Bhi08G000030 (gene) Wax gourd (B227) v1

Overview
NameBhi08G000030
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionMitochondrial fission protein ELM1
Locationchr8: 1167295 .. 1179886 (-)
RNA-Seq ExpressionBhi08G000030
SyntenyBhi08G000030
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGTCATCACGCCTCATCATGATTATTATCCTTTAACTCCTCTAGCACAAGAGCAAGTTCCTCGATTTATAAGGAAGTGGATAACTCCACGGGAACCACCGGATCAACATGTGGTCTTGACTGTTGGAGCCCTGCATCAGATTGATTTTGCTGCATTACGTAGTGCAGCTAGTGCATGGCATGATGTGTTTGCTCCTCTTCCAAAACCCTTATTGGTGGTCAACATAGGAGGGCCTACAAGTTGCTGTCGATATGGTGTGGATCTTGCAAAGCAGCTGGTAACCAGTTTGCTGAGTGTTCTTGCAAGCTGTGGAAGTGTCAGAATATCCTTCTCAGACAGAACTCCTGAGAAGGTAGTGTATAATGTTATTGTGAAAGAACTTGGGGATAATCCAAAAGTTTACATCTGGGATAGACAAGAGACAAATCCGCACATGGGCCACTTAGCTTGGGCAGATGCATTTGTTGTAACAGCAGATTCGGTTAGCATGATTAGTGAGGTTTGCAGTACTGGGAAGCCTGTCTATGTCATTGGAACTGAGCGTTGTAAGTGGAAGTATTCAGCATTCCATAAATCCTTGAAGGAGAGAGGAGTCATCCGCCCATTTACAGGGACTGAGGATATCTCAGAAAGCTGGAGTTATCCTCCACTGAACGATACGGCAGAAGCAGCTACTCGG

Coding sequence (CDS)

ATGGTCATCACGCCTCATCATGATTATTATCCTTTAACTCCTCTAGCACAAGAGCAAGTTCCTCGATTTATAAGGAAGTGGATAACTCCACGGGAACCACCGGATCAACATGTGGTCTTGACTGTTGGAGCCCTGCATCAGATTGATTTTGCTGCATTACGTAGTGCAGCTAGTGCATGGCATGATGTGTTTGCTCCTCTTCCAAAACCCTTATTGGTGGTCAACATAGGAGGGCCTACAAGTTGCTGTCGATATGGTGTGGATCTTGCAAAGCAGCTGGTAACCAGTTTGCTGAGTGTTCTTGCAAGCTGTGGAAGTGTCAGAATATCCTTCTCAGACAGAACTCCTGAGAAGGTAGTGTATAATGTTATTGTGAAAGAACTTGGGGATAATCCAAAAGTTTACATCTGGGATAGACAAGAGACAAATCCGCACATGGGCCACTTAGCTTGGGCAGATGCATTTGTTGTAACAGCAGATTCGGTTAGCATGATTAGTGAGGTTTGCAGTACTGGGAAGCCTGTCTATGTCATTGGAACTGAGCGTTGTAAGTGGAAGTATTCAGCATTCCATAAATCCTTGAAGGAGAGAGGAGTCATCCGCCCATTTACAGGGACTGAGGATATCTCAGAAAGCTGGAGTTATCCTCCACTGAACGATACGGCAGAAGCAGCTACTCGG

Protein sequence

MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAWHDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVVYNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGTERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Homology
[Close]
BLAST of Bhi08G000030 vs. TAIR 10
Match: AT5G22350.1 (Protein of unknown function (DUF1022) )

HSP 1 Score: 369.4 bits (947), Expect = 2.1e-102
Identity = 176/227 (77.53%), Postives = 193/227 (85.02%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           MVITP HDYYPLT  AQEQVPRF+R WITPREPP  HVVLT GALHQID+A+LR AASAW
Sbjct: 188 MVITPRHDYYPLTLEAQEQVPRFMRSWITPREPPQDHVVLTTGALHQIDYASLRKAASAW 247

