Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
CTGACCCTCCTAATTGACTTTCTTGCCTCCCAATTCCAGAAGAACACTTTGCGCCATTTTCTGCAGAACACATAAACCCCAAAAGCTGTCTTCCATGCGGGATAATCATCTTCCTCCATAGCCACTTTTCTCCTTCCTCATCATTCAATTGCTAATTACTTCGAAAAAATCTCGATACAGACAAGAAGGAATACGAAATGTCGTGGCTGAGATTGGCAGTGAGCAAAGCAGTGGAGGTTGGGAATAACAACAACCTCACCCGGGTCGTCAAGAATTACGCCGACACCGTCGTTCACCACGCCGGCCAGGCCGTTGCTGAGGGTGCCAAGATTCTCCAAGATCGCATTGTACTTCCCCTGTTTCAATTTCATTCTATTTTTCTTATCGATTTTGTTGGTCTTGTGTCGTTTTGAGTTGTGATGGAATTTGAAAATGTTGGATGGTTTCTTATGATCTCGTTTGATTTTTTTGCATTTTTCTTCGCGTTGATATCTCCCTACGTTGATTTTCTTGGTCTGGTGTCATTTTGAGCTGTGCTGGAATTTGAAAATGTCGAATTGCTTCTCATAATCTCGTTTAATTTTGTGCATTTTTCTTCGCGTTGACATTGCTCTATGTTGTTTGTTTGTTTTTTTCCCCCTAAAATTTGCGTTAGCTGAAATTTCACAAGGAGGCATTTAGAAATTGGCTTGAATTTTGGAGAATCATCGTGAGAACACGAGGGTGGGGTGAATTTCGGGGTAGTACCTTAGGGCGAATAATTATGATATTTTAAACGGAGAAATGACAACAAAGCGGTGATTATCGATTTCGGTGGCTTCCCGTGAATTTGAGTATGTACCTAATTGACGTTTCTGGCACTGCCACCTAAAATTTGTCTTCCTAGAACTTTATTGAAGATTCATTATATCCATCGTTCAATCTGATACCGAAAAAGTTTTCAACCATTTAGTTTTATCTTCTACTTCAGGCTCCTGGATTTCTTTCCGAGTATTGTTGGTTGGTTCTGCTGCTTTGGCTTAACTGCTTAAAAATCTAAGATTTCCTATCAGGGAGAGACTGGCTATTGAGGTATATAATTCAGTCGTTTTCTTTTGGTTTTCAATTGTAGGGGGCACGGAATTTCAGAAGTATTAGGCAGACTATACAAAGATTGGAAGAAGCTGCCGTGTCTTGTAGGGGCCCTGAAAGAACTCAGTTGTTGAGAAGATGGTTGGTTGTGCTTAGAGAGGTAAAAAAATTATCCGAAGTTCCATCAGAGGAGAAAGCCAAGACCCTGGAGCAACATCTTGCTTTTGAAGATGCAAAGGAGAGCCCAAGAAAGCCTGCTATTGTGAGTAAAAATTTTTCTGAACACCTCCTCCTTCATGTATGTTTGTAAATACTTGTGCTGATTAACCACCTCATGGGTACATATCGTTCATAGTTGTTTCACTTTTCAAAAACCTTGGTGCATCTTCATGAATTCTGCATTTAAAGGAAAACAAAAAAAAGAATTCCACATTCTAACCTGATGGATTTTTAAAATTGGCATTAAAGTTACTTTGCACATTGATTTTACAATGTTATGGAGAGCTAGAAGGACATCTAAATGCCTATGACTATGCATTCTTTAGTGGCGCAACAATTAGAGATGTAAATTAAACTCAGTTGACCTTTATTTATGAGAGGTTTTAGTTACTTGAGTTGCAATTTCAATAAACCACATCGCTTTCTTGATATCGTCGATAAGCATTTGAAAATCTGAAATAGTTACAATGTATTGAAATTCATTTCTAGCTTATCTAATTATCTCTCCAAAATTCGAAAATACTTTTCAAAAGTCGTTAGTCTGCACAGCCTTTCTTCTTCTGTGTTTATTACGTTCTGACCTTTACCATGATGAATAGGTTTTGTATTATGACCCTGATGTTGGAGGGGAACCAATGAACTTTTGTGATGTGTTTCTTCATAGTCAAGCTCTGGAGGGAATTACATTATCTATGGTATGCTAATTTGATGATGTCCTTTCTCTGGATCCGTGACTTGTTCCCTGGAAAGCTGCAGTTGTGCATGTTTAGTATCACCTTACTACTCTGGTATCTTGAATGCACCAAAGAGGGCAATATGATGTATTGTTCAGTAGCAGGAGGAGGTGTCTGCATTTAGGTTTTGATGAGAGATGAAAAACTTATTGGGACAAAAATTGAATGATCTGTTTAGCTATTGACTAGGATGGAACACTCATAAGAAAAGATGTGTGCTATTTATGATCAAACTTGTCAATGAAGAGATACACAGTTCATCGAATAATATAAAGAATTTGTTAAGCAATAAAAAATAACTCTTGCATTGTAAAACAACAGTAATTGAACATAAAATTTAAGAGAAGGATGACTGTTTGCTTGGTGGGTAGTTACAAGTATAGTTTTCTAAAGATGTCTGAGTTCAAGATTTATATGCATCTTGGACTTGTCTTATTAACAACATTGGTCGATATTGAATACATGCCACCTAAGAATATTTTTTGGGTTTCAAAAACTAAATTTGAATTCAATGTATAACCGTGTTATCTATCTGAGTGCCAATGGATGTAATTTTCGTTAAGTAGAATAAGGAAATTTATGCAAAAGCTACATGTTTGTGATTTTTTTCCTTTTCAGTTTATGAACTATGCATAATTTTTTTTTTGGAACAAGAGACAATTTCGAACTATGCTTGTTAATTAGATGTTATGCAAAATGGAGAGGCAACACATGGTACTCGTGTGAGGGGGGAGATGTAAAGGTTGTACTATTGAGTGATGATGGAAACAAGTTTTAATTCCACCTTCTTTAATGTGACTGATGAATCAGTTAGATTTATTGGGTATAGAGGAAATGAATGCAAGTGAGACATCATAGTTTGAATTGTTAGATTGCTATTTTATCATTCACTGTTGTTTTCAATGTGTTCAGACCTTGGGTCTGAATTTTTTTGCGTCAACTTTTGTGTTTTTTAATTGGTCATGAAGGAGATACCAAAAAATTAACTATTTTCTGTGCCACAGATTCTTGAAGCGCCAAATGAGGAAGAAGTGTCTCTTCTCCTGGACATGTTTGGGTCTGTCCCTCACTTAAGCTAATGCTGTCTGGAAGTACTAATTATTAAGACTCCAAAAGACACACAACTTCAAATTTCATTATGTTCATATTTGTGAAATTGTGAAGTTAAGGGGATTTTTAGTTATTTTTTTCTTTTTTAATATTTCTTACCAGGAGGAGATATTTGGAGTTCTATATTTTAAGTTCTAACCATATTATGATGAGGGATCCTGACCACCTCTATCTTTACTTTTCTTGGCCTCAAACTGTTGACCTTGATTTTGACTATTGGTTTCCAGTCAATTAATCATATACTTTAGCCTCTCGTGCCTCTGTTCTAAGCCCTCTTTGTTTTTTTAACTTGTTTGGTTTCTGATGGGAATATGAATACTACAATAATACATCTTGAGATTGGCTTTTTAATGAAGACATTTCTAATAATTATTTTCTGCAGATTATGTCTTATAGGGGGGAAAGAAGTTCATAATGCAATAGTTAGCAGCATACAAGATCTGGCAAAATCTTTTTCCAGCTACGAGGATGAAGTATTGGTAAAGTTCTAAGGATTTAAGCATACATTGTCTGCATTGAAGTTTTGAAAACCACAAGGATCCCATCATTCTACAATTGCTTTATGCATAAAAATGCTTTCTTTTTATTTCTCAGAGGACTTCATCGTTCAAGTGTAAACAAGTACTTGTAGTTATAAGTCGTAACTAACTATGAGTTTCACAGGCTGTGTACATTCCCTTTTTGGAAATCCAAGTATCTCGGGCCTTTCAGAAGTAGCTATTTTCTTCAGAGCTTTTTCATTATTTGTTTAGTTTGCTGTTAAGAGATGTTAAGAATAACCAACGGTAATAGTTATAGCCTAATGAAATAAAAGAGTTACACAACAAGTTTAGGAGAGAACAGAAGTTGTTGTTGTTGTTGTTTTTTTTTGTTTTTTTTTTAAATTTTAAATTTTCCATATTATTATTAACCATCGATATGTTGCAAATTCAACTGTAATCATCTTCATATAATTTCTACTGTGTGGATTTGTGAATTAGTAAGACAAGGCTGCTAGGCCTATTGCATTTCCCCATTCCATTTCTTCTCTTTGTGCAAAGTTTTACAGGAGATCTTAACTACAGGTGAAGCGGGAGGAATTGCTCCAATTTGCACAAAGCGCAATTTCAGGGTTGAAGATTAGTGCTGATCTTGGGAGGTGGGTAAGAAATGAGTTATTTTGTTATTTTCTCCTTAATCTCCACTTCTACAGCTTTTGTATGAGTGTGATGTTTCATGTTATACCAACTCTGCTATACAGCAATTATGCTTATTTAGTGGGTTTGGCAGCCTTAGGGATCAAGGGGTTATTTTAGCCTTCTTGTTTAATTTAAGAAAAGGTTTCTTTTTGTTTGATTAATGTCTACGAGGGAGTCATTTTTTGATCTCCTTTACCTTGTGCGAGTGGTATCTTAAATCTTCTCAGTCCTTTCTTTTATAAATAAATTTTGGTCATGTTATGCGTCTTATTCAAAGAAAAAAAGCACCGTGTAGTCATTCCATCGGACCTCTACATTAAATCCTGTCATACCCATAGATAGTGTGCAAATTGAAAAAAAATGAAGAACAGGTGGATGCCAAATACCTTTCCTTGTCAAGCCTTGGTCTGACTCTTAGGGGATAGATTTCTGCCTTGAAAGAACACGTGCTATTGTTTTATGTTGTTTACCTTTTCTTTTCCTTATTATACTGCTGCATGCTAGATACCTGCATGCTAGATACCTGCTCAGTGAAACTTTTTTTGCATGCTAAGAAACATAAAAGAATGATGCCCCAACTATTTTAGAATTTTTTACGCACTCTAACTATTTTTTTGAATTTTGGAATTTTTAATATTAAAAAATTCATAAAAAATAATCGGCCGGTTCAAAAATTATGAAACTTGTTTTGTACACTCATTTGATTGTCCCAATGAAGAAAAATATTGTGTAACCCAATTTCAAAAATTATGAAACTTATCTATTCTCTAATTGGAAAGTCTTCATGTAATTCTTATTTGACATTCGGAGTATTACTCCCTTATTTCATACATCAATGAAATTGTTTCTTGAACTAAAAAAAAATAAGATGATTTTCGGGAATGATATGCTGTCTCTTTATTGGATTGGAACTACACCCATCATCCCTATTTCACCTGCTAACATGCACTTAACAGGGGGAAAAAATGGAAATAGAAGTTATGGTCAGAATAAGCTAACATAATGGTCTTTTCTCTATTATTTGTCTTGCTTTCTGGTCACAGAGTAGATAATGAATTGTCCAATTTGAAGACAAAACTTGAAGGAATGTCAGCTTCCCCGATGTCTTCAAATGCAGATTATGGCAAGACATCAGAAGAAACCACAATAGAAACAATCGAGGTGAGCCTGTTGATAGAGTTATTATTGTCCTTATTTTTTAATGGAATATAAACTTTTTATTGATAAAATAAAATAAAAAAATGTAAAAAAAGTAAGTGCATCTGTTAATGCATTAGACTAAGGATGAGCCTGGGATGCATTTTGAAAAAACAAATGTTTTTGAGTGGAAGAATTTATTTTTTAATCACTGGACTAAGCTTTGTCTGCAGGCACTCTAAGTATTTTTTTTAAAAAAAAAATTTAAAAAATTTCTCAAACTGTTGTTGGTTATTGAGAATTTTAAAAAGTGTTTTTAATTTTTTAACAGAACTCTTAAAAATTGTAACTGAACACACTGAAATTTTTAAAAAACTTTTTCCTACCGAAACATTTTAAGAGGCATGCCAAACGTACTTTTGGTGCAGCTGATAAATATGGCTTGAATTCATTCTTGATGAATTTCAGAGCAGTGAGCATCGGTAATCATATTGTTGACGAGTTGTTCATCCAATGAAACCTTAAAAATCTTATTACGATATCAGAACATTCATTGTCTCTAGGTTGTACTTGTACCTTATATTTTTATTTCTCCATCCAACTAGCTATTATCAGACTGGAAGAGTCCGTAACTCACCTTTTGGTGCTCAGAGTTTTCTCCATTTCATTTATCAATGAAATTGTTTCTTATTCCAAAAAAATCAGACTGGAAGAGTCCAATTTACTTGGTAAACGTTTGTTGCTCTGAAAAGTGATATCTTCACATTTTGTAGTATATAGTGTATTCTACTGAGTTATCACCTTGTAATATGAACTGTCAAGTAATGCTTATTTATGACTTTGATGGAGTGGAAAAAGAGTATTTGGGAACTTCACTGTCCCATCTATGTAGCAGGCATTGAAAGCAGCACTTTCACACATACGAATGTGTTCTAGAGTGGAAGGACTTCTGCTGAAGAAGAAATTATTAAACAATGGAGATTCTCCCGAACTCCATGCTCAAAAGGTATTGTTCTGGAGATGTCTTGAACCTGTCAGTCTTAATTTTTATCTTTACCCATTGTACTTGTGTTAAATTTAGCCTATGGGCTGCAGTAAGTGGTATATTGCAGTAAACTTGTGTACTCATATACAGATTGATAAATTGAAAGTCTTGTCAGAGTCTCTTTCAAACTCCTCTGTGAAAGCTGAAAAGCGCATTACAGATCATAGGTAAAGATCTCAGTTCCCTAAATGATAATGAACTAGAATTCATACGTTAGCTGCTTTTTCTTTTGCTGATATATGTTGATATTCTCTGTATTATCTGTTTAGGACTTCAACACGATAAAGTTTTTTTGGTAAACTCTTTTCCACTGAAACTCTTCTAGTCGATATCTTTTGACTGATTTTTTTAAGCCCTTGGACCTCAACTCCTCGTGTTATAGTAATAGGAAATTCGTTTGTAAGCCGTGTCTTTCTCTTTCTTTCAATATATAGATCTTATGGACTGATGCGATGGTGCATTTTTCTTGATATCTGGAAATTAAAAATAAATATATTTTTTATCCTTCTTGGGGGTAGCGAAGGAGGTGGGAGATAGATTTAGGCCTAATACCTCGCTGGAGGTTCTCTATATCAAGCGTTTTTGTAATTTTCTCTTTTTTTTTCCTTATATTTGGTAATTTCTAGTTGGAATGGAAGTACATCTTTTTCTAATCCACTAGTCCTTTCAGGTCGGCCTTTTTGTCATTCTTTGGACGTTTTTTTTTTAATAATATAAATAAATACACTTAATTTTATTGAAGAAGGTTGTATTAGGGTTTTTTAATAACCCTTTCTCTATTATTATTGTTGTCACGAGGGACTCATGTTTTATTTTTGACATTTCATGCATATATGATACTTTTTCCCCCTCTTTTAATTTGCAGATTGCAAAAAGAGGAAGCGTTGAATGTTCGCCTGACCAAAGCAACTGAAGCTGGTGAAAAAGAGAAGGTTAGGTGTTGTTTGGAGTAGTGTTTAAAAATAATTTTTGGTTTATTAAAATGAAAAATAATTTCATTTTAGAATATTACATTTACATCATATGTGGGGATTTGAACCTACAACCTCTAGGAGTAGAGATGTCTTATTGCTGAGCTATGCTCTTGTTGACAAGAAATATATTTTTTTTCAGTAAATTTGTTCCACAGGATAATTTTAGAAGCAGATTTCAAAGAAAAAAACAATATAAAAATAAATGAAAAGCAAAAGACAAATTAAAGATATCTTCATCAACCAATATAAGAAATTCCACTTAATAGAAAATAATTCTTAAAAATCAGATTGCTAAACAGTTTTAAAAACGAAATTTAGAATAATTCTCAACGTTAATCTTGGTGTTTTGATCTTGAATTGTATTGAGGACCTACTTTGCAACATTATTTTTATTGTGCATGTTCAATCATATTTCATATCTATTTTGAACTGTGTCACGTATGTGGTAGAGAATATACAGACGTTAAATTACAACCATACAGATTATTTTCAACTTTGTAGGTAGAAAACTTGAGTTTATGTTTTCAATTATTTACAGGAACTAGCTACAGAAATTGCAGAACTTGAAAGACAGAGAGATGATATTGAAGCTCAATTAAAAAAGGTTTGTCTTGTCTTCCGTCCCTGATCTTTTGGTTTACCATGATATAGTGAAGAAATGAGCCCTTTTCAGTTGTGCTACTTATTCACTGAACTTGTACATAATTTTTATGCTATGGTAATCTCATTGATATAGAAATCATTCCAGTGCCTGAGTTGTCCGAGATGCCTGAGGATTTTTATATAAATTTGTAAATATCTTAGTTGTAAACTTGTAGTGTTAGAAAAGCCCAAGTTTTTTGTGTATGTTATCTTGATGTCTTTGATCCCTTGATTGAGAGAGTCCACTATGGTTTTGACTTTTGCCTTTGTCGGACTTAATCTACATTTTTATTTCTATGGTTTCATTAGTGGATTATGAAGTTTGTGTATCCATAGAATTTTAAATTTTATGTTTTTTTTCCACATTCAACATACTTCTATAACTCTGAACATATGTTGTCACTATATGGTGTAGGTTAATATCTCCTTGGCTGCTGCGCATGCACGCCTTCGTAATATGGTGGAAGAGAGAGATCAGTTTGAGGAGGCCAATAACAAGATTGTCGCACATTTAAAGACAAGGGTGCATTTTTTGTTTACTTTTGATGTATTGTTATGTTATTTTCATGTATGTTCTCATTCTTATCTATTATATGTTCTCTCGGAATGCTTTCAGGAAGACGAGCTGTTAAGATCCATTTCCTCGTGTAAGGCAGAATCAAATGTTTTGAATATGTGGATTAATTTTCTGGAAGATACATGGAATATCCAATGCCTCTATAGAGAAAATAAGGAGAAGGAGGTCAAGTATGTATTTTTGCCATCTTGTTATTTTTCATCAATATTTATGGTTAGTATTAGAACTCCTCTCAGGGCTTTTTGTGGAGTGTTCTTGTGAGGGAATATGCAAAAGAACATTGTACAATGTTTCTTCTCTCAATCGAGTTTGTCACACTTGGATACTTGCTTCTTTTCTTTCTGAAGCGATGCGTTGGAGAAACATGAAGGTTACTTTGTCAACTTGGCTATCGATCTTCTATCTGCTTATAAGGTATTTATAATATTCTCTGAAGAATACTCGTATCCTAAATGTAACATGAAATATGATTTATAATTTATGGATAAGCTCTGACTTCCCATGTTTGAAACCTTGCATGGATCCTCTGATATAGAAAGAGTTGGAGCCGTCAATCAGCCGTATTGAAAAATTTGTGGAGAATTTAAAGAATTTGAGACAGAGGTAAACCTTTTCCCTTTTGTTATCAAGATCCTATTTTGGTCTGAAGCATGGCTTCTTATCTATCAGATCACTCTGGACAGGTCGGAGGAATCCACACTGGAAAATGACGAGTCAAAAGTTCTAAGCCCTACAAATAATCTTGAAAAGGAATATCTAGGTTATGAAGCCAAGGTATAAACTTTCGATTACTTATCCAATTTTATTTTAATTTCAATGTATGATGCCGTTGGTGATTAGCTTTCATGTAAAATATGGTTCTTATTGCCCATCCCCTAGAAGCACAAATATGGATACGACACATGGACACGGCGAGATGCCAATTTCTAAAAAAATAGGACATGGACACGTTGTGAACACATAATATATTTAATTTTATTTTTAAAACATGTGTACATGTTAAAATTTCCAATACTTCAAATCAAAGAATATTAAATGTGAGCCAACTGTCCATCAAAAATTAGAAAAACAATTAAGAAAAAGGAGTGGAACCACCTGTTGCAAAACCAAGTAGCAGCTGTACTAATTCTCCACTAAGTCTTGCTCTGCAAAACCCAAGACTCTTTTTGTTGTTACAAAGCAGCATGTTCTTATATCTTATTCTTTCGAGGGTTTCTTTCCCTATTTGTTTGGTTATTGTATGATACATGCATGAGGTTGCTTCTTCTTATAAGGAAACTAAAAGGTTAATCTCAATCTTTTATTCTTCTATTTCTTTCCTTCTTTGGGCTGGTACTTTCTTTCTCCCTCTCTGCGACTTTGGAGCAACAAAATGGGTTCTTTTTTGGTTCAAGGCTTATGACCGCAGGTTGAAAGAAAGTGGGGTTTTTCTCCTTTTTTCCAGGTTTTCTTCTTTTAGGCAGAGGCTATTTTTTAGGGTTGAGGCTGTATATTATTTAAGTGTCTCATATTCATGGCGTGTCCATAATGTGTCCGGAAGATTAGGTAAGGTGTCCATAGACTGTACAATTTTAACAAGAAAAGATAAAAATTTTAACACGTGTCCAGACGTATCCATGTCCAACACGGACACTCTGCCCAAAACAGTGTCTGTACTTCTTAGGCCCATCCATATATTATATATTTTGAAACAGCTTATGCAGCTTCAGCAGTATTTTGTTTTCAAATTATAACAGTGCTGTGAATATATAGCTTATATTAAAATAAGTTGATTAATTGTCTTTCTTTTCACCCTCCTATTATTATTTAGGTGGGCAGATATAAGCAGTAATCTGCCCATATTACACTTTCACAGATTCTGCTCGTTTAAAAGATGGAATGGAAGCGTAGCTAGGTCTTGTTTTACATTTGTAATAGAATTTTTTTGGGCTAAGAATCATTTCATGGATGAGATGAAATTACAAAAAGTGGTGGGGGAAAGAAAACCCCATGCCCAAGGAACATTACAAAAAAACTTTTCCAATTTGCAGAGCAGTTGAGCTGTAATTACAAAGAGGAGACAATTTACACCAATGAGGGCTAAATAGGTAAGAGATCAAAAAAAAAAAAAAAACTATCAAAACACTGTTCGTTATAATTGAAGATCTGCGAATTCCTTCCAAGCCAAGGTGACAGATAGAAGGCTTGGAGAAACTGAGCCAATTGTATAAACTTTCGTAAAATTCAGTTGTAATAGAAATGAATTTCTCATATCTAAGAATCTAGTCTAGTTTTGATGCTGTTGCAGTTTATAGGCTTTTAAATCTTGCTTTAGGTTACTTTTAGCATAATGGCCAAACCTTTACCATCGAACAGCAGATGGAATGTAACAGATGTGTTATTACTGCCATTCCTTGGGACTACAAATCTATTTGTAAATCACCAATTAACCCAAAAGCTTAAACTGATAAGCTATAGCAAATTTAATTATATCAACACCAATACTCTCCCTCACTTGTGGGCTTAGAAATTTGAACAAAGGCCCAACAAGTGGAAATCAAACACTCCTCCTAACTTTTGGACTTCGAAATTTGAACAAAGGTCCAACAAGTACAAACCAATATTAATTGGGAGTAAACAGCTTTACCAGAGTTCGAACACAAGGTCTCCTACTCTAATTAACCCAAAAACTTAAACCTGATAGGTTATGACAAATTTAATTATATCAACCCCAACACTATTGAAGGAAGATAAATTTGTAAATTACCAATAAACCCAAAAGCTTAAGCTTATAGGTTATGACAAATTTAATTATATCAACACCAACACTCCCCTGACTTATGGGCTTAGAAATTTGAACAAAGGCCCAATAAGTGGAAATCAAACACTTCCCCTAACTTGTGGACTTGGAAATTTGAACAAAGGCCCAACAATTACAAACTAATATTAATTGGGAATAAACGATTTCACCAGGGTTCGAACACAGAGGACCTCCAACTCTGATACCATGTAAATCACCAATTAACCCAAAAGCTTAAGCTTATAGGTTATGACAAAATTAATTATATCAACACCAATAAAATCAATAAATTATATTAACACTAATTTGAATACATAAATGTCTCCCAGGTCTGGCCTTGGGGTGGGTGTGGGTGCCTCCGGGTATAAGGGAGTAAAGCTTTGACACCCGGTTATCAAAAAAAAAAAAATACAGAAACATAGAAAAGTGTTAGAAAAAATGGAGCCTAGTACGTCCTTTTACCAGTGGGGGTTTGCTCATTTTGTTTCATTAAAAAAAACAAAATGACTAACGTTTTTGTTTCATTAAAGGAAAAAAAAAAAGAGGAGAAATCACAAATGAGAGAGAGAGGCCTAAGGGTGGTTGGCTGAATTTAGGGTTAAGAAGTTGAGCCTATGTCTATTGTCTGATGTCAACCAACCATTAGGTGTGCTAATTTTTTGAGTTAGATAAACTAGACTTTTAAAATCTATTCTTTAAAATGTGATTAATTTTATGGCTTAAGTTAGGGTTCTGGAAACTTTCAAGTCTATTTCAGGTCTCTTACCATCAATAGAGCGGAGTGTTATATTGCACATGGCTTAACATGCTGGTTTTTGGTTGGTTTGTCTGGTCGTCCTGCTTCCCTTGTGCTACCTTGCTACCTTGGTCTCCGTTAGGCATTTCTAGGAACCTATCACAGGAAAAAGTTGAAAATAGATTACATTTGGAAAAAGATTTTCTTCTTTTGAGACAGATTTACTTTTATCCAATCACTTTCGAGTAGAATCCTATCTGCTACTTTTTTCTGTTAAAAAATTTGAGCTTAGCGACTGGTATTTTGGTGAAGTTAATGAGAGAATCCTTGGGAGTAGGTGGATAAGGGAAGTGGTTTTCACTTGGGCAGCTGGGATGATGTGTCTAAATCTGTTCGTGAGGGGAGGTCAGAAATCGAGAACCTTCAGAGTAAAAATACTGGCTTCACATGCAAAGTTGTTTTGGAGTCTTTGGAAGTCCGTATCCCAGACCATATCCCATATTTTCTTGTTTTTTCCAATTTTTAATTGGGAATGGGTTGTACAAAGTAAAGGTGGAAAGAGAGAATATATAAATATTTTTTAAATTTCAAATTTTCTCAAGGAGAATTAAGAGGTCTGTTTTCATATACCTCCGGCCTTTCCTTGTGCTTAACCACTAGCGGGGGGTGGTAAGCATCATGGTTTTTGTTTCTTTATTTTTTTCTCTTCACATTTGGGCAAGTTTCTTCTTACTTTCTGAGAAGTCTTGTTCATAACTTGTCTTGCTTGATTTGTTGGTTGAGCTCCTGATCCCTTCACAACGGAGGCAGGTTATAGTGTTTTTCAGGTGCTTTGACTCTTATGTGTGGGGTATTTCTGTGGAGAGAAATAGGAGAAATATTCTAGATGTCTTCAAGATTGTTAGAATGTGCAGAATGCTGTGCAGCACTTCAGTGCTTTTCTTTCGGTTTCTACTCTTTGTTTCGAGTTATTTCTCATTTTTTACTATATAGATAATTGGGATTGTTATGCATGACTTGTAAATTTTGAAAGGATTGTCGCATGGGGCTGGTTTTCAGGTGCATTTTCTGGCTTGTTTTGTATTTTCTTTAAAAAACTTTAATGAACGCTTTGTAAAAAATTGTCCCAATTGTAATTATAGGGCATAGACCCGCTGCCTACAATTTTCCTGCCAAGTGTGAAGTTGACTTCATCTTGGACGTTGAACAATTTTAACCTTAATTTGTTTTCTTGTTCCAGATTATTACTACCTTCAGTGTTGTGGATAACATGAGAGAGCAGTTTTTGGCTCAACAAGCTCAAGTTTCCAGGTAAGATCTGGAAGGTAGTTTCTGTGACATGACATGCATTCTATTCCAATACTGCTTCACTCTCTGTCACATTTCATTATTACCCAAAAGTAATTCTTCTTTTTCCCTCAATTCAGGAAAGATGACTTTAGAGTTCAAGAATTGTTCGATGATATTGAAAAACTACGGGAAAAATTTGACTCTATCGAGAGACCCAATCTAGAAATCGAAATTCCACCTCCAAAACCAGAAAATGAATCTAGAGAGGAATTGCAGAGTAGTGTTGCCCAACCTCCGGCGGAAGAGAGCAAGAACTCAAATGTTGAAACTGGTAAGCAACCCAAACTACCCGGAGTTGATGAGGCAGAACAGACACTAGATGCTGCCGCTGAGCTGGCAAAGCTGGAATCAGAATTCGGGAAAGTCGGTCACGACTATTCAGCAGAAGACATTGGTGAATGGGAATTCGATGAGCTCGAAAGGGAACTGAGATCAGGTGACTCAAAGAACTAGCCCTATCATATTATATTCTCATGTATGAATCAAACCTAATTTATTATGAAGAAAGGTGATAGGTTTGCGTTTGGCATCCCCACAAAACTGCAAGATTGGATCATAATCTTTCCTTTGTAATTGTTCTCTGTATATTTTGTGGTTTTTTAATTTGTTCACTTGTATAAATGCTGAAACATTTATAATTATGTTGTAATATAAAGCCAAAGAAGGGAAACAGTCTAATCAAA
mRNA sequence
CTGACCCTCCTAATTGACTTTCTTGCCTCCCAATTCCAGAAGAACACTTTGCGCCATTTTCTGCAGAACACATAAACCCCAAAAGCTGTCTTCCATGCGGGATAATCATCTTCCTCCATAGCCACTTTTCTCCTTCCTCATCATTCAATTGCTAATTACTTCGAAAAAATCTCGATACAGACAAGAAGGAATACGAAATGTCGTGGCTGAGATTGGCAGTGAGCAAAGCAGTGGAGGTTGGGAATAACAACAACCTCACCCGGGTCGTCAAGAATTACGCCGACACCGTCGTTCACCACGCCGGCCAGGCCGTTGCTGAGGGTGCCAAGATTCTCCAAGATCGCATTGGGGCACGGAATTTCAGAAGTATTAGGCAGACTATACAAAGATTGGAAGAAGCTGCCGTGTCTTGTAGGGGCCCTGAAAGAACTCAGTTGTTGAGAAGATGGTTGGTTGTGCTTAGAGAGGTAAAAAAATTATCCGAAGTTCCATCAGAGGAGAAAGCCAAGACCCTGGAGCAACATCTTGCTTTTGAAGATGCAAAGGAGAGCCCAAGAAAGCCTGCTATTGTTTTGTATTATGACCCTGATGTTGGAGGGGAACCAATGAACTTTTGTGATGTGTTTCTTCATAGTCAAGCTCTGGAGGGAATTACATTATCTATGATTCTTGAAGCGCCAAATGAGGAAGAAGTGTCTCTTCTCCTGGACATGTTTGGATTATGTCTTATAGGGGGGAAAGAAGTTCATAATGCAATAGTTAGCAGCATACAAGATCTGGCAAAATCTTTTTCCAGCTACGAGGATGAAGTATTGGTGAAGCGGGAGGAATTGCTCCAATTTGCACAAAGCGCAATTTCAGGGTTGAAGATTAGTGCTGATCTTGGGAGAGTAGATAATGAATTGTCCAATTTGAAGACAAAACTTGAAGGAATGTCAGCTTCCCCGATGTCTTCAAATGCAGATTATGGCAAGACATCAGAAGAAACCACAATAGAAACAATCGAGGCATTGAAAGCAGCACTTTCACACATACGAATGTGTTCTAGAGTGGAAGGACTTCTGCTGAAGAAGAAATTATTAAACAATGGAGATTCTCCCGAACTCCATGCTCAAAAGATTGATAAATTGAAAGTCTTGTCAGAGTCTCTTTCAAACTCCTCTGTGAAAGCTGAAAAGCGCATTACAGATCATAGATTGCAAAAAGAGGAAGCGTTGAATGTTCGCCTGACCAAAGCAACTGAAGCTGGTGAAAAAGAGAAGGAACTAGCTACAGAAATTGCAGAACTTGAAAGACAGAGAGATGATATTGAAGCTCAATTAAAAAAGGTTAATATCTCCTTGGCTGCTGCGCATGCACGCCTTCGTAATATGGTGGAAGAGAGAGATCAGTTTGAGGAGGCCAATAACAAGATTGTCGCACATTTAAAGACAAGGGAAGACGAGCTGTTAAGATCCATTTCCTCGTGTAAGGCAGAATCAAATGTTTTGAATATGTGGATTAATTTTCTGGAAGATACATGGAATATCCAATGCCTCTATAGAGAAAATAAGGAGAAGGAGGTCAACGATGCGTTGGAGAAACATGAAGGTTACTTTGTCAACTTGGCTATCGATCTTCTATCTGCTTATAAGAAAGAGTTGGAGCCGTCAATCAGCCGTATTGAAAAATTTGTGGAGAATTTAAAGAATTTGAGACAGAGGTCGGAGGAATCCACACTGGAAAATGACGAGTCAAAAGTTCTAAGCCCTACAAATAATCTTGAAAAGGAATATCTAGGTTATGAAGCCAAGATTATTACTACCTTCAGTGTTGTGGATAACATGAGAGAGCAGTTTTTGGCTCAACAAGCTCAAGTTTCCAGGAAAGATGACTTTAGAGTTCAAGAATTGTTCGATGATATTGAAAAACTACGGGAAAAATTTGACTCTATCGAGAGACCCAATCTAGAAATCGAAATTCCACCTCCAAAACCAGAAAATGAATCTAGAGAGGAATTGCAGAGTAGTGTTGCCCAACCTCCGGCGGAAGAGAGCAAGAACTCAAATGTTGAAACTGGTAAGCAACCCAAACTACCCGGAGTTGATGAGGCAGAACAGACACTAGATGCTGCCGCTGAGCTGGCAAAGCTGGAATCAGAATTCGGGAAAGTCGGTCACGACTATTCAGCAGAAGACATTGGTGAATGGGAATTCGATGAGCTCGAAAGGGAACTGAGATCAGGTGACTCAAAGAACTAGCCCTATCATATTATATTCTCATGTATGAATCAAACCTAATTTATTATGAAGAAAGGTGATAGGTTTGCGTTTGGCATCCCCACAAAACTGCAAGATTGGATCATAATCTTTCCTTTGTAATTGTTCTCTGTATATTTTGTGGTTTTTTAATTTGTTCACTTGTATAAATGCTGAAACATTTATAATTATGTTGTAATATAAAGCCAAAGAAGGGAAACAGTCTAATCAAA
Coding sequence (CDS)
