Tan0007927 (gene) Snake gourd v1

Overview


Name	Tan0007927
Type	gene
Organism	Trichosanthes anguina (Snake gourd v1)
Description	DNA damage-repair/toleration protein DRT100-like
Location	LG04: 83184800 .. 83203501 (-)
RNA-Seq Expression	Tan0007927
Synteny	Tan0007927

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDSexon

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

ATGGTGGCGAAGGCAGACGCTAATAGGACAAAAGGGATTCTATTGTACGCCAAGCGCAACAGATTTAGACAAGGCTTTGAGAGAGGGACGATGATGAGGGGAATTGGGGACCCCCTCAGCCATGGTTGGGCAACCATTGATGGAGCTGAGAGGTTGAATTTGAACGACAGTGAAGTTTTGAAAAGGTTCCCCAAAATTCTATCAATGCCTTTGTCGGCTAAGGCTGCTGAGATCATTCTGAGTTCATTTTACACCACTTTCATACCGCCGGAGTGGCAGGACACCACAACCAAGCTTGGGTTGGCAGCGATGAGGCCTGGTGGTAAGACATTACCCAACTTCACCCCCTTCGATCCCGGTGACGTCGGCGCTAGAAGGAGGGAGAAGAAGAGGGAGAAGAAGATAGAGAGACGAAGAAGAAGAGGCTGGAGAAGGGGGAGAGAAAGAGAAAAGAAAAAAAAGAAAAATATATTTTAATAAAAAATAACAAAATCATAATAATAAATATTTTTTAATAAAAAGTAAGTGTCACTCCAACAATCTGTTACCAGTTAATGGAAAATTGGATGGAATGACTAACGGTGCAACTAAATTCAAAACTCAGGGCTAAATTGTTGAGTTTGAAAACTGTGGGACCAAAAAGGAACCAAACTCAAAACTGAGGGACCAAAAATGTATTTTGCCTTTTTTTTTACAACAAATGAAATAAAACAAAGTTACACAGCATCACTAAGAACCGTCAACAAGTACGATGGAAAAGTACTTGTACGGTAAGTTTCTAGTTTTGATACCATTGAAAGTTAGGGCATGAGTAGCTCGATTTTGGTCATGAAAAATGTGTGAAAAATGTCACATTTACTTATGTTAATATAATTTGTCACATTCGCTTATAATGAAAATAAAAATAACTTAACGATTAAAGCATCTGTTATTTTTTTTTTTGTTTGAGATAAAAATGAAATTCTCACTCCATTTATATGAGGTACTCATAATAATAATACTAATAATTAGTCTAACAGAAAGTTTTAAAAGTATAATAATTAAAAAGGTAATTAACTTTTCTTTAGATATAAATATTGGAAAAGTGAAAACAAATTATTTGGAAGGATATAATTTCTAATTTCGTATAAATAAAATAAAATAAGAGACAGGGCACAAGCGCACGCCACTGGCACTTGTCGGAATTAAGATTGATTAATGGGGAATTAATTAATTGATAAAGCTATTTTATTCTCTTAATATTAAAACATTAAATTGCGAAGGCCCGCCGCCTTATCTTCTCACCTACGCACCGACCGTCACCATTTTTTTTTTTTTTTTTTTGTATATTCACTACAAAAAGACGACCTCAAAATGACAAATCTCGAAGCAAGGAACAAACAAATTATTATTCGTTTTAAAAAATATATTGTTTGAGATACTGTTTCGAAAATAATTTTATGGTTTTATGCATTAATTTATTTTAGGCTAAGTATTAGAAAATACCTTTTTAACTTTGTATTGTGTTCCAAACATACTTTTTTTTAAAAGTTATGTTAATATCTTTAAAGTTTGAAAAAAAGTTTAAAAATATTTCTACCATTACTTTTGGATGGGAATACTAATAATTTGTTTAAAAAATATTCGTAAACTTTCAAAACTTTCATTAATATTTTTAAACTTTAAAAAAAAATAAAAAATAGAACGAAAACCGTTTATCCACACTCCATTACCACTCATTCTTATTTGTTTCAATTTATTGCCTAACACTCTCTGTTTTTTTCTTGATTTTTTCTTTTCTTTTTTAATACCCTCTTACTCTCTTTTTTCATTTTTTAATCTATAAAACTTCATTCATTTCTCCTATCTTCTTAAATATTAGAATTTTAAATAAACATAGGATCTCTCTCATTTCTAAGTATACTCAAACATAAATATAGGAAATTTCAACATCCAAGTTGTCAATATTTTCGAAGTTATCTTGAATTTAAAAAAAAAAAACAATTTAGAAATAACTCATATAGATACTCTCATTTTTTTTTCCATTTGTCCAATTCTCAATCATGGATAGCTTCTTAACTAACCACAACAAATAGACTCATTTGAATTGCAAAAAAAAATTAATAAAATCTTCCTTTGCTGCATAAATTTGATAATGCATGTGTTTTCTCCAATTTCCTTCCCACGAGATGTCTTCAAAATTATGACCTAAATTTAAATATGACTCATTTTCTATTTACTAAACTCAAATTATCAACGTACAACATTGTTAAAGCATTTAAGTCCTAAGGTATACCTTGATTGAAGAGAGTAGTTTTAAAGATTGGAAAATGGAAGAAGAGAGTAAAGGGGATAGTAAAAAAGAAATGGGGGAAAAGAGGAAAAATAAAAAAGTGTTAAGTTATAGATTGAAGCAAATAAAAAATAAAAAAATAAATGGAGAGTGAGGTAATAGGGGGAAGATAAATGTTTTTCGTCTATATATTCACAGTGAGGACATTTCTTAACTTTCTTTTTTTAAGTTAAGGGTATTAATACAACTTTTGAAAGTTTGGGAGTGTATTTTAAAATGAGGTACTAATGATATCTGTCTATATAATAGTGGTAAGTGTATTTTTGAACTTCTTTTGAAAGTTTAAGGTTATTAATGAAACGCTTGAAAGTTTAGAGGTATTTTTGAAACAAAGTGCTAACTGTTTCCATCCAAAACTAATGGTAAGGGTATTTTTTTTCAACTTTTTTTAAAGTTTAAGGGTATTAATGGAACTTTTGAAAGTTTATAAGTATTTTTGAAACAAAGTATAAAGTTCTAGGGTTTTTTTTTTTTAAATTTAGCTCTCGGAAGGATTTCTTTATTAAATTACAAATTTAGACTTTATAATTTGCCTTATTTTCAATTTCACCCTTACGATTTTCAATTTTTTAATTGTGTGTTCCTATGGGTAGAGCTTAATTTTGATTTTATCCTTATAATTTTTAAAATTTATGTGACGCCTGAGGAAGAGGAGTAGATGAATGAACCGAGTCCACACCTAAATGAGAGAGATCTTGAGGTTATGAAAGTATGGGTGAGAAAAGCTTAAAATAAATGATAGCTACTACCTATACAAACAAGGTGCACCTTCCTTTTCGGTAGCTCAATCATAGGAACCTGTGTTGGTTTGTGGGGATAGTGTTTCACTCTCACAAGCAGCTTAATGATATAGTGATGTGGCCAGGTCGCAGGGGATATAGGAGAATCTTGGGGCCAACAGGGGCCGAATCCAGATTCTGAATCCTAATATCCAAATCCTTAGGTCTAGGGCGTTACAATTTCAATTTGGCCTTTACCATATAAAATGCATTATATGTATGAATAAATGAAGTTTGCTGGTGAAATTTTAGGGGTAAAAAAAATAGTGTGGCGATGATCGGTAAGATTTCACCAAATTAAAAGAACCGAATTGATTTTTCTTAAATTATAGAGACTAAATGAGTAGTTCTAAACTATTTTTTTTCAGGTGGGAATTTGTTTCATACGGATTAGGGACTTCGATCTTTTGTTTTCTTTTAGATCAATTTTTGAGACAAAGAAGATGAATGTTTTCTCTCCAACCTCTTTTCCATACCTAACCCTAATTTTTTTTTGTACAAGCACAAACTGAGAACAAAATAGCTCAGAATATCATTTCCAACAAAAGCAATAATCCATGGAGAAAAATTACGTGCTCAAGACATTATAGGTCATCGATCTTCCATAGCCAATGTGGCAATACCATTAGCTACAACGTTGCAACCCTTCTCAACTTGAAGAAACTGAATCAATCGATTTTGTTAGAGTTTTTATTAAACTTATGGTTTTATTTATGTTATACATGAATACAACTAAGCATTTTAATTAAATTGATTTTTTTTTCTAACTTTTACATTTATAGCGTTCTTAAATTTGAATAAAAAATAAAAAAATTTAAATAGTTCAAAATTCAAATCTATGAAGTCAAAGATGGCAATTTGAATGAACATCATCTAACTTCACCCTATACCCTAATGGCATCCCTATTATGAACTATGTTCTATAAACATTGGTGTCGTTGCATTGCACGATCAAATAAATTAATTAACCTAAGAATTCTGTATAGATTTTTCCCAGTTTGGAGATTGACTATAATTTTATTACAACAAAAATAATAATAATAATAATAAGTGTCATGTTCCAAATAAATAAATGAAGCTTTTCTTTTTTTTTTTGGCCCTTTAGTTGAAAGGTACCCTTCGTTGGGAGGGCAAAAGACGACCCGTTTTCATGTGAGGGCCTTCAATGCTTTGTTCCAACTTTCCTATCGAAGAGGACACAGCCCCATTTTGTGTCACATTGTAGGACCATCACACCCAATCCCCACCGCTTCACATTTTCTTTTTAAGTTTTTAACTTCTCTCTCTCTTCTTTTTTTTTCTCTTTTAATTAATAAAATTCCACAAAAATCATTAATATAAGAACTACTTAATTTAGTTTCTTTAATTTTTTTTAACTAATCGTTGGTTTCAAATATTAATGATAGAGGTTGAAATATCATTTTGGTTCATGTATTTTGAATTTCATTTCATTTTATTTTAGTCAATGTAATGAATCTTTAAATTAGTTTTTAATGTTAATTTATTGTTAACTGTTCTGAAAGTGCATTAGTCTCTATTAATTTTCTCTTTATAAATTTTGAAAATAAATTTACATGGTGTCTTTTCATGCATAAAAATTATTATTATTATTATTATTATTTAATCAATTTTGATGATAATAAAAAAAAAACTTAAAACTAATCCTATGGACTAATTTTAAGATTTGTTAAAAATACAATTGACTAAATTTGAACATTTGAAAGTATGTGAAATAAAAGTAGAATTGACTAAATTTGAATATTTGAAAAGTAGATGAATCAAAACACTATTTTAACTTCAATAAAAAAAAATATATTCATCATTCTTTTCATAATTTTTTTTTTCCAAGCATTCATTATATTGATGATAAATTTGACTTCAGCTTTGTTGGACCCGATTGAATTACATTTTCAAGTGTTTTTTTATATTAAAAAAAAAATCGTTTACTGTGCTTTATATTTTGTAGAGTTTGTCAATCACTCAAAAAAAAAAACTTTTTAAAAAACAAGTTTGAGAAAATGAGTTATTTTGAGTAAAATATATTAAATCAAGTTTTAGAAAAACTATTTTTGGGTGTTTAATTTGGAATGGATCCTAAATTTTTATTTCATGATATTTAGAAATGACCAAAATACTTTCACACTATCCTCTTAAAAATATTTAAAATTGTACAAACCAAAACTTAACCCTAGGACTTGAGAAGGGTTGATGACAAATTAACCACTATGCCAGAAAGTTTATTTGTTAATTGATCTGACTTTTTCTATACGTATTATTAAAGGTAAAAGATTTGAGAGGGGGCTCGGACCCCTGGGCCCATGATAAATCCGCCCATGATTGTGGTTGATAATAGTCAGCAGAACCATATATAAGTATTTTAATTAATTCTAAACAGTATAAAAAATGCTTAAAAATATATCTTTTAAAAAAAATTTAAAGCCCATTTGATAATCAATTTTTATTTTTAGTTTTTTGAAAATTAAGCTAAAATACTACTCGCACCTTTGAATTTCTATGTTTTCTTATCTATTTATTGTCTATGTTTTAAAAAGCCAAACTAAGTTTTGAAAACTAAAAAAAATATTTTTCAAAAACTTATTTTTTTTAAATAAAATATCTAGAAACTCAAATGGTTACTCAAGACAAATGGAAAGCAAGAGAACATGAAATAGAAATTGTGAACAAAAATATAAAAAATAAGTAAGCATAAATTTCTAAAATAAAAAACTAAAAACTAAGGCCCCGTTTCATAACCATTTTGTTTTTTGTTTTTAGTTTTTGAAATTTAAACCTAAAAATACTACTTATACTAATGAGTTCTTATATCTTCTTATCTACTTTGTACCTATGTTTTCAAAAGTCAAGCTAACTTTTGAAAACTAAAAAAAGTAGTTTTAAAAAACTTGACTTTGTTTTTAGAATTTGGCTAAGAGTTCAAATGTTTACTTAAGAGAGATGATCTCTATTGTAGAGAAATTAAGTGAACATAAGCTTAACTTTCAAAAACTAAAAATAAAAAACAAAATGGTTATCAAACGGGTCTAAATCGTTATCAAATGGTGTCTAAATTAAAAAGTCATCCAAATGGATCTAATTGATTTATAAAAAAATATAACTATATGTCAGTTAAAAAAACTATATTTTTTGTTCTTCCCTCCTCAGATGACTATCTACGATAATTTTTTTAAAAAAATAACACTATTACAAATCACACTCATACATAATTATAACATATTCGTCATATTATCAAGCTCCGTATATCTTTATTCATTTCTTTCTTTTATAAAAATATTAAAAAATAAAATAAAATAAAATTTTAAAAAAAAAACTTTTTTTTATGATTCTCCCACTTAAGTACAACTATATCTCTTTAAATTATTGTTCTCCTATGATCACAATTTAATTTAACTTTTTTTCTATACATCACACATCAAGATAGTTAAAACAATAGTAATATATTAAAAGAAACTTGAGGATATTTCTCAACAATATATACACATCACAATTCACAATATAATTATTATAATTATGAACTCAAAAAGATAGTTATTATAATTATATTTTGTAATATAGTTTACTAGCTCTCACATTTTGTTTTAATTATTCTCGTATTTTCAAATTAATTATCTACTTCAATCTAAAGTAATCTAACTTTAAAGACGTGGATTTGAATTAATTATAACAAATCGACAAATCAAACTAATCATTATTTTTTAAGACTTTATAATAACTAAGAAACATGGCTCTCTTAGTCTTTAGTCATACCCACCAATTATATTATTAAGGAATGTAATGCAATTAATATCATTACCATGATAATGGCCCCTTTTTATGAACAATTTGGTTGCCATAATAATTGCTTCAAAAAAGAAAAAGTCAGTTTCATAATTGCTTAATCTATTTGATTTTGATATCTTGTATTTAATTTGTCGATATATGAAATATTGCAAATTGTATATTCGCTAATAAAAACTATGCATGTTTTCTTAATTTTTTTTTTTAAAAAAAAGAACTATTTTAATTGAAAGCAATAATAAAGTCTTCTTTCTAAAACTAAATCTAATCATTAAAAAATGTGAAAAATTCTCATATTAATTTAACTATTTTTACCCAAGTAAACAAAACTCATCCGTACTTAGCACACTACAAGAAATAAAGTCATTAGTGACGAAAAAATAGGTCGCTAAAGCTAAACTTTTGGTGCAAAAAGCTTTTAGAGACGAAAAACATTCCGTTGCAAAGAACGTCACTAATGCCCAGTCTTAGAAGCATATTAGCGACGAACATGATAGTTTCGTCACAATCTGCGACGAAACGTTAATTTTGTCGCAAGCATTGCGACGAACAAGCTGTTGCGTCGCATCCGACTATGCGACGGAATTGAAGGTTCGTCGCAGACCTTGGAGTCGCATTTTCATGCAACAAATATTAATTTCACCGCATGTTTGTGCAACAAATTGGACAATTTCATCGCATCTGTCCTTGCGACAAAAAAAGTTATATCGTCGCATGTATCTGCGACATTATTAAATTTTCGTTGCACTGAGCCATAAATTACCCACTTCTCTAGCCTAGTTAGCAATTATCTTTTCTGCAACGATATTGAGATTCGTCGCAAATATTTTTATTCAAATAAAAAAATTAGTTTATACCACACATTACTTCAAACTGATTGCATATATCAAATTTACCAAAGTTTATAAGAACAATTGTCATTACGATATCAGAAATCATCCAACACCAAATTATTACAAAACCTATACAAGTTTTAGATTGAATAATTGAAAAAGAGGACGATCATATCAAAAATACTATATCGCAAAAAAAAATATTGAAAAATAGAATGATCATACCAAACATAACAAATACTTCTATTTATAGAGTAAGTGCAAAGTTTTGACCTATTACAAAAAACAACTATATCACCCCAAAATGTTCATACCAAAATGATTGATAAGACGATGATGATATTCTATTGTCACTCAAACTCATCCAGTTTAATCCTGCACATAAACAACAAACATACATAAGAAGAGATTAAAATCATCATAACTCATCATTTCCTAAATCATCCCCATCCAAAACCACTAAATCCTCTCCGCCACTAATGAAAAACACATGAATATGATGAAAATTTTCGAACTCTAAACATTAACTCTTCTTTCTACTCTAAAACATATTGAACATGATTTTGTGAAGAAACTCACGTTGTGTACGGATTAACAAACAACATAACATACTTTGTACTTCTATATAATCAGAATCAAGAAACAGGAGCACAACTACTAATTTATAACAAAGTCTCAAACGAACTCAGAATTCCAAGAATTATTGAATAAGAATCTAGATAAACAGGAACACAACTACTAATCTCGAACAAAGTCTCAAGCAAACTCAGAATTTCAAGAACTATTGAATAAGAATCCAAAAACAGGAACACAACTTTTAATCTCTAACAAAGTCTCAAACAAACCCAGAATTCCAAAAACTATTAAATAAGAATCAAGAAACAGAAACACAACTACTAATTTATAACAAAGTCTCAAACGAACTCAGAATTCCAAGAAGTATTGAATAAGAATCTAACTAAACAGGAACACAACTACTAATCTCGAACAAAGTCTCAGCGAACTCAGAATTTCAAGAACTATTGAATAAGAATCCAAAAAGAGGAACACAACTTTTAATCTCTAACAAAGTCTCAAAAAATCGAGAATTCTAAAAACTATTAAATAAGAATCAAGAAACATGAACACAACTACTATTTTATAACAAAGTCTCGAACGAACTTAGAATTCCAAGAACCATTGAATAAGAATATAGATAAACAGGAACACAACTACTAATCTCGAACCAAGTCTCAAGCGAACTCAGAATTTCAAGAACTATTGAATAAGAATCCAAAAACAGGAACACAACTTTTAATCTCGAACAAAGTCTCAAGCAAACTCTGAATTTCAAGAACTATTGAATAAGAATCCAAAAACAGGAACACAACTACTATTCTCGAACAAAGTTTCAAGCAAACTCATAATTCCAAAAACTATTGAATAAGAATCCAAAAATAGGAACACAACTACTAATGTATAACAAAGTCTCAAAGGAACTCAAAATTTCAAGAACTATTGAATAAGAATCTAGATAAACAGGAACACAACTACTAATCTCGAACAAAGTCTCAAGCAAACTCATAATTCCAAGAATTATCAAATGAAAGCAAAAGAACAGAGACAAAGAGAGGATATTAAAACTGTAAAAAAATACAAGAGAAAGAGAGAATAAGAAGCAATAAAAATGAAAGCAAAAAAATAAAAAATACCTGAACAATCGAACGAGAGAAGAAGAAGAAGCGAAGACAAAAGAGAGAAGAAGAAGAAGAGCAGTCGAACAGAGAGAAGAAGAGGAAGCGAAGAAGAAAGAGAGAGGAAGAAGAAAAGAATGAGTAGGCGGCCTGTTCGAGGGTCAGCGACGAACATTATAGGTCGTCGCAAAGCCGTATGCGACGAAATCCTATTTTCGACGCAAAGATATGTGACGAAATATCTAAGAAGTCGCAGACCATGCGACGCCAAAAAAACTCGTCGCCAGCTTCACTTTGCCAAAAACTCGTCATTATTAATGAGTATTCTTAACGAGGCGCTGCGACGAAACGTTTTTTAGTCGCAAGGATAGATGTGACGCTGCGACGAATATAAATGTGCGTCGCATACTGTGCGACAAAATAAATCTGTGTCCCTTATCTTGCGACGATCAAATCGTCATGTCGCTTAGCATGTGACGAAAGTTGTTCTTCGTCGCAAGACCTGCGGCGCTTTTGTTCTTTCGTCGCAAACTGTTCGATGAAAGTAATTTAGTCGCTAGCTTTTCATCGCTAAAACTACCGTTTTTTGTAGCATGCTTTGAATTAAAAGGTTAGAACTTTGCATCTCTCGCCACGAAATGTTATTGAATTTGAAATAAATAAAAAAAATATTTTATATAATTTATAAATAATAAGTTGAGCTAATATGTGGTATATAAATTTTCTTATATCGTATTGTTTGAACTTATAATCGCCTTATTCTTTTTCTACAACGGACTTAATGATTCATTTAGCAAAGTGATAGGGTCGATTTAGATTACTGGGAGAAAAGTGTTTTTCGTAAAATACATTTTCTTTTAAACATTTTTATAACAATAATTTAAAATGAAAATATGTATATGTTTTAGTTACATTATCTTAAAAGTGTTACAAAACTTGGTTTGATTTACTCTCCACTCAAAATATTTCTACAAGTATTAAAATTATTACAAAGAAACGATTATTAAATATTATGAACTAAGTGGTCAGCAGACGATGGTAATGGATGGCAATGAAAGTTGGCAGTTTGTCATCGGTGATGGTTGTCTAACGACCATGAAAAAAGTGAGGGTAGTGTGAGGATTTTCTGGTCATTTCATATATTATAAAAATTTAGAAGGAATACTCAATTAAATGCTTAAAAATATTTTTCTAGAACTTGAATTCGGTTTCGCTCAAAATAGCTTAGTTCTCAAACTTTTAAAAATGTGATTTTGAGTGGTTGACAAACACTACAAATCTTATGAAAATGCCATTTGTTTTTCAAAATTAAAACACTTGCACTTCGTTTGCTAATCATTTGGTTTTTAGTTTATAGAAATTAACTCAATAAATATTATTTCTACCTTTGTATTTCTTTGTTTTGTTATCTACTTTTTACATATGGTTTTAAAAATCAAGACAAGTTTTGAAAAATTTAAAAAAAAAAATTAAAATTGACTTTTATTTTTAAATATTGGCCAAAAAATTCAAATATTTTTCTTAGAAAAATGAAATTTGGTGTAGAAAATTAGTAGAAACAAACCTAATTTTCAAAAATAAAAAGATTGGCAAAGGAGTTATAGAAAATTTAATCCAAAACACAACCTCACATTTGTGATTTGTGACCTTTATTATGGATCAAATGACTTCAGCTATATTTGAAAGTAACCAGATTCGAACAAATGATCTTTTAGTGATTAGTCTATATCATATGTCAGTTGAAATATATTTTTATTTTCCACTCGTGCAATACTTAATTTATAGAGAAATAATTTATATATAAAAATAACTAAAGTTTACAGTTAGAGAGACCAATTTTTTTATTAAAAAAACAAATAAATAAAATGATGATCAATGATATGATACGGTCATAAAAACAATAATTTAGGCAATCATATCCATTGATCTCAATCATAATACAAAATCTGATGGCGCATAAAAAAGAGGTATTAATAAAAATAATATATTAATATTAAAGCCGACACACAGAAATTAAGGTTAAAAAGGTGTGGCTGGCCCACTGACAACTCAGTAGAGAGGTGGAAAATTGACAAGAGGGCACGTGATGTGATGTGGTTGGGACCCACTTTGAAACCCTCTTTATTTGCATTAACTGCCCTCCATATTTCTGAGCTTCTAGTAAAATTTTGGTTAAAATTCCTGTTTTTCTTTTGCTTCATTTTAGTCTTCAATTTTTTAGGTGTTGTTTGATTTTCTATTTTTTTGTTTTTAAAGATTAAGATCAAAAATATTACTTCCATTACTACGTTTTTATGTTTTTTTATCTATTTGTACTAATATTTTCAAATATCAAGTTATGTTTTGAAAACTAGAACATCGTTTCATAATTATTTTATTTTTTATTTTTTATTTTTAAAAATTAAACCTAAAAATATTATTTGTACCAATAGATTTCTATTTTTTCTTATCTATTTTGTACCTATGTTTTAAAAAACTAAGCTAAATTTTGAAAACTAAAGAAAATAGTTTCCAAAAACTTGATTTTATTTTTAGAATTTGGCTAAGATTTCAAATGTTTCCTTTAAGGGAAATGAACCCTAATGTACAGAAATTGGGAGAAGACAAGCTTAATTTTCACAAAATGATTATCAAACGGGGTAGTTTTCAATTTTTTTTTTTTTTGTTTTTGAAATTTGGCTAGAAACTTAAATAGTACCTCAAGAAAAATGAAAATCATCGTAGAGACGATGAAGAGAAATTATGGAAAAACAAGCATAATTTTAAAAAATCAAATGTGTACAAATGTGGTCTTAATTTTTTGTTTTTGATTTTTGAAAATTAAGTTTGTTTTCTTCCAACTTCTCTACAATGATGTTCATCTCTCTCAAAGAAATATATGGATGTATAGCGACATTTAAAAAACAAAAGCAAGTTTTTAGAAACTATTTTTTTAAGTTTTCAAAAACTTGTTTTTGTTTTTAGAATTTAGTTAGGTATCCAAATATTTCTTTGAGAGAGATGAAAACCAACATAGAGAATTTTTGTTTTAAAAAATCAAATGGTTATCAAATAGGACCTTAATTTTTTATTTTGAAAAAATTAAGCTTAAAAATACTACTTCTATCCATAGTTTTTTATGTTTTCTTATCTACTTTGTACCTATGTTTTTAAAAACCAATCTAAATTTTGAAAACTAAAAAGAAAATTATTTTCTAAAACTTATTTTTGTTTTTTAAATTTGACTAGAAACTTAAATGGCAACTTAAGAAATATGAAATCATTGTAAAGGAGATGAATAGAAATTGTCAAAAAAACAAACATAATTTTTAAAAATCAAATAGTTATCAAATGGGATCTTCATGATCTAAATTTAATTTATATATTTTTAATAAAATTTAAAATTAGACTTTGTTATTATCTTGAATTAATTTTTATTGAAATTAATTAAAAAATAATAATAATTTTCGTAATATCTTTTTTTAAAATTTATAGAAGAATGACTAATACATACTAGTTTTTTGAAAAAATAAAATTAGTTTTATTAGAAGTGTATGGACTAAGATGGATTAGAATTTAAAATATTGAGACAAATGGTAATACCTAACAAATGTATTACATTGCAATATTGCATGCAAAGGGGTGTTGGAATATACATCAATTTTTTCCGAATGTCGAGAGTTTTTATATTTAAAAGATTGGCAAATACTTATCAACTTTCTATTTTAAAATGTTGGAAAAATATTGCTACTTTGTTGTGTATAAAATTGAGTAACACAAACAAATTTATTACAACTTAACTGGCTACAAACTATTACAATAGTAAGTAAAATTGTGCAAATATTATATATAGCAACAAATCAAAACTCAAGAACAAAGGATATGTTAAATAGTCGAGGCACGCTTACTAAGCGTTGTCTTGAAGACAATTATTCGCTCTGCACGAGTTGCAAGCAAATTATAGTAATCGTCTTGTTGGAAAAATATTGCTACTTTGTTGTGTATAAAACGAAGTAACACTAGCAAATTAACTTAACTGGCTACAAGCTATTACAATAGTAAATAATTGTGCAAATATTGTATGTAACAACAAATAATCAAAACTCAAGAACAAAGGATAGTAAATAGTCGAGGCACGCTTACTAAGCGTTGTCCTGAAGACAATTATTCGCTTTGCACAGGTTGCAAGCAAACTACCGTGATCGTCTCAACAGGATACAACGACTGGCTCTGATAGAACGACAACCTCGAACTACTCGGATCTGGGAGAACTCTTGAATACTTGCTCTCAACTTGACTCATGATCAAAGAGAAGAAAGAAAAGAGAGATGAACTCTTCAATTGGAATGAGGATACTCCAAAATGGAATGAGATGCTCTAAATGAAGAAACAAGTTGCTATTTATAGGCTAGCAACTTAGTAGCTCTCTAAAATCAAATTAATATGAAGAATGTAAAACATACATCAAAAGTAACTCAATTGTGTAGTTACTTGTTGAAATTCAAACAAAACTCACAAACTTAACTTTTTAAGTTAAATTTGTATAAGAAACATCAACACATTTGGATGTTTCAAACCATTTTGAAACTTTTGAATTTAAAGTTAAATAACGTCAACATCAATTGGATTTTGATGTTTCAAAAGAACACTTTCTTTCACATTTTTTTCTATAAAATCCAACAAAAAATACTTGTATTCTTTTAAAAAGTTATAATATTATTCTTAATATTTCATAAATATTTCCACGACATTATTAGAGTAGAAATTCATTAGAATATTAGCCCAGATTGGTATAAGTTATATTAAAAAAAATACCCTAAAACTTTGTGATTTTGTTTTTAAAAAATATTTGCATTCTTTTAAAAGTTGTAATACTACGATTGACCTCTCATAATTATTTTTCAGGCTTTCATCATAATCTTATTGGACCAAAAATCGATGAAGCGGTGACACGAAACGACGTGTCAATGACTAAACGCTTGTTTTGATTAATTAAGTCTAAAACAACGACATTTAGACATGTTGATGGTTTGTCTAATATTCTAACGATATTTCTATCTCAGAGATTGTTTATTGAAACATTTATGAAAGATGAAGGGCAATATTGCAACTATGATTTAGCTTAAAGTTCAGAAGTTGTTTTTTTTTTTTTTTTAATTTAGCCTAAAGGATTTCTAGAAGGTTTATAATGTCTTTCAAATTTGAAAATCATATTTATTTAGTCTTACACTCTAAAAAAGTGTTCAATATGTCTTTGAATTTTTTAACTTATAACTAAATCTCTAATGTGTTGAGGATCCCATATTAGAAGAGTTGAAAGAAACATCACAATATATATGATATATGAGTTACTCTTCTCATTGTCAATTGGTTTTGAGATGAAACCTCATATAATCTAATATAATGGTCACTTCTTTGTTAGTTTAATACTCAAATCATCGTCAACAATGACATAGCTCAACTGACATGAAGTAAAACTAAAATTGTAATCTTTAAATTAAGAGAGTATAAAAACTAACATAAGCATATGCCTTGTTTAAAAAACAGTGAAAAAACAATAAAAGAGGGCAAAAAAGTGCTGTTAGAGGCAATGATATCTCTAGGCCCCTTTCAAATACAAAAAAGCTAATCAAAGCCAAGCTCTTTACAAATCTAACTTGAAGGATTTGAAGATCCCACACAAAAGCAATTTAAGGGATATGCACCAAATCTTGTGTTTTCATAAGGGCCCATATATCTATCAATTGCTAGATATTTTTTTTTAATTTAATTTAACTAGAAGATGATTGTTGATAAAGTTAACATGAAGCTCATAAAAATCAATCATTGTTATTCCTTGAAAGCAGCTAAAATACACTTTACCGAAGTGTGATTATATATATATATATATACTATTGTTAATTAAAATGATTTTAAATCTCACTTAAATTATAAGTTTAAGTTTAGTATGTGAATAACTTTCAAGGTTGTGTCGACTAAAAATTCTCTAAACTGTAAAAAATGTCTAATAGATCTTTGAATTTCAAGTGTGTCTAATATGTCCCCAAACTTTAAAAATGTCTAAAAAGTCTAGAACTTTCTATTTTGTGTCTAATAAAACTATGACATGTTTTGAATTTTTAAGAAATTAATGGATGTATTAAATATAAAATTAAATTTTATGTCTAGTGAGATCCTAATTTCAAATTTGTATCAATAGTCCATGAATTTTAATTTTAGAAAATGTCGAGTAGACTAAAGACATATTAGACAAAGAAATTGAAAGTTTAAAGATATGGAAAATTTTATAGAAGTTTTTCCATACTATCTCATTAAATGTTTGCCACGTCAAGATCTTTTTGAAAATTATGTGGGATCCACTAAAAATTATGTGAGATTCACTCAGGGGTGGATTTAGTTAAGCTCCCTTCAATTTTTTTACTTTCTATAATATGTATAGGAAAAGTCAGATCAAATCACATAAAAGTCTTTTGACATAGTGGTTAGTATGTTTCCAACCCCCCTTCAAGTCTCACTTTAAGCTCTAGTCTGTACAATTTATTGTGGATCCACCACTGGATCTACTAGTATTAAAAAATTAAAAAATATAGTGTGAACAAATGGAGTATGGTACTTCGATAGTACTAAAAAAATTTCCATGTTAAGCACTTTAAGAACCGAGTAGTGTAGAAGCAAGCTTTTAAGGATAAAAATTGTAGCTTAATCTTTAATCCATGGTGTTTTAAAAGTTATATTGGACTATTATAATTTAGGATTATATAATGCTAGTCCATTTATACTTTCATATGTTTCCAGACTTTCCTAAATTCTCTTTCTTCGTCTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTGGTCAAAATTTTAGTATGTATTCAATGAAAACTACGAATCTAATACCATATTTAATATGTGGTTCCTTACATAAGCCTGCATGATATCACACAATTTTTTCGCTGAACAAATAGGACTTTGAGAATTTATAGTAAATAAGGGCAAAAAAGGCTATATAAAGTTTAATGGACAAAATGAAAATATTTGATAATACAAGTACTAAAATGAAAGCGCTCAAAGAAATATTAAATTGAAATAAATAGTTTGTTATGAAATTTTCAATATTTTTCAATTTAGTTTTTGAATTTTTAAAGTATCTATTTAAAATTAAAAAAGAGAATGCATATTTTGATTATTGCTATTGATTTACCCTCTAATATATGCTTGTCTAATATTCTCTCAATCAACCTGTTGAGTTTTAATAAATACTTATATCACCATATTAATTCTCGTAGTCGAAACTATAATTAAAAGCAAAATAGAGACGACCACCCAAATGATTAATTTGAAAAGTTTAAAAATTAAAATAGATATTTTCTTTCAGGAAAAAAATAATAATAATTTTAATAGTTCAAAGGTATAAAATAATAATAATTTGGAAAGTTCAAAGGTATTAAATGAACTTCCGATCAAAGTAGGCTTAACTTGCGATAATTAACATGTATTCTCAACCAAAAGGTCATAGTTTCAAATATTCTACTAAAATGTTGTCGAACTCAACAAAAAAAAATGTGTGTATATACATATATATCGTGAGATCCACTATTGAAAAGATGTGGCAATTGGTACATTATCCGATAAGCTAGGTTCGAATTCACTTATTTTAAAAAAAAATAATTTAATTTTTTAATTCAATTTTCAAAATGGTAATTAGTATTTTGATCCAATTCAAGCTTGCTTCCATTGGGCAAATGAGATTTAAATTAAACCATTATTATTTATAGTAAATAAGAAAATATAGTTACATCCTGTTCCAAAGACAATAAAGTAAATATTAAATCAAATATTTATAAACAAAAAAATTGGAATCAGCTTTCTTCCAATTGTAGGGGCTGTTTGGGACGGTTGGTTGGTGGGTTATAATAAGAGAGTTATAATATCTGAAATTATATAATATTATTTAAAATGTAGAGGTATAATCTGTATTTTGAGGGTAGGATATATCACATATTATAATAAAATACATGCCCCAAACAGCCATTAAATTCAAGTTTCTGCATGTGACACAAACACCAAACCTGTAATTATCGTCTTCACCAGGGCTATTTTCGTAAATTCACCCCCTGCATTGAAACCAAACTGCCACAATCCCACTTTCCCTCCTTCCTCCTTCTCCTACATAACAATGGCAGATCTTACAGACTCACCACAAACACTTCACAGAGTTAAGAATGTTGTTGAGAATCTTACCTGTCGTCTTCTTCCTCTTCGCCACCGTCGATGCTTGCTCGCCGTCGGACAGGGCGGCGCTGCTTGCATTCAAGGCGGCGTTGAAGGAGCCGTACTTAGGAATCTTCAATTCCTGGACTGGAAATTCCTGCTGCGGCGGATGGTACGGCGTCAGCTGTGATCCTGAAACTCTCAAGGTCACTGACATAAGCCTCCGCGGCGAGTCGGAGGATCCGATCTTCGAGAAGGCCGGCCGTACCGGCTACATGACCGGTTTGATTTCGCAGGAGATTTGCAAGCTTGATAGGCTCACGATCCTCGTCATTGCCGATTGGAAAGGAATCTCCGGTGAAATTCCGAAATGCTTGACGAAACTCAACCATCTCCGAGTTCTCGACCTCGTCGGAAACAAAATCAGCGGCGAGATTCCTTCGGACATCGGAAACCTAAACCGCCTCACCGTACTCAACCTCGCCGAAAATGCAATTTCCGGTACCATACCTGCGTCGATCGTGAACCTCGCCGGTCTAAAGCATCTGGATCTCCGAAACAATCAAATCACAGGAGAAATTCCGTCGGATTTCGGGAAATTAGGAATGCTGAGCCGAGCACTCCTCAGCCGCAACCGAATCACCGGAGCGATTCCGTCTTCGATAACGAAAATGTACCGCCTCGCGGATTTGGATTTGTCGATGAACGGAATCTCCGGCTTCATTCCTTTGAACATCGGCAACATGCCGGTTCTGTCAACGCTGAATCTCGACAGCAACAGAATCTCCGGACAAATACCTCCAACTCTGATTAGCAATGGCGGGTTAGGGATTCTGAATTTGAGCCGTAACGCTCTAGAAGGTCACATTCCTGACGTTTTTTGCACTGATTCGTACTTCATGGCGCTCGACTTGTCGTTCAACGCTCTCAAAGGTCCGATACCAAATTCATTATCGTCCGCCAAATACGTTGGCCATTTGGATCTCAGCCATAACCATCTTTGCGGGTCGATACCCATCGGGTCGCCCTTTGACCACCTCGAAGCGTCGTCGTTTACCAACAATGATTGCCTCTGCGGGAACCCCTTGAGAACCTGTTGA

