Spg034664 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg034664
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
Descriptionmitotic spindle checkpoint protein MAD1
Locationscaffold7: 45741354 .. 45753001 (+)
RNA-Seq ExpressionSpg034664
SyntenySpg034664
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTGCTTAAACAAGGCTGAAGATGTGGATCATTTGTTCCTAAGATGCAGCTTTGCTTACTCTGGGTGGAACTTCCTAGCAAACCTGTTGGGATTGTCTTGGTGCCTTCCAAATCACATTGAAGACTGGATGGTGGAAGGTTTATATGGATGGAACTTGCGGGGCAAAGCCAACGTGATCAGCTTGTGTGCTTTTAGAGCCTTCGTGTGGGCTTTATGGAAAGAAAGAAACAGCAAAACTTTTGAAGATAAGCTTATAGATTTCGATCCCTTTTCTGCTGCTATATGTGTTTTAGAAATCAAGAAACCCAAATTCATCTCTTCGGCAATTGCATATATGCCTCATCCTTTTGGACCTATCTCCCCCAAACTTTTGAGTGGCACATTGATGGGTTCTTCAGAAGACACTAGAAGATGGTCCCTTGATTCCTGGAGTGTTTTCTCTGTCAAGTCTTTATCATGTTACTTGGCTTTTGCTTCTCCTATGGATAATGAGGTTTATTTTGCTTTATGGAAATCTAATACTCTCCTTATTATTCTTTTGAGTTTCCAGTGCTCTTTGACCAATGGGGAAGCGGTGGAGATTGTAGCTCTCGTCTTTGATAGGGGAGCTTCATGGCTGCTCAATCCCTCCTCCGATCTTGAGTCTATCTTTTCTGTTCTATGGAGGGTGAAAATTCCTAAGAAGGGCAGGAACTTCAAATGTATCGGGGAGATGATTGAGGAGTTCCTCTTCCATCCGCCATTCAGAGATAAGGAGGAGGGAGTTATGGCTTGCCGGGAATCAGAGAGAAAAAAATTTCTAGATCAGTTATCATACACACAGCAAGAACTTGCTGCTGCAAGGGGACGTGAAAAAGTTTTGCAAGAGCAATTAATAAAAGAAATTAATGATTCTGGGGAAAAATTGAAAAAGCAAATGCAAATGAGCAGTGAACTGGAGCTTGATAAGTTCTCCCGTCATCTAGTATGCTATATCTTGAATCTGAATATGGCAAAGGAATATCTTGATCATTTGCTTTGGGGTTGTGATTATGCCTTGTTCCAAGGGGTTGTGATCATTTGCTTTGAGGTTTTTGGCTTGCAATTCGCTAGGCATCGAGGGTGTAGGGATATGATTCAGGAGTTCCTTCTCCATTCGTCTTTTTGGGAGAAAGGAAGGTTCTTCGGGCTCGTTGGAATTTGTGTTGTTCTTTGGGATTTGTGGGGGGAGAGGAATAGTAGATTCTTTAGAGGGATCAAGAGATTGCCTTGTGATGTAAAGTTGCAAAATGAATCAAACCTTCGGATGAAAGCTGAGTCTTCAATCGCATTGGCAGAAGAGAAAGCAAGTCTCTTAGAAGATAAATTAAACCATCTTTCTGAAAGCATAGAAAGAGAAAGGAAACATCTTCATAATGAGCTTGCACAGTTAAAAGGAGAATCAAAGCTTTCTGTTTCAAGAATAAATGCAGATCTGGAAAAAATGGTTTGCAGAGCTGGTAATGCTGAGAAGGAATCTGAGCTACTAAAAGAGCAGATGGAAGACTTGAAGAAGCAGCTTAATGAGCTCGCGCCATACTCGTTGTCGCCGTCTCTGCTTTTCGTCTCTGTTGCTTCTTCATCTTGTGACCAGTTCTGTCTGTCAGCTTGCACTGTCGGTCATCTGTCGTTCGTTTGA

Coding sequence (CDS)