ATGTCGTGGCTGAGATTGGCAGTGAGCAAAGCAGTGGAGGTTGGGAATAACAACAACCTCACCCGGGTCGTCAAGAATTACGCCGACACCGTCGTTCACCACGCCGGCCAGGCCGTTGCTGAGGGTGCCAAGATTCTCCAAGATCGCATTGGGGCACGGAATTTCAGAAGTATTAGGCAGACTATACAAAGATTGGAAGAAGCTGCCGTGTCTTGTAGGGGCCCTGAAAGAACTCAGTTGTTGAGAAGATGGTTGGTTGTGCTTAGAGAGGTAAAAAAATTATCCGAAGTTCCATCAGAGGAGAAAGCCAAGACCCTGGAGCAACATCTTGCTTTTGAAGATGCAAAGGAGAGCCCAAGAAAGCCTGCTATTGTTTTGTATTATGACCCTGATGTTGGAGGGGAACCAATGAACTTTTGTGATGTGTTTCTTCATAGTCAAGCTCTGGAGGGAATTACATTATCTATGATTCTTGAAGCGCCAAATGAGGAAGAAGTGTCTCTTCTCCTGGACATGTTTGGATTATGTCTTATAGGGGGGAAAGAAGTTCATAATGCAATAGTTAGCAGCATACAAGATCTGGCAAAATCTTTTTCCAGCTACGAGGATGAAGTATTGGTGAAGCGGGAGGAATTGCTCCAATTTGCACAAAGCGCAATTTCAGGGTTGAAGATTAGTGCTGATCTTGGGAGAGTAGATAATGAATTGTCCAATTTGAAGACAAAACTTGAAGGAATGTCAGCTTCCCCGATGTCTTCAAATGCAGATTATGGCAAGACATCAGAAGAAACCACAATAGAAACAATCGAGGCATTGAAAGCAGCACTTTCACACATACGAATGTGTTCTAGAGTGGAAGGACTTCTGCTGAAGAAGAAATTATTAAACAATGGAGATTCTCCCGAACTCCATGCTCAAAAGATTGATAAATTGAAAGTCTTGTCAGAGTCTCTTTCAAACTCCTCTGTGAAAGCTGAAAAGCGCATTACAGATCATAGATTGCAAAAAGAGGAAGCGTTGAATGTTCGCCTGACCAAAGCAACTGAAGCTGGTGAAAAAGAGAAGGAACTAGCTACAGAAATTGCAGAACTTGAAAGACAGAGAGATGATATTGAAGCTCAATTAAAAAAGGTTAATATCTCCTTGGCTGCTGCGCATGCACGCCTTCGTAATATGGTGGAAGAGAGAGATCAGTTTGAGGAGGCCAATAACAAGATTGTCGCACATTTAAAGACAAGGGAAGACGAGCTGTTAAGATCCATTTCCTCGTGTAAGGCAGAATCAAATGTTTTGAATATGTGGATTAATTTTCTGGAAGATACATGGAATATCCAATGCCTCTATAGAGAAAATAAGGAGAAGGAGGTCAACGATGCGTTGGAGAAACATGAAGGTTACTTTGTCAACTTGGCTATCGATCTTCTATCTGCTTATAAGAAAGAGTTGGAGCCGTCAATCAGCCGTATTGAAAAATTTGTGGAGAATTTAAAGAATTTGAGACAGAGGTCGGAGGAATCCACACTGGAAAATGACGAGTCAAAAGTTCTAAGCCCTACAAATAATCTTGAAAAGGAATATCTAGGTTATGAAGCCAAGATTATTACTACCTTCAGTGTTGTGGATAACATGAGAGAGCAGTTTTTGGCTCAACAAGCTCAAGTTTCCAGGAAAGATGACTTTAGAGTTCAAGAATTGTTCGATGATATTGAAAAACTACGGGAAAAATTTGACTCTATCGAGAGACCCAATCTAGAAATCGAAATTCCACCTCCAAAACCAGAAAATGAATCTAGAGAGGAATTGCAGAGTAGTGTTGCCCAACCTCCGGCGGAAGAGAGCAAGAACTCAAATGTTGAAACTGGTAAGCAACCCAAACTACCCGGAGTTGATGAGGCAGAACAGACACTAGATGCTGCCGCTGAGCTGGCAAAGCTGGAATCAGAATTCGGGAAAGTCGGTCACGACTATTCAGCAGAAGACATTGGTGAATGGGAATTCGATGAGCTCGAAAGGGAACTGAGATCAGGTGACTCAAAGAACTAG
Protein sequence
MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQTIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPRKPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGGKEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLKTKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDSPELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATEIAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRSISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKKELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVVDNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREELQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAEDIGEWEFDELERELRSGDSKN
Homology
BLAST of Tan0003911 vs. NCBI nr
Match:
XP_008461609.1 (PREDICTED: protein MLP1 homolog [Cucumis melo])
HSP 1 Score: 1186.0 bits (3067), Expect = 0.0e+00
Identity = 631/681 (92.66%), Postives = 657/681 (96.48%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWL+LAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSI+Q
Sbjct: 1 MSWLKLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIKQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAAVSCRGPER QLL+RWLVVL+EVKKLS PSEEKAKTLEQHLAFEDAKESPR
Sbjct: 61 TIQRLEEAAVSCRGPERAQLLKRWLVVLKEVKKLSNAPSEEKAKTLEQHLAFEDAKESPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGITLSMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITLSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVD ELSNLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMS SPMSSNAD G SEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSGSPMSSNADSGPMSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE+HAQKIDKLKVLSESLSNSSVKAEKRITDHR QKEEALNVR TKA+E+GEKEKELA+E
Sbjct: 301 PEIHAQKIDKLKVLSESLSNSSVKAEKRITDHRTQKEEALNVRFTKASESGEKEKELASE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCKAESNVLN+WINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKAESNVLNIWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENL NLRQRSEESTLE+DESKVLSPT+NLEKEYLGYEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLMNLRQRSEESTLESDESKVLSPTSNLEKEYLGYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQAQVSRKDD RVQELF+DIEKLREKF+SIERPNLE+E PPPKPE ESREE
Sbjct: 541 DNMKEQFLAQQAQVSRKDDSRVQELFNDIEKLREKFESIERPNLEMETPPPKPEKESREE 600
Query: 601 LQ-SSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAE 660
++ SSV QPP E++KNS +ETGK PKLP V + EQTLDAAAELAKLESEFGKV HDYSAE
Sbjct: 601 VESSSVPQPPTEDNKNSKIETGKDPKLPAV-KVEQTLDAAAELAKLESEFGKVSHDYSAE 660
Query: 661 DIGEWEFDELERELRSGDSKN 681
DIGEWEFDELE+ELRSGDSK+
Sbjct: 661 DIGEWEFDELEKELRSGDSKS 680
BLAST of Tan0003911 vs. NCBI nr
Match:
XP_038892334.1 (uncharacterized protein LOC120081482 [Benincasa hispida])
HSP 1 Score: 1180.6 bits (3053), Expect = 0.0e+00
Identity = 626/681 (91.92%), Postives = 658/681 (96.62%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ
Sbjct: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAAVSCRGPER QLL+RWLVVL+EVKKLS+ P EEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAVSCRGPERAQLLKRWLVVLKEVKKLSDAPLEEKAKTLEQHLAFEDAKETPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAI+LYYDPDVGGEPMNFC+VFL SQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG
Sbjct: 121 KPAIILYYDPDVGGEPMNFCEVFLQSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISADLGRVD EL NLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADLGRVDTELYNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE+HAQKIDKLKVLSESLSNSSVKAEKRITDHR QKEEALNVR+TKA+E+GEKEKELA E
Sbjct: 301 PEIHAQKIDKLKVLSESLSNSSVKAEKRITDHRSQKEEALNVRITKASESGEKEKELAIE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEA+LKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAELKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCKAESNVL++W+NFLEDTWNIQCLYRENKEKEVNDALE HEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKAESNVLSIWLNFLEDTWNIQCLYRENKEKEVNDALENHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELE SISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV
Sbjct: 481 ELESSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQAQVSRKDD RV++LFDDIE+LREKF+SIERPNLEIE PPPKPENESREE
Sbjct: 541 DNMKEQFLAQQAQVSRKDDSRVKDLFDDIEELREKFESIERPNLEIETPPPKPENESREE 600
Query: 601 LQSS-VAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAE 660
