Sed0013889 (gene) Chayote v1

Overview
NameSed0013889
Typegene
OrganismSechium edule (Chayote v1)
DescriptionKAT8 regulatory NSL complex subunit 2
LocationLG09: 28758749 .. 28776628 (-)
RNA-Seq ExpressionSed0013889
SyntenySed0013889
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGTCGATAAGATTCTACGGTGTGAGGTCACTGGTTGCAAGGTAAAGGCAAAGGCATTGACAGAATACTGTTATGCTCATATCCTCTCAAATAAAAGCAAAGGCTCTACAAGGGTTGCACCTTTTATGCAGTCAGGCCCTCTTATATGTTCGAAGACTGTTTTAAGATCTACTGTTCCTTTCTATTGCCTTGGTCATCTACAAAAAGGCGAAAAATGTTTAGCTAGAGATTTAAGAAAAGCGAGTCTTAACGTCTCCTCCACTAGTAAGCTTTGCCCCGATTTCCATGTATTGCTAGTCGAATGCATTCGAAACATACAACACAAAAGGAGGGCAACAAGAAAGGAAATTGCTGTTAAAACTAAGACCAACTAA

Coding sequence (CDS)

ATGGTCGATAAGATTCTACGGTGTGAGGTCACTGGTTGCAAGGTAAAGGCAAAGGCATTGACAGAATACTGTTATGCTCATATCCTCTCAAATAAAAGCAAAGGCTCTACAAGGGTTGCACCTTTTATGCAGTCAGGCCCTCTTATATGTTCGAAGACTGTTTTAAGATCTACTGTTCCTTTCTATTGCCTTGGTCATCTACAAAAAGGCGAAAAATGTTTAGCTAGAGATTTAAGAAAAGCGAGTCTTAACGTCTCCTCCACTAGTAAGCTTTGCCCCGATTTCCATGTATTGCTAGTCGAATGCATTCGAAACATACAACACAAAAGGAGGGCAACAAGAAAGGAAATTGCTGTTAAAACTAAGACCAACTAA

Protein sequence

MVDKILRCEVTGCKVKAKALTEYCYAHILSNKSKGSTRVAPFMQSGPLICSKTVLRSTVPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIAVKTKTN
Homology
[Close]
BLAST of Sed0013889 vs. NCBI nr
Match: XP_022953677.1 (INO80 complex subunit D-like [Cucurbita moschata] >XP_022991632.1 INO80 complex subunit D-like [Cucurbita maxima] >XP_023548640.1 INO80 complex subunit D-like [Cucurbita pepo subsp. pepo] >KAG7014493.1 INO80 complex subunit D, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 178.3 bits (451), Expect = 4.0e-41
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ EC+R IQ KRRA RK  A
Sbjct: 176 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAECVRQIQVKRRAARKATA 235

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 236 VKIESN 241

[Close]
BLAST of Sed0013889 vs. NCBI nr
Match: KAG6575969.1 (INO80 complex subunit D, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 178.3 bits (451), Expect = 4.0e-41
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 164 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 223

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ EC+R IQ KRRA RK  A
Sbjct: 224 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAECVRQIQVKRRAARKATA 283

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 284 VKIESN 289

[Close]
BLAST of Sed0013889 vs. NCBI nr
Match: XP_038896100.1 (INO80 complex subunit D-like isoform X2 [Benincasa hispida] >XP_038896101.1 INO80 complex subunit D-like isoform X2 [Benincasa hispida])

HSP 1 Score: 176.8 bits (447), Expect = 1.2e-40
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ E +R IQ KRRATRK  A
Sbjct: 176 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAEFVRQIQSKRRATRKATA 235

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 236 VKIESN 241

[Close]
BLAST of Sed0013889 vs. NCBI nr
Match: XP_038896099.1 (uncharacterized protein LOC120084404 isoform X1 [Benincasa hispida])

HSP 1 Score: 176.8 bits (447), Expect = 1.2e-40
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 222 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 281

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ E +R IQ KRRATRK  A
Sbjct: 282 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAEFVRQIQSKRRATRKATA 341

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 342 VKIESN 347

[Close]
BLAST of Sed0013889 vs. NCBI nr
Match: XP_008447279.1 (PREDICTED: INO80 complex subunit D-like isoform X1 [Cucumis melo])

HSP 1 Score: 174.9 bits (442), Expect = 4.4e-40
Identity = 88/126 (69.84%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ E +R IQ KRRAT++  A
Sbjct: 176 VPCYCSGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLIAEYVRQIQSKRRATKRATA 235

Query: 123 VKTKTN 125
           +K ++N
Sbjct: 236 IKIESN 241

[Close]
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match: A0A6J1JMD6 (KAT8 regulatory NSL complex subunit 2 OS=Cucurbita maxima OX=3661 GN=LOC111488191 PE=4 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 1.9e-41
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ EC+R IQ KRRA RK  A
Sbjct: 176 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAECVRQIQVKRRAARKATA 235

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 236 VKIESN 241

[Close]
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match: A0A6J1GNX0 (KAT8 regulatory NSL complex subunit 2 OS=Cucurbita moschata OX=3662 GN=LOC111456134 PE=4 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 1.9e-41
Identity = 91/126 (72.22%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ EC+R IQ KRRA RK  A
Sbjct: 176 VPCYCPGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLVAECVRQIQVKRRAARKATA 235

Query: 123 VKTKTN 125
           VK ++N
Sbjct: 236 VKIESN 241

[Close]
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match: A0A0A0K4I2 (KAT8 regulatory NSL complex subunit 2 OS=Cucumis sativus OX=3659 GN=Csa_7G337070 PE=4 SV=1)

HSP 1 Score: 174.9 bits (442), Expect = 2.1e-40
Identity = 88/126 (69.84%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ E +R IQ KRRAT++  A
Sbjct: 176 VPCYCSGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLIAEYVRQIQSKRRATKRATA 235

Query: 123 VKTKTN 125
           +K ++N
Sbjct: 236 IKIESN 241

[Close]
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match: A0A1S3BH19 (KAT8 regulatory NSL complex subunit 2 OS=Cucumis melo OX=3656 GN=LOC103489752 PE=4 SV=1)

HSP 1 Score: 174.9 bits (442), Expect = 2.1e-40
Identity = 88/126 (69.84%), Postives = 101/126 (80.16%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D+I RC+VTGCK KA ALT+YC+AHILS+K     KG T V   MQSGPL+CSK VLRST
Sbjct: 116 DEIRRCDVTGCKAKAMALTKYCHAHILSDKKQRLYKGCTFVIKSMQSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LNVSSTSKL PDFHVL+ E +R IQ KRRAT++  A
Sbjct: 176 VPCYCSGHLQKGEKCLARDLRKAGLNVSSTSKLRPDFHVLIAEYVRQIQSKRRATKRATA 235

Query: 123 VKTKTN 125
           +K ++N
Sbjct: 236 IKIESN 241

[Close]
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match: A0A6J1DAF9 (KAT8 regulatory NSL complex subunit 2 OS=Momordica charantia OX=3673 GN=LOC111018675 PE=4 SV=1)

HSP 1 Score: 169.5 bits (428), Expect = 9.0e-39
Identity = 88/126 (69.84%), Postives = 98/126 (77.78%), Query Frame = 0 

Query: 3   DKILRCEVTGCKVKAKALTEYCYAHILSNKS----KGSTRVAPFMQSGPLICSKTVLRST 62
           D I RC+VTGCKVKA A+T+YC+AHILS+      KG T V   M SGPL+CSK VLRST
Sbjct: 116 DDIRRCDVTGCKVKAMAMTKYCHAHILSDSKQRLYKGCTFVIKSMPSGPLLCSKPVLRST 175

Query: 63  VPFYCLGHLQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIA 122
           VP YC GHLQKGEKCLARDLRKA LN+SSTSKL P+ HVLL E +R IQ KRRA RK  A
Sbjct: 176 VPCYCPGHLQKGEKCLARDLRKAGLNISSTSKLRPELHVLLSEYVRQIQLKRRAMRKATA 235

Query: 123 VKTKTN 125
           VKT+TN
Sbjct: 236 VKTETN 241

[Close]
BLAST of Sed0013889 vs. TAIR 10
Match: AT2G31600.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G53860.1); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 94.7 bits (234), Expect = 5.4e-20
Identity = 51/114 (44.74%), Postives = 68/114 (59.65%), Query Frame = 0 

Query: 12  GCKVKAKALTEYCYAHILSNKSK----GSTRVAPFMQSGPLICSKTVLRSTVPFYCLGHL 71
           GCK KA ALT+YC  HIL +  +    G T V     +GPL+C K  L STVP  C  H 
Sbjct: 180 GCKAKAMALTKYCQLHILKDSKQKLYTGCTNVIKRAPAGPLLCGKPTLASTVPALCNIHF 239

Query: 72  QKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIAVKT 122
           QK +K +A+ L+ A  NVSSTSK  P  HV++   + +IQ KR+  +KE  +K+
Sbjct: 240 QKAQKHVAKALKDAGHNVSSTSKPPPKLHVIVAAFVHHIQAKRKNPQKECKLKS 293

[Close]
BLAST of Sed0013889 vs. TAIR 10
Match: AT3G53860.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G31600.1); Has 70 Blast hits to 70 proteins in 17 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 66; Viruses - 0; Other Eukaryotes - 4 (source: NCBI BLink). )

HSP 1 Score: 91.7 bits (226), Expect = 4.6e-19
Identity = 50/114 (43.86%), Postives = 67/114 (58.77%), Query Frame = 0 

