HG10009667 (gene) Bottle gourd (Hangzhou Gourd) v1

Overview


Name	HG10009667
Type	gene
Organism	Lagenaria siceraria cv. Hangzhou Gourd (Bottle gourd (Hangzhou Gourd) v1)
Description	TRAF-like family protein
Location	Chr06: 8665049 .. 8691424 (-)
RNA-Seq Expression	HG10009667
Synteny	HG10009667

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGATTGATAAAATGTACACATATCAATCTTATGATTTTTTTTCTATCATTTTATTTTAAATTTCGAATTTAGTTGTTGCATTGAATTGTAAAAAAAAATAAAAAAAATAAAAAAAATTAGTGCAATTATTAATTTGCTTTTGTGTCAAATAGATCAAAAGGTTTCTAGCAATGTTATGACATTTTTTTTTTTGCAAAATTGCTTTTATTTGTTAACAAAATTATGTCAAACATACGGTTGTTGATTTTTTCTCTTGGTACCTAAATGATTTTGATGCGGTTTTAGCACACACAAGCTATAGAAGAAGAATTCCAAAGCTATTAAAATTCATTCGGTTTGGATTGATTTGAGAAAAAATTATTTTTCAAAAAATTATTTTTTATTTAAACTCTGTTTAAAATATTACACTTTAAAATCAATTTTGAATGGTTTCAAACACTCTAATTTTTTTCAAAATGACTTATTTTTAAAAGAAAATTCTTACCGATAGAAAAAATGTCAAATTATTTACAAAAAATGGCAAAAAAAAAAAAAAAAAAAAAAAAACCAGTGATAGACATTGATAGACTTTTATCATTTTTATTACTGATATATTCTAATAGACTTCTATTAGCGTCTATCATAACTATCTAAAAATTTTGCTATTTTGTGTAAAATAGAGAAACATAATTTTAAAGTCTACCATATAATTAAAATAAGGTAAATTATAAAAACTAAAACGTTCATTGTTTAAAAAACATTGCTATACTTTTGATTAGAGAATTACTATCGTTATGCTTTAAAAATATTCTTCAACTTTCTAATATGCAACGATGTACATGAAATCGAAATCATATCAGTAAAAAAATGAAAAATAACTTAGACAATCGTGGGCTAATTTAACAATATGCAAGGAATAATAAAACATGACGAAACTAAAATGCTAACATATAGATCCAAACCCAGAACAGAAATTCTAAAAAAAATTAGATCTAAACAACAAAAAAAAAAAAAACGAATGTGAAAAAAGAAAAATAGTAAAATCTACAAAAACCATTTCATACCTAGAGGTGATCATCGGTCGAGCGGCGTCGGTTTTGGGTTCAAATCGGCGCCGGCCACCAACGCATCGGGTTTCATCGGTCGGGGCTTTTCAGTTTTGGAGGTAGTGGGAAAAGGTAAGAGAAGGAAAAGAACAATAGAAAGGAGGAAAGAAGATAGAGAGAAATGAATGAAATGAGAGACAATAGAAAACTTGGGAAAGAAAAAACTTGGGGGAGAGAGAATGGAAATATTAAATGAAATCATTTTTTTTTTTAATTCTTGAGATGAGAGAATGGAAAAATTGGGAAAGGAAAACGTTGGAGAGAGAATTCAAAAATTAAATGGAGAGAAAATGCAAAACTTAAATGAAATTATTATTATTTTTTTTGAAAAGTGTTGACATGAGAGAGAATGGGTAAATTGGAAAAGAAAAACGTGAGACAGATAAGGCTAAAATTAGATGAAATCATTTACTTTTTTTAAAAAAGGTTTTGTGTGTGGTTTTTAAAAAACCATGGAAAAACCACTAATTAGGTAAGTTGGCAAGTGAACCAGCACTTACTTCAAGCTAGCGGGCGGTCGGAAACAGGCATTTTACTCAGCCGGCCGGCCGACAGATCGGTTTTTTAGAAAAGAAAACCGACCCCGGCCGGCCACTTTCAGTTCAGCTCGGTTTTTCGAATTGCTTTGCTTACCCTTAACAACAACCTATACGAGAAAGAAGAGACTAGAGGTATGCCAAAAAATAATATTAGTTCTCTACTTTCTAAATCTTCTACCAAGATTGTTTACTAACTTGATTGTTAGGGTGTCGTGGCTAACACTACACTAGTGCAAATTCTTACTATTTTGTAGGCAATTTTTCAGTTTTTTCCTATTTGTACAAATTCACTTTGGTATGATATAATACAAAACTTAGTTTATTCAATGGTACTATTTTTTTTTTGAACAATACACCGTTGGAGGTGAGATCAGGAGGTGCATCAGGATATCTCAACTAGGTTGACGGTGAGATCAGGAGGTGCATCAGGATATCTCAACTAGGTTGACACATTCATAGCACCCTCATCACACCCTGAGTCCAAAAGAGATGCTTTCATTCAAAGCGCGATAAATGTGAGGAAAATGTACAAGGAGCATAGTGATGCACAAACAAAAGAAGATGTTAGCAAAGGGAGGCTAGAGAAAGGCCTTCTAATTGAGAGCAATAAAGGGAGCATCATAGTTAGAGAAAAAGGGCGATTTTTTACACCAATCTGCCGTCACAGTGATAATGTCTTCCCAGATATTGTTTTGTAATTCAATGGTACCATAAAACCCTAGTTTATTTAAAAATAATTGTAATGGATGACAAATTAGAGCTTCTTATTTGCAAATATAACAACTTTTTTTAAAAAAAATTTGCAAATATAGCAAATCTTTAAAATGACATTTTCCTTATTCCCTTGTTACCCCTATCTCCCAATTCCTCTCCCTATCTCCCAATTTTAATCAATTTCTCTCTCATCTCCCAATTTTCTCTCCAAGATTATCTCCCCATCTCCCAATTAATCAATTTAAACCTCATTCCTCTCTCTCCCATTTTTCTCTCCAAGTTCCAATTTCAATCTACTACCACTCCCTATCAGTACCATTAGTTCATCTTTCTTTTATTTTTACTTTTTAATTAATAAAAAAAATTAACAAAGTGGGTATTGAATCCAAGGTTTGAGAGTGCAAAATTATTTTAATAAGCCCCTAACACCAACGAACCAATTGTCATATTTGATTACTCTAACGAAGCGTTAAATATAAATACTAAATAGATTTATTATAAAAAAAATACTAAATAGTAACAGAACTAAAAGAAACTATTTTCCCCCCTCATAAGTTGCATTATTTCTTAAAATATTAGAAATAAGAAGCAATAATGGTTATGAAACAAGTATGTTTCTCAACAAAATTAGAAATGAGAATGTTATCAAATGAAACCATAGTTTTTTTTGTCAATGATATTAATGACATCTGCATATCAGTGATACAACTTATGTTGATATAAGAGATATCAATGATATTAGTGGTATATTGATAATATGACTTAGGTAGATATTAGTGATATTGGTGATAGAAGTTAGATAGATATTAATGATATTCGTGTATCAATGATAAAAGTCATGTAGATATTAGTGATATATTGATGATATGATTTAAGTAAATATCAGTGATATTAGTGATAGAAGTTAGGTAGATATTAGTGATATTCCTGTATCAATGATATCAGTGATAAAAGTTATGTAGATATCAGTGATACCTGTGTATAAGTGATATTATTGATAAAACTTATGTAGATATAGGTGATATCTGTATATAAATGATATCGATAATAGAAGTTTGGTAGATATCAATAATATCCGTGTATCAATAATATCAATAATAGAAGTTAAGTAGATATAAGTGATATTGGTGATAAAAATTAAGTATATCCGTGTGTATTAGTGATATCGGTGATAGATTAGTTATCGGTGATATCAATAATAGCAGTGATATAGGTAGATATCAATGTTGTCAATAATAGCTACTATTAGTGATAGTTGGTATCATTGATAGACTTCATCAGTGATAGCAACTAACATTGATAGACAAATCAATGATAGTAGCTATCACTAATAAACTTAAAAAATCAAGAATTTTGTACCTCTTGAGTGTTTTTTGCTTTTAATGAACTTTTTGGACATTTTCTATTGGCGGAAGATAAATTTTACTATATTTGCCATTAGTTTTAAGTTTTATTATTTTGTAATATTTTAGCCTCATTTTGTCATATATACACTAGTAGCCCTTTATTTAAAGGGTGTAAGTATAGGTTAGCAACCGATTTATCATTTATATATATATATATATATATATATATATATATATATATATATATATATATTAATCTCGGAAATATGAATATACAATTGTAATTAAAAAGAGAGAGAAAGGAACAGAATACGAATAAGCAAATAATAAATAAATAAAAAAAAAAAAAAGAAGGAACTGGAAGAGACAAGGTTTTGAAGAGTATATAAGATGGAGATGCATTAACTTTGCTTGGCCTATGTATCCTTTTTCTTATACCAATCGACAGAGAAATCAGATATGGAAACTAAAACGAAGAAGAATGATGATATCATCACCTCTTCCTTTTCCACAACAAACCCAGATTCTGCTGCTGGTTTAAATAACATATTATATATTCTCTTTCTCTCAATACTTTATATATATATATTAGATTATTATTTTAATTTGTTGAGTTATATTTTGCAGTTTTAAGGTCCACTAGAATTGAAAAACCCCTCCATTATACTTTACAAATCCAATCCTTTTCTTTGCTGAAAGCCGCAATTGCTACTTCTCCTAATCGTCACAGATATGAATCTCAAATCTTCAATGCTGGCGGTTATAAGTGGTGAGCTTAATTCTAACATATATCTAATTAATTTTAGTTACTAATTTAATAGAACTAACAATTTAGTCATTAAATTTTAGTTACTATAACTATTTAGTCTTTTTGTATATGAAAAAGTTTTATTAGATCTTACATATAGACTACATTGTTACAAATTATAAGCACTAAATTATTGTTACAAATTTGCGCAGGAAATTAGCTCTTTATCCCAATGGAGATGAGAAAAGAAATGGTTCTAATCATATCTCCCTCTATTTGGTAATGGCTGAGGCTGACACTAATCAACCCAACACTACTTCTTCAGAGGTTAATGTTATGTTTACATTTCTTGTTTATGATACTCTGAAAGACCAATTCTTGACATTCCAAGGTAATCAAAACTACTAATTATTATAACATGTTTTTAATTAATTAATTAATTGTTAGGGGTTTTTAATTTGTGTATTCAGATGGGAAAGTAAGACGTTTTCATGCCATTAAGAAAGAGTGGGGGTTTGAGAAGTTAGTGTCACTTGAGACTTTTCATGACGCTTCAAATGGATTGTTGGTGAATGATTGTTGTGCATTTGGAGTTGACGTTATTGTCATGAAATGTGATGGGAATGGGGAGGTCCTTTCCTTGATTAATGAACCAAAAGATTACGAATATACAAGGAAAGTCAAAAACTTTTCAGAACTAAGTAAGAATTTATATGAATCTGATCCTTTTACAGTGGAGAGCCACACTTGGTACGTAAATTCTTTCCCTTTTTTTTTTTTTTTTTGATGCATGCTCATGTATTCGTTGTTAATTGTATACATTTACATATCCATGTGTTTAGGAAAATACGACTATATCCTAGTGGATACTCCAAGGCCACGACGGGCTATATGTCCTTGTTCTTGATGCTTGATAGTTTCGAGAAGCTTCCCCAAGGTTTTGATGTTTACGTTGAATATGAGATAGCTGTACTGAGCAAACATGGAGTTAGGCATATAAATTCTCCAGGTAATTATATATTTTTTTAACCATCATTTGCAAATTAAAAAGCATTTCTTAAGCCCTAAACCTGCTTAGTAATCATTTTATTTTTGGTTTTTGGGCTTTAAAAATTAAGTTTATTTTCAGTTTGTATCAATCTTAAGGAGAGGAGTTGAATTCTTTGCCAAATTTCAAAAATAAAAATAAATTTTCAAAAACTATTTGTATTAGTTTTCAAATTTAGACTTTGATTTTTTAAAATATGGGTAATAAATAAATAAATATCAAAGGAAGGAATTTAGATGTGGAAGGGATGTGTATATAAAACTTAATTTTCAAAAACTAAAATTTAAATGGTTATTAAATAGAGTCTTAATTATTTAGGCCTTGTTTTGTAATTTTTTTAAATGGTTTTTGAAAATTAAGCTTATTTTTTCCACATTTCTTACAATGATTTGCATTTTTTTTTAAGGAAAATGATTGAATTCTTAGCTAAAATTTCAAAAACAAAAACAAGTTTTAAAAAATTATTGTGTTTAGTTTTCAAATTTTGGCTTTGCTTTTTAAACTATTTGGTAAAAACTAGATAACAAAAGAAGAAATTTGGAGATAGAGTAGTGTTTATAAGTTTAATTTTTAAAAATAAAAAAATTAAAAATTAAATGGTTACCAAATAGACTTTAACTTTTTAATTTATCTCTCGTAGGTGAATGTTGGTTTGATGGTGAAAATAACTGCTGGGGTTTTAGAGATTTCATGTCATTGAGTAATCTCAAGGAACCATCAAACGGCTTTCTCCACGACGATACTTTGATCGTTGAAGTGAAAATTTATGTCATCTCCACCTTGAAAAAGTTTTTATAGAAAGGGAAATGCGGTGACAGACTCTGGCTTTATTTTTTGTGTGGTTCTAAATACGTGTTAACTGTTGGTGTCTAAAACATGGTTGCAACTTCAATTATATCTTTTTTGTTTTATGTTTTTGGGTCTAGTTTTAATTTGGTTCCTATAAAAAAATTGTTGAAAATATTGAAGCTAATGAAAAAAGTTATAATAGATCTTTTATAGCCTTTTTCGAAGGTCTTGACAGCTCATGTGTTGAATATCCTATATTGAAAACACTAAGAATAGATGAGCTGTGTAATTAATTGAGTTGGTTATATACGAACGAGTAAGTTTAGAAAAATACATAAAAACAACTTTTTTTTTACCATACATTATATTTTAATATATAATTTATTTCACGAGTCTTAAACAAGTTTATAGCAATAAAATTGTGTATAAAAAGAAAAAAAAAAAAAAACAAGTTTTAGGTTGATTTATGCATTTGCGAGCTACTCCCTCAGGAGAACTCATTGGTTTTTATTGGAATCATGTATTTAAGTTGATATTATTTTTTGTGTGTGATTGTAGTGGTGGCTTATACTTGGGTTGCTTTTGTAACTCCCAAATTAAATATGAAGTTTTCTTATTCAATGATATCAATTTTTAATCTAAACTCACGTATTTTGTACATGTTCAACAATATTAATATATTCTCAAAATGACCAAATGACATAGAATAACGTGACTTAAAATCCAACTCATCTTTAAAATTTGGTGAGGTAAATATTTTATTTCTATTTTAAAAAATATGATATTTAAGGTATACTACTTTTGTTTCAACTACTTTTTTTTATAATGGATCATAATTGTTTTGTTGGAATCATGTGCTTAAGTTTACAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTACGTGGTGGTGGTGGTCTATGCTTCACAACATGTTTTTTGTGCAACTTATGAAAGATTTTTTTTTTCATCTCGAAAATATAGAACTTTTTTAATGAGTGATATGAATTGTAACTTAATATCTAACGTAGTTTTTCATGTTCACAAATATTGGTGCATCTTAAAATGACCAAATGGACAAATAATAGCATAACTTAGAATTCAAAACAATTTTAAAAAATTAGTGGATCAAAACAAATACTTTTATTTATATTTGCAAAAATATGATATTTAAAGTACTATTATTTGTATAGTAAAAGAAATAGTAGAAAAAAATCCTAAACCCAAAGTAAAATAATCTGTCGTCCAAGCACAAATTATTATAATCCAAACTTAAATAATGGACCCTACATACTTTTAAAACCCTACTCTTAACATCCCTTTATATTTTAAAATAGTTATATAAAAAATAAAAAGATTATTATTTTAAATTTAAGGATAAAATACCATTTTGGTCAATACTTTGAAATTTGTTTAAATTTAGTCTAAATAGTATGTAATTTCAAATGTCTAATTTTTTTTTTTATACTTTAAATAAACCTTAAAATTAGTTAAATAATAATAATATTTTTATACAAGGAAATATAATATGTGAATATGTTTTTAAATTATTGTGCTTAACAATATGGATTAAAATAGACCCAATATCAAAATTTGTATTTCTTTTTTTTCTTTTTTTTTTTTTTTGTTATTGTTGATAATTTTTATTTTTAAATATTCTTTAAAAAAATTATATAAAAAAAAATTAAAGGAAGATAGTCTTAGAAAAAAAAGGATTATTGTATAAAATTTGAAAAGAATGAAGAGCGTGAAATTGAAATGATTGGGGACGCGCTCCAACGGTGTTTTGTGGAAAATGTAAATTATAAATAAGAGTTAGCCGAAGCACTCTGTTCCCCAAAATCCCAAAATAGGCTGCAGCACTGAATCTTCGGAGAAGGACGCCGGAGAGATCGAAACCGTCGCTGATCTGAGAGGAATGATCGACGAAATCACCGGAGAAAGTTGGGTAGTTGATTTGATTCTTAGCTATTAAACGATTTATTTTACAAACCCTAATTCTCTGATTCTCTTCTCTTTAATTCTGCATTAAAATTAAAAGATTTCACGTATACATTATTTTTCTATGAACATAATTTTCAAACACTTCGGAGGAAAATGTTTATCTTCTTATGTTTCCCTAAAATTTGCTATAAAATCCCTATTTTTCCTTCTCCAGAAGAGTTGAAGCAATTCCAGAAGAAGTGTCCATAATTTAAAATAAAATTCATTATTTCATATATGAGAGTGAGATATGTGAAAATATTAACATAAAAATGGTTGCACATCTATATTACAATACCAAAGTATTCACATATTTATGTGATATAATATAATTACTATGACAAGTTTTTGCTAAAATAAAAATTGATAAAATAATAAAATTTTAAATTTAAATCATTAAAAAATTATATTAAATTGTTTATAATTCAGGTAAATTTAATTGGTTTAAAGTTTGGTTATCTAATATTAGATTCTAATTAATTTATAATTCACCTGAATTTTATTTATTTAAAATTTATTTATTTCTAATATTTGATGATCCAAAATTTATCATTTATGTGGAATTTTTTTTTTAATTTTTATTGGCTTTAAATTTGGTTTTGAAAGAAAAAATAAGAAGAAAAAAAAAAGAATTTGAAAAATTCACTAGCTAATATATACTTCATGATAAATTATTTGTTGTAAAACCAAATTAGGATTTCAAATCTAAATTTTCTCTAAATAGTTGAGTTAAACTATTTATAGAAAATAGCAAAAAAAAAAAAATATTTATATTGATAAACTTTTATCTATTTCTATCACTAATAGATTCTAATAGACTTGATCTATCAAAACTATCTAAAAACTTTTCTATTTTGTGTAAATTGTTTTCTTATTTTTCTATTTTTAAAAACTCTCATTTTATTAACCCGCTCTTCTTAATTTTTTATGGATTTTTTTGTAGCGTACTTTTAAAAGAAAATTTAGGCATTATTGCCACATTTTTTGTGTTTTTTTTTCTTATTCTTTAACATTCTAAGTTTTTTTGGGAACTTTTAAAAATAGAAAGATAAAGAAAATTATTTATACAAAATAGCAAAATTTTTAGATAATTGTGATAGATAGAAATGATAGAAGTTCTATTAGTATTTTTTTGCTATTTTATGTAAATAGTTTCACATTTTTTCTATGTGCGAAAATTTTCCTTTTTTTTTCCAGCTAATAGGCTTGGTCTACAATTTCTCCCTTCTTTTTTTAACTTTTTCATTATTATTTTTTGTTAGTCAGTTTTTGTTTTTTTAGGACTAGAAGTAGCTAGGTATCCCAACTCCTTTTTTTAAAAATTTATTTAAAGTATGTTATCTTTTTCAATTTTTTCTTATAATTTAACGTGGATGGTGTTGGTTATCAAAAAAAAAAAAAAAAAAAAATGTGGATGATGTTTGTGGGCTTGAAATTTAGATTGAATAATTAGTTAAATAGTAGTTATAAATATATTAGAAATAGATTTTTAGTTCGAATATAAGTGATTTAAGAAAATTCAATTCAAAAAACTAAAAAAAAAACATATTAATTCAAATTTGTCTTAGAGTAATGTAAAATTTGTTTTAAAAAAATAAATAAAAAATAATATTAAGTATAAGATTCTTATTTCAACTTATAAATATGCATTTTATTTTAAAAAACATGTACAAAAAAAGTCTTGAGTTTTTAGGATTAGGTGCGTTTGGTCGTTTTAAAATGGCCAACTTAGTTTTAAAAGGTCCTATTACATTAATTTTTTTTATATATTTTAAATAATTTCTCTCTCCTTTTTCCCAATATTATCTCTCCTCTCCTCCTCCCCTCTCTCCATGGTAATTCCCTCACAATCTAAAGAACAGGTTACAAAACACTCATTAAACTAAAAAAAAAAAAAAAAAAATGCAGAAACATCCATTAAACCAATGAGATTTGAAAATAGCCCACCCCATAAAGTCGTCTATTACAAAATCCTTGTCTTTCACCACCACTTCCAGTAGAGATGCTTGGATTCGTTTCCATTAGAAAGCAAAAACTTGTTTCCACTAAGGATTAGGCTTATTCTCAAAGTGTTTGGTTGTTCCCTAATGTTTTTCAATCGTATTATCCATACTCAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTAATGAGCGTTTGATGTTGTGTTTTTTACACTGAGAGGAATGGCGATTTTAGTTCCTCAAATTTAGAAGAAGTGTCTATATAGTCTCTGAAGTTTCAAAATAGACATTTTTAATTCTCTAGGTTTTGAAAAAAATTCTAAATGGTCCTTGTGGTCAGTTGACCGTTAGTCGTGAGTGAATTTTTATTTTATATTATTATTATTAATTGTGAGTGAGCCATTGGCTAGGAGGTAGAAAGTTCTTCCTCCCTCTTTCCTCTATGGTCAACTTTGCCAGTCTTTTTGCTATTCTCTTGCTTCTCCTTGCAGGTCTACGCTCCTTCAGAAACTTGCTCCATTACTCCAACCCCATGACCCACCCACGCATCTCATTTAATTGGGGATGAAAGATTTTCACAAAAATCCCACCACCATATTTTTTTTCTTCAAGGACTAAAAGTAGGACTAAGAGACCATTTCGTATTTGTTGGACCAAGATTTTGGCAGAAAAGAAAAAGGAAAAGGGGAAGAGGAAGAAAAATAGACACACCAGTACAAGGAAAAGACAATGGAGGATTAACATTTTTCGAGATAAATAAATTTTTTTTTTCTTTTAAGAAAACAAAATCAAATCTCATTACCCATTATTTATAGTTCAATTCATAAGATCGGCGCGAAACTTCATCCACCAATTACAGTTGACAATAGAAACTGACCATGGAGGGCACAAGAATAACTCTACTTTTTCTTTCAATCTTGTGATTCACCTTTTTGAATTTCTCTCACCTCTCAAAATATTAAAAGTTACCCTTAGAAACATTTGAAAATTCAGGATCTTTTGCCTTACTACTACAATAATTTAGTTTTCCAAATTTAACTATATTTTCTCTTTGGTACAATTCACACTTAAATTAGTTATCGATTTAAAGTACTCTTAGAGATCGACCGACCAAAGCAAAAGTCCACTGTTCATCGTTCTATATCTGGTTATTCAAGATTTAGAAGTGTTGATGCTTCACAATCTATATCAATGGACTTAGATTCAAATCTAGAAATTTTTAGGTGTGCTGTCGGCGAAGAAAAGTAAGTAAATGAGGGGCACCGGTAGTGAAGTTTGTCGAAAAGAAGTGCAGGAGGAGAGAAGAGAGATTGAAGGAGAAGATGTCATTATTTGCCACATCATAGTGTCTAATCACGGAACTATAATATAAAAAAGTATATGTTTTGTCACACAATCCTAATTCACTTGACATATCATTATTTCGTTAGTCAACTAACAGTCAACTGACTACCAGGACTATTTAGAACCTTTTTCAAAACTTGGAGAACTAAAAATGTCTATTTTGAAACTACATGACCATATAAACACTTCTTCCAAACCTCAGGACCAAAAGTATATTTTGCCCATTAATATAATATATAAAAATGCTTAATTAATGTAGTACGACCTTTTAAACCTATTTCTTAAAACTGTGGACTAAATTGGCGAAATTAAAACATTAAACTCATGGACTAAAAATTTGTTTTTTTCAAAAAAAAAAACATTGTTTTCGATAAAATGAAAAGAAATTTTCAACTATTTACAGAAAATAGCAAAAAAATAAAATAAAATAAACATTGATAGTTTTTTTTATTCTTCTATCATTTCTATCATTAAACACCACAACTATTTGGGTAAATAGTTTGTTTTATTTTTCTATTTTTAAAAATTCTCCTAAAATGGGATTTTTTTTTTAGAAATTGCACAATATCTGATTTTTTAAATGGTAAGTTTGAATATTAAAATATTTTTAAATCGAAGAGTCAAAACAGAAATAAAATCAAACTGAAGAAACAATCTGAACAAATTTGCAGAGATTCGAGTTTGAACTTTCAACGAATCAAGGGAAATTCGGAACGAAAAAAAAAAAAGACGTATTAATTAAATGTGTAAAAAATTAAAACAAAAGTTAGATTTATAAATAATGAGATAACTAAAATTAATTTTAGTCCAACTTTTCACCTGCAAAAAAAATTACAATACGTATTCTTATGAAAAAATAGAAGGAAGAATGAGTGATATCATCTCTCCCATTCAGTCCAACAAATGGCTTTCTCTGCAATGATACTCTGATGGTCGAAGAATCAAAACAGAAATAAAATAAAACTGAAAAAACAATCTAAACAAATTTGCAGAGATTCGAGTTTGAACTTTCAACAAATCAAAGAAAATTTAGAAAAAAGAAGAAGAAGAAGAAAAAAAAAAAGACGCATGAATTATGTGTAAAAACTTATAGCAAACTTTAGGTTTATAAATAATTAGATATTACCATTCAAAAACTAAAATAATTTCACTTCAAAAAATTCGAAGAAGAATTACAGTACAGGCGGATATGGTAAATAGAAGGAACTCCAATGATATCATCTCTCCCACTCAAGATTCTGCTTGTGGTATAACATTCTCTCTCTCAACTTCATGTATTATTATTTCAATATTTTATACAATTATTTGTTCCATCCTATGGTTATTTTGCAGTTTTGAGATCCCAACCACCACTCCATTATACCTTAAAGATCCAATCTTTTTCATTGCTCAATGCTGCTAATAATTTCATTAATCTCAAGAGATATGAATCCCAAATCTTCAATGTAGGAGGTTATAAATGGTGAATAATATTCCAAAAACCATCTCTCTATTTTTTTTTTTTTTTTTTTTAGTCATGATATATATCATCTTAACTAGTTGAGCTATGCTATGTCCATAAGAAATTAGCTCTGTATCCAAATGGAGATGGGAGGAGAAATGTATCTGATCATATATCCCTCTATTTACCGATCATATATCCCTCTATTTGGTAATGGTAGAGGAAACTACTACTACTTAAGAAGTTAATGTTGTGTTTACATTTCTTGTTTATAATAATCTCAAAGACCAATACTTGACACTCCAAGGTAATCAAACAACTTTTGTAATTAATTATTTGTATAGATTTTGTTTGAATTTTAAAGAAAATTTTCCCAGATAGAAAAAATGTCAAACTATTTAGAAAATAGCAAAAAAAAAAAAAAAAAAAACCATTGATATCAGTGATAGACTTGACTTCTATCAACATATATGTATCAGCATATATGCAAAAAACATATCAGGAGACTTGACTTCTATCAGCATACATGCACATACCAGTGATAGACTTTCTTCTATCAGCATACATGCACATACCATTGATAGACTTGACTTCTATGATACACTTCTATTTTTTTCTATTTTTAAAAATTCTCCGAATTTTAATGTGTATTATGACTAACTAATTGATTCAGATGGGAAAGTAAGGCGTTTCCATGCAATGAAGAAAGAGTGGGGATTTGAAAAGTTGGTGTCACTTGACACTTTTAATGACGCTACAAATGGATTTTTGAGGGATGATTTTTGTGCATTTGGAGTTGATGTTATCTTGGTTAAGGAACCAAAGAATTATAAATATACATGGGAATTCAGCTTCTTTTAACAAAAAAAACTTGGGTTGTTCAAAGTTATACACGGTATAACATTTATATTATAAATATAAATGTTAAAAGTTATACATTTCTTCAAGTTCGAACAAGTTTTTCAAAGTTCATTATACATTTTATACACCCATCTTTAATGCTTATTTTCATTACTTCTCCAGTTGTTAGGTCCACCAGATGTGAAAAACCACTCCATTATACCCTCAAAATTCAATCTTTTTCGTTGCTGAAGGCTGCACTTGCTAAATCCCAGTGTGACAGATATGAATCCCAGAGCTTCAATGCCGGCGGTTATAATTGGTGAGGTTTTAGGGTTTGAGTACATCTCGATTACTGTTGAGACCAATGCTCACTTTGACAATGTGGGAGCCTTTAGGGGAAAGAGTAGAGTTGTAAAGTATGGAGAGTTCCAAATTGATTAGGCCTGAAATTGATGTTTTTAAGTTGTGAACCCCCGAACTCCTTGGACTAAACAAGAAGTAGTGTAGAGTTTACAACCCCGCACCCACAACTCGGATATGTTCCTATATTTGTTTATTGTCACTATTTTTGGTTTTTCTTGTAGGAGATTAGCTCTGTATCCTAGTGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGAGGACAAAATTTTATCTACTAATTCAGAGATCAATGTTGTGTTTACCTTTCTTGTTTATGATATTCTCAAAGACAAGTATTTGACAGTCCAAGGTAACCAAACCCAAAAACCACATCTTTTTACCTTTCTTTGAGGTCTTGTAATTTGCTTATGTATAGTATTACCATTTTGTTTTAGATGGGAAAATAAGGCGTTTTCATGCTATGAAGACAGAGTGGGGATTTGAAAAGTTGGTTTCACTTAACACTTTCAATGATGCCTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCTTTGATCAACCAACCAAAAAATAACAAATATACTTGGAAAATCAACAACTTTTCAACAATAGATACAACTTTGAAGGAGTCTGATCCCTTTACAGTGGAGAACTACTCTTGGTATGTTAACTTTTGATCAAACAATTATTTTGGAATGTGTAGTATGAACATTTACATATGTATCTTCCAGGAAAATTCGTCTGTGTTGTCCTCGAGGATGCGACGGTAGGACCGCTGAATCTTTTTCACTGTACCTGGTCTTTGATGGTTCCAAAGAGCATCCCCGAAGTTCTAAAGTGTATGCTGAATTTGAAATTTCTGTATTGAGTCAACTTGAAGTTGGTCCAAGAAAGCAAACGTGTAATTAACAACCAACTCTTTTAATCATAATAATTTACATAGCTTTACTTGAAATGTCTTGGTTCTTAAAGACTTTTTAACTTTTGGTTTGGCAAGGGCTTTGGTTGGGGTCATTTGAATTTTATGCCATTGAGCGATCTCAAGGAACCGACAAAAGGGTTTCTTCATAATGATACTTTGATTGTTGAAGTGAAGATTAATGCTACCTTCAAATTGAAAAACCTTTTATAGAAGAGACATGTTGTCTTAGATGCAGCCTTTTGAAGACCTCTAAAAATGTTGTCTTAAATGCAGCCTTTTGAAGATGTGTATAGTCTTGTTGTTTCACTGAAATTTAGTCTACTTTTGTTCTTGTAAGATAAAAGATCAGCGAAAGCTAAGTACAGCTGAACATGTAAATTTTGGTAACATTTTGAGTTGCAGCTTCCATCTGTGCCTTCTTTTCTTGTTATACATATATGGGATTACTCTATACATTGTTGCTCAAATAATTTCCGAGGGAAAAAAGAAAAACTAAAGAAAAAAAAAGTACTCTCATTGGGATCCACAGTTTGGATGATGATTTATTTGTTTTTTGAGCAGAAATTGTTCTAAAAATGAAGGACTTTGCATTAAAGTGAGTGGGTTTTCTTCATCTGTTTTCTTTTCTTCATCTCTAATCTAGGGTTTAGAGGTTAGAATCTGTATATATATCACAAAATTTAAGTTTTATCCTTTAAATAATATATAAATATACACCTTACAAATTTAAGAAAAATAAATTAGAATTTAGAGAGAAATTACTAAAAAAATTTTAAGTTGAAGGAAATAATTATCTATCAAATTATTCATATATATAATTTAAATTTATTAAAATTCAAACATATCATTTTTTACACTAATTCAAACATATTCATTATTTTAACCATTAAACAACAAATCTTGAAAATTAAATATAATATTTTTAAAATAAAAATAAATAAAATAACATTAAATTACTATAATATATATAAGAAAATATCTTAAAGGGCGGGGATGGGGAATGTATTGCTCGTCTTGTGTGCCTAAACAGGAAATTTTTGTGGTTTCTGTCCCTATGGAGAAAGTGGACATCTCTACCAATTAGTTTGAAGGACAAGACCAAGTGCCACTATGACGATTCCCAACTTTAAGAATATTACCGTTCCGTAATTTTAAAAACAAAAACAAAACAATTTAATCCATTTTTTAGAAATATTTTTTTAATCTAGAAATAATAAATAAAAATAGTTATCAGACAAGTATATTTTCCTTAAGAAAATGAGAAATAGAAACCAGATCCAGAAACAAAAACACATAAACGTTATCAAACAAATACTTATTTGTCTCTTCTCTGAGGTACTCCATCCATGCCCTAATGACTCTGGTTTTTCTCAATTGAATTTGAAGATAGTTTCACAAATTATATATTTAAACGTGTAACGGCAACAAATCATATCATTTAGAATTTTTTTTTTATTATTTTTTTAAAGTTAAATTACCAATTTTAGTCTATAAAATTTTTAGATTTGTGTTTATTTTATCTTTAAACTTCAAAAATCTCTAATAATAGATCCTAAGCTTTAATTTTTGTGTCTACTAGTATGTTAGGTCTTCAACACATTCATAACAAATTTAAAATTAATTTATCAATTAAGTATAAAATTTAATTTTATGTGCAACCCAAAAAACTTTCAATTTTGTAATATCCTCCCATAGATTCGTGAATTAAAAAATAATAATAATAATAATACATAGAAGAATTATAAGTTACAAAATTGAAAAATTCATGGAATATATTAGGGAAATTTAAAAATTAAGAACACACATTATACATTTTTAAGAAGAAGAAAGAGACACAAAAGAAAAAATGAAAATGAAAATCGAATTTGAGCCCTAAAAACAACTAACAACGCAAACGCAAACACAAAATAGCAAAATTTTTAGATAGTTGTGATAAATAGAAGTCTATTAGGATCTATCAATGATAGAAATGATAAAAGTCTATCACTGATAGATTTTGACAGAAGTCTTTTTTTGCCATTTTCTGTAAATAGTTTGATATTTTTTTTATATGTGAAAATTTCCCTATGTTTTATAATTTATTGAAAGTATAATGGAATGCGTTTTTTTTTAACAAAAATGTAACATAGGGTAAAAATTACAATGTTTCACTTGACACTTTCAACGATGTTTCAAATGGATTTTTGGTTGATGATTATTGTGCATTTGGAGTAGATATTTTTATTATGAAATTTGATGGGAAGGGAGAGATTCTTTCCTTGATCAAGCAACCAAAAAATTACAAATTTACCTGGAAATTCAATGGTTTCTCACAACTACATGACACTCGTTATGGATCCGAAGCTTTTACAGTGGAGAACTACCGTTGGTATGAAAAAAAAAAATCAATTCCAATTCCCGAAAATAGCAAAAAAAAAAAAACTAATGGACATTGATAGGCTTGTAATCAGCATCTATCAGTGATAAACTTCTATCATTTCTATTACTGATAGACTCTAATAGATTTCTATTAGCATCTATCACAACTATCTAAAAATTTTGCTATTTTATGTAAATGTTTTCCTAATTTTTCTATTTTTTAAAATTTCCTATTATTATTTGCATAAAGTTATATTATATGTAGATTTTGCTTGCAATATAATTTATGTTTCAGGAAGATATCCTTATATCCTAAAGGATGCTCCGAAGCAAGCTCTGGTTATCTGTCATTGTACTTAACATTTGATAGTTTCAAAGAACTTCCTCAAGGTTCTCAAGTTTACATTGAATATGACATGGCCATATTGAATCAACTTCGGTTGGAACCTAAAAAAAATCATGTAAGTATACCAACTTAATTTTCACCATATAACTTGCAAATTAAGTTTAATTTTCTAAAAGTCTCGTTTGATAACGATTTCGTTTTTTCGTTTTTTTTTTTCTTTTTTAAAATTTATGCTTATTCCTCCCCAACTTCTCAATTATGGTTTTCATCTTTGTTGAAGTAACACTTAAGTTCTTAGTCAAATTCTAGAAACAAAAATATGAAAATAAGTTTTTGAAACCTATTGTTTTCTTCCAAAACTTGACTTGGTTTTTGAAAACGTGAGTAGAATTATGTGGAGTTGCTAGAGTGGTTCGATTGTTTGGTGATTTAATATGGTATTAGAACAAGATGTAAAGTCATTCCTTCCTAGTTAATATTGAATTTTTGGGTTGATCGGTGATTTGAACGGTGAATATGCATAAAAATGTGTAAGGTTTTGGGTTTTGTTGTGTGCAGATAAATGTTGGTTTGGGTTTGGTGGTGCAGAAACGGGTTGGGGTTCTCCGGATTTCATATCGTTGATCGATCTTACGGAACCGACGAAGGGATTTATTCGCAATGATAGTGTGATTGTTGAAGTGAGTATCAATGTTGTCTCTACCTTGAAAAAGTTTTTGTAAAAGGGAAAATATAGATGAGTTTCCATTTTGGGGATCATAATGGAGTATTAGATGCAAAAATTTGAAGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTATTCTAATGTCTTAGGATGCACAGCCTTTTGAAGATGGTTTTAAATTTTGTATATCTGAAGAAATGTGGTATGCGTTTGCTCTAGTAAAACACAAGAGATTCAGCAATTATGAACAATATGTGATATTTGGAAACATATTTTGAGTTGCATCTTTCCCTCTTAACCTTTTTTTTTCTGTAAATATATGGGACTGCTAGCTCTTATATTGTTGCCCAAAATTATTTGTAAGGCTTGGGTACGAGAACATAATGTTCAGAAATCCGGGATAGTTTAAAGACCAAAAACAAAGGGGGAAAAAATCTTTCTAGGTTGATAATAATACAAACTTTATGTTATTGAGTTAGGCTCAAGTTGGTAGTTAAATTGTGGAACTTATTAGACACGTTCGAGAAAGTTTAATGACCAAATAGACACAAAAATAAACTTAAATAATACTTTATACATGAAACTCAACGATGTTTAATAGGTCATTGAATGTCTATAACTTTCAATTTTATGTCTTAGAGATCAGACCCGAGACTTGCAAGAGACAGACGACTTAACCATTGGAGCAGATGCACATTTTTGCTCTAAAAACTAGAATGGTTTTCCAAGATGATATTTTTTTGTTTTCAAAATTCCTTAATAAATATAAAAATGTTTTTAAAATTGAAAAAGCACAAAACTCAATCGGTTACCAGACATACCTATTTTTTAAAAACTAGAAATAGAAAACCAAAAATTAAAAATCAAGTGGTTATCAAACCGCCCCTAAATGATTGAATTAGAATCCTAAATTTTCCTAAGTAAATTGTAAGACTTTTGGTTAGTGATTTATAGCTATTTTCATTTCATTTCCATTTAAAATTTGCTCAAAATCACTTACTTTAAATTATTTTTCTCCATAAATTTCACCAAAGTTTGAAGAAAAATTATCACATCATTCTTTCTAAATAAGTAAAAAAAAAAAAAAAAAAAAGGAAGACAAGCAAACGAAAAACTGCTAAATTTTAATGAAACATTATAACTATCTATTTGATCTAGTCATGTGCATTTCTTTGTAATTTACATTAATCCTTGCTTTTAAAGAAGCCTTATACACAAGTAAATGCGATGCGCTGAATAGTTTAAAATGAAATTCCAATGAAGGGTATTCTAAGCAAGCAAATCTAAATACATACACGGAAGCAAATTCGAGGAGTTAGGTTAATGAGAAAATTCAAAACGAAATAATAGAAAATTTGGGACTGAGGTTAAGGAGGAAGAGAACAACAAAACTTGAATGAATTTAACCGCAAAAGCCTATAATGATTGTTTTGAAACAAATTTTAAACTTTATAAGTTAAAATAAAATTTTTGAAAATTTAAGGGTATAAATAAAACTCAACCTCATATTTCACTTAATTTAAGTACTAAATATAAAATTTTAAAAGTGGCTTCCCCAACATTATTCAATATATTATTCATATTGAAAATAGAGCTCCAAGTTTAGAATGACAAAAGTGACTAAATACCTTCAATCAAAGATGTCGAAAATTCAAATTCCTCTACCCATGAGCTCAAAAAAGGTTAAATTGTAAATTTAGTTCTTCACTTTAAAGTTTATATCTATTTAGTATTTAAACTTTCTAGAGTGCCTAATAGACCACTAACTTTAAAAAAAAGAAAGATTAAAGAAATTAGCTTACTACATAACTAATATTTCACATATATCCTAAAATTTAGTAATATTTCACGACTAAGTTTCAGCAACATTTTGGGACATTTTTAACCTTTATAGATTCTCTCTTATTTTTTAATTTCATAATATTTTTACATTGAAAAAAATATCATTCCCCAATTTATTATTAGTTATATAAGGATTTGGTTTGGATTTTCTTTATTGTGCAGATAATTGTTGGTTTGGATTTGGTGGTGTAGAAGCTCAGGAGGGTTGGGGGTGATCCAGACTTCTTGTCCAAAGAACCATCAAAAGGATATCTTCTGAATGACACGTTAGTTGTTTAAGTGAAAACTAATGTCATCTCTACCTTAAAAAAATTGTATAGAACCCAAATACTGCTCCTTTTTAGCTTGGTAACATTTAGTTAAGCTGCAACTTCCAGCTTTTGCCTGTTCTTTTTTGTGGTTAAATATATGGGATTTCTTGTTCAATCTTACATGCTTCCATCGTTTAGGAGTATATTTCAGACTAAAATATTATCATGTTCATGTTTGTAGTTTGTGAGTCAAAACGAGCGTAGATCAACTTGCATCTGAGATGTGTTAGCGGCTTTGAGATCCATAGTTCGAATTCTCCCATCTCCTAAAAAGAATGTTGGTAGTCTGTGACAATATTTATCTAAAGGGTGTAAAAATGATTAAGTCTAAAGTTTAATCATATAAAATTTAAACTTCTAAGTTTATAAAATTTAAACTTCTAATTTATATATATATATAAAAAGAAGCTTACTCTTTATGTACTTTCAACTTTTTGTTCAATTTTAAAATTAGTTATTTTTCAATTCAAGATAACTCCAAATAAATTGAGTGCTATACTAACAGTAGGAGCATTTAAAAAAAAAAAAAAAAATCTTGAAAGGTTAAGGGTATTAATACAATTTTTGAAAGTTCATAAAACACTTTTTGAAAAAAGTTCAAAACTTTACAATGGCATATACTAACGATAAGGGTAATTTTGAACTTTTAAAAAGTTTAGAGGTATTATTGAAACTTTTTGAAAGTTCAATGATATTGTTAGGATACTTCCTAACAAGAACAATATCTGAATATATTGAGATATAACTATAAAGAAAATACAAGATAAACCCAAGTACAAGGCACTTGGAACCCCACTGTCCTCACCCAAGCCCTAGATCACTCCATAGAATAACCTCCCCTTCCCATAATAACCCCCGTCTATTTATAACAAGTAGTAACCACTCTTGTACAATAACTACTAGTAACTCCCTATCTATCTAACTACCCTTATACTCCTTAACTAACACTAAGTAAAAATCTAGTACCGAAAAGATATTTTTGAAATAAAGTACTAACCGCTAAAAAACACGTAAACTTTAGTTTGGCTAGTGTATCTGTGTTGGACACTTTGACACTCAACACTTGTTGGACATGTATTAGATACTTATTAATGCAATAAATGTGTCAAACATGCCAAGAACATTTGCTGAGTAGACTAAAAATACACATATGGCAATAATAATAACTTTTGAATGTGAAATACATCAAGTTAATTTTTAAAGGATCCATAAATGCAAAAACTCATTTACTTTGAATTTTCTTTTCATATAAAAATGATATATATTTTTAAAAAATGTATATTTTAATAAACGTGTATTTGTCATGTCCTTTCTTATTTTTACAATATGGCGTGTCGTCGTGTCATATTCGTATTTATGCTACAGTTTCTATCTAAAACTAACCATAATAGTATTTTTTTAAAAAACTATTTTTGAAAATTTAAGAGTATTATCGAAACTTTGGAAGTTCAAAGTATTTTTTGACACAAAAGTTCAAGGGTATTTTCTATAATTTAGTCAATTATAAAAAAATATCATTGAACTTTGCTATTTGTTTAAAAAAATTATCTCTATTTTCGAAAGTAGCCGTATTATTCTTGAACTTTCACAAAATGTTTCAAAAATACTCTTAGAGTAGAAAGTCTTTAAAATTTTGAGAAAAAAAAAATTATGATATGAAACGATGAGGTAGAAGAAAGAAAATTTAGATGACCACACAATTTTAAGTCATTGCCATACAGTTTCAAGATTCAATTTCAGTTTAAAATTATAAAGAATTATTGTAAGCACCCAATTGTCATTTGTTTCTCTTAACAAAGTTAAATGGGAAATTAAAATAGGTCGATTAAGATTACAAAGAGTTAGCGAATGAAATGTGAAAGTGAAAAAAAAAAATTAATTAAAAGTAAATAATAAACCGTAAATAGAAGTTAAAATTAAAATTAAAATTTAATTAATTATAGTTAAATCAAGAGATTATTTAGATTTTGAAGGTAATCGTGGGTTTGATTACACGTGGGAGTTGGTTGGACATGTGGTTGAATTTTAGTTAAATTAAAAAAAAAATTTAAAAAAATTCGTGAGAAGGGATCAAAAGTTTGAAGAAAGAAAATGGGGAAAAAGGAAGTTGAAGAGAGGAAGAACTTGTGGTTTAATATCTTAAACTTGCATCAAAGCTTGAATAAGTCTATTTTGGAGGTAAAATTGGTAAGTCTTCTAAGTTTCAAAGAATTTTCTTTTGAAAAATTTTTACGATAGAAAAAATATCAAATTATTTGCTAAATAACAAAAAAAAATATATTGATAGCTTCTATAGCACAACAATCTAAAAATATTATGTGTAAATAGTTTCTTTATTTTTTTGTTTTTATAAATTTCTATTTTCTTTTTCTATAAAAGCCAATTCTTTTGCTCCTTTGGATGTTCATCTAGTGAAGTAATGAGAATTTCAAGTTTTGAGTGGGTTTTGTTCTTTGTTAACCAATTGAAGTTAAGTATTTAGTTTATGAGATGTGGTTAATTTGAGAGGGTGTGGAAGGAAGGTGGTTTAATTTTGGATGAATGTGTTGAAAATTGAAATTGGAACTAATAGAAGGATAATTAGGAAGAGATGTAGGTGTTGAAATTTGGGTTATTGTGGATATAGGTTTGGAAAAGAAAAATAGGAATTGAAGCAGCTTATAACCCGAAGATTGTAAGTGGTTTATTTTACGAAATATTTTATTATTTAGTTAAATATTATGAAATTTAACGTAATTTATGAGAATATGTGTTTTAAGAATATTGTCATATGATTTTCGGAGAAAGTTTATGGATTTCGTTGTTTTATATTCAAGAATGAATTATGAGATTTATTTTGTGAAGTTCGAAAATAATTATCAAGATTTTGAATATTTTAGCAAGATTTTATGTTTTAAAGTATTTTAGAGAAAATATATTTCATGTGAATTTCTGAATTTTTGAAATGTCGTTCAAAATAAAGATCATGGTTTTAGAATGATTTAGTTATGTGAAAGCAAGATTTTTTAGAAGTGACAAGTTTTATGTTTTAAGCTTAAGTGATTTTCAAACTCCTAGATTGATGTACCCATGCCGATTTTCCACTACACTGACGTGAACGTGTTTCCGTATTGGTCATGATATACATGAGGTCTTTGGAACCCACTTCTGCGCACACATAGTCTTTGGGTTGTGTGTCAGGGTCCTTTGTTTAAAAATTATCTCTATACTCTCGAAAGTAGCCATGTTACCCTTTTACTTTCACAAATGTTTCAAAAATGCTCTTAGAGTAGAAATTCTTTAAAATTTTGAGAAAAAAAATTGAGATATGAAATGATGAGGTATAAGAAAGAAAATTTAGATCACCATGCTATTTTAAGTCATTATTGTCACACAGCTCAAAGGTTCGATTTCAGTTCGAAATTATAAAGAATTTCTCTTGCAAAAATAGATTTGAGACATTTATTTATTCATGAGTAATACTGCAACTTTTAAAAGTAGATAGTTTTTTAAACAAAGAGCAAAGTTTAATAGTAATTGTTATAATATATATATATATATATATATATATATAGAAAAATTCTATTGTCTATCAACGATAGATCGCGATAGAATTCTATCGTTTGAGCGAGAGATAGACAGTAAAAAAAAATTTATATTTGTAAATAACAAAAAAAAATTATATTTGTAAATAACTTAATTTATTTTTTTATATTTAAAAACAATCTTAAAATTAAATATTTGAAAGTAGAGACAACTAAAATATAATAAAACTCGGAGTGTTTACTTTAAACTTCGTGTTTGTTCCGTAGGAAGCGAAGAAGAAGAAAGGACTCAAAATGGGAACAAAGCGGAAACAGAGAGAAGCAAAAATGGAAGACCAAACCAACAATGTGGTCTTCCCTTCTCAGCAACATCCCGATTCTGCTTGCGGTATAACTTTTAACATTTACATTTCTTCAAAAATTTTGAACAACTTTTTCAAACTTCATTATACATTTCTACACCCATCTTTAATGCTTATTTTCATTACTTTTCCAGTCTTTAGGTCCACCAGAGATGATAAACCACTCCATTTTACCCTCAAAATCCAATCTTTTTCGTTGCTGAAGCCTGCACTTGCTAAATCCCATCGTGATAGATATGAATCCCACAGCTTCGATGCCGGCGGTTATAAATGGTTGGGTTTTAGGGACAAGTACATGTTATTTGTTAAATCACTAATCAACCCAAAAGCTTAAACTACTGGGTTATGATATCAGAGCAGGAAGTCCTCTGTTCAATCCTCTTTTAATGACATTCCCTCCGCAACAAATTTTGGAAGTTTTTTGGTCATTTAACAACTATATATGACCCCCATTAACATTAACTTATAAACTTGCAGCATATATGCTCCTGTTTGTTTCATTGTCACTATATTTTGGTTGTTGTTGTAGGAAATTAGCTCTGTATCCTAATGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGATGATAATATTTTATCTACTAATTCAGAGGTCAATGTTGTGTTTACATTTCTAGTTTATGATAATCTCAAAGACAAGTATTTGACAGTCCAAGGTAACCAAACACAAAAACCTCAAATGTTTATTTATTTATTTAGCTTTCATTGAGGACCTGTAATTTGATCATTGTGTTTCAGATGGGAAAATAAGGCGTTTTCATGCAATGAAGACAGAATGGGGATTTGAAAAGTTGGTTTCACTTAAAACTTTCAAGGATGCTTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCCTTGATCAACCAACCAAAAAATAACATATATACTTGGAAAATCAACAACTTTTCAAAGCTAGATACAACATTGAAGGAATCATATCCCTTTAAAGTGGAGAGCTACTCTTGGTATGATAACTTTTGATGTTGAAATAGTTTTTGCATAAGGGAAGATATATATACGTGTATATTTACGTAATTCATTTCTCTTTTAGGAAGATCTATTTGTATCCTAGAGGAGACTCGCTAGCGAAACCAGGCTTCTTGTCGATGTACCTGATGTTTGAGAGTTTGAAAGAGCTTCCAAAAGGTTCTCAAGTATACGTCGAATATGAGATGGCTGTATTGAGTCAACTCGAAGCTGTACCAGTAAAACAAACTTGTAATTAACTGCTATTTACTATAATTGTCACTTTATTATCCATATATTTCCAAGCTTTCCTAAATCAGTTTCTTAAGTAGGGTGAGTTTGGGATGATAGAGTTTTGTTTTGAAAGCACTACTTTTTACTTATCCTGATGTAAAATCACTTTGTAAAAGTTATACCGAAGTCATAATAAAGTTGGAATTTTTTGTGTGCAGATAATTGTTGGTTTGGATTTGGTGGTATAGAAGCTGGTGGTTGGGGTACTCCAAACTTCACGTCATTGAGTTATCTCAAGGAACCAAGGAAAGGATATCTTGTGAAAGACACTCTTGTTGTTCAACTAAAAATTAATGTCATCTCTACCTTGAAAACAATTGTATAG