++SS V QP E+ KNS +ETGK P+LP V + EQTLDAAAELAKLESEFGKV HDYS+E
Sbjct: 601 VESSNVPQPSMEDKKNSKIETGKHPELPAV-KVEQTLDAAAELAKLESEFGKVSHDYSSE 660
Query: 661 DIGEWEFDELERELRSGDSKN 681
DIGEWEFDELE+ELRSGDS+N
Sbjct: 661 DIGEWEFDELEKELRSGDSEN 680
BLAST of Tan0003911 vs. NCBI nr
Match:
KAG6601026.1 (hypothetical protein SDJN03_06259, partial [Cucurbita argyrosperma subsp. sororia])
HSP 1 Score: 1172.1 bits (3031), Expect = 0.0e+00
Identity = 619/680 (91.03%), Postives = 650/680 (95.59%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVE GNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGA+NFRS+RQ
Sbjct: 1 MSWLRLAVSKAVEAGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGAKNFRSVRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAA+SCRGPER QL++RWLVVL+EVKKLS+ PSEEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAMSCRGPERAQLMKRWLVVLKEVKKLSDAPSEEKAKTLEQHLAFEDAKENPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGIT+SMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITVSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNA+VSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISADLGRVD ELSNLK
Sbjct: 181 KEVHNAVVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSA+ MSSNADYG+TSEETTIETIEALKAALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSAARMSSNADYGRTSEETTIETIEALKAALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE HA KIDKLKVLSESLSNSSVKAEKRITDHR KEEALNVRLTKA+E G KEKEL +E
Sbjct: 301 PETHALKIDKLKVLSESLSNSSVKAEKRITDHRSHKEEALNVRLTKASEVGAKEKELTSE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCK ESNVLN+W+NFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKTESNVLNIWMNFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENLKNLRQRS+ESTLE+DESKVLSPTNN+EKEYL YEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLKNLRQRSQESTLESDESKVLSPTNNIEKEYLDYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQ QVSRKDD RVQELFDDIEKLREKF++IERPNLEIE PPPKPENESREE
Sbjct: 541 DNMKEQFLAQQTQVSRKDDSRVQELFDDIEKLREKFEAIERPNLEIETPPPKPENESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
+QSSV QPP E+SKN ETG PK P V +AEQTLD AAELA+LESEFGKV HDYSAED
Sbjct: 601 VQSSVPQPPLEDSKNPKDETGNYPKPPAV-KAEQTLDTAAELAQLESEFGKVAHDYSAED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 679
BLAST of Tan0003911 vs. NCBI nr
Match:
XP_022956991.1 (protein MLP1 homolog [Cucurbita moschata])
HSP 1 Score: 1167.5 bits (3019), Expect = 0.0e+00
Identity = 616/680 (90.59%), Postives = 649/680 (95.44%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVE GNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGA+NFRS+RQ
Sbjct: 1 MSWLRLAVSKAVEAGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGAKNFRSVRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAA+SCRGPER QL++RWLVVL+EVKKLS+ PSEEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAMSCRGPERAQLMKRWLVVLKEVKKLSDAPSEEKAKTLEQHLAFEDAKENPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGIT+SMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITVSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNA+VSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISAD GRVD ELSNLK
Sbjct: 181 KEVHNAVVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADFGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSA+ MSSNADYG+TSEETTIETIEALK+ALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSAARMSSNADYGRTSEETTIETIEALKSALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE HA KIDKLKVLSESLSNSSVKAEKRITDHR KEEALNVRLTKA+E G KEKEL +E
Sbjct: 301 PETHALKIDKLKVLSESLSNSSVKAEKRITDHRSHKEEALNVRLTKASEVGAKEKELTSE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCK ESNVLN+W+NFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKTESNVLNIWMNFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENLKNLRQRS+ESTLE+DESKVLSPTNN+EKEYL YEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLKNLRQRSQESTLESDESKVLSPTNNIEKEYLDYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQ QVSRKDD RVQELFDDIEKLREKF++IERPNLEIE PPPKPE+ESREE
Sbjct: 541 DNMKEQFLAQQTQVSRKDDSRVQELFDDIEKLREKFEAIERPNLEIETPPPKPEHESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
+QSSV QPP E+SKN ETG PK P V +AEQTLD AAELA+LESEFGKV HDYSAED
Sbjct: 601 VQSSVPQPPLEDSKNPKDETGNYPKPPAV-KAEQTLDTAAELAQLESEFGKVAHDYSAED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 679
BLAST of Tan0003911 vs. NCBI nr
Match:
XP_023540859.1 (protein MLP1 homolog [Cucurbita pepo subsp. pepo])
HSP 1 Score: 1166.4 bits (3016), Expect = 0.0e+00
Identity = 617/680 (90.74%), Postives = 649/680 (95.44%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVE GNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGA+NFRS+RQ
Sbjct: 1 MSWLRLAVSKAVEAGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGAKNFRSVRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAA+SCRGPER QL++RWLVVL+EVKKLS+ PSEEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAMSCRGPERAQLMKRWLVVLKEVKKLSDAPSEEKAKTLEQHLAFEDAKENPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGIT+SMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITVSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISADLGRVD ELSNLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSA+ MSSNADYG+TSEETTIETIEALKAALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSAARMSSNADYGRTSEETTIETIEALKAALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE HA KIDKLKVLSESLSNSSVKAEKRITDHR KEEALNVRLTKA+E G KEKEL +E
Sbjct: 301 PETHALKIDKLKVLSESLSNSSVKAEKRITDHRSHKEEALNVRLTKASEVGAKEKELTSE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELE+QRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELEKQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCK ESNVLN+W+NFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKTESNVLNIWMNFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
EL+PSISRIEKFVENLKNLRQRS+ESTLE+DESKVLSPTNN+EKEYL YEAKIITTFSVV
Sbjct: 481 ELDPSISRIEKFVENLKNLRQRSQESTLESDESKVLSPTNNIEKEYLDYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQ QVSRKDD RVQELFDDIEKLREKF++IERPNLEIE PPPKPENESREE
Sbjct: 541 DNMKEQFLAQQTQVSRKDDSRVQELFDDIEKLREKFEAIERPNLEIETPPPKPENESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
+QSSV QPP E+SKN ETG K P V +AEQTLD AAELA+LESEFGKV HDYSAED
Sbjct: 601 VQSSVPQPPLEDSKNPKDETGNYLKPPAV-KAEQTLDTAAELAQLESEFGKVAHDYSAED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 679
BLAST of Tan0003911 vs. ExPASy TrEMBL
Match:
A0A1S3CGE0 (protein MLP1 homolog OS=Cucumis melo OX=3656 GN=LOC103500172 PE=4 SV=1)
HSP 1 Score: 1186.0 bits (3067), Expect = 0.0e+00
Identity = 631/681 (92.66%), Postives = 657/681 (96.48%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWL+LAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSI+Q
Sbjct: 1 MSWLKLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIKQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAAVSCRGPER QLL+RWLVVL+EVKKLS PSEEKAKTLEQHLAFEDAKESPR
Sbjct: 61 TIQRLEEAAVSCRGPERAQLLKRWLVVLKEVKKLSNAPSEEKAKTLEQHLAFEDAKESPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGITLSMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITLSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVD ELSNLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMS SPMSSNAD G SEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSGSPMSSNADSGPMSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE+HAQKIDKLKVLSESLSNSSVKAEKRITDHR QKEEALNVR TKA+E+GEKEKELA+E
Sbjct: 301 PEIHAQKIDKLKVLSESLSNSSVKAEKRITDHRTQKEEALNVRFTKASESGEKEKELASE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCKAESNVLN+WINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKAESNVLNIWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENL NLRQRSEESTLE+DESKVLSPT+NLEKEYLGYEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLMNLRQRSEESTLESDESKVLSPTSNLEKEYLGYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQAQVSRKDD RVQELF+DIEKLREKF+SIERPNLE+E PPPKPE ESREE
Sbjct: 541 DNMKEQFLAQQAQVSRKDDSRVQELFNDIEKLREKFESIERPNLEMETPPPKPEKESREE 600
Query: 601 LQ-SSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAE 660
++ SSV QPP E++KNS +ETGK PKLP V + EQTLDAAAELAKLESEFGKV HDYSAE
Sbjct: 601 VESSSVPQPPTEDNKNSKIETGKDPKLPAV-KVEQTLDAAAELAKLESEFGKVSHDYSAE 660
Query: 661 DIGEWEFDELERELRSGDSKN 681
DIGEWEFDELE+ELRSGDSK+
Sbjct: 661 DIGEWEFDELEKELRSGDSKS 680
BLAST of Tan0003911 vs. ExPASy TrEMBL
Match:
A0A6J1GY03 (protein MLP1 homolog OS=Cucurbita moschata OX=3662 GN=LOC111458501 PE=4 SV=1)
HSP 1 Score: 1167.5 bits (3019), Expect = 0.0e+00
Identity = 616/680 (90.59%), Postives = 649/680 (95.44%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVE GNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGA+NFRS+RQ
Sbjct: 1 MSWLRLAVSKAVEAGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGAKNFRSVRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAA+SCRGPER QL++RWLVVL+EVKKLS+ PSEEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAMSCRGPERAQLMKRWLVVLKEVKKLSDAPSEEKAKTLEQHLAFEDAKENPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGIT+SMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITVSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNA+VSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISAD GRVD ELSNLK
Sbjct: 181 KEVHNAVVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADFGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSA+ MSSNADYG+TSEETTIETIEALK+ALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSAARMSSNADYGRTSEETTIETIEALKSALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE HA KIDKLKVLSESLSNSSVKAEKRITDHR KEEALNVRLTKA+E G KEKEL +E
Sbjct: 301 PETHALKIDKLKVLSESLSNSSVKAEKRITDHRSHKEEALNVRLTKASEVGAKEKELTSE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCK ESNVLN+W+NFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKTESNVLNIWMNFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENLKNLRQRS+ESTLE+DESKVLSPTNN+EKEYL YEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLKNLRQRSQESTLESDESKVLSPTNNIEKEYLDYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQ QVSRKDD RVQELFDDIEKLREKF++IERPNLEIE PPPKPE+ESREE
Sbjct: 541 DNMKEQFLAQQTQVSRKDDSRVQELFDDIEKLREKFEAIERPNLEIETPPPKPEHESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
+QSSV QPP E+SKN ETG PK P V +AEQTLD AAELA+LESEFGKV HDYSAED
Sbjct: 601 VQSSVPQPPLEDSKNPKDETGNYPKPPAV-KAEQTLDTAAELAQLESEFGKVAHDYSAED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 679
BLAST of Tan0003911 vs. ExPASy TrEMBL
Match:
A0A6J1J8R2 (protein MLP1 homolog OS=Cucurbita maxima OX=3661 GN=LOC111482769 PE=4 SV=1)
HSP 1 Score: 1166.0 bits (3015), Expect = 0.0e+00
Identity = 615/680 (90.44%), Postives = 649/680 (95.44%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVE GNNNNLTRVVKNYADTVVHHAGQAV+EGAKILQDRIGA+NFRS++Q
Sbjct: 1 MSWLRLAVSKAVEAGNNNNLTRVVKNYADTVVHHAGQAVSEGAKILQDRIGAKNFRSVKQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAA+SCRGPER QL++RWLVVL+EVKKLS+ PSEEKAKTLEQHLAFEDAKE+PR
Sbjct: 61 TIQRLEEAAMSCRGPERAQLMKRWLVVLKEVKKLSDAPSEEKAKTLEQHLAFEDAKENPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGIT+SMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITVSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSY+DEVLVKREELLQFAQSAISGLKISADLGRVD ELSNL+
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYDDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLR 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSA+ MSSNADYG+TSEETTIETIEALKAALSHIR+CSRVEGLLLK+KLLNNGDS
Sbjct: 241 TKLEGMSAARMSSNADYGRTSEETTIETIEALKAALSHIRICSRVEGLLLKRKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE HA KIDKLKVLSESLSNSSVKAEKRITDHR KEEALNVRLTKA+E G KEKEL +E
