Spg019598 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg019598
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
Descriptionkinetochore protein NUF2 homolog
Locationscaffold5: 35846940 .. 35857408 (-)
RNA-Seq ExpressionSpg019598
SyntenySpg019598
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTCAAAGTATGAATTTCCGAGGCTTCCACGGGCAGATATTGCATTGCTACTAGCACAGTGTCAAATTGCTGCTGTAACAGAGCGGGACCTTCTTCACCCGTCACCAGATTTGGTTTCAGATCTTTACACACGTTTAATGATCTACCTTGACTTGCTCCATGAGGAAGACCAAGGACTAGTTGAGTTTGCTGCCTTGGATCAGCTTGAGAACCCCGATCTGCTTATGGATTCAGTTCGGATAATGAAGTTGCACAACAGAATAAAGCATGTCATTGCTTCTCTTGACTGTCCAAAAAAGTTTACATTGAAAGATTTGATAAAACCTGAAGGAGATAGGACTGGAATTTTCCTTAGTGCAATGTTGAACTTTTGCATTCACAAAGATGCCAAAATCACCCTCCATACTCCAGTTATGGATGAGCTGAGTACTCTTGGTGACCAGCAAAGGGAATGGGAGGTTAAGATTTCTCAGTTGAATGCAGAGATTGCAGAGTACAATGAAGCAAGAGAAAGGGAAATACCTTTCGTTCAAGAGATTGATGCTAAAGTGAAAGAACTACAACAGACTATTGGAGGACTTAACAATCAGCAGATGTCATTGCGTGCTTCTATCCGAAAGTTGAAAGACAAAGCTGGAGAAATGGATGAGAAGGTCATCCTGGGTCAAGTTAATACTTTTGAGAGGCTTTCAAGAGTGATGCCCCTGTGGTTGGCCCTTTTTGTTGCATCCTTTGTCGGAAAGCAGAGAGAGATCTTGATCATTTGTTGTGGGATTGTTGTTTTGCTCACTCTGTCTAGAGCTTCTTCTTTGAGGTTTTTGGGTTTCAAACTGCAGGCCAACGCAGTTGAGTTATTGCAGAATCCTGTTTCTTCTTTCTTTCATCAGAAAATTAAGGAAGACTTTGGAGTCATTAGGTTGATTAAGTTCTTTTCGGATAAAGAATGGTTCTTTGAATGCGCTGTTTGGCCTTCCACGGGTGGGAGGAGGACTATTCAAGTTCCAGCGGGCTTGAATAAGAAAGGTTGGTATGTATTTTGGGAAATGATTAGGGATTTCTCTCTCAAAATTCACTCTTATGAGAATCAGTCAAATCGGTTATTTTTTAACAATTTGGAGGGTCTTCCTGCTTTAGTTAATGACTCAGAAGGTCAAGTCTTTCCTAACTCCTATGCTGAAGTGGTTAAGCGAGGTGGCTCCATGAAGAATTCATTCTCCTTGGAAGATTCAGCTAGAAATGTTAAGATTGTTACTGAAGAAGCTTACTGGGTTCGTAAGAATTGGGATGTGCTGGAAATAGACTTGGAAAGTTCACTCGTTGTTTCTAGATTGATGGCCCATTATTCTTGGAAGAATGTTAAGATTGCCCTTGAGGATTTCTTTAAATCTTCAATCTTGATCAACCCCTTTATGGATGATAAAGCCTTGATTCAGGTGGCAGATGGTTGTTTGGATATTTCTATGAATGGCAAGTGGAAGAAATTTGGGAACCTTCACTTGAAATTGGAATTGTGGTCCTCTGAAATCCATTCACAGCCAAAATTAATAAAAAGCTACGGAGGATGGATTGCAATCAGAAATCTACCTTTGAATTTGTGGCATCGTGATTCCTTTGAAGCTATTGGAAAGAACCTTGGAGGGTTGGTTAGTATTTCATCCAATACGCTTAATTTATTAGATTGTTCTGAAGCCTTCATTGAAGTAGAAAAGAATTTTTGTGGCTTTATCCCTGCTGATATTAATGTTAAGATTGGTAATAAGTTTGAATTCTCTTTAAGATTTGGTGATATTAATGCATTAGAGGACAAAAATTTGAAGTTTGATTCAATTAGAAAGTTAAGTGTCAATGACTTTTCAAATTCCCTGGATGAAATTAGGGTTAAGCAAGTGATATTGGATGAAGAAGTGGACCTTGTTAATGAAGGGGTAAGGTTGAATGAATCGTCATTTATTTCTTGTTATCAGGAGGAATTTAATGCGGCAATGGGTTCTCCAAAAGTTGCTTCAATGCATGATGAGCATATTAATTACACAGGCTGTAATGAATCTCCCTCCAAGATGATTAATGACAGCAATTACAATTTGAAAGATGATATACAGCAGCGTTCGTCAAATATCAATTCTGAAAATGGGTTAATTCAGTCCAAAGAATTTGGGTTGGTTGAATTTTCAAAGAAGAAAAGTGCTTTGTTGCTGGAGAAGAATTTTAATGCCAACGGTAAGGTTTATAATGCCATCTGTTCAGATTTTAATGGAGCATTTTCTGATGGTGTTGTGCATGAGTCCCAAGATTTATTATCCACGCCTTTTCATGACCTTCCTTTGGGTTTGAATTGCTGTAATGTAGTAGAAGATGAATCGATTGTTCCTAAGGTTTTACTTTTAGAAAAGTCGGTTGAGTTACCAAAGGAAAAGGCTGAGATTTCACGTTCCAAGGAAGCATTAATGGAAGAAGTTAGTGTTAATTTCATTGGGCCGGTTGAGTTTGCAAAGGAGAAAAGTGCTTTGTTGCTGGAGAATGATTTTAATGCCAACGGTAAGGTTTTTAATGGCATCAATTCAGAGATTTGCAAAGCATTTACTGATGGTGCTTTGCATGAGTCCCAGGTTTTATTATTCTCGCCTATTCAAGACATTCCTTCGGGTTTGAAGTGCTGTAATGCAGTGGGCTTGGAATCAAATGAACCGTTTGTTCCTAAGGCTTTAAAGAAGAAATATGAATCATTTCCTCTTCATTATTCTCGAAGGAAATATGAAAAGTCAGAAATTTTGGACTCAATTCCCATTAATTCCAATTATAACCTTGATGTTATTGAAGAATCTTGTTCTCAATCTTTGCTCCCTGCTTTGAATCAGTCTAGATGCTGCCAAACTAATCTTAATGAGTTATCAAATTCCACATCATCCAATCAGTATATTCTTTCAAACATTCAATCTGACCCTTCTTTAACAAAGGGAGTTTTTATTCCTTCATCCAAAGTTGAAAACAAAGTTGATCAATCATATTCATCTCCTATTGATTCTGATAATGATTCAGTGGTGAGTATTAGTAGTGTAGAGGCTGAAAATCAGTATTTGAATGATGAAAACAATGAATTGTTGGAGGAAGATTCTTTTGCACTGGCTTTTAATCGGATTTTCCAGAATAATGAAGATATTTCTGAAGTTCAGTTGAATGATTGTGATGTTTCAGCAACACCCTTAGTATCTGTTCCAAGTAAATTTTCATCTCTACTAGAAGATTGTGACATTCAGTTGAAGGAAATTCAGCCCTTTTTACCCCCTGAGCAATCTGAAAATTGTGGAATTTCTTCAAGATTTCTGATTTCCATGGAATGGGATGTGATGTTTGATAAATCTAGAGTCTCCAAACAGTTTTCTTGTGAGAGAGATCAATTTAATGAGGTGTTGGGCTCTCCAAAAGGTGCTTCATTGCATGAAAAGGCCCTCATGAAGTCCAGCCGTTCAGGCCAAGTGGAGATAGTTTAG

