MELO3C018576T2 (mRNA) Melon (DHL92) v3.5.1

Overview
NameMELO3C018576T2
TypemRNA
OrganismCucumis melo (Melon (DHL92) v3.5.1)
DescriptionAldo-keto reductase, putative
Locationchr1 : 1203079 .. 1207546 (-)
Sequence length1217
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CATCAAGAGTGAAGGGATCCAATGTGTGTAAAAATTATGGAAGGATCGAATTTAATGGCCTATCTTCAACCTGGTCCCTCAACTTGGCTTTTTTCTTCACAATCGGAATCTCTTTTTCACTTCCTTTCCCGGGAATATTGAATTCCATTCTTCTTACTTCTGTTAGCTTCATCGGAACCAATGGCGGTTTCTTATCCCAAGCTCCCATTGCGGGAACTGGGAAACACTGGCCTCAAAACCAGCAGTGTCGGCTTTGGTGCTTCCCCTCTAGGCAGCGTCTTCAGCCCCGTTTCCGAGGAGGATGCCGTCGCCGCCGTTCGTGAAGCATTCCGTCTTGGCATCAACTTCTTTGACACCTCCCCGTACTATGGAAGGAACTTATCAGAAAAGATGCTTGGTAAGGGACTGAAAGCTCTAGGAGTTCCAAGGAGTGAGTATATAGTGTCAACAAAGTGTGGGAGATATGGCGAGGGTTTTGATTTCAGTGCTGAGAGGGTGACAAGGAGCATTGATGAGAGTTTGGCTAGGCTACAACTAGATTATGTCGATATACTGCATTGCCATGATATTGAATTTGGATCTCTTGATCAGATTGTGAACGAGACGATTCCTGCACTTCAAAAGCTAAAAGAAGCTGGGAAGACTCGTTTCCTTGGTATTACAGGATTACCGTTGGAAATATTTACGTATGTGCTTGATCGAGTACCACCTGGAACCATTGATGTGATTCTTTCATATTGTCACTACAGTATTAATGATTCAACATTGTTAGATTTACTACCTTACTTGAAGAGTAAGGGAGTTGGAATAATCAGTGCTTCTCCTCTAGCAATGGGCCTTCTAACCGATCAAGGTCCCCCAGAATGGCACCCAGCTTCACCGGAATTAAAGTCTGCATGTCAAGCTGCGGCTGATCATTGTAGAAAGAAGGGAAGAAATATTACAAAGTTAGCCATCCAATACAGTCTGGTGAACAAAGATATTTCAACGGTGCTGGTTGGCATGAACTCTGTCAGACAGGTGGAGGAAAACGTAGCTGCTGCTGAAGAACTTGCCACATTTGGGAGGGATGAGGAAACTCTGTCGGAGGTTGAAGCTATCCTTAACCCTGTCAAGAATCAGACATGGCCAAGTGGAATCCAAAACAGCTGATATTTAAGTCGCTGCTGCTTGGTATGTGTAACATTTTTTTCTTTTAATAAAGAATCATCGAACAG

Coding sequence (CDS)

ATGGCGGTTTCTTATCCCAAGCTCCCATTGCGGGAACTGGGAAACACTGGCCTCAAAACCAGCAGTGTCGGCTTTGGTGCTTCCCCTCTAGGCAGCGTCTTCAGCCCCGTTTCCGAGGAGGATGCCGTCGCCGCCGTTCGTGAAGCATTCCGTCTTGGCATCAACTTCTTTGACACCTCCCCGTACTATGGAAGGAACTTATCAGAAAAGATGCTTGGTAAGGGACTGAAAGCTCTAGGAGTTCCAAGGAGTGAGTATATAGTGTCAACAAAGTGTGGGAGATATGGCGAGGGTTTTGATTTCAGTGCTGAGAGGGTGACAAGGAGCATTGATGAGAGTTTGGCTAGGCTACAACTAGATTATGTCGATATACTGCATTGCCATGATATTGAATTTGGATCTCTTGATCAGATTGTGAACGAGACGATTCCTGCACTTCAAAAGCTAAAAGAAGCTGGGAAGACTCGTTTCCTTGGTATTACAGGATTACCGTTGGAAATATTTACGTATGTGCTTGATCGAGTACCACCTGGAACCATTGATGTGATTCTTTCATATTGTCACTACAGTATTAATGATTCAACATTGTTAGATTTACTACCTTACTTGAAGAGTAAGGGAGTTGGAATAATCAGTGCTTCTCCTCTAGCAATGGGCCTTCTAACCGATCAAGGTCCCCCAGAATGGCACCCAGCTTCACCGGAATTAAAGTCTGCATGTCAAGCTGCGGCTGATCATTGTAGAAAGAAGGGAAGAAATATTACAAAGTTAGCCATCCAATACAGTCTGGTGAACAAAGATATTTCAACGGTGCTGGTTGGCATGAACTCTGTCAGACAGGTGGAGGAAAACGTAGCTGCTGCTGAAGAACTTGCCACATTTGGGAGGGATGAGGAAACTCTGTCGGAGGTTGAAGCTATCCTTAACCCTGTCAAGAATCAGACATGGCCAAGTGGAATCCAAAACAGCTGA
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0019853 L-ascorbic acid biosynthetic process
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0042816 vitamin B6 metabolic process
cellular_component GO:0005829 cytosol
molecular_function GO:0010349 L-galactose dehydrogenase activity
molecular_function GO:0050235 pyridoxal 4-dehydrogenase activity
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
MELO3C018576MELO3C018576gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
MELO3C018576T2MELO3C018576T2-proteinpolypeptide


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

Feature NameUnique NameType
MELO3C018576T2.cds5MELO3C018576T2.cds5CDS
MELO3C018576T2.cds4MELO3C018576T2.cds4CDS
MELO3C018576T2.cds3MELO3C018576T2.cds3CDS
MELO3C018576T2.cds2MELO3C018576T2.cds2CDS
MELO3C018576T2.cds1MELO3C018576T2.cds1CDS