Sbjct: 301 PETHALKIDKLKVLSESLSNSSVKAEKRITDHRSHKEEALNVRLTKASEVGAKEKELTSE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLA AHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLALAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCK ESNVLN+W+NFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKTESNVLNIWMNFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENLKNLRQRS+ESTLE+DESKVLSPTNN+EKEYL YEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLKNLRQRSQESTLESDESKVLSPTNNIEKEYLDYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQ QVSRKDD RVQELFDDIEKLREKF++IERPNLEIE PPPKPENESREE
Sbjct: 541 DNMKEQFLAQQTQVSRKDDSRVQELFDDIEKLREKFEAIERPNLEIETPPPKPENESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
+QSSV QPP E+SKN ETG PK P V +AEQTLD AAELA+LESEFGKV HDYSAED
Sbjct: 601 VQSSVPQPPLEDSKNPKDETGNYPKPPAV-KAEQTLDTAAELAQLESEFGKVAHDYSAED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 679
BLAST of Tan0003911 vs. ExPASy TrEMBL
Match:
A0A6J1FRI4 (myosin-9-like OS=Cucurbita moschata OX=3662 GN=LOC111447785 PE=4 SV=1)
HSP 1 Score: 1158.7 bits (2996), Expect = 0.0e+00
Identity = 621/680 (91.32%), Postives = 643/680 (94.56%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARN RSIRQ
Sbjct: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNLRSIRQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEA+VSC PER QLLR WLVVL+EVKKLS+VPSEE AKTLEQHLAFEDAKESPR
Sbjct: 61 TIQRLEEASVSCGRPERAQLLRSWLVVLKEVKKLSDVPSEETAKTLEQHLAFEDAKESPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KP IVLYY+PDVGGEPMNF DVFLHSQALEGITLSMILEAP+EEEVSLLLDMFGLCLIGG
Sbjct: 121 KPDIVLYYEPDVGGEPMNFYDVFLHSQALEGITLSMILEAPDEEEVSLLLDMFGLCLIGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKI+ DLGRVD ELSNLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKINVDLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMSAS MSSNADYG TSEETT+ETIEALKAALSHIR+CSRV+ LL+KKK LNNGDS
Sbjct: 241 TKLEGMSASSMSSNADYGNTSEETTLETIEALKAALSHIRICSRVDELLMKKKFLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE+HAQKIDKLKVLSESLSNS VKAEK ITDHRLQKEEALNVRLTKATE GEKEKEL TE
Sbjct: 301 PEIHAQKIDKLKVLSESLSNSCVKAEKHITDHRLQKEEALNVRLTKATETGEKEKELTTE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL+S
Sbjct: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
ISSCKAESNVLNMWINFLEDTWNIQCL+RENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 ISSCKAESNVLNMWINFLEDTWNIQCLHRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENLKNLRQRSEES LENDESKVLSPTNNLE+EYLGYEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLKNLRQRSEESILENDESKVLSPTNNLEREYLGYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
D+M+EQFLAQQAQVSRKDD RVQELFDDIEKLR+ FDSIERPNLEIE PPP+ E ESREE
Sbjct: 541 DHMKEQFLAQQAQVSRKDDSRVQELFDDIEKLRQSFDSIERPNLEIETPPPRAEEESREE 600
Query: 601 LQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAED 660
QSSV QP AE+SKNS VETGKQ ++ AEQT+DAAAELAKLESEFGKV DYS ED
Sbjct: 601 AQSSVPQPSAEDSKNSKVETGKQLEVLPAVNAEQTVDAAAELAKLESEFGKVSLDYSTED 660
Query: 661 IGEWEFDELERELRSGDSKN 681
IGEWEFDELERELRSGDSKN
Sbjct: 661 IGEWEFDELERELRSGDSKN 680
BLAST of Tan0003911 vs. ExPASy TrEMBL
Match:
A0A0A0KLR7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G177660 PE=4 SV=1)
HSP 1 Score: 1157.5 bits (2993), Expect = 0.0e+00
Identity = 619/681 (90.90%), Postives = 648/681 (95.15%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSW++LAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARN RSI+Q
Sbjct: 1 MSWIKLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNLRSIKQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAAVSCRGPER QLL+RWLVVL+EVKKLS+ SEEKAKTLEQHL FEDAKESPR
Sbjct: 61 TIQRLEEAAVSCRGPERAQLLKRWLVVLKEVKKLSDASSEEKAKTLEQHLGFEDAKESPR 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
KPAIVLYYDPDVGGEPMNFCDVFL SQALEGITLSMILEAPNEEEVSLLLDMFGLCL+GG
Sbjct: 121 KPAIVLYYDPDVGGEPMNFCDVFLQSQALEGITLSMILEAPNEEEVSLLLDMFGLCLVGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVD ELSNLK
Sbjct: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDTELSNLK 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
TKLEGMS SPMSSNAD G+ SEETTIETIEALKAALSHIR+CSRVEGLLLKKKLLNNGDS
Sbjct: 241 TKLEGMSGSPMSSNADSGQMSEETTIETIEALKAALSHIRICSRVEGLLLKKKLLNNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
PE+HAQKIDKLKVLSESLSNSSVKAE+RITDHR QKEEALNVR TKA+E+GEKEKELA E
Sbjct: 301 PEIHAQKIDKLKVLSESLSNSSVKAERRITDHRTQKEEALNVRFTKASESGEKEKELAAE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IA LERQRDDIE QL+KVNISLAAAHARLRNMVEERDQFEEANNKIVAH+KTREDEL +S
Sbjct: 361 IAGLERQRDDIEDQLRKVNISLAAAHARLRNMVEERDQFEEANNKIVAHIKTREDELFKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
I+SCKAESNVLN+WINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK
Sbjct: 421 IASCKAESNVLNIWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFSVV 540
ELEPSISRIEKFVENL NLRQRSE+STLENDESKVLSPT+NLEKEYLGYEAKIITTFSVV
Sbjct: 481 ELEPSISRIEKFVENLMNLRQRSEKSTLENDESKVLSPTSNLEKEYLGYEAKIITTFSVV 540
Query: 541 DNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESREE 600
DNM+EQFLAQQAQVSRKDD RV+ELF+DIEKLREKF+SIERPNLEIE PE ESREE
Sbjct: 541 DNMKEQFLAQQAQVSRKDDSRVKELFNDIEKLREKFESIERPNLEIE----TPEKESREE 600
Query: 601 LQ-SSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAAELAKLESEFGKVGHDYSAE 660
++ SSV QPP E+SKNS +ETGK PKLP V E EQTLDAAAELAKLESEFGKV HDYSAE
Sbjct: 601 VESSSVPQPPMEDSKNSKIETGKDPKLPAV-EVEQTLDAAAELAKLESEFGKVSHDYSAE 660
Query: 661 DIGEWEFDELERELRSGDSKN 681
DIGEWEFDELE+ELRSGDSKN
Sbjct: 661 DIGEWEFDELEKELRSGDSKN 676
BLAST of Tan0003911 vs. TAIR 10
Match:
AT5G13560.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G37370.1); Has 12055 Blast hits to 8846 proteins in 811 species: Archae - 217; Bacteria - 1046; Metazoa - 6104; Fungi - 1115; Plants - 528; Viruses - 14; Other Eukaryotes - 3031 (source: NCBI BLink). )
HSP 1 Score: 733.0 bits (1891), Expect = 2.1e-211
Identity = 400/685 (58.39%), Postives = 529/685 (77.23%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLR AV+KAVEVGN N+TR VKNYAD+VV HAGQAVAEGAK+ QDRIG ++S+ Q
Sbjct: 1 MSWLRTAVNKAVEVGNRKNITRTVKNYADSVVQHAGQAVAEGAKLFQDRIGVGAYKSVHQ 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