ATGTGCTTAAACAAGGCTGAAGATGTGGATCATTTGTTCCTAAGATGCAGCTTTGCTTACTCTGGGTGGAACTTCCTAGCAAACCTGTTGGGATTGTCTTGGTGCCTTCCAAATCACATTGAAGACTGGATGGTGGAAGGTTTATATGGATGGAACTTGCGGGGCAAAGCCAACGTGATCAGCTTGTGTGCTTTTAGAGCCTTCGTGTGGGCTTTATGGAAAGAAAGAAACAGCAAAACTTTTGAAGATAAGCTTATAGATTTCGATCCCTTTTCTGCTGCTATATGTGTTTTAGAAATCAAGAAACCCAAATTCATCTCTTCGGCAATTGCATATATGCCTCATCCTTTTGGACCTATCTCCCCCAAACTTTTGAGTGGCACATTGATGGGTTCTTCAGAAGACACTAGAAGATGGTCCCTTGATTCCTGGAGTGTTTTCTCTGTCAAGTCTTTATCATGTTACTTGGCTTTTGCTTCTCCTATGGATAATGAGGTTTATTTTGCTTTATGGAAATCTAATACTCTCCTTATTATTCTTTTGAGTTTCCAGTGCTCTTTGACCAATGGGGAAGCGGTGGAGATTGTAGCTCTCGTCTTTGATAGGGGAGCTTCATGGCTGCTCAATCCCTCCTCCGATCTTGAGTCTATCTTTTCTGTTCTATGGAGGGTGAAAATTCCTAAGAAGGGCAGGAACTTCAAATGTATCGGGGAGATGATTGAGGAGTTCCTCTTCCATCCGCCATTCAGAGATAAGGAGGAGGGAGTTATGGCTTGCCGGGAATCAGAGAGAAAAAAATTTCTAGATCAGTTATCATACACACAGCAAGAACTTGCTGCTGCAAGGGGACGTGAAAAAGTTTTGCAAGAGCAATTAATAAAAGAAATTAATGATTCTGGGGAAAAATTGAAAAAGCAAATGCAAATGAGCAGTGAACTGGAGCTTGATAAGTTCTCCCGTCATCTAGTATGCTATATCTTGAATCTGAATATGGCAAAGGAATATCTTGATCATTTGCTTTGGGGTTGTGATTATGCCTTGTTCCAAGGGGTTGTGATCATTTGCTTTGAGGTTTTTGGCTTGCAATTCGCTAGGCATCGAGGGTGTAGGGATATGATTCAGGAGTTCCTTCTCCATTCGTCTTTTTGGGAGAAAGGAAGGTTCTTCGGGCTCGTTGGAATTTGTGTTGTTCTTTGGGATTTGTGGGGGGAGAGGAATAGTAGATTCTTTAGAGGGATCAAGAGATTGCCTTGTGATGTAAAGTTGCAAAATGAATCAAACCTTCGGATGAAAGCTGAGTCTTCAATCGCATTGGCAGAAGAGAAAGCAAGTCTCTTAGAAGATAAATTAAACCATCTTTCTGAAAGCATAGAAAGAGAAAGGAAACATCTTCATAATGAGCTTGCACAGTTAAAAGGAGAATCAAAGCTTTCTGTTTCAAGAATAAATGCAGATCTGGAAAAAATGGTTTGCAGAGCTGGTAATGCTGAGAAGGAATCTGAGCTACTAAAAGAGCAGATGGAAGACTTGAAGAAGCAGCTTAATGAGCTCGCGCCATACTCGTTGTCGCCGTCTCTGCTTTTCGTCTCTGTTGCTTCTTCATCTTGTGACCAGTTCTGTCTGTCAGCTTGCACTGTCGGTCATCTGTCGTTCGTTTGA

Protein sequence

MCLNKAEDVDHLFLRCSFAYSGWNFLANLLGLSWCLPNHIEDWMVEGLYGWNLRGKANVISLCAFRAFVWALWKERNSKTFEDKLIDFDPFSAAICVLEIKKPKFISSAIAYMPHPFGPISPKLLSGTLMGSSEDTRRWSLDSWSVFSVKSLSCYLAFASPMDNEVYFALWKSNTLLIILLSFQCSLTNGEAVEIVALVFDRGASWLLNPSSDLESIFSVLWRVKIPKKGRNFKCIGEMIEEFLFHPPFRDKEEGVMACRESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSRHLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHSSFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAEEKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKESELLKEQMEDLKKQLNELAPYSLSPSLLFVSVASSSCDQFCLSACTVGHLSFV
Homology
[Close]
BLAST of Spg034664 vs. NCBI nr
Match: KAG6601670.1 (Mitotic spindle checkpoint protein MAD1, partial [Cucurbita argyrosperma subsp. sororia] >KAG7032439.1 Mitotic spindle checkpoint protein MAD1 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 207.6 bits (527), Expect = 2.7e-49
Identity = 140/256 (54.69%), Postives = 145/256 (56.64%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAAARGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAAARGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNESNLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQNESNLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. NCBI nr
Match: XP_038876538.1 (mitotic spindle checkpoint protein MAD1 isoform X1 [Benincasa hispida])

