLVGICIADFTLSCFFFQGAGDSLKNCM 349

[Close]
BLAST of ClCG08G003960 vs. NCBI nr
Match: gi|778710011|ref|XP_011656500.1| (PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X3 [Cucumis sativus])

HSP 1 Score: 578.9 bits (1491), Expect = 8.0e-162
Identity = 294/304 (96.71%), Postives = 300/304 (98.68%), Query Frame = 1 

Query: 154 KFAMPLCKNRLNAIPNAEDGHPSASMSEDINSNPVLDSIGGELWNKWSPPRYLWRGLSVL 213
           KFAM LCKNRL+AIPNAEDG PSASMSEDINSNPVLDSI GELWNKWSPP+YLWRGLSVL
Sbjct: 3   KFAMSLCKNRLHAIPNAEDGDPSASMSEDINSNPVLDSIAGELWNKWSPPKYLWRGLSVL 62

Query: 214 FLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLN 273
           FLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLN
Sbjct: 63  FLTGQVIMRTLKGKVHWKNTLQQLERVGPRSVGVCLLTSAFVGMAFTIQFVREFTRLGLN 122

Query: 274 RSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLV 333
           RSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLV
Sbjct: 123 RSVGGVLALAFSRELSPVITSIVVAGRIGSSYAAELGTMQVSEQTDTLRVLGSNPVDYLV 182

Query: 334 TPRVIASCIALPILTLVCFTVGMASSALLADSVYGVSINIILDSALRALNSWDIISAMIK 393
           TPRVIASCIALPILTL+CFTVGMASSALLADSVYGVSINIILDSA+RAL SWDIISAMIK
Sbjct: 183 TPRVIASCIALPILTLMCFTVGMASSALLADSVYGVSINIILDSAMRALKSWDIISAMIK 242

Query: 394 SQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFVADFTLSCFFFQGAGDSL 453
           SQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIF+ADFTLSCFFFQGAGDSL
Sbjct: 243 SQVFGAIISIVSCAWGITTSGGAKGVGESTTSAVVISLVGIFIADFTLSCFFFQGAGDSL 302

Query: 454 KNCI 458
           KNC+
Sbjct: 303 KNCM 306

The following BLAST results are available for this feature:
BLAST of ClCG08G003960 vs. Swiss-Prot
Match NameE-valueIdentityDescription
TGD1_ARATH1.4e-12974.76Protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic OS=Arabidopsis thaliana GN=... [more]
Y1045_SYNY37.2e-7051.00Probable ABC transporter permease protein slr1045 OS=Synechocystis sp. (strain P... [more]
YCF63_PORPU1.4e-5746.09Probable ABC transporter permease protein ycf63 OS=Porphyra purpurea GN=ycf63 PE... [more]
YCF63_PYRYE6.5e-5542.40Probable ABC transporter permease protein ycf63 OS=Pyropia yezoensis GN=ycf63 PE... [more]
Y096_RICPR2.8e-3738.16Probable ABC transporter permease protein RP096 OS=Rickettsia prowazekii (strain... [more]
BLAST of ClCG08G003960 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KC25_CUCSA8.0e-17793.82Uncharacterized protein OS=Cucumis sativus GN=Csa_6G022380 PE=3 SV=1[more]
A0A0B0NUK1_GOSAR3.1e-13682.79Trigalactosyldiacylglycerol 1, chloroplastic-like protein OS=Gossypium arboreum ... [more]
F6I493_VITVI4.0e-13675.60Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0062g00940 PE=3 SV=... [more]
B9GNC5_POPTR1.5e-13575.07Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0002s23540g PE=3 SV=2[more]
A0A061EJJ3_THECC5.8e-13575.37Trigalactosyldiacylglycerol 1 isoform 3 OS=Theobroma cacao GN=TCM_020149 PE=3 SV... [more]
BLAST of ClCG08G003960 vs. TAIR10
Match NameE-valueIdentityDescription
AT1G19800.27.8e-13174.76 trigalactosyldiacylglycerol 1[more]
BLAST of ClCG08G003960 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|778709996|ref|XP_011656497.1|8.8e-17793.82PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X2 [Cucu... [more]
gi|449441161|ref|XP_004138352.1|1.2e-17693.82PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X1 [Cucu... [more]
gi|659089636|ref|XP_008445618.1|2.2e-17594.93PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X1 [Cucu... [more]
gi|659089640|ref|XP_008445621.1|6.3e-17594.91PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X2 [Cucu... [more]
gi|778710011|ref|XP_011656500.1|8.0e-16296.71PREDICTED: protein TRIGALACTOSYLDIACYLGLYCEROL 1, chloroplastic isoform X3 [Cucu... [more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR003453ABC_MlaE_Proteobac
Vocabulary: Biological Process
TermDefinition
GO:0006810transport
Vocabulary: Cellular Component
TermDefinition
GO:0043190ATP-binding cassette (ABC) transporter complex
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006869 lipid transport
biological_process GO:0019243 methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
biological_process GO:0006810 transport
biological_process GO:0008150 biological_process
cellular_component GO:0043190 ATP-binding cassette (ABC) transporter complex
cellular_component GO:0009707 chloroplast outer membrane
cellular_component GO:0009941 chloroplast envelope
molecular_function GO:0005319 lipid transporter activity
molecular_function GO:0003674 molecular_function
Relationships