mRNA sequence

ATGGTGGCGAAGGCAGACGCTAATAGGACAAAAGGGATTCTATTGTACGCCAAGCGCAACAGATTTAGACAAGGCTTTGAGAGAGGGACGATGATGAGGGGAATTGGGGACCCCCTCAGCCATGGTTGGGCAACCATTGATGGAGCTGAGAGGTTGAATTTGAACGACAGTGAAGTTTTGAAAAGGTTCCCCAAAATTCTATCAATGCCTTTGTCGGCTAAGGCTGCTGAGATCATTCTGAGTTCATTTTACACCACTTTCATACCGCCGGAGTGGCAGGACACCACAACCAAGCTTGGGTTGGCAGCGATGAGGCCTGGTGTTCTCGACCTCGTCGGAAACAAAATCAGCGGCGAGATTCCTTCGGACATCGGAAACCTAAACCGCCTCACCGTACTCAACCTCGCCGAAAATGCAATTTCCGGTACCATACCTGCGTCGATCGTGAACCTCGCCGGTCTAAAGCATCTGGATCTCCGAAACAATCAAATCACAGGAGAAATTCCGTCGGATTTCGGGAAATTAGGAATGCTGAGCCGAGCACTCCTCAGCCGCAACCGAATCACCGGAGCGATTCCGTCTTCGATAACGAAAATGTACCGCCTCGCGGATTTGGATTTGTCGATGAACGGAATCTCCGGCTTCATTCCTTTGAACATCGGCAACATGCCGGTTCTGTCAACGCTGAATCTCGACAGCAACAGAATCTCCGGACAAATACCTCCAACTCTGATTAGCAATGGCGGGTTAGGGATTCTGAATTTGAGCCGTAACGCTCTAGAAGGTCACATTCCTGACGTTTTTTGCACTGATTCGTACTTCATGGCGCTCGACTTGTCGTTCAACGCTCTCAAAGGTCCGATACCAAATTCATTATCGTCCGCCAAATACGTTGGCCATTTGGATCTCAGCCATAACCATCTTTGCGGGTCGATACCCATCGGGTCGCCCTTTGACCACCTCGAAGCGTCGTCGTTTACCAACAATGATTGCCTCTGCGGGAACCCCTTGAGAACCTGTTGA

Coding sequence (CDS)

ATGGTGGCGAAGGCAGACGCTAATAGGACAAAAGGGATTCTATTGTACGCCAAGCGCAACAGATTTAGACAAGGCTTTGAGAGAGGGACGATGATGAGGGGAATTGGGGACCCCCTCAGCCATGGTTGGGCAACCATTGATGGAGCTGAGAGGTTGAATTTGAACGACAGTGAAGTTTTGAAAAGGTTCCCCAAAATTCTATCAATGCCTTTGTCGGCTAAGGCTGCTGAGATCATTCTGAGTTCATTTTACACCACTTTCATACCGCCGGAGTGGCAGGACACCACAACCAAGCTTGGGTTGGCAGCGATGAGGCCTGGTGTTCTCGACCTCGTCGGAAACAAAATCAGCGGCGAGATTCCTTCGGACATCGGAAACCTAAACCGCCTCACCGTACTCAACCTCGCCGAAAATGCAATTTCCGGTACCATACCTGCGTCGATCGTGAACCTCGCCGGTCTAAAGCATCTGGATCTCCGAAACAATCAAATCACAGGAGAAATTCCGTCGGATTTCGGGAAATTAGGAATGCTGAGCCGAGCACTCCTCAGCCGCAACCGAATCACCGGAGCGATTCCGTCTTCGATAACGAAAATGTACCGCCTCGCGGATTTGGATTTGTCGATGAACGGAATCTCCGGCTTCATTCCTTTGAACATCGGCAACATGCCGGTTCTGTCAACGCTGAATCTCGACAGCAACAGAATCTCCGGACAAATACCTCCAACTCTGATTAGCAATGGCGGGTTAGGGATTCTGAATTTGAGCCGTAACGCTCTAGAAGGTCACATTCCTGACGTTTTTTGCACTGATTCGTACTTCATGGCGCTCGACTTGTCGTTCAACGCTCTCAAAGGTCCGATACCAAATTCATTATCGTCCGCCAAATACGTTGGCCATTTGGATCTCAGCCATAACCATCTTTGCGGGTCGATACCCATCGGGTCGCCCTTTGACCACCTCGAAGCGTCGTCGTTTACCAACAATGATTGCCTCTGCGGGAACCCCTTGAGAACCTGTTGA

Protein sequence

MVAKADANRTKGILLYAKRNRFRQGFERGTMMRGIGDPLSHGWATIDGAERLNLNDSEVLKRFPKILSMPLSAKAAEIILSSFYTTFIPPEWQDTTTKLGLAAMRPGVLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEIPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLSTLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGPIPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC

Homology

[Close]

BLAST of Tan0007927 vs. ExPASy Swiss-Prot
Match: Q00874 (DNA damage-repair/toleration protein DRT100 OS=Arabidopsis thaliana OX=3702 GN=DRT100 PE=2 SV=2)

HSP 1 Score: 309.3 bits (791), Expect = 5.4e-83
Identity = 158/260 (60.77%), Postives = 197/260 (75.77%), Query Frame = 0


Query: 85  TTFIPPEWQDTTTKL-----GLAAMRPGVLDLVGNKISGEIPSDIGNLNRLTVLNLAENA 144
           T+ +  +W+  T ++      LA++R  +LDL GNKI+GEIP++IG L++L VLNLAEN 
Sbjct: 113 TSLVLADWKGITGEIPPCITSLASLR--ILDLAGNKITGEIPAEIGKLSKLAVLNLAENQ 172

Query: 145 ISGTIPASIVNLAGLKHLDLRNNQITGEIPSDFGKLGMLSRALLSRNRITGAIPSSITKM 204
           +SG IPAS+ +L  LKHL+L  N ITG IP+DFG L MLSR LL RN +TG+IP SI+ M
Sbjct: 173 MSGEIPASLTSLIELKHLELTENGITGVIPADFGSLKMLSRVLLGRNELTGSIPESISGM 232

Query: 205 YRLADLDLSMNGISGFIPLNIGNMPVLSTLNLDSNRISGQIPPTLISNGGLGILNLSRNA 264
            RLADLDLS N I G IP  +GNM VLS LNLD N ++G IP +L+SN GL + NLSRNA
Sbjct: 233 ERLADLDLSKNHIEGPIPEWMGNMKVLSLLNLDCNSLTGPIPGSLLSNSGLDVANLSRNA 292

Query: 265 LEGHIPDVFCTDSYFMALDLSFNALKGPIPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFD 324
           LEG IPDVF + +Y ++LDLS N+L G IP+SLSSAK+VGHLD+SHN LCG IP G PFD
Sbjct: 293 LEGTIPDVFGSKTYLVSLDLSHNSLSGRIPDSLSSAKFVGHLDISHNKLCGRIPTGFPFD 352

Query: 325 HLEASSFTNNDCLCGNPLRT 340
           HLEA+SF++N CLCG PL T
Sbjct: 353 HLEATSFSDNQCLCGGPLTT 370

[Close]

BLAST of Tan0007927 vs. ExPASy Swiss-Prot
Match: Q9FIZ3 (LRR receptor-like serine/threonine-protein kinase GSO2 OS=Arabidopsis thaliana OX=3702 GN=GSO2 PE=1 SV=2)

HSP 1 Score: 159.8 bits (403), Expect = 5.3e-38
Identity = 91/255 (35.69%), Postives = 136/255 (53.33%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           L L  N+ +G IP   G ++ L++L+++ N++SG IP  +     L H+DL NN ++G I
Sbjct: 605 LRLGKNQFTGRIPRTFGKISELSLLDISRNSLSGIIPVELGLCKKLTHIDLNNNYLSGVI 664

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           P+  GKL +L    LS N+  G++P+ I  +  +  L L  N ++G IP  IGN+  L+ 
Sbjct: 665 PTWLGKLPLLGELKLSSNKFVGSLPTEIFSLTNILTLFLDGNSLNGSIPQEIGNLQALNA 724

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIP-DVFCTDSYFMALDLSFNALKGP 288
           LNL+ N++SG +P T+     L  L LSRNAL G IP ++        ALDLS+N   G 
Sbjct: 725 LNLEENQLSGPLPSTIGKLSKLFELRLSRNALTGEIPVEIGQLQDLQSALDLSYNNFTGR 784

Query: 289 IPNSLSSAKYVGHLDLSHNHLCGSIP----------------------IGSPFDHLEASS 341
           IP+++S+   +  LDLSHN L G +P                      +   F   +A +
Sbjct: 785 IPSTISTLPKLESLDLSHNQLVGEVPGQIGDMKSLGYLNLSYNNLEGKLKKQFSRWQADA 844

[Close]

BLAST of Tan0007927 vs. ExPASy Swiss-Prot
Match: C0LGQ5 (LRR receptor-like serine/threonine-protein kinase GSO1 OS=Arabidopsis thaliana OX=3702 GN=GSO1 PE=1 SV=1)

