Bhi07G001156 (gene) Wax gourd (B227) v1

Overview
NameBhi07G001156
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionDNL-type domain-containing protein
Locationchr7: 41844465 .. 41852155 (+)
RNA-Seq ExpressionBhi07G001156
SyntenyBhi07G001156
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GCCACTAGCCAGTTACCAAAGAATGAAAGAATACCAAATTACCAATACTGTTCGTTCGTCAAGTGTCGTTGGTTAATTGGAGGCTGCAGGAAAAGGAAAACGACATGTCGGCTTTCTAGAGTATGAAGAGAGCACCAGGAGGAAAGCTTACTGTATAAGCGACAACTTCATCCATGGCCGCGGCAAAGACTGTATACTTCTCTTCTCCCGCGCTTCTTCACCACTCCTTCAACTCTTCGGAGACTCGGCCGCTTTCATCTATCAACTCATTCAAATCTATACTCTTTTCAAAAGCAAACCCTAGCAATGGCGTCTTCATTAGGAGTAGAAACTTCCGCACTGTACCAGTTACTCGGGAACGCAGATATAAGGTGCTTACGGTTTCTAGGTTGGTGGATGGTTATCCTGGAGACGACGATGAATCTGCACAGAGAAATTCGGATACGGCGGCAGCCATTGACATAAAGCTTCCAAGAAGAAGTTTGATGGTAACGTTTACTTGTAACCAATGTAGTGAGAGAACGAAGAGGCTCATCAATCGGTTAGCTTATGAACGGGGGCTTGTTTTTGTTCAGTGTGCAGGGTGTCAGAAGTATCACAAATTGGTTGATAATCTTGGCCTTATAGTAGAGTATGACTTCCGGGAGGAGGACATGGATATGGACTCAAATTCAGATCAAGTTTGATATGGTTCAACGATGTCATTTTCCTTTGCAACACAATCTTGAAAATTCATGCAGAAGGCTGATGCACCCCTCTTTTTCCCTTATCCCTCCTGGGTTCTTTGCAATCCTATCTATTCCTCCAGGGACGGATATATCACCAGGATATAACACAGTTTGGCACACAAAATGGATTGTTATTTATAGCATTTGATCGGGGTATAGGTAGGCTTATAACTGCAGCTAGTCATGTTGGGCTTATATCTACAGCTAGCCATGTTGATGTATAACTCTGACCATCATATGCTTCATATGAGCTGATAAGGATTATTAAAAAATTCAGGTTCCAATTTGCAAGGAATTATCAGTACTTATTTCAAAGGTCGATGTTTCAATCTCCAACCCTTGCAATTGTTGAACTCTAGAAAAGGAATGATCAATTTACTACTTGCTCGCTTATTGTTAGATACAAATGGACATATGCACTCTGATCATCTCATTTCCATTACAAACAGAACAATATGTGGAAAATGTTATGCATCTTAGTAATAAATTTTGATGGATGATGCGTAATAGCTAGAGGTGGAGTGTTTTCTTTCTTTTGCTTCTTTCTCCTCCTCAGCTGAAAGAATTGTTGCATTACATCAGCACATTCAGATCCCAACACACCTCGCCGGATCGTCATTTTCGGGTGGAATGGGTGGACGGGTGCAGCAGACTTCTCGGACTGTTCTGAGACATTTCCCTCCCCACCATCAGGAAAAAGTCTGTGTAAAAGGTAAAACAAATCAGAGCAAATATGAAAGATTATAAATTGATAAACCCAAAATAACAGGACACATCAAAATTTCAATTTCTGAAACTTTTTCACATACACATTATAACCAGAAATTTTACTTCAATCTGCTCAATCAAACTCAGACTGACTAAGCAATTCACAAAATACCATTGAATGAAAAGAAAGTCCAATTATTATTGTAATCAGTAGATAATTTGATCGTAAAATGCTTACCTGATCCAGCTGCCATCAGCTCCAAGAAGCTTATTTGGTGCTCCCCACACAAGATTTTCTATTCGTGCTTGTAGTATCGCTCCAGCACACATAGGACACGGCTCAAGTGTCACGTAAAGAGTTGTGTCCTGTGAATATAAAACATGATCGAAGTCAAATTAGATATCACAATAGTTCTTCTAAAGAAAACAATAAGATCCTATGCAAAGGAAATCCGTTCTAGTGTTCTACACAGACATTTCAGCAAGCCGAGGTGTATATTACAGCCCTTAAACTATGGTGTATGGATGCTCTCTCCCATCAAAAGACATCCGGTTCTTCAATACCAATCATATGTTTAATAGTAATAAAAAGCATTATGCTCAATTAAGAACACCATATGATAAATAGGTGATAGAAGTAGTAACAGAAAATTACAGCAAGCCTCCATGTCTTTAATTGCTTTGAAGCCTCCCGAATACAAATCATTTCTGCATGGGCTGTGGAATCTCGCAACTCTTCGACCCTAAAAAATGAACTCATCAACATCCAAATAATAGCAATTAAGTGAACAAGATAGGCATTCCGCCAAAGTACTTACAGGTTGCAGCCACGAGCAATAATCTTTCCATGTTTCACCAATACTGCTCCAACAGGCACTTCCCAAGTATCTGCAGCCTTCTTGGCTTCAGCTAGTGCTTCCCTCATGAATATTTCATCAATTTTTCGCTGCTCAGTTTCGAGTAGATATGCTTCTTCCCATTCATCAAACCTGTCTTTTAGAACTTGCTTGTTTCTTTGAAGCTTCCTCTGTTTCACTTCCACATCCTTGGTTCCAGTTGTTGATATATCTGATAGTGTAGCATCAGAAGAATGCCCCAACTGATCTGCAGAGCTGCTTGCAAAGGCATCAGTTTTACCACTACGAAACATTTCTTGAATAGAAGATCCTCTTATGCCTTGGGTAGACAGTGGTAATGATGACTGTTCTATATCCAAACCAGAAGAAATAACGTCAACCTTCCTACCATCAGTTAAGATGGCTTCTCCAGAAACTAACAAAGTCCCACCTGATGGTTTGGTCTCCATTATATTTGGGAAAGATGTATTATCTACTTCAGAGTATATACTTTTGGCTGTCTTATCATCAGATAAATCTTGGCCTTGGGCAGAAAGATTTGGTTCTTCCAACTGATCCAAATAAGTGAATTCAGAAACTGTGGTCCTTTCCATTTTCTTATTATCAGTCTCCTCATGTTCACGGCCAGAAAACCAGGTCTCATTACTAACAGACTCATTTGGTGAATTTCTTCCTCCTGATCTTAAAGCTGACTCAGAGGTTTCAGCACGTGAATTCCAACGGAGACGAACTATGTCTGAAATGACATTCCACAAGGATTTGCCACTTCTCTTGACAATTGCATTCTCACTGTGTGCACTAATCTCAGGATCATCAGTTTTGGGAGGCTGCTCGGTAGTTGAGTCCATTACATGCCACATTTCATCAGAAGGACCCTTGGTTCCAGAACTCCCAGACGAGAGCCTTGAGTCATGGTCCTTCATACGGTAATCTACCAAATTATGTTCTCCATGCTTCTCTTCATGTAGTAAATCAACCTCAGAGATATTTTTCTCCTTATGAATTTCAGAAATTAAGAGTTCATCCCTGGACTTCTCAATAAACTCACCAACAAACTGTGCAGATGATCTCTCTAAACGGTCAGCTGAACCTAGAGTATCATCAGGAGTGATAAGGTATACAGAATCCTCGATACTCTCATCTGCCCCACTTCCTCGGTAGGATGTACGGTCCAAAGCTGGGCTTCCTCCTGGCTGCATGTAGGAAGCACCTGAACTGCTTCCTGATGTTCTTCTGGAAACTACTTGGCTTGCCATTTCACTAGTAGAATCTATTCGCAATGGTTCTCTAGCTACAAGCTGAGATGGAGGAGGCATTAACACTGCCTGTGACCTTTTATTTTCTTCATTATTCAAACCAATCCCTTGATAACTACTTTGGGAACTTAAATTAATGGATCCTTGAACTTCTGATTTTTCTACATGATTTTTAGCCTCTTTTCCCGATTCAGTTTGCACCAGACGATTATTATTTTGACCACGTCTTATTATGGTTTCCTTGACGGTTTTTTCCACTAATGATTTATTAGTTTCTTGCTTGAAGATTCTGCTTTCAAATGTTTTTTCAGAATGTGTAGCAGATATTTTATCGGTACCATGAACCATTGAAATGTCAGAGGCATCTCGGGAACCTTTTCTGGACATAACTCTCTGAGAATCTTTCTGATCTGTCGAAGACTTTATGTCTTTAGCCACAAAATTTGATGCATTAACTAATGCTGCATTTTGTTCCTCATTTTGTGTTCTAATTTCAGAACTTGAGATGTTGGTATTACCCTCTTTGATTACCGATATAACACCAAGATGAAGAAACTTTTGTCTCGAATCCACTTCTCCAGTGGGATGATTTCCTATTTGATGATGTTCTTCTTCAGCCTTTTGATTAGAAGTTACATGGAGACCTGTACTTTCACTTGCATCAGACTGGCTTGTCTGATGAGAGATACTTTCTCTCTCAGTTCTCCTATTTTCTGAAACTCCCAAAAGTTGTTGAAATGATGAACTTCGTCTTGAACTTTTTTCTTGAAGGACAGGACGGCCAGTACCATGATTGTTGTTGCTTGCTTTCTTGATGAGATTTGCATCTAATTCTAGGTTTTCATTCTTAATGGTTAGTCTTTTATGAGAATGCGAAATTTCTTCTGCACTACTGTGGCTGATTTCTGATACTTCTGCAAGTTTTTTCCCTTCATTTATAAACACACCACCCACTTTCTTACCTGATACATCATATTGTTTTGATTGCTCATTCAAAGTCACAGCCATTTTCGATTCCTCTTTCTTGTCAACAAACTTCTTCTTGGGACTTGAAGTACATGCATAACCACTTTCCCTGGCCCTTGACAATCTTGAGTTCATATCAGAGGTTCCACTCACGGAGGATGTTACTGTTGTTAACATTTTAAGTTTATTATCTGAGTTCTTCCTCAAATGCCAATCGGCACTATTCCCAACTGTAGGATCGCGGACCACTGATTCCTCTTCTCGCCTCTTCTCATTCTCTGCTTGTCTCTTGAACGCTTCCTTGATCTGCCCATCTAATTTTTCTCCCACATCACTCACAGATTCGTATCTGTACCCACTGGACGATTCTTCAACAAATTGCACATTCTTGTCTTCAACTTCAGCATCACTCTCAATATCCCCAGTGGAGGAGAGTGAATAATAAGATGAACAAGTAGACCCTTCTTTTCTTAAACTCTGACTATCAGCTCTTGAATTAACTAACTGATCACTATTCAGCCTATATCCATCTTTCCTCAACTCAACTGCCATTGATCCAACTTTATTATTATGTTTACTATTTAAAGAATCGAACTTATTGCTTTTCCTCTCTTCTCTTTCTTGCTGACTGTTACTCTCTCTTTTCTTATCTACTCTTATCTTTTCAAATGAACTAAACCTTTTCTCCTCGACACCTCTTCTCATCTTTTTCTCCAGTTCTACTCGTCTCGATGAACTTAAATTTCCCTCCTTTGCTCCGCACTTTCTTTGGTTTCCAACTTCCACTCTCTTAGATGTCTTAATTCTTTCCTGGCTTCCAAAACCCTCCCTTATCAAACTGATCATTGCTTCAGCAATGTCCTCTTCATCAAATCCATGCGATTTGTCAAATTCACAATCACTATCAGAAATCATACAAGATCTTCTATACCTCCTTCCCTCACTACAATGACAAGTCCCACCATCACTTATAGAAAAAGGAACCTCATAACAATCCAGAACACGCCCATATTCAGGAAGCGTGTAACAGAACCGGTTTCGGCCTCCCAACATCAACCTCCTAGATATCGACCATTGAAGCAGGGTGGATTGCCTCGGCCCATAGAAAATGCTAGGGCCTACAGGCACTCTCTGGGTTGGAAATGTATAACAAACACAACAAGAACAACATAATGATGACGACGATGAAGGATGAAATCGGTTTCCATTACATCTTTCATTTAAGAAGATGGGACGCTCATTAAAGCAATGGGAAAGAGGCCCATTACTCCGAATCGAATATACAGTTGAGCTGACACAAGTGTTGTACATAATTTTGTTAAGTTTCCAGCAAAGTGAAAGAGATGGGTGGAATTTTACTTACCTGAGGAAAAAAAAGGGGCCTCGAGGGGTTCGCAGATCGCGTAAGCTGAAGCTCAAAGTAGAACAACCATCTGTGGCCGTCTGGATTTTGAATAGCAGATTAGCTCGGCTGCGACCATGGAAGTAAAAAAAACAAATTGACTGAGCTTTGAATCGGTGGGCTGACTCGCCGATTCTGCTTTGTATCGGTGGGTTGACTCGCCGGTTCTGGAATTTCAGTTCGGAACAAAGAAGGCATCGATGGACGATTACTTCGGCCAGATTTCTGGGCTTCAAAGTTCAAATGTGTTCAGCCTGGCCCAAATGTTATATCTAGAAAAGAGCTATATCAAGACGGCCCGGCCCGGCCCAAATGGTGAATTGGGCAGCTTGGAATTATAGAGATGCCCATTTTTTCCCACGAGAACGGAG