Coding sequence (CDS)

ATGTCAAAGTATGAATTTCCGAGGCTTCCACGGGCAGATATTGCATTGCTACTAGCACAGTGTCAAATTGCTGCTGTAACAGAGCGGGACCTTCTTCACCCGTCACCAGATTTGGTTTCAGATCTTTACACACGTTTAATGATCTACCTTGACTTGCTCCATGAGGAAGACCAAGGACTAGTTGAGTTTGCTGCCTTGGATCAGCTTGAGAACCCCGATCTGCTTATGGATTCAGTTCGGATAATGAAGTTGCACAACAGAATAAAGCATGTCATTGCTTCTCTTGACTGTCCAAAAAAGTTTACATTGAAAGATTTGATAAAACCTGAAGGAGATAGGACTGGAATTTTCCTTAGTGCAATGTTGAACTTTTGCATTCACAAAGATGCCAAAATCACCCTCCATACTCCAGTTATGGATGAGCTGAGTACTCTTGGTGACCAGCAAAGGGAATGGGAGGTTAAGATTTCTCAGTTGAATGCAGAGATTGCAGAGTACAATGAAGCAAGAGAAAGGGAAATACCTTTCGTTCAAGAGATTGATGCTAAAGTGAAAGAACTACAACAGACTATTGGAGGACTTAACAATCAGCAGATGTCATTGCGTGCTTCTATCCGAAAGTTGAAAGACAAAGCTGGAGAAATGGATGAGAAGGTCATCCTGGGTCAAGTTAATACTTTTGAGAGGCTTTCAAGAGTGATGCCCCTGTGGTTGGCCCTTTTTGTTGCATCCTTTGTCGGAAAGCAGAGAGAGATCTTGATCATTTGTTGTGGGATTGTTGTTTTGCTCACTCTGTCTAGAGCTTCTTCTTTGAGGTTTTTGGGTTTCAAACTGCAGGCCAACGCAGTTGAGTTATTGCAGAATCCTGTTTCTTCTTTCTTTCATCAGAAAATTAAGGAAGACTTTGGAGTCATTAGGTTGATTAAGTTCTTTTCGGATAAAGAATGGTTCTTTGAATGCGCTGTTTGGCCTTCCACGGGTGGGAGGAGGACTATTCAAGTTCCAGCGGGCTTGAATAAGAAAGGTTGGTATGTATTTTGGGAAATGATTAGGGATTTCTCTCTCAAAATTCACTCTTATGAGAATCAGTCAAATCGGTTATTTTTTAACAATTTGGAGGGTCTTCCTGCTTTAGTTAATGACTCAGAAGGTCAAGTCTTTCCTAACTCCTATGCTGAAGTGGTTAAGCGAGGTGGCTCCATGAAGAATTCATTCTCCTTGGAAGATTCAGCTAGAAATGTTAAGATTGTTACTGAAGAAGCTTACTGGGTTCGTAAGAATTGGGATGTGCTGGAAATAGACTTGGAAAGTTCACTCGTTGTTTCTAGATTGATGGCCCATTATTCTTGGAAGAATGTTAAGATTGCCCTTGAGGATTTCTTTAAATCTTCAATCTTGATCAACCCCTTTATGGATGATAAAGCCTTGATTCAGGTGGCAGATGGTTGTTTGGATATTTCTATGAATGGCAAGTGGAAGAAATTTGGGAACCTTCACTTGAAATTGGAATTGTGGTCCTCTGAAATCCATTCACAGCCAAAATTAATAAAAAGCTACGGAGGATGGATTGCAATCAGAAATCTACCTTTGAATTTGTGGCATCGTGATTCCTTTGAAGCTATTGGAAAGAACCTTGGAGGGTTGGTTAGTATTTCATCCAATACGCTTAATTTATTAGATTGTTCTGAAGCCTTCATTGAAGTAGAAAAGAATTTTTGTGGCTTTATCCCTGCTGATATTAATGTTAAGATTGGTAATAAGTTTGAATTCTCTTTAAGATTTGGTGATATTAATGCATTAGAGGACAAAAATTTGAAGTTTGATTCAATTAGAAAGTTAAGTGTCAATGACTTTTCAAATTCCCTGGATGAAATTAGGGTTAAGCAAGTGATATTGGATGAAGAAGTGGACCTTGTTAATGAAGGGGTAAGGTTGAATGAATCGTCATTTATTTCTTGTTATCAGGAGGAATTTAATGCGGCAATGGGTTCTCCAAAAGTTGCTTCAATGCATGATGAGCATATTAATTACACAGGCTGTAATGAATCTCCCTCCAAGATGATTAATGACAGCAATTACAATTTGAAAGATGATATACAGCAGCGTTCGTCAAATATCAATTCTGAAAATGGGTTAATTCAGTCCAAAGAATTTGGGTTGGTTGAATTTTCAAAGAAGAAAAGTGCTTTGTTGCTGGAGAAGAATTTTAATGCCAACGGTAAGGTTTATAATGCCATCTGTTCAGATTTTAATGGAGCATTTTCTGATGGTGTTGTGCATGAGTCCCAAGATTTATTATCCACGCCTTTTCATGACCTTCCTTTGGGTTTGAATTGCTGTAATGTAGTAGAAGATGAATCGATTGTTCCTAAGGTTTTACTTTTAGAAAAGTCGGTTGAGTTACCAAAGGAAAAGGCTGAGATTTCACGTTCCAAGGAAGCATTAATGGAAGAAGTTAGTGTTAATTTCATTGGGCCGGTTGAGTTTGCAAAGGAGAAAAGTGCTTTGTTGCTGGAGAATGATTTTAATGCCAACGGTAAGGTTTTTAATGGCATCAATTCAGAGATTTGCAAAGCATTTACTGATGGTGCTTTGCATGAGTCCCAGGTTTTATTATTCTCGCCTATTCAAGACATTCCTTCGGGTTTGAAGTGCTGTAATGCAGTGGGCTTGGAATCAAATGAACCGTTTGTTCCTAAGGCTTTAAAGAAGAAATATGAATCATTTCCTCTTCATTATTCTCGAAGGAAATATGAAAAGTCAGAAATTTTGGACTCAATTCCCATTAATTCCAATTATAACCTTGATGTTATTGAAGAATCTTGTTCTCAATCTTTGCTCCCTGCTTTGAATCAGTCTAGATGCTGCCAAACTAATCTTAATGAGTTATCAAATTCCACATCATCCAATCAGTATATTCTTTCAAACATTCAATCTGACCCTTCTTTAACAAAGGGAGTTTTTATTCCTTCATCCAAAGTTGAAAACAAAGTTGATCAATCATATTCATCTCCTATTGATTCTGATAATGATTCAGTGGTGAGTATTAGTAGTGTAGAGGCTGAAAATCAGTATTTGAATGATGAAAACAATGAATTGTTGGAGGAAGATTCTTTTGCACTGGCTTTTAATCGGATTTTCCAGAATAATGAAGATATTTCTGAAGTTCAGTTGAATGATTGTGATGTTTCAGCAACACCCTTAGTATCTGTTCCAAGTAAATTTTCATCTCTACTAGAAGATTGTGACATTCAGTTGAAGGAAATTCAGCCCTTTTTACCCCCTGAGCAATCTGAAAATTGTGGAATTTCTTCAAGATTTCTGATTTCCATGGAATGGGATGTGATGTTTGATAAATCTAGAGTCTCCAAACAGTTTTCTTGTGAGAGAGATCAATTTAATGAGGTGTTGGGCTCTCCAAAAGGTGCTTCATTGCATGAAAAGGCCCTCATGAAGTCCAGCCGTTCAGGCCAAGTGGAGATAGTTTAG