HSP 1 Score: 157.5 bits (397), Expect = 2.6e-37
Identity = 91/255 (35.69%), Postives = 133/255 (52.16%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           L L  N+++G+IP  +G +  L++L+++ NA++GTIP  +V    L H+DL NN ++G I
Sbjct: 604 LRLGKNQLTGKIPWTLGKIRELSLLDMSSNALTGTIPLQLVLCKKLTHIDLNNNFLSGPI 663

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           P   GKL  L    LS N+   ++P+ +    +L  L L  N ++G IP  IGN+  L+ 
Sbjct: 664 PPWLGKLSQLGELKLSSNQFVESLPTELFNCTKLLVLSLDGNSLNGSIPQEIGNLGALNV 723

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIP-DVFCTDSYFMALDLSFNALKGP 288
           LNLD N+ SG +P  +     L  L LSRN+L G IP ++        ALDLS+N   G 
Sbjct: 724 LNLDKNQFSGSLPQAMGKLSKLYELRLSRNSLTGEIPVEIGQLQDLQSALDLSYNNFTGD 783

Query: 289 IPNSLSSAKYVGHLDLSHNHLCGSIP----------------------IGSPFDHLEASS 341
           IP+++ +   +  LDLSHN L G +P                      +   F    A S
Sbjct: 784 IPSTIGTLSKLETLDLSHNQLTGEVPGSVGDMKSLGYLNVSFNNLGGKLKKQFSRWPADS 843

[Close]

BLAST of Tan0007927 vs. ExPASy Swiss-Prot
Match: Q9FL28 (LRR receptor-like serine/threonine-protein kinase FLS2 OS=Arabidopsis thaliana OX=3702 GN=FLS2 PE=1 SV=1)

HSP 1 Score: 152.5 bits (384), Expect = 8.4e-36
Identity = 93/240 (38.75%), Postives = 133/240 (55.42%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDL  NK SG+IP+    L  LT L+L  N  +G+IPAS+ +L+ L   D+ +N +TG 
Sbjct: 555 VLDLSNNKFSGQIPALFSKLESLTYLSLQGNKFNGSIPASLKSLSLLNTFDISDNLLTGT 614

Query: 168 IPSDFGKLGMLSRALL----SRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNM 227
           IP +   L  L    L    S N +TG IP  + K+  + ++DLS N  SG IP ++   
Sbjct: 615 IPGEL--LASLKNMQLYLNFSNNLLTGTIPKELGKLEMVQEIDLSNNLFSGSIPRSLQAC 674

Query: 228 PVLSTLNLDSNRISGQIPPTLISNGGLGI-LNLSRNALEGHIPDVFCTDSYFMALDLSFN 287
             + TL+   N +SG IP  +     + I LNLSRN+  G IP  F   ++ ++LDLS N
Sbjct: 675 KNVFTLDFSQNNLSGHIPDEVFQGMDMIISLNLSRNSFSGEIPQSFGNMTHLVSLDLSSN 734

Query: 288 ALKGPIPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGN--PLRTC 341
            L G IP SL++   + HL L+ N+L G +P    F ++ AS    N  LCG+  PL+ C
Sbjct: 735 NLTGEIPESLANLSTLKHLKLASNNLKGHVPESGVFKNINASDLMGNTDLCGSKKPLKPC 792

[Close]

BLAST of Tan0007927 vs. ExPASy Swiss-Prot
Match: Q5Z9N5 (Leucine-rich repeat receptor-like kinase protein FLORAL ORGAN NUMBER1 OS=Oryza sativa subsp. japonica OX=39947 GN=FON1 PE=1 SV=1)

HSP 1 Score: 152.1 bits (383), Expect = 1.1e-35
Identity = 89/238 (37.39%), Postives = 128/238 (53.78%), Query Frame = 0


Query: 102 AAMRPGVLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRN 161
           A  R  +L L+ N + G IP  +G+   LT + LA+N ++G +PA + NL     ++L +
Sbjct: 387 AGRRLEMLVLMENGLFGPIPDSLGDCKTLTRVRLAKNFLTGPVPAGLFNLPQANMVELTD 446

Query: 162 NQITGEIPSDFG--KLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLN 221
           N +TGE+P   G  K+GML   LL  N I G IP +I  +  L  L L  N  SG +P  
Sbjct: 447 NLLTGELPDVIGGDKIGML---LLGNNGIGGRIPPAIGNLPALQTLSLESNNFSGALPPE 506

Query: 222 IGNMPVLSTLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDL 281
           IGN+  LS LN+  N ++G IP  LI    L  ++LSRN   G IP+   +      L++
Sbjct: 507 IGNLKNLSRLNVSGNALTGAIPDELIRCASLAAVDLSRNGFSGEIPESITSLKILCTLNV 566

Query: 282 SFNALKGPIPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPL 338
           S N L G +P  +S+   +  LD+S+N L G +P+   F     SSF  N  LCG P+
Sbjct: 567 SRNRLTGELPPEMSNMTSLTTLDVSYNSLSGPVPMQGQFLVFNESSFVGNPGLCGGPV 621

[Close]

BLAST of Tan0007927 vs. NCBI nr
Match: XP_023525975.1 (DNA damage-repair/toleration protein DRT100-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 451.1 bits (1159), Expect = 8.8e-123
Identity = 221/233 (94.85%), Postives = 227/233 (97.42%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP DIGNLN+LTVLN+A+NAISGTIPASIVN+  LKHLDLRNNQITGE
Sbjct: 130 VLDLVGNKISGEIPKDIGNLNKLTVLNIADNAISGTIPASIVNIGSLKHLDLRNNQITGE 189

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 190 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 249

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP
Sbjct: 250 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 309

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 310 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 362

[Close]

BLAST of Tan0007927 vs. NCBI nr
Match: KAG6606870.1 (DNA damage-repair/toleration protein, partial [Cucurbita argyrosperma subsp. sororia] >KAG7036576.1 DNA damage-repair/toleration protein, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 449.5 bits (1155), Expect = 2.5e-122
Identity = 220/233 (94.42%), Postives = 227/233 (97.42%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP+DIGNLN+LTVLN+A+NAISG IPASIVN+  LKHLDLRNNQITGE
Sbjct: 130 VLDLVGNKISGEIPNDIGNLNKLTVLNIADNAISGAIPASIVNIGSLKHLDLRNNQITGE 189

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 190 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 249

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP
Sbjct: 250 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 309

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 310 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 362

[Close]

BLAST of Tan0007927 vs. NCBI nr
Match: XP_022949518.1 (DNA damage-repair/toleration protein DRT100-like [Cucurbita moschata])

HSP 1 Score: 449.1 bits (1154), Expect = 3.3e-122
Identity = 220/233 (94.42%), Postives = 226/233 (97.00%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP DIGNLN+LTVLN+A+NAISG IPASIVN+  LKHLDLRNNQITGE
Sbjct: 130 VLDLVGNKISGEIPKDIGNLNKLTVLNIADNAISGAIPASIVNIGSLKHLDLRNNQITGE 189

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 190 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 249

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP
Sbjct: 250 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 309

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 310 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 362

[Close]

BLAST of Tan0007927 vs. NCBI nr
Match: XP_022998435.1 (DNA damage-repair/toleration protein DRT100-like [Cucurbita maxima])

HSP 1 Score: 449.1 bits (1154), Expect = 3.3e-122
Identity = 220/233 (94.42%), Postives = 226/233 (97.00%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP DIGNLN+LTVLN+A+NAISGTIPASIVN+  LKHLDLRNNQITGE
Sbjct: 166 VLDLVGNKISGEIPKDIGNLNKLTVLNIADNAISGTIPASIVNIGSLKHLDLRNNQITGE 225

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 226 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 285

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFC DSYFMALDLSFNALKGP
Sbjct: 286 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCADSYFMALDLSFNALKGP 345

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 346 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 398

[Close]

BLAST of Tan0007927 vs. NCBI nr
Match: XP_022152551.1 (DNA damage-repair/toleration protein DRT100-like [Momordica charantia])

HSP 1 Score: 447.6 bits (1150), Expect = 9.7e-122
Identity = 218/233 (93.56%), Postives = 227/233 (97.42%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISG+IPSDIGNLNRLTVLNLAENAISGTIPASIVN+AGL HLD RNNQI+GE
Sbjct: 132 VLDLVGNKISGQIPSDIGNLNRLTVLNLAENAISGTIPASIVNIAGLMHLDFRNNQISGE 191

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALLSRN++TG IP+SITKMYRLADLDLSMNGISG+IP N+GNMPVLS
Sbjct: 192 IPSDFGKLGMLSRALLSRNQLTGEIPASITKMYRLADLDLSMNGISGYIPANLGNMPVLS 251

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRN LEGHIPDVFC DSYFMALDLSFNALKGP
Sbjct: 252 TLNLDSNRISGQIPPTLISNGGLGILNLSRNTLEGHIPDVFCPDSYFMALDLSFNALKGP 311

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGH+DLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 312 IPNSLSSAKYVGHMDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 364

[Close]

BLAST of Tan0007927 vs. ExPASy TrEMBL
Match: A0A6J1KCI1 (DNA damage-repair/toleration protein DRT100-like OS=Cucurbita maxima OX=3661 GN=LOC111493071 PE=4 SV=1)

HSP 1 Score: 449.1 bits (1154), Expect = 1.6e-122
Identity = 220/233 (94.42%), Postives = 226/233 (97.00%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP DIGNLN+LTVLN+A+NAISGTIPASIVN+  LKHLDLRNNQITGE
Sbjct: 166 VLDLVGNKISGEIPKDIGNLNKLTVLNIADNAISGTIPASIVNIGSLKHLDLRNNQITGE 225