Coding sequence (CDS)

ATGGCCGCGGCAAAGACTGTATACTTCTCTTCTCCCGCGCTTCTTCACCACTCCTTCAACTCTTCGGAGACTCGGCCGCTTTCATCTATCAACTCATTCAAATCTATACTCTTTTCAAAAGCAAACCCTAGCAATGGCGTCTTCATTAGGAGTAGAAACTTCCGCACTGTACCAGTTACTCGGGAACGCAGATATAAGGTGCTTACGGTTTCTAGGTTGGTGGATGGTTATCCTGGAGACGACGATGAATCTGCACAGAGAAATTCGGATACGGCGGCAGCCATTGACATAAAGCTTCCAAGAAGAAGTTTGATGGTAACGTTTACTTGTAACCAATGTAGTGAGAGAACGAAGAGGCTCATCAATCGGTTAGCTTATGAACGGGGGCTTGTTTTTGTTCAGTGTGCAGGGTGTCAGAAGTATCACAAATTGGTTGATAATCTTGGCCTTATAGTAGAGTATGACTTCCGGGAGGAGGACATGGATATGGACTCAAATTCAGATCAAGTTTGA

Protein sequence

MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVTRERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV
Homology
[Close]
BLAST of Bhi07G001156 vs. TAIR 10
Match: AT1G68730.1 (Zim17-type zinc finger protein )

HSP 1 Score: 128.3 bits (321), Expect = 6.1e-30
Identity = 70/131 (53.44%), Postives = 87/131 (66.41%), Query Frame = 0 

Query: 38  FSKANPSNGVFIRSRNFRTVPVT--RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAI 97
           + + NP + +  RS+  R + V   ++R         L D    + DE +  +S   A+I
Sbjct: 40  YKQQNPISALH-RSKTTRVIEVVTPKQRNRSFSVFGSLADDSKLNPDEES-NDSAEVASI 99

Query: 98  DIKLPRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYD 157
           DIKLPRRSL V FTCN C ERTKRLINR AYE+GLVFVQCAGC K+HKLVDNLGLIVEYD
Sbjct: 100 DIKLPRRSLQVEFTCNSCGERTKRLINRHAYEKGLVFVQCAGCLKHHKLVDNLGLIVEYD 159

Query: 158 FREEDMDMDSN 167
           FRE   D+ ++
Sbjct: 160 FRETSKDLGTD 168

[Close]
BLAST of Bhi07G001156 vs. TAIR 10
Match: AT5G27280.1 (Zim17-type zinc finger protein )

HSP 1 Score: 74.3 bits (181), Expect = 1.0e-13
Identity = 38/84 (45.24%), Postives = 48/84 (57.14%), Query Frame = 0 

Query: 85  AQRNSDTAA----AIDIKLPRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQK 144
           A+ ++DT +    ++  K PRR + V FTCN C +RT R IN  AY  G VFVQC GC  
Sbjct: 98  AKTDTDTVSTFPWSLFTKSPRRRMRVAFTCNVCGQRTTRAINPHAYTDGTVFVQCCGCNV 157