mRNA sequence

ATGATTGATAAAATAGGTGATCATCGGTCGAGCGGCGTCGGTTTTGGGTTCAAATCGGCGCCGGCCACCAACGCATCGGGTTTCATCGGTCGGGGCTTTTCAGTTTTGGAGGTAGTGGGAAAAGTTTTAAGGTCCACTAGAATTGAAAAACCCCTCCATTATACTTTACAAATCCAATCCTTTTCTTTGCTGAAAGCCGCAATTGCTACTTCTCCTAATCGTCACAGATATGAATCTCAAATCTTCAATGCTGGCGGTTATAAGTGGAAATTAGCTCTTTATCCCAATGGAGATGAGAAAAGAAATGGTTCTAATCATATCTCCCTCTATTTGGTAATGGCTGAGGCTGACACTAATCAACCCAACACTACTTCTTCAGAGGTTAATGTTATGTTTACATTTCTTGTTTATGATACTCTGAAAGACCAATTCTTGACATTCCAAGATGGGAAAGTAAGACGTTTTCATGCCATTAAGAAAGAGTGGGGGTTTGAGAAGTTAGTGTCACTTGAGACTTTTCATGACGCTTCAAATGGATTGTTGGTGAATGATTGTTGTGCATTTGGAGTTGACGTTATTGTCATGAAATGTGATGGGAATGGGGAGGTCCTTTCCTTGATTAATGAACCAAAAGATTACGAATATACAAGGAAAGTCAAAAACTTTTCAGAACTAAGTAAGAATTTATATGAATCTGATCCTTTTACAGTGGAGAGCCACACTTGGAAAATACGACTATATCCTAGTGGATACTCCAAGGCCACGACGGGCTATATGTCCTTGTTCTTGATGCTTGATAGTTTCGAGAAGCTTCCCCAAGGTTTTGATGTTTACGTTGAATATGAGATAGCTGTACTGAGCAAACATGGAGTTAGGCATATAAATTCTCCAGTTGTTAGGTCCACCAGATGTGAAAAACCACTCCATTATACCCTCAAAATTCAATCTTTTTCGTTGCTGAAGGCTGCACTTGCTAAATCCCAGTGTGACAGATATGAATCCCAGAGCTTCAATGCCGGCGGTTATAATTGGAGATTAGCTCTGTATCCTAGTGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGAGGACAAAATTTTATCTACTAATTCAGAGATCAATGTTGTGTTTACCTTTCTTGTTTATGATATTCTCAAAGACAAGTATTTGACAGTCCAAGATGGGAAAATAAGGCGTTTTCATGCTATGAAGACAGAGTGGGGATTTGAAAAGTTGGTTTCACTTAACACTTTCAATGATGCCTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCTTTGATCAACCAACCAAAAAATAACAAATATACTTGGAAAATCAACAACTTTTCAACAATAGATACAACTTTGAAGGAGTCTGATCCCTTTACAGTGGAGAACTACTCTTGGAAAATTCGTCTGTGTTGTCCTCGAGGATGCGACGGTAGGACCGCTGAATCTTTTTCACTGTACCTGGTCTTTGATGGTTCCAAAGAGCATCCCCGAAGTTCTAAAGTGAAGATATCCTTATATCCTAAAGGATGCTCCGAAGCAAGCTCTGGTTATCTGTCATTGTACTTAACATTTGATAGTTTCAAAGAACTTCCTCAAGATAAATGTTGGTTTGGGTTTGGTGGTGCAGAAACGGGTTGGGGTTCTCCGGATTTCATATCGTTGATCGATCTTACGGAACCGACGAAGGGATTTATTCGCAATGATAGTGTGATTGTTGAAGAAGCGAAGAAGAAGAAAGGACTCAAAATGGGAACAAAGCGGAAACAGAGAGAAGCAAAAATGGAAGACCAAACCAACAATGTGGTCTTCCCTTCTCAGCAACATCCCGATTCTGCTTGCGTCTTTAGGTCCACCAGAGATGATAAACCACTCCATTTTACCCTCAAAATCCAATCTTTTTCGTTGCTGAAGCCTGCACTTGCTAAATCCCATCGTGATAGATATGAATCCCACAGCTTCGATGCCGGCGGTTATAAATGGTTGGGTTTTAGGGACAAGAAATTAGCTCTGTATCCTAATGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGATGATAATATTTTATCTACTAATTCAGAGGTCAATGTTGTGTTTACATTTCTAGTTTATGATAATCTCAAAGACAAGTATTTGACAGTCCAAGATGGGAAAATAAGGCGTTTTCATGCAATGAAGACAGAATGGGGATTTGAAAAGTTGGTTTCACTTAAAACTTTCAAGGATGCTTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCCTTGATCAACCAACCAAAAAATAACATATATACTTGGAAAATCAACAACTTTTCAAAGCTAGATACAACATTGAAGGAATCATATCCCTTTAAAGTGGAGAGCTACTCTTGGAAGATCTATTTGTATCCTAGAGGAGACTCGCTAGCGAAACCAGGCTTCTTGTCGATGTACCTGATGTTTGAGAGTTTGAAAGAGCTTCCAAAAGGTTCTCAAGTATACGTCGAATATGAGATGGCTGTATTGAGTCAACTCGAAGCTGTACCAGTAAAACAAACTTATAATTGTTGGTTTGGATTTGGTGGTATAGAAGCTGGTGGTTGGGGTACTCCAAACTTCACGTCATTGAGTTATCTCAAGGAACCAAGGAAAGGATATCTTGTGAAAGACACTCTTGTTGTTCAACTAAAAATTAATGTCATCTCTACCTTGAAAACAATTGTATAG

Coding sequence (CDS)

ATGATTGATAAAATAGGTGATCATCGGTCGAGCGGCGTCGGTTTTGGGTTCAAATCGGCGCCGGCCACCAACGCATCGGGTTTCATCGGTCGGGGCTTTTCAGTTTTGGAGGTAGTGGGAAAAGTTTTAAGGTCCACTAGAATTGAAAAACCCCTCCATTATACTTTACAAATCCAATCCTTTTCTTTGCTGAAAGCCGCAATTGCTACTTCTCCTAATCGTCACAGATATGAATCTCAAATCTTCAATGCTGGCGGTTATAAGTGGAAATTAGCTCTTTATCCCAATGGAGATGAGAAAAGAAATGGTTCTAATCATATCTCCCTCTATTTGGTAATGGCTGAGGCTGACACTAATCAACCCAACACTACTTCTTCAGAGGTTAATGTTATGTTTACATTTCTTGTTTATGATACTCTGAAAGACCAATTCTTGACATTCCAAGATGGGAAAGTAAGACGTTTTCATGCCATTAAGAAAGAGTGGGGGTTTGAGAAGTTAGTGTCACTTGAGACTTTTCATGACGCTTCAAATGGATTGTTGGTGAATGATTGTTGTGCATTTGGAGTTGACGTTATTGTCATGAAATGTGATGGGAATGGGGAGGTCCTTTCCTTGATTAATGAACCAAAAGATTACGAATATACAAGGAAAGTCAAAAACTTTTCAGAACTAAGTAAGAATTTATATGAATCTGATCCTTTTACAGTGGAGAGCCACACTTGGAAAATACGACTATATCCTAGTGGATACTCCAAGGCCACGACGGGCTATATGTCCTTGTTCTTGATGCTTGATAGTTTCGAGAAGCTTCCCCAAGGTTTTGATGTTTACGTTGAATATGAGATAGCTGTACTGAGCAAACATGGAGTTAGGCATATAAATTCTCCAGTTGTTAGGTCCACCAGATGTGAAAAACCACTCCATTATACCCTCAAAATTCAATCTTTTTCGTTGCTGAAGGCTGCACTTGCTAAATCCCAGTGTGACAGATATGAATCCCAGAGCTTCAATGCCGGCGGTTATAATTGGAGATTAGCTCTGTATCCTAGTGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGAGGACAAAATTTTATCTACTAATTCAGAGATCAATGTTGTGTTTACCTTTCTTGTTTATGATATTCTCAAAGACAAGTATTTGACAGTCCAAGATGGGAAAATAAGGCGTTTTCATGCTATGAAGACAGAGTGGGGATTTGAAAAGTTGGTTTCACTTAACACTTTCAATGATGCCTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCTTTGATCAACCAACCAAAAAATAACAAATATACTTGGAAAATCAACAACTTTTCAACAATAGATACAACTTTGAAGGAGTCTGATCCCTTTACAGTGGAGAACTACTCTTGGAAAATTCGTCTGTGTTGTCCTCGAGGATGCGACGGTAGGACCGCTGAATCTTTTTCACTGTACCTGGTCTTTGATGGTTCCAAAGAGCATCCCCGAAGTTCTAAAGTGAAGATATCCTTATATCCTAAAGGATGCTCCGAAGCAAGCTCTGGTTATCTGTCATTGTACTTAACATTTGATAGTTTCAAAGAACTTCCTCAAGATAAATGTTGGTTTGGGTTTGGTGGTGCAGAAACGGGTTGGGGTTCTCCGGATTTCATATCGTTGATCGATCTTACGGAACCGACGAAGGGATTTATTCGCAATGATAGTGTGATTGTTGAAGAAGCGAAGAAGAAGAAAGGACTCAAAATGGGAACAAAGCGGAAACAGAGAGAAGCAAAAATGGAAGACCAAACCAACAATGTGGTCTTCCCTTCTCAGCAACATCCCGATTCTGCTTGCGTCTTTAGGTCCACCAGAGATGATAAACCACTCCATTTTACCCTCAAAATCCAATCTTTTTCGTTGCTGAAGCCTGCACTTGCTAAATCCCATCGTGATAGATATGAATCCCACAGCTTCGATGCCGGCGGTTATAAATGGTTGGGTTTTAGGGACAAGAAATTAGCTCTGTATCCTAATGGAGATGTGAAAAGAAATGGGTCTGCTCATATCTCACTCTATTTGGTATCTGCTGATGATAATATTTTATCTACTAATTCAGAGGTCAATGTTGTGTTTACATTTCTAGTTTATGATAATCTCAAAGACAAGTATTTGACAGTCCAAGATGGGAAAATAAGGCGTTTTCATGCAATGAAGACAGAATGGGGATTTGAAAAGTTGGTTTCACTTAAAACTTTCAAGGATGCTTCAAATGGATTGTTGGTTGATGATTGTTGTGTATTTGGAGTTGACATTTTTGTTATGAAATGCAATGATGGGAAAGGGGAGGTCCTTTCCTTGATCAACCAACCAAAAAATAACATATATACTTGGAAAATCAACAACTTTTCAAAGCTAGATACAACATTGAAGGAATCATATCCCTTTAAAGTGGAGAGCTACTCTTGGAAGATCTATTTGTATCCTAGAGGAGACTCGCTAGCGAAACCAGGCTTCTTGTCGATGTACCTGATGTTTGAGAGTTTGAAAGAGCTTCCAAAAGGTTCTCAAGTATACGTCGAATATGAGATGGCTGTATTGAGTCAACTCGAAGCTGTACCAGTAAAACAAACTTATAATTGTTGGTTTGGATTTGGTGGTATAGAAGCTGGTGGTTGGGGTACTCCAAACTTCACGTCATTGAGTTATCTCAAGGAACCAAGGAAAGGATATCTTGTGAAAGACACTCTTGTTGTTCAACTAAAAATTAATGTCATCTCTACCTTGAAAACAATTGTATAG

Protein sequence

MIDKIGDHRSSGVGFGFKSAPATNASGFIGRGFSVLEVVGKVLRSTRIEKPLHYTLQIQSFSLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEKRNGSNHISLYLVMAEADTNQPNTTSSEVNVMFTFLVYDTLKDQFLTFQDGKVRRFHAIKKEWGFEKLVSLETFHDASNGLLVNDCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRKVKNFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATTGYMSLFLMLDSFEKLPQGFDVYVEYEIAVLSKHGVRHINSPVVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINNFSTIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYPKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRNDSVIVEEAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLKTFKDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKELPKGSQVYVEYEMAVLSQLEAVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLVVQLKINVISTLKTIV

Homology

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BLAST of HG10009667 vs. NCBI nr
Match: XP_022146383.1 (uncharacterized protein LOC111015611 [Momordica charantia])

HSP 1 Score: 613.2 bits (1580), Expect = 3.7e-171
Identity = 339/661 (51.29%), Postives = 415/661 (62.78%), Query Frame = 0


Query: 298 VVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRN 357
           V+RS R EKPLHYTLKI+SFSLLK ALA S+ DR+ SQ F+A GY W+LALYP+GD  RN
Sbjct: 33  VLRSIRDEKPLHYTLKIKSFSLLKKALASSKRDRFVSQIFHASGYKWKLALYPNGDKNRN 92

Query: 358 GSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGKIRRFHAMKTEWGFE 417
           GS +ISLYLV+AED+I+S  SE+NVV TFLVYD L+DKYL +QDGK++RFH MKTEWGFE
Sbjct: 93  GSGYISLYLVTAEDEIVSATSEVNVVLTFLVYDSLRDKYLAIQDGKVKRFHRMKTEWGFE 152

Query: 418 KLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCND-GKGEVLSLINQPKNNKYTWKINNFS 477
           KL+S + FN+ SNG LV     FGVDIFV+K +D GKGE+LSLIN P++ K+TWKIN+FS
Sbjct: 153 KLISFDIFNNPSNGFLVGGYAAFGVDIFVIKSDDGGKGEILSLINPPEHYKFTWKINHFS 212

Query: 478 TIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLY 537
           T   TL  SD F+VE Y W++ L  P GC    +   SL+L+FD  +E P  S+V +   
Sbjct: 213 TQSKTL-SSDVFSVEGYHWRVEL-HPNGCPTAMSNYLSLFLIFDDLRELPDDSQVYVEYE 272

Query: 538 PKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIR 597
               S+                    DK WF +GG + GWG  +F+SL+DL +   G+I 
Sbjct: 273 MAVLSQVG------------------DKHWFEYGGGD-GWGCAEFMSLMDLKDTLSGYIL 332

Query: 598 NDSVIVEEAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHF 657
           ND                                             + RS RD+KPLH+
Sbjct: 333 ND---------------------------------------------ILRSIRDEKPLHY 392

Query: 658 TLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISL 717
           TL+IQ FSLLK ALA   R+RYES  F+ GG+KW      KLALYPNGD  RNGS +ISL
Sbjct: 393 TLQIQPFSLLKTALATCSRERYESPIFNVGGFKW------KLALYPNGDKNRNGSGYISL 452

Query: 718 YLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLKT 777
           YLV+A+D I+S  SEVNVV TFLVYDNL+D YL V DGK+RRFHAMKTEWGF KLVSL+T
Sbjct: 453 YLVTAEDEIVSATSEVNVVLTFLVYDNLRDNYLAVLDGKVRRFHAMKTEWGFGKLVSLET 512