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HD FA LPKPL+VVNIG P S CRYG DLAKQL  SLL+VLA+CGSVRI+ S +TP K V
Sbjct: 248 HDEFAALPKPLVVVNIGWPRSNCRYGADLAKQLTDSLLNVLATCGSVRITLSYKTPAK-V 307

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
             VI KELGDNPKVYIW+ QE NP+MGHLAW DAFVVTADSVS+ISE CSTGKPVYV+G 
Sbjct: 308 SRVIFKELGDNPKVYIWNGQEPNPYMGHLAWGDAFVVTADSVSLISEACSTGKPVYVVGA 367

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           + CKWK + F KSL+ERGV+R FTG ED+SESWSYPPLNDTAEAATR
Sbjct: 368 DHCKWKIAEFQKSLRERGVVRSFTGFEDMSESWSYPPLNDTAEAATR 413

[Close]
BLAST of Bhi08G000030 vs. TAIR 10
Match: AT5G06180.1 (Protein of unknown function (DUF1022) )

HSP 1 Score: 305.8 bits (782), Expect = 2.8e-83
Identity = 143/227 (63.00%), Postives = 171/227 (75.33%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITP HDY+ LTP  + Q+P F+R W+TPRE P ++V LT GALH  D + LR+A S W
Sbjct: 165 LVITPQHDYFSLTPEGKRQIPFFLRPWVTPREHPGRNVFLTTGALHYADASTLRNATSEW 224

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
            + FA LPKPL+VVNIGGPT  C YGVDLAKQL   L S+L SCGS+RISFS RTP+KVV
Sbjct: 225 KNEFASLPKPLVVVNIGGPTRNCLYGVDLAKQLCGMLQSILWSCGSLRISFSRRTPKKVV 284

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
             VI  EL  N KVYIWD ++ NPH+GHLA A+ F++TADS+SM+SE CSTGKPVYV+G 
Sbjct: 285 -EVITGELSSNSKVYIWDGKDPNPHLGHLALANTFIITADSISMLSEACSTGKPVYVVGA 344

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERC WK+S F K+L  RG +RP TG ED+ E WSY PLND  EAA R
Sbjct: 345 ERCTWKFSDFQKTLHGRGAVRPLTGKEDMCEKWSYSPLNDNVEAARR 390

[Close]
BLAST of Bhi08G000030 vs. TAIR 10
Match: AT5G06180.2 (Protein of unknown function (DUF1022) )

HSP 1 Score: 305.8 bits (782), Expect = 2.8e-83
Identity = 143/227 (63.00%), Postives = 171/227 (75.33%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITP HDY+ LTP  + Q+P F+R W+TPRE P ++V LT GALH  D + LR+A S W
Sbjct: 165 LVITPQHDYFSLTPEGKRQIPFFLRPWVTPREHPGRNVFLTTGALHYADASTLRNATSEW 224

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
            + FA LPKPL+VVNIGGPT  C YGVDLAKQL   L S+L SCGS+RISFS RTP+KVV
Sbjct: 225 KNEFASLPKPLVVVNIGGPTRNCLYGVDLAKQLCGMLQSILWSCGSLRISFSRRTPKKVV 284

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
             VI  EL  N KVYIWD ++ NPH+GHLA A+ F++TADS+SM+SE CSTGKPVYV+G 
Sbjct: 285 -EVITGELSSNSKVYIWDGKDPNPHLGHLALANTFIITADSISMLSEACSTGKPVYVVGA 344

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERC WK+S F K+L  RG +RP TG ED+ E WSY PLND  EAA R
Sbjct: 345 ERCTWKFSDFQKTLHGRGAVRPLTGKEDMCEKWSYSPLNDNVEAARR 390