TIQRLEEAAVS RG ER L+ RWL VL+E+ + ++ ++K + E+ LA ++AK
Sbjct: 61 TIQRLEEAAVSYRGQERALLITRWLSVLKEIDRATDSSLKDKQLSSEEQLASDEAK---- 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
K VLYYDPD+GGEP+NF DVFL SQALEGI LSMI+E P++EE++LLL+MFGLCL GG
Sbjct: 121 KREWVLYYDPDIGGEPLNFRDVFLQSQALEGIVLSMIIEPPHDEEITLLLEMFGLCLNGG 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVH+AIVSS+QDLA FSSY+DEVLVK++ELLQFAQ+AI+GLKI+A++ R+D E S+L+
Sbjct: 181 KEVHDAIVSSMQDLATVFSSYKDEVLVKQDELLQFAQNAITGLKINAEMLRIDAEASDLR 240
Query: 241 TKLEGMSASPMSSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNGDS 300
KLE M+AS + ++ K +ET + TIEA K L+ IR+CSR+EGLL++K+ L+NGDS
Sbjct: 241 KKLEKMNASQIPQESE-DKEHKETPL-TIEAFKETLAKIRLCSRLEGLLIRKRQLSNGDS 300
Query: 301 PELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELATE 360
P++HAQK+DKL+VL ESL+NS+ KAEKRI+++RLQKEEAL R+ KA E GEKEKEL E
Sbjct: 301 PDIHAQKVDKLRVLLESLANSTSKAEKRISENRLQKEEALKARVVKANETGEKEKELGAE 360
Query: 361 IAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELLRS 420
IA+LE+QRD++EA LK+VN+SLAAA AR RN EERDQF EANN+I+AHLKT++D+L +S
Sbjct: 361 IAQLEKQRDELEADLKRVNLSLAAAQARFRNATEERDQFGEANNQIIAHLKTKDDDLSKS 420
Query: 421 ISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAYKK 480
+ +CK E+ V+ WINFLEDTW +QC + E K+K+ D LEKHE YF ++A+++LS YKK
Sbjct: 421 VVACKKEAEVIKTWINFLEDTWLLQCSHIETKDKQTLDELEKHEDYFSDVALNILSVYKK 480
Query: 481 ELEPSISRIEKFVENLKNLRQRSEE-STLENDESKVLSPTNNLEKEYLGYEAKIITTFSV 540
E+ P ISRIE +VENLKNL SE+ + +++V +P LE+EY+ YE KIITTFS+
Sbjct: 481 EVAPLISRIENYVENLKNLGPGSEKPPNADQGDNQVSNPRKILEEEYIDYETKIITTFSI 540
Query: 541 VDNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESRE 600
VDN++EQF Q+++ +KDD RV+ELFDD+EK+R++F+SI RP LEIEIP P+ S +
Sbjct: 541 VDNVKEQFQVLQSKLDKKDDRRVKELFDDMEKMRQQFESIARPTLEIEIPSPRSSVTSPK 600
Query: 601 ELQSSVAQP-PAEESKNSNVET--GKQPKLPGVDEA-------EQTLDAAAELAKLESEF 660
+S P P+ S N++ E+ ++P+L +A Q + AELA+LESEF
Sbjct: 601 SSATSPKSPKPSSSSMNASTESTQTQKPELSNSPQAPNPAAGSSQEFNPEAELAELESEF 660
Query: 661 GKVGHDYSAEDIGEWEFDELERELR 675
GKV DYSA+++ WEFDELE+EL+
Sbjct: 661 GKVARDYSADEVDGWEFDELEKELQ 679
BLAST of Tan0003911 vs. TAIR 10
Match:
AT2G37370.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G13560.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )
HSP 1 Score: 583.2 bits (1502), Expect = 2.7e-166
Identity = 329/686 (47.96%), Postives = 464/686 (67.64%), Query Frame = 0
Query: 1 MSWLRLAVSKAVEVGNNNNLTRVVKNYADTVVHHAGQAVAEGAKILQDRIGARNFRSIRQ 60
MSWLR AV+KAVEVG NN+TR V+NYAD+VV AG AV+EGAK++QDRIG+RN +S
Sbjct: 1 MSWLRSAVNKAVEVGGKNNITRTVRNYADSVVLTAGNAVSEGAKLIQDRIGSRNVKSFSL 60
Query: 61 TIQRLEEAAVSCRGPERTQLLRRWLVVLREVKKLSEVPSEEKAKTLEQHLAFEDAKESPR 120
++RLEE +VS RG ER QLLRRWLV LRE++++S + + H ED SP+
Sbjct: 61 AVKRLEEVSVSSRGSERVQLLRRWLVALREIERMSYSCFDNNNHKTDDHTQSED---SPK 120
Query: 121 KPAIVLYYDPDVGGEPMNFCDVFLHSQALEGITLSMILEAPNEEEVSLLLDMFGLCLIGG 180
+ V Y DP + GEPM F DVFLHS+ALEG+ LSMILEAPNEEEV LLL++FGLCL G
Sbjct: 121 NFSTVYYVDPGLPGEPMTFRDVFLHSEALEGMVLSMILEAPNEEEVQLLLELFGLCLSGE 180
Query: 181 KEVHNAIVSSIQDLAKSFSSYEDEVLVKREELLQFAQSAISGLKISADLGRVDNELSNLK 240
KEVH A++ ++QDLA F Y+DEVL KREELLQ+ Q AI GLK+SAD+ R+D E L
Sbjct: 181 KEVHEAVIQNVQDLATVFLKYKDEVLAKREELLQYVQGAIGGLKLSADIARIDIEAHTLM 240
Query: 241 TKLEGMSASPM--SSNADYGKTSEETTIETIEALKAALSHIRMCSRVEGLLLKKKLLNNG 300
KL+ + +S+ D KT+ T EAL+ L +R S++E LLL+KK L+NG
Sbjct: 241 EKLDKTKVKVLEHASSEDASKTAAST-----EALREILEQVRTFSKLEALLLRKKSLHNG 300
Query: 301 DSPELHAQKIDKLKVLSESLSNSSVKAEKRITDHRLQKEEALNVRLTKATEAGEKEKELA 360
D+ + H +K+DKLKVLSESL NS+ KAEKRI DHR QKEEAL+ R++K TE G+ EK++A
Sbjct: 301 DTLQRHIEKVDKLKVLSESLLNSTSKAEKRIMDHRSQKEEALSYRVSKTTEVGQLEKDVA 360
Query: 361 TEIAELERQRDDIEAQLKKVNISLAAAHARLRNMVEERDQFEEANNKIVAHLKTREDELL 420
E+ +LE ++D+EA+LK+VN S+ +A ARLRN EER+QF+ A+N+I+ HLK++E+EL
Sbjct: 361 AELKKLEILKEDLEAELKRVNTSITSARARLRNAQEEREQFDNASNEILMHLKSKEEELT 420
Query: 421 RSISSCKAESNVLNMWINFLEDTWNIQCLYRENKEKEVNDALEKHEGYFVNLAIDLLSAY 480
RSI+SC+ E++V+N WI FLEDTW +Q + + K+ +V+ +E++ +F++L + LLS Y
Sbjct: 421 RSITSCRVEADVVNKWIKFLEDTWILQSKFSQQKDNQVSGEMERYSDHFIDLIVQLLSFY 480
Query: 481 KKELEPSISRIEKFVENLKNLRQRSEESTLENDESKVLSPTNNLEKEYLGYEAKIITTFS 540
K++L+P I +I V +L+ + E ++N ++K LEKEYL EAK +TT S
Sbjct: 481 KEQLDPYIPKIRGVVASLEPSKGLEAEKIIDNKDTKPFESRKQLEKEYLDLEAKFVTTLS 540
Query: 541 VVDNMREQFLAQQAQVSRKDDFRVQELFDDIEKLREKFDSIERPNLEIEIPPPKPENESR 600
VVD M++ F +Q +SRKDD RV+ELF+ ++K +++F++IERP L+IE P
Sbjct: 541 VVDAMKKPFYSQTEGISRKDDKRVKELFEVLDKTKQEFEAIERPLLDIESP--------- 600
Query: 601 EELQSSVAQPPAEESKNSNVETGKQPKLPGVDEAEQTLDAAA------ELAKLESEFGKV 660
SS ++ P+ + + + KL G D++ + ++ +LE E
Sbjct: 601 -SRTSSSSRSPSLKMTHETPLSDTVLKLSGGDDSPDSKKGSSGKEEDPAKKQLELELDVD 660
Query: 661 GHDYSAEDIGEWEFDELERELRSGDS 679
G ++ A++I +WEFD L+ L S S
Sbjct: 661 GEEFLADEINDWEFDALDETLTSKTS 668
The following BLAST results are available for this feature:
| Match Name | E-value | Identity | Description | |
|---|
| Match Name | E-value | Identity | Description | |
|---|
| A0A1S3CGE0 | 0.0e+00 | 92.66 | protein MLP1 homolog OS=Cucumis melo OX=3656 GN=LOC103500172 PE=4 SV=1 | [more] |
| A0A6J1GY03 | 0.0e+00 | 90.59 | protein MLP1 homolog OS=Cucurbita moschata OX=3662 GN=LOC111458501 PE=4 SV=1 | [more] |
| A0A6J1J8R2 | 0.0e+00 | 90.44 | protein MLP1 homolog OS=Cucurbita maxima OX=3661 GN=LOC111482769 PE=4 SV=1 | [more] |
| A0A6J1FRI4 | 0.0e+00 | 91.32 | myosin-9-like OS=Cucurbita moschata OX=3662 GN=LOC111447785 PE=4 SV=1 | [more] |
| A0A0A0KLR7 | 0.0e+00 | 90.90 | Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G177660 PE=4 SV=1 | [more] |
| Match Name | E-value | Identity | Description | |
|---|
| AT5G13560.1 | 2.1e-211 | 58.39 | unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... | [more] |
| AT2G37370.1 | 2.7e-166 | 47.96 | unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... | [more] |