Query: 778 FKDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNIYTWKINNFSKLDTTLKE 837
           F D+SNG LVDDCC FGVDIFVM                                     
Sbjct: 513 FNDSSNGFLVDDCCAFGVDIFVM------------------------------------- 572

Query: 838 SYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKE-LPKGSQVYVEYEMAVLSQLE 897
               K+ESY WKI L+P+G S    GFLS+YL+F+S KE LP+G +VY E+E+AVLS+  
Sbjct: 573 ----KLESYRWKIRLHPKGCSQESAGFLSLYLIFDSFKELLPQGCRVYAEFEIAVLSKYG 579

Query: 898 AVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLVVQLKINVISTLKT 957
               K    CWF FGGIE  G G P F  L  LKE +KGY+  DTL+V++KINV+S LK 
Sbjct: 633 VGHKKLESKCWFEFGGIET-GLGFPEFMPLRDLKEVKKGYICDDTLIVKVKINVVSILKK 579

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BLAST of HG10009667 vs. NCBI nr
Match: KAG5526280.1 (hypothetical protein RHGRI_032531 [Rhododendron griersonianum])

HSP 1 Score: 552.4 bits (1422), Expect = 7.9e-153
Identity = 329/872 (37.73%), Postives = 471/872 (54.01%), Query Frame = 0


Query: 149 DGKVRRFHAIKKEWGFEKLVSLETFHDASNGLLVNDCCAFGVDVIVMKCDGNGEVLSLIN 208
           +G+++RFH +K + GF+K + L+TF+DA+NG L++DCC FG +V V+K  G GE +SLI 
Sbjct: 34  EGEIQRFHRMKTQLGFDKFLPLDTFNDATNGYLMDDCCVFGTEVFVLKNSGKGECMSLIK 93

Query: 209 EPKDYEYTRKVKNFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATTGYMSLFLMLDSF 268
           +P +  YT K++  S +      S  F V  H W++ LYP+G   +    +SLFL L   
Sbjct: 94  DPANNSYTWKIEKISAIKDEYLSSPDFVVGDHKWRLLLYPNGCDTSEGKDVSLFLKLVDC 153

Query: 269 EKLPQGFDVYVEYEI----------------------AVLSKHGV------------RHI 328
           + LP+   VY  +++                      +V S  G               +
Sbjct: 154 QNLPKVRRVYAVFKLRMKNQAYGTWSEGMALVASSDRSVTSSCGFIFCDSCIRPLLHAEV 213

Query: 329 NSPVVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDV 388
           ++  +RS R   P HYTLK+ SFSL + A    +   YES  F AGGY W+L +YP+G+ 
Sbjct: 214 HAATIRSLRDVPPAHYTLKLTSFSLFRDA----KVGNYESGEFEAGGYKWKLCIYPNGNA 273

Query: 389 KRNGSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQD--GKIRRFHAMKT 448
           K N   HIS YL  A+ + L    E+NV F   V+D ++DKYLT+QD  G IRRFH MKT
Sbjct: 274 KMNVKGHISCYLEMADTETLPPGWEVNVSFKLFVFDQVRDKYLTIQDAEGGIRRFHRMKT 333

Query: 449 EWGFEKLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKI 508
           EWGF++ +SL+TFNDASNG LVDDCCVFG ++FV+K   GKGE  S++  P +N YTW+I
Sbjct: 334 EWGFDQFLSLDTFNDASNGYLVDDCCVFGAEVFVIKYT-GKGESASMVKNPASNIYTWRI 393

Query: 509 NNFSTIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVK 568
           +NFS +D  + +S+ F +  + WK+ +  P+G      +S SLYL     K  P   K+ 
Sbjct: 394 DNFSAVDQYILKSEEFVIGGHKWKLEI-YPKGDSSSKGKSVSLYLRLADCKNLPFHRKMY 453

Query: 569 ISLYPKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTK 628
                +   E    +          KE+   K W  F      WG  DF++L +L   + 
Sbjct: 454 AEFKLRMRDEVHGNH----------KEMTDGK-W--FSDLYASWGYADFMALSELNYASN 513

Query: 629 GFIRNDSVI-------VEEAKKKK---------------GLKMGTKRKQREAKMEDQTNN 688
           GF+ N  +        V E K +                 L   T+R+    +++     
Sbjct: 514 GFMVNGVLFFLFPLPTVVEKKYRVWVLCFPQPVCSSVICSLHRWTRRQNNCMRLDGN--- 573

Query: 689 VVFPSQQHPDSACVFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKW 748
                          RS R+    H+TLKI+SFSL +        D +ES +F+AGGYKW
Sbjct: 574 --------------LRSLREGS--HYTLKIESFSLFRNITI----DNHESGAFEAGGYKW 633

Query: 749 LGFRDKKLALYPNGDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLT 808
                 KL+LYPNG+ KRN + HIS YL  A+   L    EVNV F F V+D+++D+Y T
Sbjct: 634 ------KLSLYPNGNKKRNVNDHISFYLAIAETESLPLGWEVNVDFKFYVFDHIRDRYST 693

Query: 809 VQDGK--IRRFHAMKTEWGFEKLVSLKTFKDASNGLLVDDCCVFGVDIFVMKCNDGKGEV 868
           +QDG+  IRRFH MKTEWGF+K + L+TF  ASNG +++DCCVFG ++FVMK N GKGE 
Sbjct: 694 IQDGEGGIRRFHRMKTEWGFDKFIPLETFNHASNGYVLEDCCVFGAEVFVMKDN-GKGEC 753

Query: 869 LSLINQPKNNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGD---SLAKPGFLS 928
           +  +  P NN YTWKI+N SKLD  +  S  F +  + WK+ +YP+G+     A+   +S
Sbjct: 754 VMTMKNPLNNTYTWKIDNVSKLDEEVVLSEAFVIGEHKWKLVIYPKGNGSYGTAENKSVS 813

Query: 929 MYLMFESLKELPKGSQVYVEYEMAVLSQLE---AVPVKQTYNCWFGFGGIEAGGWGTPNF 955
           ++LM    + L  G +VY EYE+ +  +         KQ    WF   G    G+G P +
Sbjct: 814 VFLMLADWETLLPGWKVYAEYELCIRDESPFHGTTMQKQELQHWFCASG---KGYGYPEY 853

[Close]

BLAST of HG10009667 vs. NCBI nr
Match: KAG5524443.1 (hypothetical protein RHGRI_031187 [Rhododendron griersonianum])

HSP 1 Score: 507.7 bits (1306), Expect = 2.2e-139
Identity = 352/1022 (34.44%), Postives = 507/1022 (49.61%), Query Frame = 0


Query: 41   KVLRSTRIEKPLHYTLQIQSFSLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEK 100
            +V RS R+  P HY ++I+SFSLL   +  +  ++ YES +F A GYKWKL+LYPNG+++
Sbjct: 19   EVSRSLRVIPPAHYLMRIESFSLLSQMMLDAEVQN-YESDVFEASGYKWKLSLYPNGNKE 78

Query: 101  RNGSNHISLYLVMAEADTNQPNTTSSEVNVMFTFLVYDTLKDQFLTFQD--GKVRRFHAI 160
              G  HISLYLV+AE +         EVNV F   V+D ++D+++T QD  GKVRRFHA+
Sbjct: 79   SKGEGHISLYLVIAETN---DLPVGWEVNVNFKLFVFDHIQDKYMTVQDANGKVRRFHAM 138

Query: 161  KKEWGFEKLVSLETFHDASNGLLVNDCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRK 220
            K EWGF +L+ L TF++A+NG L++D   FG +V V+   G GE ++++ E     +T K
Sbjct: 139  KTEWGFPQLLPLSTFNEAANGYLIHDTSVFGAEVFVVNYTGRGECINIMKE-SFTTHTWK 198

Query: 221  VKNFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATTGYMSLFLMLDSFEKLPQGFDVY 280
            +  FS   +  + SD FT  +  WKI LYP G S+    ++S+F  LD  E  P     Y
Sbjct: 199  IDKFSSRHEECFYSDVFTRGNRKWKICLYPKGDSRNKDKFLSIFFELDDSETFPFKRKTY 258

Query: 281  VEYEIAVLSKHGVRHI-------------------------------------------- 340
              YE+ +++++   H                                             
Sbjct: 259  ANYELRIMNQYNSNHEESGGTTKCFCAPTLSWGCSAFLLLTDLNDATKGFLVHDTLIVEA 318

Query: 341  ---------------------------------------------NSPVVRSTRCEKPLH 400
                                                         N  V RS R   P H
Sbjct: 319  EVIASSTVKNLSKIQTEWKVVLRKPLGKAENMEEKSCHPVPSDNGNFEVARSLREIPPAH 378

Query: 401  YTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGSAHISLYLVSA 460
            YT KI+SFSLL   L  ++   +ES  F A GY W+L+LYP GD +RNG  HISLYLV A
Sbjct: 379  YTFKIKSFSLLSQLLLDAKQKNFESAVFEASGYKWKLSLYPHGDKERNGEGHISLYLVIA 438

Query: 461  EDKILSTNSEINVVFTFLVYDILKDKYLTVQD--GKIRRFHAMKTEWGFEKLVSLNTFND 520
            +   L    E+NV F   V+D ++DKY+TVQD  GK+RRFH MKTEWGF +L+ L+TF+D
Sbjct: 439  DRDNLPLGWEVNVNFKLFVFDQIQDKYMTVQDANGKVRRFHKMKTEWGFAQLLPLSTFSD 498

Query: 521  ASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINNFSTIDTTLKESDP 580
            A+NG L++D CVFGV+IFV+  N G+GE L+++ +  +  YTWKI+NFS++    + SD 
Sbjct: 499  AANGYLINDTCVFGVEIFVVSYN-GRGECLNVL-EGLDTTYTWKIDNFSSLQGETQYSDV 558

Query: 581  FTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYPKGCSEASSGY 640
            FT+    WK+ L  P+G      +S SL+++ D SK  P   K   + Y K C       
Sbjct: 559  FTIGKRKWKLML-YPKGDSIGKDKSMSLFILLDDSKTFPSGQKT-FATY-KLC------I 618

Query: 641  LSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRNDSVIVE---- 700
            ++ Y   D   E     C   F      WG    +SL +L + +KGF+ N+S+I++    
Sbjct: 619  MNQYHE-DQHVEFTGTNC---FSAPSYSWGWSSVLSLTELHDASKGFLVNNSLIIDANVS 678

Query: 701  EAKKKKGLKMGTKRKQREA---KMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHFTLKI 760
                 K       R    A   K++   + +V P       + V RS R+  P H+T KI
Sbjct: 679  AISTVKNFSNSDSRCNLSAAFEKLKRMVSVMVLPLV----FSEVARSLREIPPAHYTFKI 738

Query: 761  QSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISLYLVS 820
            +SFSLL   L  + +  +ES  F+A GYKW      KL+LYP+GD +RNG  HISLYLV 
Sbjct: 739  KSFSLLSQMLLDTKQKNFESAVFEASGYKW------KLSLYPHGDKERNGEGHISLYLVI 798

Query: 821  ADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDG-----------KIRRFHAMKTEWGFE 880
            A+ + L    EVNV F   V+D ++DKY+TVQ G           K   F +  T  G  
Sbjct: 799  AERDNLPPGWEVNVNFKLFVFDQIQDKYMTVQGGLFNNTNLHLMYKASEFSSSCTFGGSN 858

Query: 881  KLVSLKTFKDASNG-------LLVDDCCVFGVDIF-VMKCNDGKGEVLSLINQPKNNIYT 940
            +L+ L      SNG         + +C     D F    C  G   +LSL +   +    
Sbjct: 859  RLMFLWFHCLDSNGKNFLVTKQQLPNCSHAATDCFSATNCGWGCSLLLSLTDL-HDASKG 918

[Close]

BLAST of HG10009667 vs. NCBI nr
Match: KAG5524442.1 (hypothetical protein RHGRI_031187 [Rhododendron griersonianum])

HSP 1 Score: 507.7 bits (1306), Expect = 2.2e-139
Identity = 350/1022 (34.25%), Postives = 505/1022 (49.41%), Query Frame = 0


Query: 41   KVLRSTRIEKPLHYTLQIQSFSLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEK 100
            +V RS R+  P HY ++I+SFSLL   +  +  ++ YES +F A GYKWKL+LYPNG+++
Sbjct: 19   EVSRSLRVIPPAHYLMRIESFSLLSQMMLDAEVQN-YESDVFEASGYKWKLSLYPNGNKE 78

Query: 101  RNGSNHISLYLVMAEADTNQPNTTSSEVNVMFTFLVYDTLKDQFLTFQD--GKVRRFHAI 160
              G  HISLYLV+AE +         EVNV F   V+D ++D+++T QD  GKVRRFHA+
Sbjct: 79   SKGEGHISLYLVIAETN---DLPVGWEVNVNFKLFVFDHIQDKYMTVQDANGKVRRFHAM 138

Query: 161  KKEWGFEKLVSLETFHDASNGLLVNDCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRK 220
            K EWGF +L+ L TF++A+NG L++D   FG +V V+   G GE ++++ E     +T K
Sbjct: 139  KTEWGFPQLLPLSTFNEAANGYLIHDTSVFGAEVFVVNYTGRGECINIMKE-SFTTHTWK 198

Query: 221  VKNFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATTGYMSLFLMLDSFEKLPQGFDVY 280
            +  FS   +  + SD FT  +  WKI LYP G S+    ++S+F  LD  E  P     Y
Sbjct: 199  IDKFSSRHEECFYSDVFTRGNRKWKICLYPKGDSRNKDKFLSIFFELDDSETFPFKRKTY 258

Query: 281  VEYEIAVLSKHGVRHI-------------------------------------------- 340
              YE+ +++++   H                                             
Sbjct: 259  ANYELRIMNQYNSNHEESGGTTKCFCAPTLSWGCSAFLLLTDLNDATKGFLVHDTLIVEA 318

Query: 341  ---------------------------------------------NSPVVRSTRCEKPLH 400
                                                         N  V RS R   P H
Sbjct: 319  EVIASSTVKNLSKIQTEWKVVLRKPLGKAENMEEKSCHPVPSDNGNFEVARSLREIPPAH 378

Query: 401  YTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGSAHISLYLVSA 460
            YT KI+SFSLL   L  ++   +ES  F A GY W+L+LYP GD +RNG  HISLYLV A
Sbjct: 379  YTFKIKSFSLLSQLLLDAKQKNFESAVFEASGYKWKLSLYPHGDKERNGEGHISLYLVIA 438

Query: 461  EDKILSTNSEINVVFTFLVYDILKDKYLTVQD--GKIRRFHAMKTEWGFEKLVSLNTFND 520
            +   L    E+NV F   V+D ++DKY+TVQD  GK+RRFH MKTEWGF +L+ L+TF+D
Sbjct: 439  DRDNLPLGWEVNVNFKLFVFDQIQDKYMTVQDANGKVRRFHKMKTEWGFAQLLPLSTFSD 498

Query: 521  ASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINNFSTIDTTLKESDP 580
            A+NG L++D CVFGV+IFV+  N G+GE L+++ +  +  YTWKI+NFS++    + SD 
Sbjct: 499  AANGYLINDTCVFGVEIFVVSYN-GRGECLNVL-EGLDTTYTWKIDNFSSLQGETQYSDV 558

Query: 581  FTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYPKGCSEASSGY 640
            FT+    WK+ L  P+G      +S SL+++ D SK  P   K   + Y           
Sbjct: 559  FTIGKRKWKLML-YPKGDSIGKDKSMSLFILLDDSKTFPSGQKT-FATYKLCIMNQYHED 618

Query: 641  LSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRNDSVIVE---- 700
              +  T D F+      C   F      WG    +SL +L + +KGF+ N+S+I++    
Sbjct: 619  QHVEFTGDDFR----TNC---FSAPSYSWGWSSVLSLTELHDASKGFLVNNSLIIDANVS 678

Query: 701  EAKKKKGLKMGTKRKQREA---KMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHFTLKI 760
                 K       R    A   K++   + +V P       + V RS R+  P H+T KI
Sbjct: 679  AISTVKNFSNSDSRCNLSAAFEKLKRMVSVMVLPLV----FSEVARSLREIPPAHYTFKI 738

Query: 761  QSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISLYLVS 820
            +SFSLL   L  + +  +ES  F+A GYKW      KL+LYP+GD +RNG  HISLYLV 
Sbjct: 739  KSFSLLSQMLLDTKQKNFESAVFEASGYKW------KLSLYPHGDKERNGEGHISLYLVI 798

Query: 821  ADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDG-----------KIRRFHAMKTEWGFE 880
            A+ + L    EVNV F   V+D ++DKY+TVQ G           K   F +  T  G  
Sbjct: 799  AERDNLPPGWEVNVNFKLFVFDQIQDKYMTVQGGLFNNTNLHLMYKASEFSSSCTFGGSN 858

Query: 881  KLVSLKTFKDASNG-------LLVDDCCVFGVDIF-VMKCNDGKGEVLSLINQPKNNIYT 940
            +L+ L      SNG         + +C     D F    C  G   +LSL +   +    
Sbjct: 859  RLMFLWFHCLDSNGKNFLVTKQQLPNCSHAATDCFSATNCGWGCSLLLSLTDL-HDASKG 918