Query: 145 YHKLVDNLGLIVEYDFREEDMDMD 165
           +HKLVDNL L  E  +       D
Sbjct: 158 FHKLVDNLNLFHEVKYYVSSSSFD 181

[Close]
BLAST of Bhi07G001156 vs. TAIR 10
Match: AT3G54826.1 (Zim17-type zinc finger protein )

HSP 1 Score: 53.1 bits (126), Expect = 2.5e-07
Identity = 20/50 (40.00%), Postives = 29/50 (58.00%), Query Frame = 0 

Query: 100 PRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHKLVDNLG 150
           PR   M+ FTC  C  R+ ++ +R +YE G+V V+C GC   H + D  G
Sbjct: 132 PRHDFMMVFTCKVCDTRSMKMASRESYENGVVVVRCGGCDNLHLIADRRG 181

[Close]
BLAST of Bhi07G001156 vs. ExPASy Swiss-Prot
Match: Q5SXM8 (DNL-type zinc finger protein OS=Homo sapiens OX=9606 GN=DNLZ PE=1 SV=1)

HSP 1 Score: 55.5 bits (132), Expect = 7.0e-07
Identity = 24/66 (36.36%), Postives = 40/66 (60.61%), Query Frame = 0 

Query: 84  SAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHK 143
           S+++    AAA+  ++      + +TC  C  R+ + I++LAY +G+V V C GCQ +H 
Sbjct: 50  SSEQGPGPAAALG-RVEAAHYQLVYTCKVCGTRSSKRISKLAYHQGVVIVTCPGCQNHHI 109

Query: 144 LVDNLG 150
           + DNLG
Sbjct: 110 IADNLG 114

[Close]
BLAST of Bhi07G001156 vs. ExPASy Swiss-Prot
Match: Q0IH40 (DNL-type zinc finger protein OS=Xenopus laevis OX=8355 GN=dnlz PE=2 SV=1)

HSP 1 Score: 54.3 bits (129), Expect = 1.6e-06
Identity = 20/58 (34.48%), Postives = 36/58 (62.07%), Query Frame = 0 

Query: 100 PRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFR 158
           P     + +TC  C+ R+ + I+++AY +G+V V+C GC+ +H + DNLG   + + R
Sbjct: 78  PSSHYRLIYTCKVCATRSSKTISKVAYHKGVVIVRCPGCENHHIIADNLGWFSDLEGR 135

[Close]
BLAST of Bhi07G001156 vs. ExPASy Swiss-Prot
Match: Q9D113 (DNL-type zinc finger protein OS=Mus musculus OX=10090 GN=Dnlz PE=1 SV=1)

HSP 1 Score: 52.4 bits (124), Expect = 5.9e-06
Identity = 24/65 (36.92%), Postives = 38/65 (58.46%), Query Frame = 0 

Query: 84  SAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHK 143
           S+   S  AAA+  ++      + +TC  C  R+ + I++LAY +G+V V C GCQ +H 
Sbjct: 54  SSAPGSGRAAALG-RVEADHYQLVYTCKVCGTRSSKRISKLAYHQGVVIVTCPGCQNHHI 113

Query: 144 LVDNL 149
           + DNL
Sbjct: 114 IADNL 117

[Close]
BLAST of Bhi07G001156 vs. ExPASy Swiss-Prot
Match: A1L1P7 (DNL-type zinc finger protein OS=Danio rerio OX=7955 GN=dnlz PE=2 SV=1)

HSP 1 Score: 52.0 bits (123), Expect = 7.8e-06
Identity = 19/43 (44.19%), Postives = 30/43 (69.77%), Query Frame = 0 

Query: 106 VTFTCNQCSERTKRLINRLAYERGLVFVQCAGCQKYHKLVDNL 149
           + +TC  CS R+ + I++LAY +G+V V C GC+ +H + DNL
Sbjct: 83  LVYTCKVCSTRSMKKISKLAYHKGVVIVTCPGCKNHHVIADNL 125

[Close]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match: A0A5A7SVJ1 (Mitochondrial protein import protein ZIM17 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold475G00560 PE=4 SV=1)

