MELO3C030031 (gene) Melon (DHL92) v4

Overview
NameMELO3C030031
Typegene
OrganismCucumis melo cv. DHL92 (Melon (DHL92) v4)
DescriptionProtein VTE6
Locationchr03: 6918311 .. 6927725 (-)
RNA-Seq ExpressionMELO3C030031
SyntenyMELO3C030031
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.
ATGAAAATCCAAGAGAATGAAAACCACACCGAATTTTCATACAACAAACAAACTGTTAATCCTCCGACAGTTTCTTCAATATAAGAAATAACACAATAGAAAATAAAAATAAAAACTTTAATTTAAGAACTGCAAATAGTTTCATTCAAAATTATAACCTACACCAAGGGTTCATTTGCAATTAGGTTTGTTTTATAGTTCACTTGCAACATACATGATACACCAAGGGTGAAGATCAAAAGGTTTCTCCTGAGATAGAGGATCAAGAAGCAAGCATGCAAGAAATTCCAATTTAACCAATGCAAGATCCAAGATTAGTCATTGTTTTTAAAGTGATACTCAAATTTATCAACCCTCAATAACCACTTCCCTCTTTCAACAATTTCCTAAAACTATAGGCTGAGTATGTTCATGTTCCGAATAAATTGTTCGTGAAGACTTTTTGTTGTTGCATTGCAAGAAACACCGCATACGATTACGAGATGCTTTTTCGAATATTACTAATGTGATCAACATTTGATTACTCAGTAACCATAAACCACCAAGGTTGTTACAAAGTAACTATTTTATCTTCAATTCATTCCCATGAAGTTATCATTCTCCATGAACAAACAAATTTAACAATCAAAATTAGATACAGTTGTCAAGTATAATTGAACAGAGAGTAATAGGTAAACAAATTAGGGTCAAATGATCGAAGACTAACATATAGAAGGAAAACACGTGTACCTCAGCAAGCGTATCGCCTTGAGCTTGAAATGATTCAGCGAGACGTTTGAGGTCTGAAAACGAACGGTCTGAAGCTTCACCCTCACTCTGGTCTACCGGCTGGGCGGTTACTTCTTTATCTAGGGGATTAGCCGCATCGTCTTCCCCCACTTCGCCAGGTACCTCAAAAGGAAGATTTGAACGGCTTGAAATTGGTGCGAGAGATCGCTTCTTACTATTGGCCTTGTTCTTCCATGTGAGCTTCATCGTCGTCTCCAACCGTTCAGTACGAACACGGCATAAATTTTTTCCCACTCAGAGAGAACCGGGAAGTTCTCTGTCAATACCGGGTCGGATCTCTTCATCGGACCCAAACTCACAAAGCTGATCGTCCAGCGTCTCAGCCCAAGCTCAATCTTTGTCTCACCGATCCAATACGTTCTTTTACGACCTGTCCTAATAACCTAATTTAATATACTATATTACACTAATCGGCTAAATTTACTATTTCTTTTTGCAAACTTACGTAAATGTAACAAAACACTGAACTATTTACAGTCCGTATAACAAACCACATAAAATTAGTCATTTTTTAAATATTCTAGATTTGTCATTCTCTTCCTCGCGGTTTCTTTCATCGTCTTCTTTTTTGATTTCTTTCATCGACTTTCTTCTTTTCTTCTTCTTTTTTTCTACGATTTCTTTCCATCATCTTTCTTATTTTTCAATTATTTTTTTAGGTCGTTAAATCTTTCCATCATTTTTTTTTCATTGCGATTTCTTTCCATCGTATTTCTTCTTTTCTAATTTTGTGATTTTTTTCAACTGTCTTTCTTCTTTTTTTTATTCTTTTCTACATCGTTTAATATTTACATCTTCTTCTTTTCTGATTCTTTTTTACGTCGTTTAATCTTTCCATCATCTTTCTTCTTTTCTTTTTTTATACGCATTTACATTTCGGTAACCAAATCTAAACGACTGTGATAAAGCAAAGAATCTTGAAAAAAAAACCATTTAAATTGAAGTAGCCAAATGTAAACGATCGTGTAAAAAAATAAAAGATTATCTTGAAAAAAAAATCATTTAGATTAGAGTGGCAAAATATAAACAATCGTGAAAAAAATAAAAAATTGTGTATAAAGAATCTTGAAAAAAAATCATTTAGATTAGAGTAGCTAAATGTAAACGATTGTGTAAAAAAAGTAAACGATCGTGTAAATAAATCTAAACGATCGTAAAGAAATCTAAACGATCGTGTAAAAAAATCTAAATGATCGTGTACCAAAAGAATTAAAAAATCGTGTACCAAATTTGAAAAAAAAAAAAACATTTAGGTTTGGGTCCTCAAATCTAAACGATCGTGTAACAAAATTAAATGATGGAATTAAAAAGATAAATTGTAGCCATATCTAAACAATTGTGTATAAATTGTTAAATTGTAGTCATATCTAAACGATCACGTATAAATTATAACCATATCTAAACGATCGCATATATATTGAACTATATCTAAACGATCGCGTATATATTGAACCATATCTAAATGATCGCGTATAAATTATAACCATATGTAAAGTAGGGGTGAAAAACCGACCCGAATCGATGACTCGACCCGAACCGATTTGATTCGATTTGGGTTGGACCGGTTAGTAACAACAGAGTTACCGAACCGAACCGATTTGGGTTGGGTCGGGTCGGGTCGAGTTTAAATTAACCGATTAGGCTAAAAAAAAATCTTCGTCTGCTTCATTTCAGAATTTCCATAGTCTTCGTCCGCTTCATTTTTCGCGTGCTTCATTCTTCGTCTTCGACTCGGCATTATCGTCAGCTGGTGGCATCGTCTTCGTCAGTTTCATTCTTCGTCTGCGTCGGCACTCGGCATCATTAATCTCTTCGTCTGCGAACGTTGGCACTCGACATCATCGATCTCTTCGTCTGCGAACGTTGGCACTCAGCATCGTCTCTTTGTCTGCGAACATCGGCACTCGGCATCATCTCGTCTGCACTCAGCGTCGGCATCATCTCTACTCGACGTCGGCATCATCTCAGGTATTGTTGGGTTTATCACATTTGATTAATTTTTCAGCTTGAGTCACATTCTGTCTTTTTCGATTTCAATCTTTTGCTTAAAAATTTTCAACTCTGAATCAATAAAAATCAAATTACTGAGTTCTTCAAATTTGTTGAATTATAAAGAGGACAATCCCCCAACCTTGGTTCCTTCCATGAAAAATCCAATCTTTATTCAATCTTTGTGGATACTGTAATATCTGAAATTGTAATTTAATGAATGGATGAGCCTGGCCATGTCAAGTGGATATTAGATCATCATAAATTGTAATTCATTGAATACTATTAATATAGCAGTAACGATTGATGAAGTGGAAATGTATTTTGAAGCTCTACCGTAAACTGAGAATAGGTTGTTCATTACTGTGAGTTTGGACGAAATATACAATGAGTTTCTGCACAAACATGATAGAAATTCTGACATTTTAGTATATTTAGCTGAATTTAAAATTTTTACAACTGGGTTTGAGAGTTATTTTTGGATTCTGAGTATATTTAGTTTTTTTCGAGTCAATTAGATCTTGACTTGTTTGTGACACAAACTTTTAGATCATAAACTTTGTGTTATTACTTATAATTCAAGTGTTTGTATGAGAACTCGTAGTTATTGATTTGAGTTTTTTTTTTTATGTGTTTTGTTTGATGATTATTAGGATGACTTCATTCTCGGTAGACGAGACTTCAAATCAGAGTTGTTCTAATCCAGTGTTAGAAAAAAGAAAACCGGTTAAACCACCATCATCAGTATGGAAACATTTTATAAAAGTAGAAGGATGCGATCCTAAATATCCTAGGGCTGCTTGTAAAAATTGTGGGGCTTCATATGCTTGTGATTCCAAAACAAATGGTACCACTAATTTAAAAAGACATTTAGAGAAATGTAAGATGTATGTAAATCCATTGGAAGATAATGTTGAAGGAGAGGGAGATTCTAAAAGTAGTTTGATGGCTGCATCATTCACTCAAGAAAATTGTAGAAAAATGCTTGCTAGGATGGTTGTAACGCCCCAACAGATTGGAGTTTTCATTTATTCATCTCAAGAGTAATTTTTGTAAAGTTCGAATTTGTTTATGGAATTGGATTATTTTGACCTTATAATTAATTAAGGTTAAAGAGTTACTTTGGCTGGATATTTAATTAGTGAGGTTTAAGGATAAAATAAAATAATTATTTGTGAAGGTAACAAAATTTAATTATTGTTTTTGAAAAGGTCAATTGTTGGGTTTAATGAAGAGAGAGAGTGGATGGTTGTTATTGAATTAAAGTAGAAAAAAAAAAGAGATAAAAGAAAGTAATAATTATTATTTTATTCTTGTTTCTTCTATTAAAAAGGGGGCATTGGAAGGCGTGAAATTCATCATCTCCCCAAGAAAACCCTAATCCCAAATTCTCCCACCCTAGCCGCCGCCGCCGATCGACCGCCGCAGGCCACCGAGCCGACGTCCATCCTCCCAGCCGCGTCGGAGAACAGAACAAGTCAAGCCGTCGTACGCCAAGCGACAGCCACGCACGCCGCGCCCGCGTCTGCCAGCCGAAGCCGCGTCGGCCTCGTCGACGTCCACACTCAAAGCCGCGTCGCGCCGCTTCGATCCGATGCAGAGCAGCCGAACCCTCCGTCTGCAGTCGTCGCCGAGCGAGGCTGTGGTTTAGGCGGACCACCCGCGACCCGTCACGCCACCCGAGTCTGGAAGTCAGCGCCTCGTCTGCGCGAAGACTTGACCCGGCCGAAGCTCCCGCCCCGCGACCCGACCGGCCCACGCAGCCGCTCCGCGTAGCCCAGTCGCGCCGTGGTCACCCGCAAGCCGAGCCGCACGCGCGCAGCTCCTGCACCCGAGCCGAGCCACGTCTGCTCCTGAGCCGAGGCGCGCCTGCGCACGAGCCGATCCTTGCTCTTCCAGCCAATCGAGCCGAGCCGATCCCTACCTTTTGGAGCCACACAATTTTTGGCCTTTCCCCACGTTTCCTTGGTAAGTTTTGGAAGTTAGTTGGGATTTGGTATATCCAACGAAGAGAAATTTTAGTTTTTAAATAATTTAATTGTTGGATTGAATTAAATTATTTTTCTGAAAGGGGGCCGGTTGGACAAATTGGTGTTGGAGCGTGGGATTTCCTCGACTTAGAGGGAGTTAGCGCAACCTTGATTTTGGGGTAAGTTGCTTCAAACGACTCTTGGACCTCTGTTCCTTGAAGGTTAGGTTTTAATTGTTGTTTCTAATCATTTAGGGCCCCGCTGCTTGGAAAGCACATCTTTTCTTACTTTTAGGACTCGGCAACCAAATCTCCAGGTAAGAGATTTCTACTACTAGCCCTACGATTAAAGGACGGTATACATTCCTAGTTACGCACTTGAAGATTACATGGCATAACGACAGTATAGTTAATGAGGGCATGTTGTGTCTTATTATAATGACATAGTTAATGTGAGACGGCTGATTATGACTTTATGTTTGGTTGTGGTGATGAGATATGATATTATTATTGCATGAGGATGTTATGTGTATGTGTGCTGTGGTTAGGGTGTATGTTAGCTCCTTATTAGAGTCGTACCCATATGGGTGTTCTTCGGGATCACCACCTTTATGACACAGACATGATGGAAGGACCCGACGAGGTCGCTCCCACTTATGACTGCGTAGTCTGACGGGATTACCAGTCTGGCATTGACATTGACATAGACATGACGTGAGTGATCCGACGGGACCACTCACAGCCCGAGCGTCTTAGGTATTCCCTTGGGAACTACTAAGGACCAACTCGTCCCTGCGGGGACGCGTATTGCACGTGTTCGGGGACGTGCCAGTTATGGGGTACCAGTTTCAGGACTCCAATAGGAAGTTAACAGGAACCTAGGGGGACTAGTAGTGGGTCCCTTACTGAGTATTTTATACTCACTCTCTTCATGTCATGTTTTTCAGGTAGAGGCCGAGGTAAGGGCAAAGGCAAGCTGGTGAGCGACCAGAAGTGACCGTGGCGAGCCATAGGGATTTCTGCTTTCGCCTTCACTTGTTTTGACGTTTAGTACCTGAGTTTTATTTTTCTCCACTACTTACTATTTCTTTTCTTTAAAAGTAGATAGGGCCCGAGTAGGACTTTAGTATTTAATTTTATTTTCGCATATTACATTGATTGATTTTCATAAATAAATTTCTCAAATTTTATTCGTTTTTACTAAACTTTATGACTTAAACCACGTGTTTTACATTTAGTAATGACCGCGACTCAGTATAAGGAGTTGGGTTGTTACAATGGTTATCTTGGATAAATTGCCATTTAAGTTCGTAGAAAGTGAAGGGTTTCACCAATTTTGTTGGGCATTAAATCCAAAGTTTGTGATTCCATCAAGAGTAACCGTTGCAAAAGATTTTTTTCAAATGTATATGAGCGAGAAAAAAAAGTTAAAAAATGCATTAACTCGAAGTGGCCAAAGAGTTTGTTTAACAAAGGATACATGGACTTCTATGCAAAATATTAATTATATGGTTATAACGGCTCATTTCATTGATGATGATTGGAACTTGCACAAAAGAATTTTGAACTTTTGTCAAGTAGCTAATCATAAAGGAGATACCATAGGTAGAGCCATTGAAAAGTGCTTAGAAGGTTGGGGTATTGATAGGCTCTTTACTGTAACGATTGATAATGCGAGTTCAAATGAAGTAGCCATTGCCTACTTGGTTAAAAAGTTTAAAGGCAGAAATGAGTTGGTGTTGGATGGTGAATTTATTCACATTAGATGTTATGCTCATATTCTTAATTTAATTGTTAGTGATGCCTTAAAAGATTTGCATGTGTCTATCATTCGAATCAGAAATGCTGTGAAGTATGTTAGGTCATCTCCTGCTAGATTGCAAATATTTAAAGATTTTGCTAAAGAAGATAAGATGTCAACAAAAAATTATCTTACAATGGATGTTCCGACACGATGGAATTCTACTTTTACTATGTTGGATGGAGCAATTAAGTGTCAAAAGACTTTTGAAAGATTGGAGGAGCATGACCCTAGTTATTTGCCAAAGGATGATATTCCTACTACTGAAGATTGGGATAATGCAAAAGTGTTTGTAAAGTTCTTAAAGACTTTTTCAGAGGTAACAATGAAGTTTTCTGCATCTATGTCTGTGACTTCAAACATATTTTTTCATGAACTTTGTTTGATCCAAGAAATAATTCGTGAATACACTTCGTATGAGAATGCATTATTGACTCAAATGACATTAAGCATGTAGACAAAATTCAACAAGTATTGAGGTATAACTACAAGTGAGAAGACCAATTTATTATTGTATGTTTCTGTAGTTCTTGACCCTAGGTACAAGCTAGCTTATGTGAATTATTGTTTTAATGAATTTTTTGAGGAAGATTGTGTGATGATTATTATATGAGAATGTCAAAAGAAAAATATTCACAAACACAATCATGTACACCTATCGAAGGATTTGGCTTTCAAAGTCAAAGTGAAATACCTTCTATCTCATCTAGTGGATCTTATAAGGCACGTGCTACTGTTCATGATAGATTTAAACAAAGTAATAAAACATGTCTAGATGATGCTAAAACAGAGATGACTCGTTATCTGGATGAGGCTTGTATAGATTGTATGGGCGATGAATATTTAGATTTGCTAACTTGGTGGAAGGTGAATTCCTCTCGATTTAAGATCATTACCAAGTAGCTAGAGACATCTACAATATTCCTATATCAATTGTGCCTTCTGAGTCCGCCTTTAGCATTGGAGGACAGGTGTTAGATTCTTTTCGAAGTTCTTTAACTCCTCAAACTGTAGAGGCACTCATTTGTGCTTAGAATTGGATTCAGTCTAAACCATTGGATGACATGACTGAAGAAATTGACGGGGCTGAAGAAATTGATGAAGGTAATATTCTTTTTGAAGTACGCATTTAAAATTTTCAATTATCCCATATAAGCTAACTGTTGGTCATTTTGATCTAGAATTCATAAACATAGGAAAGGAGATGGAAGTTGCATTTGAGAATTTGAATAATGACTCTATGGTTTAAATCCCTACTCTCAAATCTTTATTTACATTTTTTAAAAATTGTTAACTTGTTAAATATCAAATCTTTTTTTTTAGAGTCTTGAAGCTCAGTGATGGAAGCATTTTGGGTTATACGAACAAGGTGGTCTCGTGAAGATGTTCATTAATTCATATCTTAACAATTGTAAACTCTGTTGTTTGCGTAAGGATTTGAAGGGCCAGTAGCTTCTCTACTATCAACTCTTTAATCCCGCTATGTGTGTCCTCAGAAGATTCTTAGTTTATTTTCCTTTGTTTTCTGTTTTTCATTTTTAAGTAATATACTTTATGTGCAGTTTTTACTTTTTATCCAAGTGCAGATATATGTTTTTCTCTCCTAGGTACAAATTAAAGAACTAACTATACTTTATTTAGCTTTTGATTATCATTTGGGAGATGGACAAGCTTGTGTTGTCACCATTATCGTTGCCTTTGATTATTTATTCTCATGGTTTCCATTTTCATTTTTAGTGTGAACTGTAGAATTTATATATTTAATTTCGATCTTCCTTCACTTTATTGGGTGCTTCTATTTTTCTTCTTCTAAAATAAATAAAGATGCTTCATCAATAAGTGGACTTCAATAAGAATTTTGCCCATAAACTTTGTTTAGGACAAAGTTATGTGTCTAATTGTTTCAAGGAGCTAATTGTTTATTTTGGTGTATAATGTTGGACCCATATTTATTTTCATTGAAGTGGTTTCTAAATAAATTTTTCATTCATGTAAATTATACCCATATTTATTTTATTTTATGCTTCATCAATAAGGAGGAGGAGGAGGAGGAGGAAAAAAAAACTTCCGACCTGACCCGACCCGAATGTGGGTCGGGTCGGGTTTCAAGATTAGCCGTACATTTCGGATCGGATCGATTTTGAAGAAAACTCGACCCAATTACACCCCTAATGTAAAGACCCAACCTCTTATACTAAGTTGTGGACTTTACTTTAAAAGAAAAGAATTAAAATTTATTTAAACTAAATAGAAAATAAAACAAAACTGCAAATTTTCGTTTAAATTATAAATAAAATGTACGGAAATAAATTAAAATAGAATTCTTATCTCGGGCCCTACTAGTTTTAAAGGAAAAAACAAGGAAATAAATAGAATAAACTAAAATGAAAAGAATATCGACACTGAAATCTGACACATGACGTAAGCGGAAGCAAACGTGTCCCTATGGCTCGCCACGGTCACTTCTGGTCATTCGCCAGCTTGCCTTTGCTCTTACCTCTACCTCTGCCTAAAAAATAAAAATAGAAAGAGTGAGTATAAAAATATACTTATTAAGGGACCCACTACTAGTTTTGCTAGGTGTCTGTTAACTTCCTATTAGAGTCCTGAAAAGTGGTACCCTAAACTGGCACGTTCCCAAACACGTGCAATCTGTGATCCCATAGGAACAAGCTGATCTTTAGTGAACCCAAAGGAACACCTAAGACAATCGAGCTGTGAGTGATCCCGTCGAATCACTCAAATCATGTCTATATCAATGTCAATATCAGACTGGTGGTCCCGTCGAACTACGCAGTCATAAGCGTGAGCGATCCCATCGGATCTCTCAAATCATGTCTATGTCAATGTCAATGTCAGACTGGTGA