[Close]

BLAST of HG10009667 vs. NCBI nr
Match: XP_038875772.1 (uncharacterized protein LOC120068142 [Benincasa hispida])

HSP 1 Score: 466.8 bits (1200), Expect = 4.3e-127
Identity = 235/330 (71.21%), Postives = 265/330 (80.30%), Query Frame = 0


Query: 629 NNVVFPSQQHPDSACVFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAGGY 688
           NN V P+    +S+ V  STR +KP+H+TLKIQSFSLLK  LA S R R+ES  F+AG Y
Sbjct: 10  NNTVSPNPHGDNSSSVVMSTRHEKPVHYTLKIQSFSLLKNGLASSQRQRFESQKFNAGCY 69

Query: 689 KWLGFRDKKLALYPNGDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKDKY 748
           +W      KLALYPNGD +RN S HISLYLV   +NILST SEVNVVFTFLVYD L+ KY
Sbjct: 70  EW------KLALYPNGDERRNVSNHISLYLVIVGNNILSTTSEVNVVFTFLVYDTLRGKY 129

Query: 749 LTVQDGKIRRFHAMKTEWGFEKLVSLKTFKDASNGLLVDDCCVFGVDIFVMKCNDGKGEV 808
           LTVQDGK+RRF AMKTEWG EKL+ L TF DASNG LVDDCCVFGVDIFVM C+ G GEV
Sbjct: 130 LTVQDGKMRRFSAMKTEWGIEKLLPLDTFNDASNGFLVDDCCVFGVDIFVMSCDGGMGEV 189

Query: 809 LSLINQPKNNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYL 868
            SLI QPKN  YTWK+NNFS+L +TLKES PF VESY WKI LYP G S AK GFLSMYL
Sbjct: 190 FSLIKQPKNYEYTWKLNNFSQLGSTLKESNPFTVESYRWKILLYPSGCSKAKSGFLSMYL 249

Query: 869 MFESLKELPKGSQVYVEYEMAVLSQLEAVPVKQTYNCWFGFGGIEAG-GWGTPNFTSLSY 928
           +F+S  +LP+GSQVYVEYEMA+LSQLEAVPVK+TYNCWFGF G+EAG GWG PNF+SLS 
Sbjct: 250 LFDSSNQLPQGSQVYVEYEMAILSQLEAVPVKETYNCWFGFDGVEAGRGWGAPNFSSLSD 309

Query: 929 LKEPRKGYLVKDTLVVQLKINVISTLKTIV 958
           L+EP KGYL+ DTLV ++KINVISTLK IV
Sbjct: 310 LEEPTKGYLLNDTLVTEVKINVISTLKKIV 333

[Close]

BLAST of HG10009667 vs. ExPASy Swiss-Prot
Match: Q9FPT1 (Ubiquitin C-terminal hydrolase 12 OS=Arabidopsis thaliana OX=3702 GN=UBP12 PE=1 SV=2)

HSP 1 Score: 74.7 bits (182), Expect = 6.3e-12
Identity = 45/135 (33.33%), Postives = 71/135 (52.59%), Query Frame = 0


Query: 820 YTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKELPKG 879
           +TW I NFS+ +T    S  F V  Y W+I ++P+G+++     LSMYL       LP G
Sbjct: 57  FTWTIPNFSRQNTRKHYSDVFVVGGYKWRILIFPKGNNV---DHLSMYLDVSDAASLPYG 116

Query: 880 SQVYVEYEMAVLSQLEA-VPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVK 939
              Y ++ +AV++Q+     V++     F         WG  +F  LS L +P +GYLV 
Sbjct: 117 WSRYAQFSLAVVNQIHTRYTVRKETQHQF---NARESDWGFTSFMPLSELYDPSRGYLVN 176

Query: 940 DTLVVQLKINVISTL 954
           DT++V+ ++ V   L
Sbjct: 177 DTVLVEAEVAVRKVL 185

[Close]

BLAST of HG10009667 vs. ExPASy Swiss-Prot
Match: Q84WU2 (Ubiquitin C-terminal hydrolase 13 OS=Arabidopsis thaliana OX=3702 GN=UBP13 PE=1 SV=1)

HSP 1 Score: 71.6 bits (174), Expect = 5.3e-11
Identity = 44/140 (31.43%), Postives = 73/140 (52.14%), Query Frame = 0


Query: 815 PKNNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLK 874
           P +  +TW I  F++L+T    S  F V  Y W+I ++P+G+++     LSMYL      
Sbjct: 51  PPSLKFTWTIPMFTRLNTRKHYSDVFVVGGYKWRILIFPKGNNV---DHLSMYLDVADAA 110

Query: 875 ELPKGSQVYVEYEMAVLSQL-EAVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRK 934
            LP G   Y ++ +AV++Q+     +++     F         WG  +F  LS L EP +
Sbjct: 111 NLPYGWSRYSQFSLAVVNQVNNRYSIRKETQHQF---NARESDWGFTSFMPLSELYEPTR 170

Query: 935 GYLVKDTLVVQLKINVISTL 954
           GYLV DT++++ ++ V   L
Sbjct: 171 GYLVNDTVLIEAEVAVRKVL 184

[Close]

BLAST of HG10009667 vs. ExPASy Swiss-Prot
Match: Q9M2J0 (MATH domain and coiled-coil domain-containing protein At3g58260 OS=Arabidopsis thaliana OX=3702 GN=At3g58260 PE=1 SV=1)

HSP 1 Score: 60.1 bits (144), Expect = 1.6e-07
Identity = 40/142 (28.17%), Postives = 69/142 (48.59%), Query Frame = 0


Query: 817 NNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYL-MFESLKE 876
           NN +TW I N S L      S  F V    W++  YP  +       LS+YL + +  + 
Sbjct: 6   NNTFTWVIKNLSTLQGLEVRSKIFVVGGCKWRLIAYPEVNDADGYLSLSVYLGVPDCCES 65

Query: 877 LPKGSQVYVEYEMAVLSQL-EAVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKG 936
           LP G + + ++ + +++QL E +   Q    WF      A GWG P   +L  + +   G
Sbjct: 66  LPSGWKRHAKFSLTIVNQLSEGLSQVQETQAWF---DENAPGWGFPPMLNLKDVSDKYGG 125

Query: 937 YLVKDTLVVQLKINVISTLKTI 957
           +LV D ++V + ++VI  + ++
Sbjct: 126 FLVNDEVMVAVAVDVIEVVGSL 144

[Close]

BLAST of HG10009667 vs. ExPASy Swiss-Prot
Match: Q9M2I9 (MATH domain and coiled-coil domain-containing protein At3g58270 OS=Arabidopsis thaliana OX=3702 GN=At3g58270 PE=2 SV=1)

HSP 1 Score: 53.9 bits (128), Expect = 1.1e-05
Identity = 44/145 (30.34%), Postives = 64/145 (44.14%), Query Frame = 0


Query: 656 FTLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHIS 715
           FT  I++FS      ++  R  Y S  F   G KW      +L  +P G    NG   +S
Sbjct: 9   FTWVIKNFS------SQQSRKNY-SDEFFVDGCKW------RLLAFPKG----NGVEKLS 68

Query: 716 LYLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLK 775
           LYL  A    L      +  F F V + L D+    ++ K   F A  ++WGF  ++SLK
Sbjct: 69  LYLAVAGSEFLPDGWRRHAYFHFSVVNQLSDELSQARETK-NWFDASTSDWGFTSMLSLK 128

Query: 776 TFKDASNGLLVDDCCVFGVDIFVMK 801
              D   G LV+      VD+ V++
Sbjct: 129 KLHDKDGGFLVNGELKIVVDVSVLE 135

[Close]

BLAST of HG10009667 vs. ExPASy Swiss-Prot
Match: O22286 (BTB/POZ and MATH domain-containing protein 3 OS=Arabidopsis thaliana OX=3702 GN=BPM3 PE=1 SV=1)

HSP 1 Score: 52.8 bits (125), Expect = 2.6e-05
Identity = 47/198 (23.74%), Postives = 83/198 (41.92%), Query Frame = 0


Query: 58  IQSFSLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEKRNGSNHISLYLVMAEAD 117
           IQ +SL K     SP +   +S IF+ GGY W +  YP+G    + S++ISL++ +A   
Sbjct: 31  IQGYSLAK---GMSPGKF-IQSDIFSVGGYDWAIYFYPDGKNPEDQSSYISLFIALA--- 90

Query: 118 TNQPNTTSSEVNVMFTFLVYD-------TLKDQFLTFQDGKVRRFHAIKKEWGFEKLVSL 177
                + S+++  +F   + D        +   F    +G           WG+++    
Sbjct: 91  -----SDSNDIRALFELTLMDQSGKGKHKVHSHFDRALEGGPYTLKYKGSMWGYKRFFKR 150

Query: 178 ETFHDASNGLLVNDCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRKVKNFSELSKNLY 237
                 ++  L +DC       +V+ C   G V + +  PK Y     + N  +  K+L 
Sbjct: 151 SALE--TSDYLKDDC-------LVINCT-VGVVRARLEGPKQYGIVLPLSNMGQGLKDLL 206

Query: 238 ESD-----PFTVESHTWK 244
           +S+      F V   T+K
Sbjct: 211 DSEVGCDIAFQVGDETYK 206

[Close]

BLAST of HG10009667 vs. ExPASy TrEMBL
Match: A0A6J1CYF6 (uncharacterized protein LOC111015611 OS=Momordica charantia OX=3673 GN=LOC111015611 PE=4 SV=1)

HSP 1 Score: 613.2 bits (1580), Expect = 1.8e-171
Identity = 339/661 (51.29%), Postives = 415/661 (62.78%), Query Frame = 0


Query: 298 VVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRN 357
           V+RS R EKPLHYTLKI+SFSLLK ALA S+ DR+ SQ F+A GY W+LALYP+GD  RN
Sbjct: 33  VLRSIRDEKPLHYTLKIKSFSLLKKALASSKRDRFVSQIFHASGYKWKLALYPNGDKNRN 92

Query: 358 GSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGKIRRFHAMKTEWGFE 417
           GS +ISLYLV+AED+I+S  SE+NVV TFLVYD L+DKYL +QDGK++RFH MKTEWGFE
Sbjct: 93  GSGYISLYLVTAEDEIVSATSEVNVVLTFLVYDSLRDKYLAIQDGKVKRFHRMKTEWGFE 152

Query: 418 KLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCND-GKGEVLSLINQPKNNKYTWKINNFS 477
           KL+S + FN+ SNG LV     FGVDIFV+K +D GKGE+LSLIN P++ K+TWKIN+FS
Sbjct: 153 KLISFDIFNNPSNGFLVGGYAAFGVDIFVIKSDDGGKGEILSLINPPEHYKFTWKINHFS 212

Query: 478 TIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLY 537
           T   TL  SD F+VE Y W++ L  P GC    +   SL+L+FD  +E P  S+V +   
Sbjct: 213 TQSKTL-SSDVFSVEGYHWRVEL-HPNGCPTAMSNYLSLFLIFDDLRELPDDSQVYVEYE 272

Query: 538 PKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIR 597
               S+                    DK WF +GG + GWG  +F+SL+DL +   G+I 
Sbjct: 273 MAVLSQVG------------------DKHWFEYGGGD-GWGCAEFMSLMDLKDTLSGYIL 332

Query: 598 NDSVIVEEAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHF 657
           ND                                             + RS RD+KPLH+
Sbjct: 333 ND---------------------------------------------ILRSIRDEKPLHY 392

Query: 658 TLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISL 717
           TL+IQ FSLLK ALA   R+RYES  F+ GG+KW      KLALYPNGD  RNGS +ISL
Sbjct: 393 TLQIQPFSLLKTALATCSRERYESPIFNVGGFKW------KLALYPNGDKNRNGSGYISL 452

Query: 718 YLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLKT 777
           YLV+A+D I+S  SEVNVV TFLVYDNL+D YL V DGK+RRFHAMKTEWGF KLVSL+T
Sbjct: 453 YLVTAEDEIVSATSEVNVVLTFLVYDNLRDNYLAVLDGKVRRFHAMKTEWGFGKLVSLET 512

Query: 778 FKDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNIYTWKINNFSKLDTTLKE 837
           F D+SNG LVDDCC FGVDIFVM                                     
Sbjct: 513 FNDSSNGFLVDDCCAFGVDIFVM------------------------------------- 572

Query: 838 SYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKE-LPKGSQVYVEYEMAVLSQLE 897
               K+ESY WKI L+P+G S    GFLS+YL+F+S KE LP+G +VY E+E+AVLS+  
Sbjct: 573 ----KLESYRWKIRLHPKGCSQESAGFLSLYLIFDSFKELLPQGCRVYAEFEIAVLSKYG 579

Query: 898 AVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLVVQLKINVISTLKT 957
               K    CWF FGGIE  G G P F  L  LKE +KGY+  DTL+V++KINV+S LK 
Sbjct: 633 VGHKKLESKCWFEFGGIET-GLGFPEFMPLRDLKEVKKGYICDDTLIVKVKINVVSILKK 579

[Close]

BLAST of HG10009667 vs. ExPASy TrEMBL
Match: A0A6A4KMX3 (Uncharacterized protein (Fragment) OS=Rhododendron williamsianum OX=262921 GN=C3L33_21023 PE=4 SV=1)

HSP 1 Score: 427.6 bits (1098), Expect = 1.4e-115
Identity = 264/722 (36.57%), Postives = 374/722 (51.80%), Query Frame = 0


Query: 309 HYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGSAHISLYLVS 368
           HYTLKI+SFSL +        D +ES++F AGGY W+L+LYP+G+ KRN + HIS YL  
Sbjct: 43  HYTLKIESFSLFR----NITIDNHESRAFEAGGYKWKLSLYPNGNKKRNVNDHISFYLAI 102

Query: 369 AEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGK--IRRFHAMKTEWGFEKLVSLNTFN 428
           AE + L    E+NV F   V+D ++DKY T+QDG+  IRRFH MKTEWGF+K + L TFN
Sbjct: 103 AETESLPLGWEVNVDFKLYVFDHIRDKYSTIQDGEGSIRRFHRMKTEWGFDKFIPLETFN 162

Query: 429 DASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINNFSTIDTTLKESD 488
            ASNG L++DCCVFG ++F+MK N GKGE +  +  P +N YTWKI+  S ID     S+
Sbjct: 163 HASNGYLLEDCCVFGAEVFLMKSN-GKGECVMTMKNPLSNTYTWKIDEVSKIDAEEVLSE 222

Query: 489 PFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYPKGCSEASSG 548
            F V  + WK+ +  P+G      +S S++L     +  P   KV    Y +        
Sbjct: 223 AFVVGEHKWKL-VIYPKGNGTAKNKSLSVFLELADWETLPPEWKV----YAEYKMRIRDQ 282

Query: 549 YLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRNDSVIVE--- 608
           +  +        +    + W  F  +   +G PDF++L DL + ++GF+ ND++IVE   
Sbjct: 283 FQIIGTNMQKKAKELTVQNW--FCASSKSYGYPDFMALSDLNKASEGFLVNDAMIVEIDF 342

Query: 609 ------------------------------------------------------------ 668
                                                                       
Sbjct: 343 AGADDVTHLRFPMVDLLYVLKSFYDPVLDLLITSENLICLMFTISDTEHFSQWNLPSTLV 402

Query: 669 --------EAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLH 728
                    A KKK         Q E    ++  N+      H   A   RS RD  P H
Sbjct: 403 VDISGHEATAGKKK------NNDQEEKSFREEILNL------HVFHARTMRSLRDVPPAH 462

Query: 729 FTLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHIS 788
           +TLK+ SFS+ +     +    YES  F+AGGYKW      KL +YPNG+VK N   H+S
Sbjct: 463 YTLKLTSFSIFR----DTKIGNYESGVFEAGGYKW------KLCIYPNGNVKMNVKGHLS 522

Query: 789 LYLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQD--GKIRRFHAMKTEWGFEKLVS 848
            YL  AD   L    EVNV F   V+D ++DKYLT+QD  G + +FH MKTE GF++ + 
Sbjct: 523 CYLAIADTETLPPGWEVNVSFKLFVFDQVRDKYLTIQDAEGGVGQFHRMKTECGFDQFLP 582

Query: 849 LKTFKDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNIYTWKINNFSKLDTT 908
           L TF DASNG LVDDCCVFG ++FV+K   GKGE  S++     NIYTW+I++FS  D  
Sbjct: 583 LGTFNDASNGYLVDDCCVFGAEVFVIKYT-GKGESASMVKNLARNIYTWRIDSFSATDQD 642

Query: 909 LKESYPFKVESYSWKIYLYPRGDSLAKPG-FLSMYLMFESLKELPKGSQVYVEYEMAVLS 955
              S  F V  + WK+ +YP+G+SL+  G  +S++L     K LP   ++Y E+++ +  
Sbjct: 643 KLISEEFVVGGHKWKLDIYPKGNSLSSKGKSVSLFLRLADCKNLPLHRKMYAEFKLRMRD 702

[Close]