HSP 1 Score: 207.6 bits (527), Expect = 2.7e-49
Identity = 139/256 (54.30%), Postives = 146/256 (57.03%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAAARGREKVLQEQLIKE+NDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAAARGREKVLQEQLIKEVNDSGERLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNESNLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQNESNLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNHLSESIERE+K LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKARLLEDKLNHLSESIEREKKRLHTELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. NCBI nr
Match: XP_022933081.1 (mitotic spindle checkpoint protein MAD1 [Cucurbita moschata])

HSP 1 Score: 204.9 bits (520), Expect = 1.8e-48
Identity = 138/256 (53.91%), Postives = 145/256 (56.64%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFL+QL YT+QELAAARGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLEQLLYTEQELAAARGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNE+NLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQNEANLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. NCBI nr
Match: XP_022997454.1 (mitotic spindle checkpoint protein MAD1 [Cucurbita maxima])

HSP 1 Score: 202.6 bits (514), Expect = 8.8e-48
Identity = 137/256 (53.52%), Postives = 143/256 (55.86%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAA RGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAATRGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQ E+NLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQKEANLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. NCBI nr
Match: XP_023530274.1 (mitotic spindle checkpoint protein MAD1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 202.6 bits (514), Expect = 8.8e-48
Identity = 137/256 (53.52%), Postives = 143/256 (55.86%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAAARGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAAARGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNE+NLRMKAES IAL+E
Sbjct: 220 ---------------------------------------VKLQNEANLRMKAESLIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKM CRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMACRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. ExPASy Swiss-Prot
Match: Q9LTY1 (Mitotic spindle checkpoint protein MAD1 OS=Arabidopsis thaliana OX=3702 GN=MAD1 PE=1 SV=1)

HSP 1 Score: 118.6 bits (296), Expect = 2.2e-25
Identity = 101/284 (35.56%), Postives = 126/284 (44.37%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ++ERK F D+  Y++QELAAA+ REK+LQEQL+ EIN+S E+  K++Q   ELE      
Sbjct: 99  DAERKHFRDKFLYSEQELAAAKAREKMLQEQLLMEINNSQERYTKELQSCHELE------ 158

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 159 ------------------------------------------------------------ 218

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNE NLR KAESS A AE
Sbjct: 219 ---------------------------------------VKLQNEMNLRKKAESSAATAE 277

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKL  LS S++RE+K L+N++AQL  E+KLSV+RI ADLE+M CRA NAE ES
Sbjct: 279 EKAKLLEDKLTQLSGSVDREKKRLNNDIAQLGKEAKLSVARIGADLERMQCRAQNAETES 277

Query: 501 ELLKEQMEDLKKQLNELAPYSLSPS---LLFVSVASSSCDQFCL 542
            LL+ Q+E LK   +E              F S A+SS D   L
Sbjct: 339 NLLRSQLEHLKLIFDECLQEKTEVDKKLSSFTSEAASSSDNSVL 277

[Close]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match: A0A6J1EY58 (mitotic spindle checkpoint protein MAD1 OS=Cucurbita moschata OX=3662 GN=LOC111439783 PE=3 SV=1)

HSP 1 Score: 204.9 bits (520), Expect = 8.6e-49
Identity = 138/256 (53.91%), Postives = 145/256 (56.64%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFL+QL YT+QELAAARGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLEQLLYTEQELAAARGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNE+NLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQNEANLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match: A0A6J1KBD3 (mitotic spindle checkpoint protein MAD1 OS=Cucurbita maxima OX=3661 GN=LOC111492363 PE=3 SV=1)