Query: 12  GCKVKAKALTEYCYAHILSNKSK----GSTRVAPFMQSGPLICSKTVLRSTVPFYCLGHL 71
           GCK KA ALT+YC  HIL +  +    G T V     +GPL+C K  L STVP  C  H 
Sbjct: 160 GCKAKAMALTKYCQLHILKDSKQKLYTGCTNVINRSPAGPLLCGKPTLASTVPVLCNVHY 219

Query: 72  QKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIAVKT 122
           QK +K +A+ L+ A  NVSSTSK  P  HV++   + +IQ +R+   KE  +K+
Sbjct: 220 QKAQKNVAKALKDAGHNVSSTSKPPPKLHVIVAAFVHHIQAQRKNPHKEGKLKS 273

[Close]
BLAST of Sed0013889 vs. TAIR 10
Match: AT1G05860.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 20 plant structures; EXPRESSED DURING: 11 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G31600.1); Has 101 Blast hits to 100 proteins in 32 species: Archae - 0; Bacteria - 0; Metazoa - 28; Fungi - 2; Plants - 66; Viruses - 0; Other Eukaryotes - 5 (source: NCBI BLink). )

HSP 1 Score: 83.2 bits (204), Expect = 1.6e-16
Identity = 49/115 (42.61%), Postives = 64/115 (55.65%), Query Frame = 0 

Query: 11  TGCKVKAKALTEYCYAHILSNKSK----GSTRVAPFMQSGPLICSKTVLRSTVPFYCLGH 70
           +GCK KA ALT YC  HIL +K +      T V    QS  + C K  L STVP  C  H
Sbjct: 158 SGCKSKAMALTNYCQLHILMDKKQKLYTSCTYVNKRAQSKAITCPKPTLASTVPALCNVH 217

Query: 71  LQKGEKCLARDLRKASLNVSSTSKLCPDFHVLLVECIRNIQHKRRATRKEIAVKT 122
            QK +K +AR L+ A  NVSS S+  P  H ++   + +IQ KR+  RKE  +K+
Sbjct: 218 FQKAQKDVARALKDAGHNVSSASRPPPKLHDIVAAFVHHIQAKRKDPRKEGKLKS 272

The following BLAST results are available for this feature:
BLAST of Sed0013889 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022953677.14.0e-4172.22INO80 complex subunit D-like [Cucurbita moschata] >XP_022991632.1 INO80 complex ... [more]
KAG6575969.14.0e-4172.22INO80 complex subunit D, partial [Cucurbita argyrosperma subsp. sororia][more]
XP_038896100.11.2e-4072.22INO80 complex subunit D-like isoform X2 [Benincasa hispida] >XP_038896101.1 INO8... [more]
XP_038896099.11.2e-4072.22uncharacterized protein LOC120084404 isoform X1 [Benincasa hispida][more]
XP_008447279.14.4e-4069.84PREDICTED: INO80 complex subunit D-like isoform X1 [Cucumis melo][more]
BLAST of Sed0013889 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sed0013889 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1JMD61.9e-4172.22KAT8 regulatory NSL complex subunit 2 OS=Cucurbita maxima OX=3661 GN=LOC11148819... [more]
A0A6J1GNX01.9e-4172.22KAT8 regulatory NSL complex subunit 2 OS=Cucurbita moschata OX=3662 GN=LOC111456... [more]
A0A0A0K4I22.1e-4069.84KAT8 regulatory NSL complex subunit 2 OS=Cucumis sativus OX=3659 GN=Csa_7G337070... [more]
A0A1S3BH192.1e-4069.84KAT8 regulatory NSL complex subunit 2 OS=Cucumis melo OX=3656 GN=LOC103489752 PE... [more]
A0A6J1DAF99.0e-3969.84KAT8 regulatory NSL complex subunit 2 OS=Momordica charantia OX=3673 GN=LOC11101... [more]
BLAST of Sed0013889 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G31600.15.4e-2044.74unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G53860.14.6e-1943.86unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G05860.11.6e-1642.61unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR025927Potential DNA-binding domainPFAMPF13891zf-C3Hc3Hcoord: 8..66
e-value: 3.7E-7
score: 30.4
IPR026316KAT8 regulatory NSL complex subunit 2PANTHERPTHR13453UNCHARACTERIZEDcoord: 3..123
NoneNo IPR availablePANTHERPTHR13453:SF7DOMAIN PROTEIN, PUTATIVE-RELATEDcoord: 3..123

Relationships

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

Feature NameUnique NameType
Sed0013889.1Sed0013889.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0043984 histone H4-K16 acetylation
biological_process GO:0043981 histone H4-K5 acetylation
biological_process GO:0043982 histone H4-K8 acetylation
cellular_component GO:0044545 NSL complex
cellular_component GO:0000123 histone acetyltransferase complex
molecular_function GO:0005524 ATP binding
molecular_function GO:0046983 protein dimerization activity