BLAST of HG10009667 vs. ExPASy TrEMBL
Match: A0A6P6AZB7 (uncharacterized protein LOC111313749 isoform X1 OS=Durio zibethinus OX=66656 GN=LOC111313749 PE=4 SV=1)

HSP 1 Score: 401.4 bits (1030), Expect = 1.1e-107
Identity = 248/659 (37.63%), Postives = 356/659 (54.02%), Query Frame = 0


Query: 300 RSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGS 359
           R TR   P H+  K++SFSL    LA++  ++YES  F A G+ WRL+ YP+GD KRNG 
Sbjct: 12  RITRDLLPAHHLFKVESFSL----LAETGLEKYESDVFEAAGHKWRLSFYPNGDNKRNGC 71

Query: 360 AHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTV--QDGKIRRFHAMKTEWGFE 419
             ISLYLV  + + L  N E+NV F   V D ++DKYL++  +   ++RFH M+TEWGF 
Sbjct: 72  GFISLYLVIEDTENLPLNWEVNVSFRLFVLDQIRDKYLSIEFEGDPVKRFHWMRTEWGFT 131

Query: 420 KLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINNFST 479
            L+SL +FND SNG LVDDCC+FG ++F+M+ N  K E LS+I +P++N   +K+ NFS 
Sbjct: 132 HLISLESFNDISNGYLVDDCCIFGAEVFLMEPN-YKCECLSMIKEPEDNTIIFKMENFSK 191

Query: 480 IDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYP 539
           +D    ES   T+ +  WK+ +  PR                 G  E    +K K  + P
Sbjct: 192 LDKKYYESAVQTIGDSKWKL-IVYPR-----------------GHVESKGKAKGKWIVCP 251

Query: 540 KGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRN 599
            G ++     LS++L                                             
Sbjct: 252 SGNAKFKGKALSVFLE-------------------------------------------- 311

Query: 600 DSVIVEEAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHFT 659
              +VE   K+K         + + ++ DQ N+       H +   + R TRD  P H+ 
Sbjct: 312 ---LVEVPLKRK------VYAEYKLRVRDQIND------NHKEFTGIRRITRDFPPAHYL 371

Query: 660 LKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISLY 719
            K++SFSL    LAK   ++YES  F+A G+KW      +L+LYPNGD K NGS  ISLY
Sbjct: 372 FKVESFSL----LAKIGVEKYESDVFEAAGHKW------RLSLYPNGDNKSNGSGFISLY 431

Query: 720 LVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQ--DGKIRRFHAMKTEWGFEKLVSLK 779
           LV  D   L    EVNV F   V D ++DKYLT++  DG ++RFH MKTEWGF +LVSL+
Sbjct: 432 LVIDDTENLPLTWEVNVSFRLFVLDQIRDKYLTIEDSDGAVKRFHWMKTEWGFAQLVSLE 491

Query: 780 TFKDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNIYTWKINNFSKLDTTLK 839
           +F D SNG LV DCC+FG ++F+++ N  K E LS+I +P++N   +K+ NFSKLD    
Sbjct: 492 SFNDTSNGYLVRDCCIFGAEVFLVERN-CKWECLSMIKEPEDNTIIFKMENFSKLDKKYY 551

Query: 840 ESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKELPKGSQVYVEYEMAVLSQLE 899
           ES    +    WK+ +YPRG+   K   LS++L      +LP   +VY EY++ V  Q+ 
Sbjct: 552 ESAVHTIGDSKWKLTVYPRGNVKFKGKALSVFLELAEADKLPLKRKVYAEYKLRVRDQIN 574

Query: 900 AVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLVVQLKINVISTLK 955
              ++ T   WF      +  WG P F +L  L +  KG++V D+L+V+ +I +IS +K
Sbjct: 612 DNHMEFTVERWF---SATSANWGYPQFMALKVLHDASKGFIVNDSLIVEAEITLISKVK 574

[Close]

BLAST of HG10009667 vs. ExPASy TrEMBL
Match: A0A4Y1QMF2 (TRAF-like family protein OS=Prunus dulcis OX=3755 GN=Prudu_000903 PE=4 SV=1)

HSP 1 Score: 400.6 bits (1028), Expect = 1.8e-107
Identity = 300/957 (31.35%), Postives = 426/957 (44.51%), Query Frame = 0


Query: 41  KVLRSTRIEKPLHYTLQIQSFSLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEK 100
           ++LRS     P HYT++IQS SLL        +  +YES  F AGG   KL  YPNG++ 
Sbjct: 94  RILRSFSDAPPTHYTVKIQSLSLL-----AKNSLEKYESGDFEAGG---KLVFYPNGNKG 153

Query: 101 RNGSNHISLYLVMAEADTNQPN-------------------------------------T 160
           RN  +HISLYLVM+ A+ +Q +                                      
Sbjct: 154 RNVKDHISLYLVMSGANASQISREVYAVFRKIQLYPKGKGNGIGTHLSLYLALADPKSLP 213

Query: 161 TSSEVNVMFTFLVYDTLKDQFLTFQDGKVR-RFHAIKKEWGFEKLVSLETFHDASNGLLV 220
             S++   FT  + D +  +    Q GK    F A   EWG+ + ++L     A  G L 
Sbjct: 214 PGSKIYADFTLRILDQVNAR---HQFGKGNFWFSASNPEWGWWRFITLGFLSQAGMGFLS 273

Query: 221 NDCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRKVKNFSELSKNLYESDPFTVESHTW 280
            D C                    I E +  + +  VK F+ +S N    D         
Sbjct: 274 KDTC--------------------IVEAEHLQSSTVVK-FTTMSMNNLNFD--------- 333

Query: 281 KIRLYPSGYSKATTGYMSLFLMLDSFEKLPQGFDVYVEYEIAVLSKHGVRHINSPVVRST 340
                                            D Y                   ++R+ 
Sbjct: 334 ---------------------------------DQY------------------GILRTF 393

Query: 341 RCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVKRNGSAHI 400
               P HYT KIQSFSL    ++K   +RYES+ F AGGY W+LA YP+G+  +N   HI
Sbjct: 394 SDSMPTHYTFKIQSFSL----MSKHSLERYESEDFEAGGYKWKLAFYPNGNKSKNVKEHI 453

Query: 401 SLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTV-QDGKIRRFHAMKTEWGFEKLVS 460
           SLYLV A      T  E+   F   + D    KYL + ++ K R FH +K +WGF++ +S
Sbjct: 454 SLYLVLAGANGPQTCWEVYAAFRLFLLDQNSGKYLALEEEQKERCFHGIKLDWGFDQFLS 513

Query: 461 LNTFNDASNGLLVDDCCVFGVDIFVMK-CNDGKGEVLSLINQPKNNKYTWKINNFSTIDT 520
              F DASNG LVDD CVFG ++FV K  +  KGE LS+I      K+ WKI NFS +D 
Sbjct: 514 QKDFTDASNGFLVDDACVFGAEVFVRKERSTCKGECLSMIKDAVMYKHVWKIENFSKLDE 573

Query: 521 TLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKISLYPKGC 580
              +S+ F   +  WKI    P+G D    +    +L  D +   P        LY    
Sbjct: 574 ESYDSETFIAGDQKWKIEF-YPKGRD----DGKDSHLSIDLALADPTFLSPTSKLY---- 633

Query: 581 SEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGFIRNDSV 640
           ++ +   +    T   F+   +   WF     + GW  P FI+L    + + G++ NDS 
Sbjct: 634 AQFTLRLVDPVYTSRHFEYGTKATWWFSASSPKRGW--PKFITLGIFRDKSLGYLENDST 693

Query: 641 IVEEAKKKKGLKMGTKRKQREAKMEDQTNNVVFPSQQHPDSACVFRSTRDDKPLHFTLKI 700
           IVE    +                ++Q                + R+  D  P H+T+KI
Sbjct: 694 IVEAEHLQSSAAKFFAINMTSLNFDEQDG--------------ILRTISDAPPTHYTIKI 753

Query: 701 QSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPNGDVKRNGSAHISLYLVS 760
           QS SL    L+K   ++YES  F+AGGYKW      KL  YPNG+ +RN + HISL LV 
Sbjct: 754 QSLSL----LSKHSLEKYESGEFEAGGYKW------KLVFYPNGNKRRNVTEHISLNLVL 813

Query: 761 ADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMKTEWGFEKLVSLKTFKDA 820
           A  N   T  EV+  F   + D     Y  +Q+   RRFH MK +WGF+K +SLK F DA
Sbjct: 814 AGANGPQTCWEVHAAFRLFLLDQNTGTYFALQEQNERRFHGMKLDWGFDKFLSLKAFTDA 873

Query: 821 SNGLLVDDCCVFGVDIFVMK-CNDGKGEVLSLINQPKNNIYTWKINNFSKLDTTLKESYP 880
            NG +V+D CVFG ++ V K  +  KGE LS+I       + WKI+NFSKL+    +S  
Sbjct: 874 PNGFVVEDTCVFGAEVLVRKERSTCKGECLSMIKDAIMYKHVWKIDNFSKLNAESYDSQT 917

Query: 881 FKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKELPKGSQVYVEYEMAVLSQLEAVPV 940
           F      WKI LYP G   A  G LS+YL       LP  S++Y +Y + +L+Q  +   
Sbjct: 934 FIAGDQKWKIKLYPMGRDGAASGHLSLYLALADPTSLPPTSKIYAQYTLRLLNQDYSSSN 917

Query: 941 KQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLVVQLKINVISTLKTI 957
           ++    W+        GW  P F ++++ K     +L+ D+  V+ ++ V  T   +
Sbjct: 994 REYKVSWWFSASSPMQGW--PRFITVTWFKTTSHRFLLNDSCTVEAEVTVHGTASAL 917

[Close]

BLAST of HG10009667 vs. ExPASy TrEMBL
Match: A0A3P6ACS1 (Uncharacterized protein OS=Brassica campestris OX=3711 GN=BRAA03T13326Z PE=4 SV=1)

HSP 1 Score: 393.3 bits (1009), Expect = 3.0e-105
Identity = 278/927 (29.99%), Postives = 449/927 (48.44%), Query Frame = 0


Query: 43  LRSTRIEKPLHYTLQIQSF-SLLKAAIATSPNRHRYESQIFNAGGYKWKLALYPNGDEKR 102
           ++  R   P  YTL+++SF +LLK+  A      RYES+ F  GGY W L +YPNG++K 
Sbjct: 72  VKGLRDRPPSSYTLKMESFNTLLKSNYA-----ERYESRPFAVGGYNWTLVVYPNGNKKD 131

Query: 103 NGSNHISLYLVMAEADTNQPNTTSSEVNVMFTFLVYDTLKDQFLTFQDGKVRRFHAIKKE 162
           +GS ++SLY+ +   D +       EV     F V++  + ++ T QD  VRRF+  K  
Sbjct: 132 SGSGYLSLYVAI---DNSTLVGAQQEVLADLRFYVFNNNERKYFTIQDTTVRRFNVFKTM 191

Query: 163 WGFEKLVSLETFHDASNGLLVN-DCCAFGVDVIVMKCDGNGEVLSLINEPKDYEYTRKVK 222
           WGF +++ ++TF +  NG L + D C FGVDVI+     N E+ S   +  +   T  ++
Sbjct: 192 WGFSQVLPVDTFKNPKNGYLYDGDHCEFGVDVIIPSIAENSELFSATEKFFNPTSTWTIR 251

Query: 223 NFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATTGYMSLFLMLDSFEKLPQGFDVYVE 282
            FS L K+ Y SD F++    W I++YP+G       +MS+FL L+  EKL     VYV 
Sbjct: 252 GFSTLLKDSYLSDVFSIGGRNWNIQVYPNGRGSGEGKFMSMFLNLNEKEKLRPYEKVYVR 311

Query: 283 YEIAVLSKHGVRHINSPVVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAG 342
            ++ VL++  + ++   +              +  SF  L+ + +K  C       FN  
Sbjct: 312 AKLRVLNQRKLNNVQRQLNSWYNRAVASWGFNQFISFDDLRDS-SKVSCS--NRMLFNFY 371

Query: 343 GYNW-----RLALYPSGDVKRNGSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDK 402
            + W      L +YP+G  + +GS  ISLY+      ++  + E+     F V+   + K
Sbjct: 372 FFGWILLYRSLIVYPNGYRQDSGSGFISLYVAIDNSTLVEAHQEVFADLRFYVFKNNERK 431

Query: 403 YLTVQDGK-----IRRFHAMKTEWGFEKLVSLNTFNDASNGLLVD-DCCVFGVDIFVMKC 462
           Y T+QD K       R++  KT WGF +++ L TF D SNG L D D C FGVD+ +   
Sbjct: 432 YFTIQDRKNMQCYAWRYNIFKTMWGFSQVLPLATFRDPSNGYLYDEDHCEFGVDVTIHSP 491

Query: 463 NDGKGEVLSLINQPKNNKYTWKINNFSTIDTTLKESDPFTVENYSWKIRLCCPRGCDGRT 522
                E+ S+      +++TW I +FS +      SD F+V   +W I++  P G   R 
Sbjct: 492 FQ-SSELFSVARNFDKSRFTWTIRSFSALVGDTYFSDTFSVGGRNWNIQV-NPSGRATRE 551

Query: 523 AESFSLYLVFDGSKEHPRSSKVKISLYPKGCSEASSGYLSLYLTFDSFKELPQDKCWFGF 582
             + S+YL+ + ++                  +  SG + +Y   +SF   P        
Sbjct: 552 GRALSMYLLLNANE------------------KIRSGTVHVYNNKESFVITP-------- 611

Query: 583 GGAETGWGSPDFISLIDLTEPTKGFIRNDSVIVEEAKKKKGLKMGTKRKQREAKMEDQTN 642
                   +    +L+      K  + +   +++E  + +    G      E    D+  
Sbjct: 612 --------NIFTCNLLVKALCKKNDVESAYKVLDEIPEMEENGAGPNPNVGEVNYVDKLQ 671

Query: 643 NVVFPSQQHPDSAC-VFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAGGY 702
            +   S+ +  SA    +  RD  P  +TLK++SF+ L   L  ++ +RYES  F  GGY
Sbjct: 672 EI--SSRDYKVSASNAVKGLRDRPPSSYTLKMESFNTL---LKSNYAERYESRPFAVGGY 731

Query: 703 KWLGFRDKKLALYPNGDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKDKY 762
            W       L +YPNG+ K +GS ++SLY+   +  +++ + EV     F +++N + KY
Sbjct: 732 NW------TLVVYPNGNKKDSGSEYLSLYVAIDNSTLVAAHQEVLADLRFYIFNNNERKY 791

Query: 763 LTVQDGKIRRFHAMKTEWGFEKLVSLKTFKDASNGLLVD-DCCVFGVDIFVMKCNDGKGE 822
            T+QD  + RF+  KT WGF +++ + TFKD  NG L D D C FGVD+ +    +   E
Sbjct: 792 FTIQDTTVWRFNVFKTMWGFSQVLPVDTFKDPKNGYLYDGDHCEFGVDVIIPSIAE-NSE 851

Query: 823 VLSLINQPKNNIYTWKINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMY 882
           + S   +  N  +TW I  FS L   +  S  F +   SW I +YP G    +  FLSM+
Sbjct: 852 LFSATEKFYNPTFTWTIRGFSTLLKDMYSSDVFTIGGRSWNIQVYPNGRGEGEGKFLSMF 911

Query: 883 LMFESLKELPKGSQVYVEYEMAVLSQLEAVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSY 942
           L     ++L    +VYV  ++ VL+Q +   V+   + WF         WG     S   
Sbjct: 912 LKLNGEEKLRPYEKVYVRAKLRVLNQSKLNNVQNQLDSWFSRA---VPSWGFRKLISFDD 936

Query: 943 LKEPRKGYLVKDTLVVQLKINVISTLK 955
           L++  KG+LV D L+VQ+++  +S+ K
Sbjct: 972 LRDSSKGFLVNDMLMVQVEMEAVSSTK 936

[Close]

BLAST of HG10009667 vs. TAIR 10
Match: AT3G17380.1 (TRAF-like family protein )

HSP 1 Score: 219.9 bits (559), Expect = 8.6e-57
Identity = 122/307 (39.74%), Postives = 170/307 (55.37%), Query Frame = 0


Query: 644 VFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAGGYKWLGFRDKKLALYPN 703
           + +S  D  P H+ +KI+SFSL    L K   +RYE+ SF+AGGYKW      KL LYPN
Sbjct: 10  IIKSISDAPPTHYMVKIESFSL----LTKHAIERYETESFEAGGYKW------KLVLYPN 69

Query: 704 GDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKDKYLTVQDGKIRRFHAMK 763
           G+  +N   H+S+YL  AD + LS   EV  VF   + D  KD YL +Q G  RRFH++K
Sbjct: 70  GNKSKNTKDHVSVYLSLADSSSLSPGWEVYAVFRLYLLDQNKDNYLILQ-GNERRFHSVK 129

Query: 764 TEWGFEKLVSLKTFKDASNGLLVDDCCVFGVDIFVMK-CNDGKGEVLSLINQPKNNIYTW 823
            EWGF+K +   TF DASNG L++D C+FG D+FV K    G+GE LS+I    ++ + W
Sbjct: 130 REWGFDKFIPTGTFSDASNGYLMEDTCMFGADVFVSKERRSGRGECLSMIKDATSSKHVW 189