HSP 1 Score: 202.6 bits (514), Expect = 4.3e-48
Identity = 137/256 (53.52%), Postives = 143/256 (55.86%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAA RGREKVLQEQLIKEINDSGE+LKKQMQ+SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAATRGREKVLQEQLIKEINDSGEQLKKQMQISSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQ E+NLRMKAESSIAL+E
Sbjct: 220 ---------------------------------------VKLQKEANLRMKAESSIALSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNH SESIERERK LH ELAQLKGESKLSVSRINADLEKMVCRA NAEKES
Sbjct: 280 EKAKLLEDKLNHFSESIERERKRLHGELAQLKGESKLSVSRINADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match: A0A5A7UFY3 (Mitotic spindle checkpoint protein MAD1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold131G00890 PE=3 SV=1)

HSP 1 Score: 197.6 bits (501), Expect = 1.4e-46
Identity = 135/256 (52.73%), Postives = 143/256 (55.86%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAAARGREKVLQEQLIKEI+DSGE+LKKQ+Q SSELE      
Sbjct: 169 ESERKKFLDQLLYTEQELAAARGREKVLQEQLIKEISDSGERLKKQLQTSSELE------ 228

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 229 ------------------------------------------------------------ 288

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNESNLR+KAESSIA +E
Sbjct: 289 ---------------------------------------VKLQNESNLRIKAESSIASSE 319

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNHLSESIERERKHL  ELAQL+GESKLSVSRINADL KMVCRA NAEKES
Sbjct: 349 EKARLLEDKLNHLSESIERERKHLDTELAQLRGESKLSVSRINADLAKMVCRASNAEKES 319

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 409 ELLKEQLEDLKKQLNE 319

[Close]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match: A0A1S3CCD1 (mitotic spindle checkpoint protein MAD1 OS=Cucumis melo OX=3656 GN=LOC103499375 PE=3 SV=1)

HSP 1 Score: 197.6 bits (501), Expect = 1.4e-46
Identity = 135/256 (52.73%), Postives = 143/256 (55.86%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ESERKKFLDQL YT+QELAAARGREKVLQEQLIKEI+DSGE+LKKQ+Q SSELE      
Sbjct: 100 ESERKKFLDQLLYTEQELAAARGREKVLQEQLIKEISDSGERLKKQLQTSSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNESNLR+KAESSIA +E
Sbjct: 220 ---------------------------------------VKLQNESNLRIKAESSIASSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKLNHLSESIERERKHL  ELAQL+GESKLSVSRINADL KMVCRA NAEKES
Sbjct: 280 EKARLLEDKLNHLSESIERERKHLDTELAQLRGESKLSVSRINADLAKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match: A0A6J1DQU7 (mitotic spindle checkpoint protein MAD1 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111022291 PE=3 SV=1)

HSP 1 Score: 196.1 bits (497), Expect = 4.0e-46
Identity = 131/256 (51.17%), Postives = 145/256 (56.64%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           E ERKK+LDQL YT+QELAA+RGREKVLQEQLIKE+NDSGE+LKKQ+Q++SELE      
Sbjct: 100 EVERKKYLDQLLYTEQELAASRGREKVLQEQLIKEVNDSGEQLKKQIQINSELE------ 159

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 160 ------------------------------------------------------------ 219

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  +KLQNESNLR KAESSIA +E
Sbjct: 220 ---------------------------------------IKLQNESNLRTKAESSIASSE 250

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKASLLEDKLNHLS+SIERE+K LHNELAQLKGESKLSVSRI+ADLEKMVCRA NAEKES
Sbjct: 280 EKASLLEDKLNHLSQSIEREKKRLHNELAQLKGESKLSVSRISADLEKMVCRASNAEKES 250

Query: 501 ELLKEQMEDLKKQLNE 517
           ELLKEQ+EDLKKQLNE
Sbjct: 340 ELLKEQLEDLKKQLNE 250

[Close]
BLAST of Spg034664 vs. TAIR 10
Match: AT5G49880.1 (mitotic checkpoint family protein )

HSP 1 Score: 118.6 bits (296), Expect = 1.6e-26
Identity = 101/284 (35.56%), Postives = 126/284 (44.37%), Query Frame = 0 