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 226 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 285

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFC DSYFMALDLSFNALKGP
Sbjct: 286 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCADSYFMALDLSFNALKGP 345

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 346 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 398

[Close]

BLAST of Tan0007927 vs. ExPASy TrEMBL
Match: A0A6J1GCB0 (DNA damage-repair/toleration protein DRT100-like OS=Cucurbita moschata OX=3662 GN=LOC111452846 PE=4 SV=1)

HSP 1 Score: 449.1 bits (1154), Expect = 1.6e-122
Identity = 220/233 (94.42%), Postives = 226/233 (97.00%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIP DIGNLN+LTVLN+A+NAISG IPASIVN+  LKHLDLRNNQITGE
Sbjct: 130 VLDLVGNKISGEIPKDIGNLNKLTVLNIADNAISGAIPASIVNIGSLKHLDLRNNQITGE 189

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALL RN+ITGAIPSS+TKMYRLADLDLSMNGISG IP NIGNMPVLS
Sbjct: 190 IPSDFGKLGMLSRALLGRNQITGAIPSSVTKMYRLADLDLSMNGISGIIPENIGNMPVLS 249

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP
Sbjct: 250 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 309

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 310 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 362

[Close]

BLAST of Tan0007927 vs. ExPASy TrEMBL
Match: A0A6J1DI25 (DNA damage-repair/toleration protein DRT100-like OS=Momordica charantia OX=3673 GN=LOC111020249 PE=4 SV=1)

HSP 1 Score: 447.6 bits (1150), Expect = 4.7e-122
Identity = 218/233 (93.56%), Postives = 227/233 (97.42%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISG+IPSDIGNLNRLTVLNLAENAISGTIPASIVN+AGL HLD RNNQI+GE
Sbjct: 132 VLDLVGNKISGQIPSDIGNLNRLTVLNLAENAISGTIPASIVNIAGLMHLDFRNNQISGE 191

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKLGMLSRALLSRN++TG IP+SITKMYRLADLDLSMNGISG+IP N+GNMPVLS
Sbjct: 192 IPSDFGKLGMLSRALLSRNQLTGEIPASITKMYRLADLDLSMNGISGYIPANLGNMPVLS 251

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNRISGQIPPTLISNGGLGILNLSRN LEGHIPDVFC DSYFMALDLSFNALKGP
Sbjct: 252 TLNLDSNRISGQIPPTLISNGGLGILNLSRNTLEGHIPDVFCPDSYFMALDLSFNALKGP 311

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGH+DLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 312 IPNSLSSAKYVGHMDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 364

[Close]

BLAST of Tan0007927 vs. ExPASy TrEMBL
Match: A0A5A7TYV5 (DNA-damage-repair/toleration protein DRT100-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold25G00370 PE=4 SV=1)

HSP 1 Score: 423.7 bits (1088), Expect = 7.2e-115
Identity = 208/233 (89.27%), Postives = 219/233 (93.99%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIPSDIGNLN LTVLNLAENAISG+IPASIVN+  LKHLDLRNN+ITGE
Sbjct: 131 VLDLVGNKISGEIPSDIGNLNSLTVLNLAENAISGSIPASIVNIGSLKHLDLRNNRITGE 190

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKL MLSRALL RN++TG+IP S+TKMYRLADLDLSMNGISG IP N+GNMPVLS
Sbjct: 191 IPSDFGKLQMLSRALLGRNQLTGSIPDSVTKMYRLADLDLSMNGISGLIPANMGNMPVLS 250

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNR+SGQIPPTL++N GLGILNLSRN LEG IPDVF  DSYFMALDLSFNALKGP
Sbjct: 251 TLNLDSNRLSGQIPPTLLNNDGLGILNLSRNGLEGQIPDVFHPDSYFMALDLSFNALKGP 310

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIP GSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 311 IPNSLSSAKYVGHLDLSHNHLCGSIPNGSPFDHLEASSFTNNDCLCGNPLRTC 363

[Close]

BLAST of Tan0007927 vs. ExPASy TrEMBL
Match: A0A1S4E3F2 (DNA-damage-repair/toleration protein DRT100-like OS=Cucumis melo OX=3656 GN=LOC103500307 PE=4 SV=1)

HSP 1 Score: 423.7 bits (1088), Expect = 7.2e-115
Identity = 208/233 (89.27%), Postives = 219/233 (93.99%), Query Frame = 0


Query: 108 VLDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGE 167
           VLDLVGNKISGEIPSDIGNLN LTVLNLAENAISG+IPASIVN+  LKHLDLRNN+ITGE
Sbjct: 131 VLDLVGNKISGEIPSDIGNLNSLTVLNLAENAISGSIPASIVNIGSLKHLDLRNNRITGE 190

Query: 168 IPSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLS 227
           IPSDFGKL MLSRALL RN++TG+IP S+TKMYRLADLDLSMNGISG IP N+GNMPVLS
Sbjct: 191 IPSDFGKLQMLSRALLGRNQLTGSIPDSVTKMYRLADLDLSMNGISGLIPANMGNMPVLS 250

Query: 228 TLNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGP 287
           TLNLDSNR+SGQIPPTL++N GLGILNLSRN LEG IPDVF  DSYFMALDLSFNALKGP
Sbjct: 251 TLNLDSNRLSGQIPPTLLNNDGLGILNLSRNGLEGQIPDVFHPDSYFMALDLSFNALKGP 310

Query: 288 IPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           IPNSLSSAKYVGHLDLSHNHLCGSIP GSPFDHLEASSFTNNDCLCGNPLRTC
Sbjct: 311 IPNSLSSAKYVGHLDLSHNHLCGSIPNGSPFDHLEASSFTNNDCLCGNPLRTC 363

[Close]

BLAST of Tan0007927 vs. TAIR 10
Match: AT3G20820.1 (Leucine-rich repeat (LRR) family protein )

HSP 1 Score: 313.9 bits (803), Expect = 1.6e-85
Identity = 155/232 (66.81%), Postives = 185/232 (79.74%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           LDL+GN+ISG IP DIG LNRL VLN+A+N ISG+IP S+ NL+ L HLDLRNN I+G I
Sbjct: 132 LDLIGNQISGGIPYDIGRLNRLAVLNVADNRISGSIPKSLTNLSSLMHLDLRNNLISGVI 191

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           PSD G+L MLSRALLS NRITG IP S+T +YRLAD+DLS N + G IP ++G M VL+T
Sbjct: 192 PSDVGRLKMLSRALLSGNRITGRIPESLTNIYRLADVDLSGNQLYGTIPPSLGRMSVLAT 251

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGPI 288
           LNLD N+ISG+IP TL+++  +  LNLSRN L+G IP+ F   SYF  LDLS+N LKGPI
Sbjct: 252 LNLDGNKISGEIPQTLMTSSVMN-LNLSRNLLQGKIPEGFGPRSYFTVLDLSYNNLKGPI 311

Query: 289 PNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           P S+S A ++GHLDLSHNHLCG IP+GSPFDHLEA+SF  NDCLCG PLR C
Sbjct: 312 PRSISGASFIGHLDLSHNHLCGRIPVGSPFDHLEAASFMFNDCLCGKPLRAC 362

[Close]

BLAST of Tan0007927 vs. TAIR 10
Match: AT3G12610.1 (Leucine-rich repeat (LRR) family protein )

HSP 1 Score: 309.3 bits (791), Expect = 3.8e-84
Identity = 158/260 (60.77%), Postives = 197/260 (75.77%), Query Frame = 0


Query: 85  TTFIPPEWQDTTTKL-----GLAAMRPGVLDLVGNKISGEIPSDIGNLNRLTVLNLAENA 144
           T+ +  +W+  T ++      LA++R  +LDL GNKI+GEIP++IG L++L VLNLAEN 
Sbjct: 113 TSLVLADWKGITGEIPPCITSLASLR--ILDLAGNKITGEIPAEIGKLSKLAVLNLAENQ 172

Query: 145 ISGTIPASIVNLAGLKHLDLRNNQITGEIPSDFGKLGMLSRALLSRNRITGAIPSSITKM 204
           +SG IPAS+ +L  LKHL+L  N ITG IP+DFG L MLSR LL RN +TG+IP SI+ M
Sbjct: 173 MSGEIPASLTSLIELKHLELTENGITGVIPADFGSLKMLSRVLLGRNELTGSIPESISGM 232

Query: 205 YRLADLDLSMNGISGFIPLNIGNMPVLSTLNLDSNRISGQIPPTLISNGGLGILNLSRNA 264
            RLADLDLS N I G IP  +GNM VLS LNLD N ++G IP +L+SN GL + NLSRNA
Sbjct: 233 ERLADLDLSKNHIEGPIPEWMGNMKVLSLLNLDCNSLTGPIPGSLLSNSGLDVANLSRNA 292

Query: 265 LEGHIPDVFCTDSYFMALDLSFNALKGPIPNSLSSAKYVGHLDLSHNHLCGSIPIGSPFD 324
           LEG IPDVF + +Y ++LDLS N+L G IP+SLSSAK+VGHLD+SHN LCG IP G PFD
Sbjct: 293 LEGTIPDVFGSKTYLVSLDLSHNSLSGRIPDSLSSAKFVGHLDISHNKLCGRIPTGFPFD 352

Query: 325 HLEASSFTNNDCLCGNPLRT 340
           HLEA+SF++N CLCG PL T
Sbjct: 353 HLEATSFSDNQCLCGGPLTT 370

[Close]

BLAST of Tan0007927 vs. TAIR 10
Match: AT5G12940.1 (Leucine-rich repeat (LRR) family protein )