Protein sequence

MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGLVEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSAMLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEIDAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKVILGQVNTFERLSRVMPLWLALFVASFVGKQREILIICCGIVVLLTLSRASSLRFLGFKLQANAVELLQNPVSSFFHQKIKEDFGVIRLIKFFSDKEWFFECAVWPSTGGRRTIQVPAGLNKKGWYVFWEMIRDFSLKIHSYENQSNRLFFNNLEGLPALVNDSEGQVFPNSYAEVVKRGGSMKNSFSLEDSARNVKIVTEEAYWVRKNWDVLEIDLESSLVVSRLMAHYSWKNVKIALEDFFKSSILINPFMDDKALIQVADGCLDISMNGKWKKFGNLHLKLELWSSEIHSQPKLIKSYGGWIAIRNLPLNLWHRDSFEAIGKNLGGLVSISSNTLNLLDCSEAFIEVEKNFCGFIPADINVKIGNKFEFSLRFGDINALEDKNLKFDSIRKLSVNDFSNSLDEIRVKQVILDEEVDLVNEGVRLNESSFISCYQEEFNAAMGSPKVASMHDEHINYTGCNESPSKMINDSNYNLKDDIQQRSSNINSENGLIQSKEFGLVEFSKKKSALLLEKNFNANGKVYNAICSDFNGAFSDGVVHESQDLLSTPFHDLPLGLNCCNVVEDESIVPKVLLLEKSVELPKEKAEISRSKEALMEEVSVNFIGPVEFAKEKSALLLENDFNANGKVFNGINSEICKAFTDGALHESQVLLFSPIQDIPSGLKCCNAVGLESNEPFVPKALKKKYESFPLHYSRRKYEKSEILDSIPINSNYNLDVIEESCSQSLLPALNQSRCCQTNLNELSNSTSSNQYILSNIQSDPSLTKGVFIPSSKVENKVDQSYSSPIDSDNDSVVSISSVEAENQYLNDENNELLEEDSFALAFNRIFQNNEDISEVQLNDCDVSATPLVSVPSKFSSLLEDCDIQLKEIQPFLPPEQSENCGISSRFLISMEWDVMFDKSRVSKQFSCERDQFNEVLGSPKGASLHEKALMKSSRSGQVEIV
Homology
[Close]
BLAST of Spg019598 vs. NCBI nr
Match: KAG6588803.1 (Kinetochore protein NUF2-like protein, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 393.3 bits (1009), Expect = 7.4e-105
Identity = 197/219 (89.95%), Postives = 208/219 (94.98%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 58  MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 117