HSP 1 Score: 295.8 bits (756), Expect = 1.1e-76
Identity = 151/170 (88.82%), Postives = 154/170 (90.59%), Query Frame = 0 

Query: 1   MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVT 60
           MAAAKTV FSSP LLHH FN S+T P  SINSFK IL SKANPSNGVFIRSRNF T PVT
Sbjct: 1   MAAAKTVIFSSPTLLHHCFNPSQTPPHPSINSFKPILSSKANPSNGVFIRSRNFCTAPVT 60

Query: 61  RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRL 120
           R RRYKVLTVS LVDGY GDDDES+QRNSDT AAIDIKLPRRSLMVTFTCNQCSERTKRL
Sbjct: 61  RGRRYKVLTVSSLVDGYTGDDDESSQRNSDTGAAIDIKLPRRSLMVTFTCNQCSERTKRL 120

Query: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV 171
           INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREED D+DSNSDQV
Sbjct: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDTDLDSNSDQV 170

[Close]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match: A0A1S3BG31 (uncharacterized protein C24H6.02c isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489232 PE=4 SV=1)

HSP 1 Score: 295.8 bits (756), Expect = 1.1e-76
Identity = 151/170 (88.82%), Postives = 154/170 (90.59%), Query Frame = 0 

Query: 1   MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVT 60
           MAAAKTV FSSP LLHH FN S+T P  SINSFK IL SKANPSNGVFIRSRNF T PVT
Sbjct: 1   MAAAKTVIFSSPTLLHHCFNPSQTPPHPSINSFKPILSSKANPSNGVFIRSRNFCTAPVT 60

Query: 61  RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRL 120
           R RRYKVLTVS LVDGY GDDDES+QRNSDT AAIDIKLPRRSLMVTFTCNQCSERTKRL
Sbjct: 61  RGRRYKVLTVSSLVDGYTGDDDESSQRNSDTGAAIDIKLPRRSLMVTFTCNQCSERTKRL 120

Query: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV 171
           INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREED D+DSNSDQV
Sbjct: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDTDLDSNSDQV 170

[Close]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match: A0A0A0KR03 (DNL-type domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G608180 PE=4 SV=1)

HSP 1 Score: 289.3 bits (739), Expect = 1.1e-74
Identity = 147/170 (86.47%), Postives = 154/170 (90.59%), Query Frame = 0 

Query: 1   MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVT 60
           MAAA TV FSSP LL HSFN S+TRP  SI SFK I+ SKANPSNGVFIRSRNF T PV+
Sbjct: 4   MAAAYTVIFSSPTLLQHSFNPSQTRPHPSITSFKPIVSSKANPSNGVFIRSRNFCTAPVS 63

Query: 61  RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRL 120
           RERRYKVLTVS LVDGY GDDDE +QRNSDT AAIDIKLPRRSLMVTFTCNQCSERTKRL
Sbjct: 64  RERRYKVLTVSSLVDGYTGDDDEPSQRNSDTGAAIDIKLPRRSLMVTFTCNQCSERTKRL 123

Query: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV 171
           INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREED+D+DS+SDQV
Sbjct: 124 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDVDLDSSSDQV 173

[Close]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match: A0A1S4DWZ3 (mitochondrial protein import protein ZIM17 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489232 PE=4 SV=1)

HSP 1 Score: 287.3 bits (734), Expect = 4.1e-74
Identity = 149/170 (87.65%), Postives = 152/170 (89.41%), Query Frame = 0 

Query: 1   MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVT 60
           MAAAKTV FSSP LLHH FN S+T P  SINSFK IL SKANPSNGVFI  RNF T PVT
Sbjct: 1   MAAAKTVIFSSPTLLHHCFNPSQTPPHPSINSFKPILSSKANPSNGVFI--RNFCTAPVT 60

Query: 61  RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRL 120
           R RRYKVLTVS LVDGY GDDDES+QRNSDT AAIDIKLPRRSLMVTFTCNQCSERTKRL
Sbjct: 61  RGRRYKVLTVSSLVDGYTGDDDESSQRNSDTGAAIDIKLPRRSLMVTFTCNQCSERTKRL 120

Query: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV 171
           INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREED D+DSNSDQV
Sbjct: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDTDLDSNSDQV 168