mRNA sequence

ATGAAAATCCAAGAGAATGAAAACCACACCGAATTTTCATACAACAAACAAACTGTTAATCCTCCGACATTGTCAAGTATAATTGAACAGAGAGTAATAGCGAGACGTTTGAGGTCTGAAAACGAACGGTCTGAAGCTTCACCCTCACTCTGGTCTACCGGCTGGGCGGTTACTTCTTTATCTAGGGGATTAGCCGCATCGTCTTCCCCCACTTCGCCAGGTACCTCAAAAGGAAGATTTGAACGGCTTGAAATTGGTGCGAGAGATCGCTTCTTACTATTGGCCTTGTTCTTCCATGTGAGCTTCATCGTCGTCTCCAACCGTTCAGTACGAACACGGCATAAATTTTTTCCCACTCAGAGAGAACCGGGAAGTTCTCTGTCAATACCGGATTTGTCATTCTCTTCCTCGCGGTCGTTAAATCTTTCCATCATTTTTTTTTCATTGCGATTTCTTTCCATCAATTTCCATAGTCTTCGTCCGCTTCATTTTTCGCGTGCTTCATTCTTCGTCTTCGACTCGGCATTATCGTCAGCTGGTGGCATCGTCTTCGTCAGTTTCATTCTTCGTCTGCGTCGGCACTCGGCATCATTAATCTCTTCGTCTGCGAACGTTGGCACTCGACATCATCGATCTCTTCGTCTGCGAACGTTGGCACTCAGCATCGTCTCTTTGTCTGCGAACATCGGCACTCGGCATCATCTCGTCTGCACTCAGCGTCGGCATCATCTCTACTCGACGTCGGCATCATCTCAGGATGACTTCATTCTCGGTAGACGAGACTTCAAATCAGAGGGGCCGGTTGGACAAATTGGTGTTGGAGCGTGGGATTTCCTCGACTTAGAGGGAGGCCCCGCTGCTTGGAAAGCACATCTTTTCTTACTTTTAGGACTCGGCAACCAAATCTCCAGAGTCTTGAAGCTCAGTGATGGAAGCATTTTGGGAGGAGGAGGAGGAGGAGGAAAAAAAAACTTCCGACCTGACCCGACCCGAATGTGGGTCGGGTCGGGTTTCAAGATTAGCCGTACATTTCGGATCGGATCGATTTTGAAGAAAACTCGACCCAATTACACCCCTAATACTGGTGGTCCCGTCGAACTACGCAGTCATAAGCGTGAGCGATCCCATCGGATCTCTCAAATCATGTCTATGTCAATGTCAATGTCAGACTGGTGA

Coding sequence (CDS)

ATGAAAATCCAAGAGAATGAAAACCACACCGAATTTTCATACAACAAACAAACTGTTAATCCTCCGACATTGTCAAGTATAATTGAACAGAGAGTAATAGCGAGACGTTTGAGGTCTGAAAACGAACGGTCTGAAGCTTCACCCTCACTCTGGTCTACCGGCTGGGCGGTTACTTCTTTATCTAGGGGATTAGCCGCATCGTCTTCCCCCACTTCGCCAGGTACCTCAAAAGGAAGATTTGAACGGCTTGAAATTGGTGCGAGAGATCGCTTCTTACTATTGGCCTTGTTCTTCCATGTGAGCTTCATCGTCGTCTCCAACCGTTCAGTACGAACACGGCATAAATTTTTTCCCACTCAGAGAGAACCGGGAAGTTCTCTGTCAATACCGGATTTGTCATTCTCTTCCTCGCGGTCGTTAAATCTTTCCATCATTTTTTTTTCATTGCGATTTCTTTCCATCAATTTCCATAGTCTTCGTCCGCTTCATTTTTCGCGTGCTTCATTCTTCGTCTTCGACTCGGCATTATCGTCAGCTGGTGGCATCGTCTTCGTCAGTTTCATTCTTCGTCTGCGTCGGCACTCGGCATCATTAATCTCTTCGTCTGCGAACGTTGGCACTCGACATCATCGATCTCTTCGTCTGCGAACGTTGGCACTCAGCATCGTCTCTTTGTCTGCGAACATCGGCACTCGGCATCATCTCGTCTGCACTCAGCGTCGGCATCATCTCTACTCGACGTCGGCATCATCTCAGGATGACTTCATTCTCGGTAGACGAGACTTCAAATCAGAGGGGCCGGTTGGACAAATTGGTGTTGGAGCGTGGGATTTCCTCGACTTAGAGGGAGGCCCCGCTGCTTGGAAAGCACATCTTTTCTTACTTTTAGGACTCGGCAACCAAATCTCCAGAGTCTTGAAGCTCAGTGATGGAAGCATTTTGGGAGGAGGAGGAGGAGGAGGAAAAAAAAACTTCCGACCTGACCCGACCCGAATGTGGGTCGGGTCGGGTTTCAAGATTAGCCGTACATTTCGGATCGGATCGATTTTGAAGAAAACTCGACCCAATTACACCCCTAATACTGGTGGTCCCGTCGAACTACGCAGTCATAAGCGTGAGCGATCCCATCGGATCTCTCAAATCATGTCTATGTCAATGTCAATGTCAGACTGGTGA