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 118 VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 177

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 178 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 237

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 238 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 276

[Close]
BLAST of Spg019598 vs. NCBI nr
Match: XP_022927739.1 (probable kinetochore protein NUF2 [Cucurbita moschata] >XP_022927740.1 probable kinetochore protein NUF2 [Cucurbita moschata] >XP_022927741.1 probable kinetochore protein NUF2 [Cucurbita moschata] >KAG7022576.1 NUF2, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 393.3 bits (1009), Expect = 7.4e-105
Identity = 197/219 (89.95%), Postives = 208/219 (94.98%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 61  VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. NCBI nr
Match: XP_023529466.1 (probable kinetochore protein NUF2 [Cucurbita pepo subsp. pepo] >XP_023529467.1 probable kinetochore protein NUF2 [Cucurbita pepo subsp. pepo] >XP_023529468.1 probable kinetochore protein NUF2 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 393.3 bits (1009), Expect = 7.4e-105
Identity = 197/219 (89.95%), Postives = 208/219 (94.98%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 61  VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. NCBI nr
Match: XP_022989268.1 (probable kinetochore protein NUF2 [Cucurbita maxima] >XP_022989269.1 probable kinetochore protein NUF2 [Cucurbita maxima])

HSP 1 Score: 391.7 bits (1005), Expect = 2.2e-104
Identity = 196/219 (89.50%), Postives = 207/219 (94.52%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADI LLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIVLLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 61  VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. NCBI nr
Match: XP_038877491.1 (kinetochore protein NUF2 homolog [Benincasa hispida] >XP_038877492.1 kinetochore protein NUF2 homolog [Benincasa hispida])

HSP 1 Score: 389.0 bits (998), Expect = 1.4e-103
Identity = 199/219 (90.87%), Postives = 204/219 (93.15%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKY+FPRLPRADIALLLA  QIAAVTERDLLHPS DLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYDFPRLPRADIALLLADYQIAAVTERDLLHPSLDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAALDQLENPDL MDSV  MKL N+IKHVIASLDCPKKFTLKDLIKPE DRT IFLSA
Sbjct: 61  VEFAALDQLENPDLHMDSVSTMKLLNKIKHVIASLDCPKKFTLKDLIKPEADRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVMDEL+T GDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMDELNTFGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. ExPASy Swiss-Prot
Match: Q8RXJ0 (Kinetochore protein NUF2 homolog OS=Arabidopsis thaliana OX=3702 GN=NUF2 PE=1 SV=1)

HSP 1 Score: 229.6 bits (584), Expect = 1.9e-58
Identity = 111/228 (48.68%), Postives = 167/228 (73.25%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MS YE+PRL R+DI   L   QIA+VTE DL  P+ D VS+LYTR++IYLD L EE++G 
Sbjct: 1   MSAYEYPRLSRSDIITALKDAQIASVTETDLKTPTSDFVSELYTRILIYLDALDEEEKGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           V+F AL+QLENPD    S++ MKL+ ++K ++  LDCP   + KDL++PE  RT  F+SA
Sbjct: 61  VDFEALEQLENPDHHATSMQAMKLYCKVKDMLEMLDCPLPISFKDLLRPESSRTEFFISA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           +LN+ ++KD+K+ L  P  +EL  L +Q+++ E K++QLNAEI E++EA ER++PFVQE+
Sbjct: 121 LLNYGLYKDSKMDLIRPKAEELGLLDEQRKQCEAKVAQLNAEIGEFDEAVERDLPFVQEL 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKVILGQVNTFE 229
           +A +++L + I  LNNQQMSLRA+ +K+++K+ +MD ++   + +  E
Sbjct: 181 EANIEQLNKKILELNNQQMSLRATFQKMREKSTQMDNEISKAEFDLVE 228