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

Feature NameUnique NameType
ClCG08G003960.1ClCG08G003960.1mRNA


InterPro
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
Date Performed: 2016-09-28
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003453ABC transport permease subunit MlaE, ProteobacteriaTIGRFAMsTIGR00056TIGR00056coord: 211..448
score: 3.0
NoneNo IPR availablePANTHERPTHR30188:SF2PROTEIN TRIGALACTOSYLDIACYLGLYCEROL 1, CHLOROPLASTICcoord: 124..456
score: 1.2E

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
ClCG08G003960Csa6G022380Cucumber (Chinese Long) v2cuwcgB504
ClCG08G003960MELO3C011502Melon (DHL92) v3.5.1mewcgB305
ClCG08G003960Cla007168Watermelon (97103) v1wcgwmB409
ClCG08G003960Cla97C08G147310Watermelon (97103) v2wcgwmbB336
ClCG08G003960Bhi04G001672Wax gourdwcgwgoB621
ClCG08G003960CSPI06G02910Wild cucumber (PI 183967)cpiwcgB530
ClCG08G003960Cucsa.365570Cucumber (Gy14) v1cgywcgB628
ClCG08G003960CmaCh17G005780Cucurbita maxima (Rimu)cmawcgB335
ClCG08G003960CmaCh08G000890Cucurbita maxima (Rimu)cmawcgB815
ClCG08G003960CmoCh08G000930Cucurbita moschata (Rifu)cmowcgB811
ClCG08G003960CmoCh17G005610Cucurbita moschata (Rifu)cmowcgB332
ClCG08G003960Lsi08G003260Bottle gourd (USVL1VR-Ls)lsiwcgB439
ClCG08G003960Cp4.1LG12g04890Cucurbita pepo (Zucchini)cpewcgB151
ClCG08G003960Cp4.1LG17g09940Cucurbita pepo (Zucchini)cpewcgB311
ClCG08G003960CsGy6G002990Cucumber (Gy14) v2cgybwcgB462
ClCG08G003960MELO3C011502.2Melon (DHL92) v3.6.1medwcgB300
ClCG08G003960Carg22622Silver-seed gourdcarwcgB0215
ClCG08G003960Carg04916Silver-seed gourdcarwcgB0087
ClCG08G003960CsaV3_6G003160Cucumber (Chinese Long) v3cucwcgB522
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
ClCG08G003960Silver-seed gourdcarwcgB0086
ClCG08G003960Cucurbita maxima (Rimu)cmawcgB814
ClCG08G003960Cucurbita moschata (Rifu)cmowcgB810
ClCG08G003960Cucurbita pepo (Zucchini)cpewcgB310
ClCG08G003960Melon (DHL92) v3.6.1medwcgB299