Protein sequence

MKIQENENHTEFSYNKQTVNPPTLSSIIEQRVIARRLRSENERSEASPSLWSTGWAVTSLSRGLAASSSPTSPGTSKGRFERLEIGARDRFLLLALFFHVSFIVVSNRSVRTRHKFFPTQREPGSSLSIPDLSFSSSRSLNLSIIFFSLRFLSINFHSLRPLHFSRASFFVFDSALSSAGGIVFVSFILRLRRHSASLISSSANVGTRHHRSLRLRTLALSIVSLSANIGTRHHLVCTQRRHHLYSTSASSQDDFILGRRDFKSEGPVGQIGVGAWDFLDLEGGPAAWKAHLFLLLGLGNQISRVLKLSDGSILGGGGGGGKKNFRPDPTRMWVGSGFKISRTFRIGSILKKTRPNYTPNTGGPVELRSHKRERSHRISQIMSMSMSMSDW
Homology
[Close]
BLAST of MELO3C030031 vs. ExPASy TrEMBL
Match: A0A5A7T4C2 (Protein VTE6 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold270G002060 PE=4 SV=1)

HSP 1 Score: 55.5 bits (132), Expect = 6.0e-04
Identity = 29/49 (59.18%), Postives = 32/49 (65.31%), Query Frame = 0 

Query: 221 SIVSLSANIGTRHHLVC-TQRRHHLYSTSASSQDDFILGRRDFKSEGPV 269
           S +S S NIGTRHHLVC TQRRHHLYS SASSQ   +     F    P+
Sbjct: 79  SSISSSVNIGTRHHLVCTTQRRHHLYSASASSQSALLSNLLIFALGSPI 127

[Close]
BLAST of MELO3C030031 vs. ExPASy TrEMBL
Match: A0A5D3BDJ9 (Protein VTE6 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold506G001340 PE=4 SV=1)

HSP 1 Score: 55.1 bits (131), Expect = 7.8e-04
Identity = 28/35 (80.00%), Postives = 29/35 (82.86%), Query Frame = 0 

Query: 221 SIVSLSANIGTRHHLVC-TQRRHHLYSTSASSQDD 255
           S +S S NIGTRHHLVC TQRRHHLYS SASSQ D
Sbjct: 79  SSISSSVNIGTRHHLVCTTQRRHHLYSASASSQFD 113

The following BLAST results are available for this feature:
BLAST of MELO3C030031 vs.
Match NameE-valueIdentityDescription
BLAST of MELO3C030031 vs.
Match NameE-valueIdentityDescription
BLAST of MELO3C030031 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7T4C26.0e-0459.18Protein VTE6 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold270G002060 ... [more]
A0A5D3BDJ97.8e-0480.00Protein VTE6 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold506G001340 ... [more]
BLAST of MELO3C030031 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
MELO3C030031.1MELO3C030031.1mRNA