[Close]
BLAST of Spg019598 vs. ExPASy Swiss-Prot
Match: Q10173 (Kinetochore protein nuf2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=nuf2 PE=1 SV=1)

HSP 1 Score: 52.8 bits (125), Expect = 3.1e-05
Identity = 47/186 (25.27%), Postives = 92/186 (49.46%), Query Frame = 0 

Query: 3   KYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLM-IYLDLLHEEDQGLV 62
           K+ FP L RA+I   +    I   T ++L  P+   V  LY   + +++ L  +  +  V
Sbjct: 4   KHTFPSLKRAEILECIDGLGI-PFTAKELDQPTSKAVIPLYEEFLDLFMGLTRQNLEEKV 63

Query: 63  EFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSAM 122
             +  D +EN +++ +S+R    +  +   + ++ C   FT++DL+KP+ +R  + LSA+
Sbjct: 64  N-SLQDSVENFEIIHESLRFTVFYQILSQFMQNI-CFHDFTIQDLLKPDRNRLQLILSAV 123

Query: 123 LNFCIHK-------DAKITLHTPVMDELSTLGDQQREWEVKI-----SQLNAE-IAEYNE 175
           +NF   +       D  I     +++  + L  Q+++ E K+      +L +E I + NE
Sbjct: 124 INFAKLREERLQQFDDDIQKRESLLETYTLLDAQRKDLEEKVLLSQDRKLESEAIIKQNE 183

[Close]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match: A0A6J1EIG6 (probable kinetochore protein NUF2 OS=Cucurbita moschata OX=3662 GN=LOC111434552 PE=3 SV=1)

HSP 1 Score: 393.3 bits (1009), Expect = 3.6e-105
Identity = 197/219 (89.95%), Postives = 208/219 (94.98%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 61  VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match: A0A6J1JNW1 (probable kinetochore protein NUF2 OS=Cucurbita maxima OX=3661 GN=LOC111486390 PE=3 SV=1)

HSP 1 Score: 391.7 bits (1005), Expect = 1.0e-104
Identity = 196/219 (89.50%), Postives = 207/219 (94.52%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADI LLLAQCQIAAVTERDLLHP+PDLVSDLYTRLMIYLD LHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIVLLLAQCQIAAVTERDLLHPAPDLVSDLYTRLMIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAAL+Q ENPDL MDSV+ MKL+NR+KHVIASLDCPKKFTLKDLIKP+ DRT IFLSA
Sbjct: 61  VEFAALEQFENPDLHMDSVQTMKLYNRVKHVIASLDCPKKFTLKDLIKPDPDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH PVM+EL+TL DQQREWEVKISQLNAEIAEYNEARERE+PFVQEI
Sbjct: 121 MLNFCIHKDAKINLHAPVMNELNTLDDQQREWEVKISQLNAEIAEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQMSLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQMSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match: A0A1S4E5E4 (probable kinetochore protein NUF2 OS=Cucumis melo OX=3656 GN=LOC103503319 PE=3 SV=1)

HSP 1 Score: 369.4 bits (947), Expect = 5.5e-98
Identity = 188/219 (85.84%), Postives = 198/219 (90.41%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADIALLLA  QIAAVTERDLL PSPDLVSDLYT LMIYLDLLHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIALLLADNQIAAVTERDLLQPSPDLVSDLYTHLMIYLDLLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           +EFAALDQLENPDL M SV  MKLHN+IKH IASLDCPKKFTLKDLIKPE DRT IFLSA
Sbjct: 61  IEFAALDQLENPDLHMVSVPTMKLHNKIKHFIASLDCPKKFTLKDLIKPEADRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           +LNF IHKDAK+  H PVM+EL T  DQQREWEVKISQLNAEI EYNEARERE+PFVQEI
Sbjct: 121 ILNFGIHKDAKMNFHAPVMNELDTFADQQREWEVKISQLNAEITEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQ+SLRA+IRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQVSLRAAIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match: A0A6J1DWL1 (probable kinetochore protein NUF2 OS=Momordica charantia OX=3673 GN=LOC111024175 PE=3 SV=1)