[Close]
BLAST of Bhi08G000030 vs. ExPASy Swiss-Prot
Match: Q93YN4 (Mitochondrial fission protein ELM1 OS=Arabidopsis thaliana OX=3702 GN=ELM1 PE=1 SV=1)

HSP 1 Score: 369.4 bits (947), Expect = 2.9e-101
Identity = 176/227 (77.53%), Postives = 193/227 (85.02%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           MVITP HDYYPLT  AQEQVPRF+R WITPREPP  HVVLT GALHQID+A+LR AASAW
Sbjct: 188 MVITPRHDYYPLTLEAQEQVPRFMRSWITPREPPQDHVVLTTGALHQIDYASLRKAASAW 247

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HD FA LPKPL+VVNIG P S CRYG DLAKQL  SLL+VLA+CGSVRI+ S +TP K V
Sbjct: 248 HDEFAALPKPLVVVNIGWPRSNCRYGADLAKQLTDSLLNVLATCGSVRITLSYKTPAK-V 307

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
             VI KELGDNPKVYIW+ QE NP+MGHLAW DAFVVTADSVS+ISE CSTGKPVYV+G 
Sbjct: 308 SRVIFKELGDNPKVYIWNGQEPNPYMGHLAWGDAFVVTADSVSLISEACSTGKPVYVVGA 367

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           + CKWK + F KSL+ERGV+R FTG ED+SESWSYPPLNDTAEAATR
Sbjct: 368 DHCKWKIAEFQKSLRERGVVRSFTGFEDMSESWSYPPLNDTAEAATR 413

[Close]
BLAST of Bhi08G000030 vs. ExPASy Swiss-Prot
Match: Q9ZE28 (Uncharacterized protein RP120 OS=Rickettsia prowazekii (strain Madrid E) OX=272947 GN=RP120 PE=4 SV=1)

HSP 1 Score: 77.4 bits (189), Expect = 2.3e-13
Identity = 64/188 (34.04%), Postives = 94/188 (50.00%), Query Frame = 0 

Query: 43  GALHQIDFAALRSAASAWHDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLA 102
           GAL+ I   A  SAAS       P  K    V IGG      +  D+A  L +SLL+ + 
Sbjct: 159 GALNNI--TAKFSAASLELQKHYPHLKQFTAVIIGGNNKRFSFNEDIA-ILFSSLLNKIY 218

Query: 103 SCGSVR--ISFSDRTPEKVVYNVIVKELGDNPKVY--IWDRQETNPHMGHLAWADAFVVT 162
           S  ++   ISFS RTP+ +V ++I      +  +Y    D    NP++  LA A   + T
Sbjct: 219 SNQAIPFFISFSRRTPQ-IVKSIIKNNTHASTMIYDPSKDTDYNNPYIDMLANAKYIIST 278

Query: 163 ADSVSMISEVCSTGKPVYVIGTERC-KWKYSAFHKSLKERGVIRPFTGTEDISESWSYPP 222
           ADS+SM SE  S+GKP+Y+         K+  F + L E+ + R F  +  + E +SY P
Sbjct: 279 ADSISMCSEAASSGKPLYIFYPPNFNSLKHKIFIEQLVEQKIARIFNESITMLEEYSYKP 338

Query: 223 LNDTAEAA 226
           LN+  + A
Sbjct: 339 LNEAKKVA 342

[Close]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match: A0A5A7T1R4 (Mitochondrial fission protein ELM1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold285G001760 PE=4 SV=1)

HSP 1 Score: 459.9 bits (1182), Expect = 6.1e-126
Identity = 219/227 (96.48%), Postives = 221/227 (97.36%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITPHHDYYPLTP AQEQVPRFIRKWITPREPPDQ VVLTVGALHQIDFAALRSAASAW
Sbjct: 186 LVITPHHDYYPLTPQAQEQVPRFIRKWITPREPPDQRVVLTVGALHQIDFAALRSAASAW 245