Query: 261 ESERKKFLDQLSYTQQELAAARGREKVLQEQLIKEINDSGEKLKKQMQMSSELELDKFSR 320
           ++ERK F D+  Y++QELAAA+ REK+LQEQL+ EIN+S E+  K++Q   ELE      
Sbjct: 99  DAERKHFRDKFLYSEQELAAAKAREKMLQEQLLMEINNSQERYTKELQSCHELE------ 158

Query: 321 HLVCYILNLNMAKEYLDHLLWGCDYALFQGVVIICFEVFGLQFARHRGCRDMIQEFLLHS 380
                                                                       
Sbjct: 159 ------------------------------------------------------------ 218

Query: 381 SFWEKGRFFGLVGICVVLWDLWGERNSRFFRGIKRLPCDVKLQNESNLRMKAESSIALAE 440
                                                  VKLQNE NLR KAESS A AE
Sbjct: 219 ---------------------------------------VKLQNEMNLRKKAESSAATAE 277

Query: 441 EKASLLEDKLNHLSESIERERKHLHNELAQLKGESKLSVSRINADLEKMVCRAGNAEKES 500
           EKA LLEDKL  LS S++RE+K L+N++AQL  E+KLSV+RI ADLE+M CRA NAE ES
Sbjct: 279 EKAKLLEDKLTQLSGSVDREKKRLNNDIAQLGKEAKLSVARIGADLERMQCRAQNAETES 277

Query: 501 ELLKEQMEDLKKQLNELAPYSLSPS---LLFVSVASSSCDQFCL 542
            LL+ Q+E LK   +E              F S A+SS D   L
Sbjct: 339 NLLRSQLEHLKLIFDECLQEKTEVDKKLSSFTSEAASSSDNSVL 277

The following BLAST results are available for this feature:
BLAST of Spg034664 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG6601670.12.7e-4954.69Mitotic spindle checkpoint protein MAD1, partial [Cucurbita argyrosperma subsp. ... [more]
XP_038876538.12.7e-4954.30mitotic spindle checkpoint protein MAD1 isoform X1 [Benincasa hispida][more]
XP_022933081.11.8e-4853.91mitotic spindle checkpoint protein MAD1 [Cucurbita moschata][more]
XP_022997454.18.8e-4853.52mitotic spindle checkpoint protein MAD1 [Cucurbita maxima][more]
XP_023530274.18.8e-4853.52mitotic spindle checkpoint protein MAD1 [Cucurbita pepo subsp. pepo][more]
BLAST of Spg034664 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9LTY12.2e-2535.56Mitotic spindle checkpoint protein MAD1 OS=Arabidopsis thaliana OX=3702 GN=MAD1 ... [more]
BLAST of Spg034664 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1EY588.6e-4953.91mitotic spindle checkpoint protein MAD1 OS=Cucurbita moschata OX=3662 GN=LOC1114... [more]
A0A6J1KBD34.3e-4853.52mitotic spindle checkpoint protein MAD1 OS=Cucurbita maxima OX=3661 GN=LOC111492... [more]
A0A5A7UFY31.4e-4652.73Mitotic spindle checkpoint protein MAD1 OS=Cucumis melo var. makuwa OX=1194695 G... [more]
A0A1S3CCD11.4e-4652.73mitotic spindle checkpoint protein MAD1 OS=Cucumis melo OX=3656 GN=LOC103499375 ... [more]
A0A6J1DQU74.0e-4651.17mitotic spindle checkpoint protein MAD1 isoform X2 OS=Momordica charantia OX=367... [more]
BLAST of Spg034664 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G49880.11.6e-2635.56mitotic checkpoint family protein [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 422..474
NoneNo IPR availableCOILSCoilCoilcoord: 486..517
NoneNo IPR availablePANTHERPTHR23168:SF0MITOTIC SPINDLE ASSEMBLY CHECKPOINT PROTEIN MAD1coord: 420..517
coord: 261..315
IPR008672Spindle assembly checkpoint component Mad1PANTHERPTHR23168MITOTIC SPINDLE ASSEMBLY CHECKPOINT PROTEIN MAD1 MITOTIC ARREST DEFICIENT-LIKE PROTEIN 1coord: 420..517
coord: 261..315

Relationships

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

Feature NameUnique NameType
Spg034664.1Spg034664.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0007094 mitotic spindle assembly checkpoint signaling
cellular_component GO:0043229 intracellular organelle