HSP 1 Score: 282.0 bits (720), Expect = 6.6e-76
Identity = 139/232 (59.91%), Postives = 174/232 (75.00%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           LDLVGNK SG IP++IG L RL VLNLA+N + G IP SI  L  L HLDLRNN I+G I
Sbjct: 139 LDLVGNKFSGVIPANIGKLLRLKVLNLADNHLYGVIPPSITRLVSLSHLDLRNNNISGVI 198

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           P D G+L M+SR LLS N+I+G IP S+T++YRLADL+LSMN ++G IP + G M VL+T
Sbjct: 199 PRDIGRLKMVSRVLLSGNKISGQIPDSLTRIYRLADLELSMNRLTGPIPASFGKMSVLAT 258

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIPDVFCTDSYFMALDLSFNALKGPI 288
           LNLD N ISG IP +L+++  +  LNLS N + G IP+ F   SYF  LDL+ N L+GPI
Sbjct: 259 LNLDGNLISGMIPGSLLAS-SISNLNLSGNLITGSIPNTFGPRSYFTVLDLANNRLQGPI 318

Query: 289 PNSLSSAKYVGHLDLSHNHLCGSIPIGSPFDHLEASSFTNNDCLCGNPLRTC 341
           P S+++A ++GHLD+SHNHLCG IP+GSPFDHL+A+SF  N CLCG PL  C
Sbjct: 319 PASITAASFIGHLDVSHNHLCGKIPMGSPFDHLDATSFAYNACLCGKPLGNC 369

[Close]

BLAST of Tan0007927 vs. TAIR 10
Match: AT5G44700.1 (Leucine-rich repeat transmembrane protein kinase )

HSP 1 Score: 159.8 bits (403), Expect = 3.8e-39
Identity = 91/255 (35.69%), Postives = 136/255 (53.33%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           L L  N+ +G IP   G ++ L++L+++ N++SG IP  +     L H+DL NN ++G I
Sbjct: 605 LRLGKNQFTGRIPRTFGKISELSLLDISRNSLSGIIPVELGLCKKLTHIDLNNNYLSGVI 664

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           P+  GKL +L    LS N+  G++P+ I  +  +  L L  N ++G IP  IGN+  L+ 
Sbjct: 665 PTWLGKLPLLGELKLSSNKFVGSLPTEIFSLTNILTLFLDGNSLNGSIPQEIGNLQALNA 724

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIP-DVFCTDSYFMALDLSFNALKGP 288
           LNL+ N++SG +P T+     L  L LSRNAL G IP ++        ALDLS+N   G 
Sbjct: 725 LNLEENQLSGPLPSTIGKLSKLFELRLSRNALTGEIPVEIGQLQDLQSALDLSYNNFTGR 784

Query: 289 IPNSLSSAKYVGHLDLSHNHLCGSIP----------------------IGSPFDHLEASS 341
           IP+++S+   +  LDLSHN L G +P                      +   F   +A +
Sbjct: 785 IPSTISTLPKLESLDLSHNQLVGEVPGQIGDMKSLGYLNLSYNNLEGKLKKQFSRWQADA 844

[Close]

BLAST of Tan0007927 vs. TAIR 10
Match: AT4G20140.1 (Leucine-rich repeat transmembrane protein kinase )

HSP 1 Score: 157.5 bits (397), Expect = 1.9e-38
Identity = 91/255 (35.69%), Postives = 133/255 (52.16%), Query Frame = 0


Query: 109 LDLVGNKISGEIPSDIGNLNRLTVLNLAENAISGTIPASIVNLAGLKHLDLRNNQITGEI 168
           L L  N+++G+IP  +G +  L++L+++ NA++GTIP  +V    L H+DL NN ++G I
Sbjct: 604 LRLGKNQLTGKIPWTLGKIRELSLLDMSSNALTGTIPLQLVLCKKLTHIDLNNNFLSGPI 663

Query: 169 PSDFGKLGMLSRALLSRNRITGAIPSSITKMYRLADLDLSMNGISGFIPLNIGNMPVLST 228
           P   GKL  L    LS N+   ++P+ +    +L  L L  N ++G IP  IGN+  L+ 
Sbjct: 664 PPWLGKLSQLGELKLSSNQFVESLPTELFNCTKLLVLSLDGNSLNGSIPQEIGNLGALNV 723

Query: 229 LNLDSNRISGQIPPTLISNGGLGILNLSRNALEGHIP-DVFCTDSYFMALDLSFNALKGP 288
           LNLD N+ SG +P  +     L  L LSRN+L G IP ++        ALDLS+N   G 
Sbjct: 724 LNLDKNQFSGSLPQAMGKLSKLYELRLSRNSLTGEIPVEIGQLQDLQSALDLSYNNFTGD 783

Query: 289 IPNSLSSAKYVGHLDLSHNHLCGSIP----------------------IGSPFDHLEASS 341
           IP+++ +   +  LDLSHN L G +P                      +   F    A S
Sbjct: 784 IPSTIGTLSKLETLDLSHNQLTGEVPGSVGDMKSLGYLNVSFNNLGGKLKKQFSRWPADS 843

The following BLAST results are available for this feature:

BLAST of Tan0007927 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q00874	5.4e-83	60.77	DNA damage-repair/toleration protein DRT100 OS=Arabidopsis thaliana OX=3702 GN=D...	[more]
Q9FIZ3	5.3e-38	35.69	LRR receptor-like serine/threonine-protein kinase GSO2 OS=Arabidopsis thaliana O...	[more]
C0LGQ5	2.6e-37	35.69	LRR receptor-like serine/threonine-protein kinase GSO1 OS=Arabidopsis thaliana O...	[more]
Q9FL28	8.4e-36	38.75	LRR receptor-like serine/threonine-protein kinase FLS2 OS=Arabidopsis thaliana O...	[more]
Q5Z9N5	1.1e-35	37.39	Leucine-rich repeat receptor-like kinase protein FLORAL ORGAN NUMBER1 OS=Oryza s...	[more]

BLAST of Tan0007927 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_023525975.1	8.8e-123	94.85	DNA damage-repair/toleration protein DRT100-like [Cucurbita pepo subsp. pepo]	[more]
KAG6606870.1	2.5e-122	94.42	DNA damage-repair/toleration protein, partial [Cucurbita argyrosperma subsp. sor...	[more]
XP_022949518.1	3.3e-122	94.42	DNA damage-repair/toleration protein DRT100-like [Cucurbita moschata]	[more]
XP_022998435.1	3.3e-122	94.42	DNA damage-repair/toleration protein DRT100-like [Cucurbita maxima]	[more]
XP_022152551.1	9.7e-122	93.56	DNA damage-repair/toleration protein DRT100-like [Momordica charantia]	[more]

BLAST of Tan0007927 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1KCI1	1.6e-122	94.42	DNA damage-repair/toleration protein DRT100-like OS=Cucurbita maxima OX=3661 GN=...	[more]
A0A6J1GCB0	1.6e-122	94.42	DNA damage-repair/toleration protein DRT100-like OS=Cucurbita moschata OX=3662 G...	[more]
A0A6J1DI25	4.7e-122	93.56	DNA damage-repair/toleration protein DRT100-like OS=Momordica charantia OX=3673 ...	[more]
A0A5A7TYV5	7.2e-115	89.27	DNA-damage-repair/toleration protein DRT100-like protein OS=Cucumis melo var. ma...	[more]
A0A1S4E3F2	7.2e-115	89.27	DNA-damage-repair/toleration protein DRT100-like OS=Cucumis melo OX=3656 GN=LOC1...	[more]

BLAST of Tan0007927 vs. TAIR 10


Match Name	E-value	Identity	Description
AT3G20820.1	1.6e-85	66.81	Leucine-rich repeat (LRR) family protein	[more]
AT3G12610.1	3.8e-84	60.77	Leucine-rich repeat (LRR) family protein	[more]
AT5G12940.1	6.6e-76	59.91	Leucine-rich repeat (LRR) family protein	[more]
AT5G44700.1	3.8e-39	35.69	Leucine-rich repeat transmembrane protein kinase	[more]
AT4G20140.1	1.9e-38	35.69	Leucine-rich repeat transmembrane protein kinase	[more]

InterPro

Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25

Position :

Zoom :

x 1


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	GENE3D	3.50.30.30		coord: 3..106 e-value: 3.0E-13 score: 51.5
None	No IPR available	PANTHER	PTHR48060:SF10	DNA-DAMAGE-REPAIR/TOLERATION DRT100-LIKE PROTEIN	coord: 84..340
None	No IPR available	PANTHER	PTHR48060	DNA DAMAGE-REPAIR/TOLERATION PROTEIN DRT100	coord: 84..340
None	No IPR available	SUPERFAMILY	52058	L domain-like	coord: 108..339
None	No IPR available	SUPERFAMILY	52025	PA domain	coord: 8..96
IPR032675	Leucine-rich repeat domain superfamily	GENE3D	3.80.10.10	Ribonuclease Inhibitor	coord: 107..246 e-value: 1.9E-37 score: 131.0
IPR032675	Leucine-rich repeat domain superfamily	GENE3D	3.80.10.10	Ribonuclease Inhibitor	coord: 250..340 e-value: 1.7E-25 score: 91.3
IPR001611	Leucine-rich repeat	PFAM	PF13855	LRR_8	coord: 109..164 e-value: 1.3E-8 score: 34.4 coord: 183..236 e-value: 2.2E-6 score: 27.3

Relationships

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


Feature Name	Unique Name	Type
Tan0007927.1	Tan0007927.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0016310	phosphorylation
cellular_component	GO:0016021	integral component of membrane
molecular_function	GO:0032440	2-alkenal reductase [NAD(P)+] activity
molecular_function	GO:0016301	kinase activity
molecular_function	GO:0005515	protein binding