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HDVFAPLPKPLLVVN+GGPTS CRYGVDLAKQL T LLSVLASCGSVRISFSDRTPEKVV
Sbjct: 246 HDVFAPLPKPLLVVNVGGPTSRCRYGVDLAKQLATGLLSVLASCGSVRISFSDRTPEKVV 305

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
           YNVIVKELGDNPKVYIWDRQE NPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT
Sbjct: 306 YNVIVKELGDNPKVYIWDRQEPNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 365

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Sbjct: 366 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 412

[Close]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match: A0A5D3E536 (Mitochondrial fission protein ELM1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold455G002590 PE=4 SV=1)

HSP 1 Score: 453.8 bits (1166), Expect = 4.4e-124
Identity = 218/227 (96.04%), Postives = 220/227 (96.92%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITPHHDYYPLTP AQEQVPRFIRKWITPREPPDQ VVLTVGALHQIDFAALRSAASAW
Sbjct: 186 LVITPHHDYYPLTPQAQEQVPRFIRKWITPREPPDQRVVLTVGALHQIDFAALRSAASAW 245

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HDVFAPLPKPLLVVN+GGPTS CRYGVDLAKQL T LLSVLASCGSVRISFSDRTPEK V
Sbjct: 246 HDVFAPLPKPLLVVNVGGPTSRCRYGVDLAKQLATGLLSVLASCGSVRISFSDRTPEK-V 305

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
           YNVIVKELGDNPKVYIWDRQE NPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT
Sbjct: 306 YNVIVKELGDNPKVYIWDRQEPNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 365

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Sbjct: 366 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 411

[Close]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match: A0A0A0LYB1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G166800 PE=4 SV=1)

HSP 1 Score: 453.8 bits (1166), Expect = 4.4e-124
Identity = 218/227 (96.04%), Postives = 221/227 (97.36%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITPHHDYYPLTP A+EQVPRFIRKWITPREPPDQ VVLTVGALHQIDFAALRSAASAW
Sbjct: 28  LVITPHHDYYPLTPQAKEQVPRFIRKWITPREPPDQRVVLTVGALHQIDFAALRSAASAW 87

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HDVFAPLPKPLLVVNIGGPTS CRYGVDLAKQLVT LLSVLASCGSVRISFSDRTPEK V
Sbjct: 88  HDVFAPLPKPLLVVNIGGPTSRCRYGVDLAKQLVTGLLSVLASCGSVRISFSDRTPEK-V 147

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
           YNV+VKELGDNPKVYIWDRQE NPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT
Sbjct: 148 YNVVVKELGDNPKVYIWDRQEPNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 207

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Sbjct: 208 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 253

[Close]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match: A0A1S3CFB0 (mitochondrial fission protein ELM1 OS=Cucumis melo OX=3656 GN=LOC103499828 PE=4 SV=1)

HSP 1 Score: 453.8 bits (1166), Expect = 4.4e-124
Identity = 218/227 (96.04%), Postives = 220/227 (96.92%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           +VITPHHDYYPLTP AQEQVPRFIRKWITPREPPDQ VVLTVGALHQIDFAALRSAASAW
Sbjct: 186 LVITPHHDYYPLTPQAQEQVPRFIRKWITPREPPDQRVVLTVGALHQIDFAALRSAASAW 245

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HDVFAPLPKPLLVVN+GGPTS CRYGVDLAKQL T LLSVLASCGSVRISFSDRTPEK V
Sbjct: 246 HDVFAPLPKPLLVVNVGGPTSRCRYGVDLAKQLATGLLSVLASCGSVRISFSDRTPEK-V 305

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
           YNVIVKELGDNPKVYIWDRQE NPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT
Sbjct: 306 YNVIVKELGDNPKVYIWDRQEPNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 365

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Sbjct: 366 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 411

[Close]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match: A0A6J1EGX7 (mitochondrial fission protein ELM1 OS=Cucurbita moschata OX=3662 GN=LOC111434204 PE=4 SV=1)