[Close]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match: A0A6J1GZ90 (uncharacterized protein LOC111458229 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111458229 PE=4 SV=1)

HSP 1 Score: 275.4 bits (703), Expect = 1.6e-70
Identity = 141/170 (82.94%), Postives = 151/170 (88.82%), Query Frame = 0 

Query: 1   MAAAKTVYFSSPALLHHSFNSSETRPLSSINSFKSILFSKANPSNGVFIRSRNFRTVPVT 60
           MAAAKT  FSSPALL  SFN S+TRP  SIN+F+ I+ SKANPSNG FIRSR FRT PVT
Sbjct: 1   MAAAKTQCFSSPALLQQSFNPSQTRPHPSINAFRPIVSSKANPSNGFFIRSRCFRTAPVT 60

Query: 61  RERRYKVLTVSRLVDGYPGDDDESAQRNSDTAAAIDIKLPRRSLMVTFTCNQCSERTKRL 120
           RE R KVLTVSRLVDG  GDDDESAQRNSDT AAIDIKLPRRSL+VTFTCNQC +RTKRL
Sbjct: 61  RENRNKVLTVSRLVDGNSGDDDESAQRNSDTGAAIDIKLPRRSLLVTFTCNQCGDRTKRL 120

Query: 121 INRLAYERGLVFVQCAGCQKYHKLVDNLGLIVEYDFREEDMDMDSNSDQV 171
           INRLAYERGLVFVQCAGC KYHKLVDNLGLIVEYDFRE+D+D++SNSDQV
Sbjct: 121 INRLAYERGLVFVQCAGCLKYHKLVDNLGLIVEYDFREDDVDVNSNSDQV 170

The following BLAST results are available for this feature:
BLAST of Bhi07G001156 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G68730.16.1e-3053.44Zim17-type zinc finger protein [more]
AT5G27280.11.0e-1345.24Zim17-type zinc finger protein [more]
AT3G54826.12.5e-0740.00Zim17-type zinc finger protein [more]
BLAST of Bhi07G001156 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q5SXM87.0e-0736.36DNL-type zinc finger protein OS=Homo sapiens OX=9606 GN=DNLZ PE=1 SV=1[more]
Q0IH401.6e-0634.48DNL-type zinc finger protein OS=Xenopus laevis OX=8355 GN=dnlz PE=2 SV=1[more]
Q9D1135.9e-0636.92DNL-type zinc finger protein OS=Mus musculus OX=10090 GN=Dnlz PE=1 SV=1[more]
A1L1P77.8e-0644.19DNL-type zinc finger protein OS=Danio rerio OX=7955 GN=dnlz PE=2 SV=1[more]
BLAST of Bhi07G001156 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7SVJ11.1e-7688.82Mitochondrial protein import protein ZIM17 isoform X2 OS=Cucumis melo var. makuw... [more]
A0A1S3BG311.1e-7688.82uncharacterized protein C24H6.02c isoform X1 OS=Cucumis melo OX=3656 GN=LOC10348... [more]
A0A0A0KR031.1e-7486.47DNL-type domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G608180 PE... [more]
A0A1S4DWZ34.1e-7487.65mitochondrial protein import protein ZIM17 isoform X2 OS=Cucumis melo OX=3656 GN... [more]
A0A6J1GZ901.6e-7082.94uncharacterized protein LOC111458229 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR007853Zinc finger, DNL-typePFAMPF05180zf-DNLcoord: 106..153
e-value: 7.5E-17
score: 61.0
IPR007853Zinc finger, DNL-typePROSITEPS51501ZF_DNLcoord: 99..170
score: 15.072761
IPR024158Mitochondrial import protein TIM15PANTHERPTHR20922UNCHARACTERIZEDcoord: 28..169
NoneNo IPR availablePANTHERPTHR20922:SF19F24J5.3coord: 28..169

Relationships

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

Feature NameUnique NameType
Bhi07M001156Bhi07M001156mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006457 protein folding
biological_process GO:0030150 protein import into mitochondrial matrix
biological_process GO:0050821 protein stabilization
cellular_component GO:0005739 mitochondrion
molecular_function GO:0051087 chaperone binding
molecular_function GO:0008270 zinc ion binding