HSP 1 Score: 367.1 bits (941), Expect = 2.8e-97
Identity = 187/219 (85.39%), Postives = 200/219 (91.32%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKY   RLP ADIALLLAQ QIAAVTE DLLHPSPDLVSDLYTRL+IYLD LHEEDQG 
Sbjct: 1   MSKYGLLRLPPADIALLLAQFQIAAVTEGDLLHPSPDLVSDLYTRLLIYLDFLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           VEFAALDQLENPDL MDSVRIMKL+ ++KHVIASLDC KKFTLKDLIKP+ DRT IFLS 
Sbjct: 61  VEFAALDQLENPDLHMDSVRIMKLNLKLKHVIASLDCSKKFTLKDLIKPDTDRTEIFLST 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           MLNFCIHKDAKI LH P+++E++TLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQ+I
Sbjct: 121 MLNFCIHKDAKIVLHAPIINEVNTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQDI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL Q IGGLNNQQMSLRASIRKLK+K GEMDEK+
Sbjct: 181 DAKVKELHQIIGGLNNQQMSLRASIRKLKEKVGEMDEKI 219

[Close]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match: A0A0A0KNL7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G488740 PE=3 SV=1)

HSP 1 Score: 366.3 bits (939), Expect = 4.7e-97
Identity = 187/219 (85.39%), Postives = 196/219 (89.50%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MSKYEFPRLPRADI LLLA  QIAAVTERDLL PSPDLVSDLYT LMIYLDLLHEEDQG 
Sbjct: 1   MSKYEFPRLPRADIVLLLADNQIAAVTERDLLQPSPDLVSDLYTHLMIYLDLLHEEDQGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           +EFAALDQLENPDL M SV  MKLHN+IKH IASLDCPKKFTLKDLIKPE DRT IFLSA
Sbjct: 61  IEFAALDQLENPDLHMVSVPTMKLHNKIKHFIASLDCPKKFTLKDLIKPETDRTEIFLSA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           +LNF IHKDAK+  H PVM+EL T  DQQREWEVK SQLNAEI EYNEARERE+PFVQEI
Sbjct: 121 ILNFGIHKDAKMNFHAPVMNELDTFADQQREWEVKTSQLNAEITEYNEAREREMPFVQEI 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKV 220
           DAKVKEL QTIGGLNNQQ+SLRASIRKLK+KAGEMDEK+
Sbjct: 181 DAKVKELHQTIGGLNNQQVSLRASIRKLKEKAGEMDEKI 219

[Close]
BLAST of Spg019598 vs. TAIR 10
Match: AT1G61000.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: mitosis; LOCATED IN: plasma membrane; EXPRESSED IN: cultured cell; CONTAINS InterPro DOMAIN/s: Kinetochore protein Nuf2 (InterPro:IPR005549); Has 50972 Blast hits to 29793 proteins in 2070 species: Archae - 902; Bacteria - 7404; Metazoa - 23628; Fungi - 4156; Plants - 2312; Viruses - 158; Other Eukaryotes - 12412 (source: NCBI BLink). )

HSP 1 Score: 229.6 bits (584), Expect = 1.3e-59
Identity = 111/228 (48.68%), Postives = 167/228 (73.25%), Query Frame = 0 

Query: 1   MSKYEFPRLPRADIALLLAQCQIAAVTERDLLHPSPDLVSDLYTRLMIYLDLLHEEDQGL 60
           MS YE+PRL R+DI   L   QIA+VTE DL  P+ D VS+LYTR++IYLD L EE++G 
Sbjct: 1   MSAYEYPRLSRSDIITALKDAQIASVTETDLKTPTSDFVSELYTRILIYLDALDEEEKGQ 60

Query: 61  VEFAALDQLENPDLLMDSVRIMKLHNRIKHVIASLDCPKKFTLKDLIKPEGDRTGIFLSA 120
           V+F AL+QLENPD    S++ MKL+ ++K ++  LDCP   + KDL++PE  RT  F+SA
Sbjct: 61  VDFEALEQLENPDHHATSMQAMKLYCKVKDMLEMLDCPLPISFKDLLRPESSRTEFFISA 120