HSP 1 Score: 450.7 bits (1158), Expect = 3.7e-123
Identity = 215/227 (94.71%), Postives = 219/227 (96.48%), Query Frame = 0 

Query: 1   MVITPHHDYYPLTPLAQEQVPRFIRKWITPREPPDQHVVLTVGALHQIDFAALRSAASAW 60
           MVITPHHDYYPLTP AQEQVPRFIRKWITPREPPDQHVVLTVGALH+IDFA LRSAASAW
Sbjct: 186 MVITPHHDYYPLTPQAQEQVPRFIRKWITPREPPDQHVVLTVGALHRIDFATLRSAASAW 245

Query: 61  HDVFAPLPKPLLVVNIGGPTSCCRYGVDLAKQLVTSLLSVLASCGSVRISFSDRTPEKVV 120
           HD FAPLPKPLLVVNIGGPTS CRYGVDLAKQLVT LLSVLASCGSVRISFSDRTPEK V
Sbjct: 246 HDAFAPLPKPLLVVNIGGPTSSCRYGVDLAKQLVTGLLSVLASCGSVRISFSDRTPEK-V 305

Query: 121 YNVIVKELGDNPKVYIWDRQETNPHMGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 180
           YNV+V+ELGDNPKVYIWD QE NPH+GHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT
Sbjct: 306 YNVVVRELGDNPKVYIWDGQEPNPHLGHLAWADAFVVTADSVSMISEVCSTGKPVYVIGT 365

Query: 181 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 228
           ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR
Sbjct: 366 ERCKWKYSAFHKSLKERGVIRPFTGTEDISESWSYPPLNDTAEAATR 411

The following BLAST results are available for this feature:
BLAST of Bhi08G000030 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G22350.12.1e-10277.53Protein of unknown function (DUF1022) [more]
AT5G06180.12.8e-8363.00Protein of unknown function (DUF1022) [more]
AT5G06180.22.8e-8363.00Protein of unknown function (DUF1022) [more]
BLAST of Bhi08G000030 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q93YN42.9e-10177.53Mitochondrial fission protein ELM1 OS=Arabidopsis thaliana OX=3702 GN=ELM1 PE=1 ... [more]
Q9ZE282.3e-1334.04Uncharacterized protein RP120 OS=Rickettsia prowazekii (strain Madrid E) OX=2729... [more]
BLAST of Bhi08G000030 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7T1R46.1e-12696.48Mitochondrial fission protein ELM1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C... [more]
A0A5D3E5364.4e-12496.04Mitochondrial fission protein ELM1 OS=Cucumis melo var. makuwa OX=1194695 GN=E56... [more]
A0A0A0LYB14.4e-12496.04Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G166800 PE=4 SV=1[more]
A0A1S3CFB04.4e-12496.04mitochondrial fission protein ELM1 OS=Cucumis melo OX=3656 GN=LOC103499828 PE=4 ... [more]
A0A6J1EGX73.7e-12394.71mitochondrial fission protein ELM1 OS=Cucurbita moschata OX=3662 GN=LOC111434204... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR009367Mitochondrial fission protein ELM1-likePFAMPF06258Mito_fiss_Elm1coord: 1..227
e-value: 1.0E-88
score: 297.4
IPR009367Mitochondrial fission protein ELM1-likePANTHERPTHR33986OS02G0535700 PROTEINcoord: 1..227
NoneNo IPR availablePANTHERPTHR33986:SF2MITOCHONDRIAL FISSION PROTEIN ELM1coord: 1..227
NoneNo IPR availableSUPERFAMILY53756UDP-Glycosyltransferase/glycogen phosphorylasecoord: 56..180

Relationships

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

Feature NameUnique NameType
Bhi08M000030Bhi08M000030mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0000266 mitochondrial fission
cellular_component GO:0005741 mitochondrial outer membrane