Query: 824 KINNFSKLDTTLKESYPFKVESYSWKIYLYPRGDSLAKPGFLSMYLMFESLKELPKGSQV 883
           KI NFSKLD    +S  F      WKI  YP G        LS+YL     + +  G+++
Sbjct: 190 KIENFSKLDKESYDSNAFFAGDRKWKIEFYPTGTKQGTGTHLSIYLTLVDPETISDGTKI 249

Query: 884 YVEYEMAVLSQLEAVPVKQTYNCWFGFGGIEAGGWGTPNFTSLSYLKEPRKGYLVKDTLV 943
           +VE+ + +  QL+   +      WF     E  GW    + S+ Y  +P  G L+KD  +
Sbjct: 250 FVEFTIRIFDQLQGRHIAGKVTKWFSRSSSE-HGW--VKYVSMVYFTQPNSGLLLKDVCL 302

Query: 944 VQLKINV 950
           V+  + V
Sbjct: 310 VEADVCV 302

[Close]

BLAST of HG10009667 vs. TAIR 10
Match: AT3G20370.1 (TRAF-like family protein )

HSP 1 Score: 169.1 bits (427), Expect = 1.7e-41
Identity = 104/332 (31.33%), Postives = 165/332 (49.70%), Query Frame = 0


Query: 627 QTNNVVFPSQQHPDSACVFRSTRDDKPLHFTLKIQSFSLLKPALAKSHRDRYESHSFDAG 686
           Q N  +        ++   +  RD  P  ++LK++SF+ L   L  ++ ++Y S  F  G
Sbjct: 59  QENKEISSRDYKVSASNAVKGLRDRPPSSYSLKMESFNTL---LKSTYTEKYVSRPFSVG 118

Query: 687 GYKWLGFRDKKLALYPNGDVKRNGSAHISLYLVSADDNILSTNSEVNVVFTFLVYDNLKD 746
           GY W       L ++PNG+ K +GS ++SLY+  A DN      E+     F +++  + 
Sbjct: 119 GYNW------TLVVFPNGNKKDSGSGYLSLYV--AIDNSTLGQQEIYADLRFYIFNKNER 178

Query: 747 KYLTVQDGKIRRFHAMKTEWGFEKLVSLKTFKDASNGLLVD-DCCVFGVDIFVMKCNDGK 806
           KY T+QD  + +F   KT WGF +++ + TFKD + G L D D C FGVD+ +    + K
Sbjct: 179 KYFTIQDTDVWKFSVFKTMWGFSQVLPIDTFKDPTKGYLYDGDHCEFGVDVTMPSLYE-K 238

Query: 807 GEVLSLINQPKNNIYTWKINNFSKLDTTLKESY---PFKVESYSWKIYLYPRGDSLAKPG 866
            E+ S+     N  +TW I  FS   T LK SY    F +   SW I + P G    +  
Sbjct: 239 SELFSVTENFLNPRFTWTIRGFS---TLLKNSYLSEVFSIGGRSWNIQINPSGLGTGEGK 298

Query: 867 FLSMYLMFESLKELPKGSQVYVEYEMAVLSQLEAVPVKQTYNCWFGFGGIEAGGWGTPNF 926
            LSMYL     +      ++YV  ++  L+QL    +++  + W+   G     WG P F
Sbjct: 299 ALSMYLGLNVNEIFRPYEKIYVRAKLRALNQLNLSNIERELDIWYNGPGYGEYSWGFPEF 358

Query: 927 TSLSYLKEPRKGYLVKDTLVVQLKINVISTLK 955
               YL +  KG++  D L+VQ+++  IS+ K
Sbjct: 359 IYFPYLTDSSKGFVKNDVLMVQVEMEAISSTK 375

[Close]

BLAST of HG10009667 vs. TAIR 10
Match: AT3G20360.1 (TRAF-like family protein )

HSP 1 Score: 166.0 bits (419), Expect = 1.5e-40
Identity = 109/315 (34.60%), Postives = 165/315 (52.38%), Query Frame = 0


Query: 296 SPVVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDVK 355
           S  V+  R   P  Y+LK++SF+ L  ++     +RYES+ F  G YNW L +YP G+  
Sbjct: 55  SSTVKGLRERPPSSYSLKMESFNTLMKSV---YTERYESRPFRVGRYNWTLVVYPKGNKN 114

Query: 356 RNGSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGKIRRFHAMKTEWG 415
            NG+ HISLY+V     + S + E++V   F V++  + KY T+QD  + RF A+K  WG
Sbjct: 115 DNGTGHISLYVVLDNSTLTSQSEEVHVDLRFYVFNKKETKYFTIQDTDVWRFSAIKRMWG 174

Query: 416 FEKLVSLNTFNDASNGLLVD-DCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINN 475
           F K++ L TFN+  NG L D D C FGVD+ +    + K EV S+     + ++TW I  
Sbjct: 175 FSKVLPLITFNNLKNGYLYDVDHCEFGVDVIIPPFYE-KSEVFSVTKSFPSPRFTWYIQG 234

Query: 476 FSTIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKIS 535
           +ST+ T    S+ F +   SW +R+    G      ++ SLYL   G +E      +K  
Sbjct: 235 YSTLPTDYL-SEEFIIGGKSWNLRI-FKNGFGAFEGKNLSLYLNL-GPQE-----LLKAK 294

Query: 536 LYPKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAET-GWGSPDFISLIDLTEPTKG 595
            Y K    A    L +   F S   L  ++    +   +T GWG  DF+ L DL   +KG
Sbjct: 295 PYDKVYVRAK---LRVPNQFGSQSNLVLERPLDNWFSPQTIGWGYADFMPLSDLRNSSKG 354

Query: 596 FIRNDSVIVEEAKKK 609
           F+ ND ++V+ A ++
Sbjct: 355 FLVNDMLVVQVAMEE 354

[Close]

BLAST of HG10009667 vs. TAIR 10
Match: AT5G26280.1 (TRAF-like family protein )

HSP 1 Score: 161.4 bits (407), Expect = 3.6e-39
Identity = 101/309 (32.69%), Postives = 158/309 (51.13%), Query Frame = 0


Query: 295 NSPVVRSTRCEKPLHYTLKIQSFSLLKAALAKSQCDRYESQSFNAGGYNWRLALYPSGDV 354
           N  V R  R E+P    + I SFS++     K + + YES  F A GY WRL LY +G+ 
Sbjct: 47  NLGVTRELREERPSSKIVTITSFSVI-----KGRGEPYESSVFEAAGYKWRLVLYVNGNK 106

Query: 355 KRNGSAHISLYLVSAEDKILSTNSEINVVFTFLVYDILKDKYLTVQDGKIRRFHAMKTEW 414
              G+ HISLY    E   L    E+NV     V++    KYLTV DG ++R++  K EW
Sbjct: 107 NDGGNDHISLYARIEETNSLPLGWEVNVDLKLFVHNGKLHKYLTVTDGLVKRYNNAKKEW 166

Query: 415 GFEKLVSLNTFNDASNGLLVDDCCVFGVDIFVMKCNDGKGEVLSLINQPKNNKYTWKINN 474
           GF +L+  +TF +A+ G L  D   FG +IF++K    + E ++ I+ P NN +TWKI  
Sbjct: 167 GFGQLIPRSTFYNANEGYLDQDTGSFGAEIFIVKPAQ-QQEKVTFISNPPNNVFTWKILR 226

Query: 475 FSTIDTTLKESDPFTVENYSWKIRLCCPRGCDGRTAESFSLYLVFDGSKEHPRSSKVKIS 534
           FST++     SD F VE+  W++    P+G  G    +  ++L   G K +  ++    +
Sbjct: 227 FSTLEDKFYYSDDFLVEDRYWRLGF-NPKGDGGGRPHALPIFLFAQGHKANAVATNTWGA 286

Query: 535 LYPKGCSEASSGYLSLYLTFDSFKELPQDKCWFGFGGAETGWGSPDFISLIDLTEPTKGF 594
           +  +  ++ S+ +  +Y              W+  G    G G  + I L DL + +KG+
Sbjct: 287 VNLRLKNQRSTNHRQIY-----------SAAWYPIGSG-YGVGVNNIILLADLNDASKGY 336

Query: 595 IRNDSVIVE 604
           + ND++I E
Sbjct: 347 LVNDAIIFE 336

[Close]

BLAST of HG10009667 vs. TAIR 10
Match: AT3G22080.1 (TRAF-like family protein )

HSP 1 Score: 159.1 bits (401), Expect = 1.8e-38
Identity = 88/282 (31.21%), Postives = 150/282 (53.19%), Query Frame = 0


Query: 18  KSAPATNASGFIGRGFSVLEVVGKVLRSTRIEKPLHYTLQIQSFSLLKAAIATSPNRHRY 77
           K +P    S           V    LRS R   P  Y+L++Q+ S ++ +   S    +Y
Sbjct: 320 KYSPILILSSLASGSMMCSSVSSTTLRSWRERTPNSYSLKLQNISQVEKSTLFSDG--KY 379

Query: 78  ESQIFNAGGYKWKLALYPNGDEKRNGSNHISLYLVMAEADTNQPNTTSSEVNVMFTFLVY 137
           +S++F++GGY W++ +YP G+ K +GS  IS+Y+ +    T+   T ++EV     F V+
Sbjct: 380 QSRLFSSGGYNWRMIIYPKGNRKDDGSGFISMYVEI--DSTSLLTTPTTEVFADLRFFVF 439

Query: 138 DTLKDQFLTFQDGKVRRFHAIKKEWGFEKLVSLETFHDASNG-LLVNDCCAFGVDVIVMK 197
           +  ++++ T Q  + + F+A +  WG  +++ ++TF D  NG +   D C FGVDVIV  
Sbjct: 440 NKKENKYYTIQHVESKLFNAFRTIWGLAQVLPVDTFTDPKNGYIFEGDQCEFGVDVIVAA 499

Query: 198 CDGNGEVLSLINEPKDYEYTRKVKNFSELSKNLYESDPFTVESHTWKIRLYPSGYSKATT 257
              N E+ +L       ++   VKNFSEL+ N+Y S  F++    W ++LYP G  K   
Sbjct: 500 PPTNWEIHTLHEALSQPKFFWTVKNFSELNNNVYTSGNFSMRERKWVLKLYPKGDVKGDR 559

Query: 258 GYMSLFLMLDSFEKLPQGFDVYVEYEIAVLSKHGVRHINSPV 299
            ++SL+L LD  E L +   ++V+ ++ VL   G  H+   +
Sbjct: 560 KWLSLYLYLDQSETLKESEKIFVQAQLRVLDPRGSNHVTHKI 597

The following BLAST results are available for this feature:

BLAST of HG10009667 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_022146383.1	3.7e-171	51.29	uncharacterized protein LOC111015611 [Momordica charantia]	[more]
KAG5526280.1	7.9e-153	37.73	hypothetical protein RHGRI_032531 [Rhododendron griersonianum]	[more]
KAG5524443.1	2.2e-139	34.44	hypothetical protein RHGRI_031187 [Rhododendron griersonianum]	[more]
KAG5524442.1	2.2e-139	34.25	hypothetical protein RHGRI_031187 [Rhododendron griersonianum]	[more]
XP_038875772.1	4.3e-127	71.21	uncharacterized protein LOC120068142 [Benincasa hispida]	[more]

BLAST of HG10009667 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q9FPT1	6.3e-12	33.33	Ubiquitin C-terminal hydrolase 12 OS=Arabidopsis thaliana OX=3702 GN=UBP12 PE=1 ...	[more]
Q84WU2	5.3e-11	31.43	Ubiquitin C-terminal hydrolase 13 OS=Arabidopsis thaliana OX=3702 GN=UBP13 PE=1 ...	[more]
Q9M2J0	1.6e-07	28.17	MATH domain and coiled-coil domain-containing protein At3g58260 OS=Arabidopsis t...	[more]
Q9M2I9	1.1e-05	30.34	MATH domain and coiled-coil domain-containing protein At3g58270 OS=Arabidopsis t...	[more]
O22286	2.6e-05	23.74	BTB/POZ and MATH domain-containing protein 3 OS=Arabidopsis thaliana OX=3702 GN=...	[more]

BLAST of HG10009667 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1CYF6	1.8e-171	51.29	uncharacterized protein LOC111015611 OS=Momordica charantia OX=3673 GN=LOC111015...	[more]
A0A6A4KMX3	1.4e-115	36.57	Uncharacterized protein (Fragment) OS=Rhododendron williamsianum OX=262921 GN=C3...	[more]
A0A6P6AZB7	1.1e-107	37.63	uncharacterized protein LOC111313749 isoform X1 OS=Durio zibethinus OX=66656 GN=...	[more]
A0A4Y1QMF2	1.8e-107	31.35	TRAF-like family protein OS=Prunus dulcis OX=3755 GN=Prudu_000903 PE=4 SV=1	[more]
A0A3P6ACS1	3.0e-105	29.99	Uncharacterized protein OS=Brassica campestris OX=3711 GN=BRAA03T13326Z PE=4 SV=...	[more]

BLAST of HG10009667 vs. TAIR 10


Match Name	E-value	Identity	Description
AT3G17380.1	8.6e-57	39.74	TRAF-like family protein	[more]
AT3G20370.1	1.7e-41	31.33	TRAF-like family protein	[more]
AT3G20360.1	1.5e-40	34.60	TRAF-like family protein	[more]
AT5G26280.1	3.6e-39	32.69	TRAF-like family protein	[more]
AT3G22080.1	1.8e-38	31.21	TRAF-like family protein	[more]

InterPro

Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR002083	MATH/TRAF domain	SMART	SM00061	math_3	coord: 214..317 e-value: 0.029 score: 20.3 coord: 819..928 e-value: 4.7E-9 score: 46.1 coord: 56..173 e-value: 0.14 score: 12.9 coord: 318..425 e-value: 0.038 score: 19.1 coord: 467..587 e-value: 0.082 score: 15.5 coord: 658..777 e-value: 1.2 score: 2.9
IPR002083	MATH/TRAF domain	PFAM	PF00917	MATH	coord: 674..797 e-value: 6.1E-8 score: 32.8 coord: 327..445 e-value: 2.7E-11 score: 43.6 coord: 824..949 e-value: 1.8E-7 score: 31.3 coord: 74..192 e-value: 4.0E-9 score: 36.6 coord: 219..291 e-value: 4.0E-5 score: 23.7
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 212..263 score: 14.279831
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 653..796 score: 22.56435
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 465..606 score: 21.950682
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 307..444 score: 25.09573
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 51..192 score: 26.57876
IPR002083	MATH/TRAF domain	PROSITE	PS50144	MATH	coord: 817..947 score: 26.016232
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 308..444 e-value: 4.99837E-21 score: 87.8198
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 466..603 e-value: 3.96148E-14 score: 68.1746
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 215..294 e-value: 4.36475E-14 score: 67.7894
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 52..192 e-value: 5.74859E-17 score: 76.2638
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 654..796 e-value: 1.26368E-19 score: 83.5826
IPR002083	MATH/TRAF domain	CDD	cd00121	MATH	coord: 820..947 e-value: 1.19224E-19 score: 83.5826
IPR008974	TRAF-like	GENE3D	2.60.210.10	Apoptosis, Tumor Necrosis Factor Receptor Associated Protein 2; Chain A	coord: 207..304 e-value: 1.1E-15 score: 59.8
IPR008974	TRAF-like	GENE3D	2.60.210.10	Apoptosis, Tumor Necrosis Factor Receptor Associated Protein 2; Chain A	coord: 465..604 e-value: 6.4E-19 score: 70.4
IPR008974	TRAF-like	GENE3D	2.60.210.10	Apoptosis, Tumor Necrosis Factor Receptor Associated Protein 2; Chain A	coord: 49..201 e-value: 1.6E-34 score: 120.9 coord: 814..955 e-value: 1.4E-28 score: 101.6 coord: 305..454 e-value: 2.5E-35 score: 123.6 coord: 651..806 e-value: 9.3E-33 score: 115.2
None	No IPR available	PANTHER	PTHR46162	TRAF-LIKE FAMILY PROTEIN	coord: 647..954
None	No IPR available	PANTHER	PTHR46162:SF40	UBIQUITIN CARBOXYL-TERMINAL HYDROLASE 12-LIKE	coord: 45..289
None	No IPR available	PANTHER	PTHR46162:SF40	UBIQUITIN CARBOXYL-TERMINAL HYDROLASE 12-LIKE	coord: 647..954
None	No IPR available	PANTHER	PTHR46162	TRAF-LIKE FAMILY PROTEIN	coord: 45..289
None	No IPR available	PANTHER	PTHR46162	TRAF-LIKE FAMILY PROTEIN	coord: 301..603
None	No IPR available	PANTHER	PTHR46162:SF40	UBIQUITIN CARBOXYL-TERMINAL HYDROLASE 12-LIKE	coord: 301..603
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 52..197
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 308..448
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 465..603
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 654..800
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 817..952
None	No IPR available	SUPERFAMILY	49599	TRAF domain-like	coord: 212..292

Relationships

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


Feature Name	Unique Name	Type
HG10009667.1	HG10009667.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
molecular_function	GO:0005515	protein binding