Query: 121 MLNFCIHKDAKITLHTPVMDELSTLGDQQREWEVKISQLNAEIAEYNEAREREIPFVQEI 180
           +LN+ ++KD+K+ L  P  +EL  L +Q+++ E K++QLNAEI E++EA ER++PFVQE+
Sbjct: 121 LLNYGLYKDSKMDLIRPKAEELGLLDEQRKQCEAKVAQLNAEIGEFDEAVERDLPFVQEL 180

Query: 181 DAKVKELQQTIGGLNNQQMSLRASIRKLKDKAGEMDEKVILGQVNTFE 229
           +A +++L + I  LNNQQMSLRA+ +K+++K+ +MD ++   + +  E
Sbjct: 181 EANIEQLNKKILELNNQQMSLRATFQKMREKSTQMDNEISKAEFDLVE 228

The following BLAST results are available for this feature:
BLAST of Spg019598 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG6588803.17.4e-10589.95Kinetochore protein NUF2-like protein, partial [Cucurbita argyrosperma subsp. so... [more]
XP_022927739.17.4e-10589.95probable kinetochore protein NUF2 [Cucurbita moschata] >XP_022927740.1 probable ... [more]
XP_023529466.17.4e-10589.95probable kinetochore protein NUF2 [Cucurbita pepo subsp. pepo] >XP_023529467.1 p... [more]
XP_022989268.12.2e-10489.50probable kinetochore protein NUF2 [Cucurbita maxima] >XP_022989269.1 probable ki... [more]
XP_038877491.11.4e-10390.87kinetochore protein NUF2 homolog [Benincasa hispida] >XP_038877492.1 kinetochore... [more]
BLAST of Spg019598 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8RXJ01.9e-5848.68Kinetochore protein NUF2 homolog OS=Arabidopsis thaliana OX=3702 GN=NUF2 PE=1 SV... [more]
Q101733.1e-0525.27Kinetochore protein nuf2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) ... [more]
BLAST of Spg019598 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1EIG63.6e-10589.95probable kinetochore protein NUF2 OS=Cucurbita moschata OX=3662 GN=LOC111434552 ... [more]
A0A6J1JNW11.0e-10489.50probable kinetochore protein NUF2 OS=Cucurbita maxima OX=3661 GN=LOC111486390 PE... [more]
A0A1S4E5E45.5e-9885.84probable kinetochore protein NUF2 OS=Cucumis melo OX=3656 GN=LOC103503319 PE=3 S... [more]
A0A6J1DWL12.8e-9785.39probable kinetochore protein NUF2 OS=Momordica charantia OX=3673 GN=LOC111024175... [more]
A0A0A0KNL74.7e-9785.39Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G488740 PE=3 SV=1[more]
BLAST of Spg019598 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G61000.11.3e-5948.68FUNCTIONS IN: molecular_function unknown; INVOLVED IN: mitosis; LOCATED IN: plas... [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 177..197
NoneNo IPR availableCOILSCoilCoilcoord: 149..169
NoneNo IPR availableCOILSCoilCoilcoord: 1016..1036
NoneNo IPR availablePANTHERPTHR21650MEMBRALIN/KINETOCHORE PROTEIN NUF2coord: 1..218
NoneNo IPR availablePANTHERPTHR21650:SF2KINETOCHORE PROTEIN NUF2coord: 1..218
IPR025558Domain of unknown function DUF4283PFAMPF14111DUF4283coord: 493..558
e-value: 8.4E-10
score: 38.3
IPR005549Kinetochore protein Nuf2, N-terminalPFAMPF03800Nuf2coord: 3..141
e-value: 1.4E-24
score: 86.8
IPR038275Nuf2, N-terminal domain superfamilyGENE3D1.10.418.60Ncd80 complex, Nuf2 subunitcoord: 1..164
e-value: 2.7E-32
score: 113.9

Relationships

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

Feature NameUnique NameType
Spg019598.1Spg019598.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0051315 attachment of mitotic spindle microtubules to kinetochore
biological_process GO:0051301 cell division
biological_process GO:0051383 kinetochore organization
biological_process GO:0045132 meiotic chromosome segregation
biological_process GO:0007052 mitotic spindle organization
cellular_component GO:0031262 Ndc80 complex
cellular_component GO:0000776 kinetochore
molecular_function GO:0044877 protein-containing complex binding