Information report for MdAO2
Gene Details
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Functional Descriptions
- Apple Fruit Copper Amine Oxidase Isoforms: Peroxisomal MdAO1 Prefers Diamines as Substrates, Whereas Extracellular MdAO2 Exclusively Utilizes Monoamines.
- Genes encoding two of these enzymes, MdAO1 and MdAO2, were highly expressed in apple fruit and selected for further analysis.
- Transient expression of green fluorescent fusion proteins in Arabidopsis protoplasts or onion epidermal cells revealed a peroxisomal localization for MdAO1 and an extracellular localization for MdAO2.
- MdAO2 seems to be involved in deamination of 2-phenylethylamine, which is a step in the biosynthesis of 2-phenylethanol, a contributor to fruit flavor and flower fragrance.
Functional Keywords
- flower , copper , protoplasts
Literature and News
Gene Resources
- NCBI ID: KM067896
- UniProt accessions:
Sequences
cDNA Sequence
CDS Sequence
- >MDP0000197462
ATGGAAGGTCSGAGATTCCTGCGTTTTTTCTCCCTTTCCCTCTGCATAGGCCTAGTCCTCCTCTTCACTTGGTCCCACCTCCCTTACGCGCCGCCGTACGTCTCCGACCTCCTYGACTGCACARCAAACTCCGCCTGGTGCTCCTCCAAAAACCGCATCCAAKCCAAASCCCCTATCCCAACGCGCCGCCTCAAAGACCACAGCTCCGACACCCCCCACCACCCTCTCGACCCCCTCACCATCCAAGAACTCAACGCCGTCCGCACCATCCTCAACTCCCACGCGCTCTTCACCTCCACCTCCTCCTACGCGCTCCACTCCATCGAGCTCCAGGAGCCCGACAAGTCCCTCGTCCTCGGATGGAAGCACGGCGACCCTCTCTTCCCCAGAAAGGCCTCTATCGTCGCACGTGTCGACAGCAAGTCGCTCGTGCTAACMGTCGACCTGACYACGTCCGAGGTGACCGTTCACGAGACCGGCTCCCACTACGGTTACCCSACGATGACGCTGGAGGAGCTGGCCGCTGCCACGTTCAGCCCGCTCAAGAACGCTGATTTCAACCGTACGATCGTCGAGCGCGGGGTCGATCTGGCGGACCTGGGGTGTCTCCCGCTTTCCACGGGGTGGTACGGCGGGGCCGACGAGAACAGGAGGTTGATTAAGGTGCAGTGCTAYTCCACCAAAGATACTGTGAACTTCTACATGCGTCCAATCGAAGGGTTAACTGTTCTCGTTGACTTGGACACCCAACARGTGGTGGAGATTTCGGATAAGGGCAGGGGCATCCCCATACCAAAGGCCGCCAATACAGATTATAGGTACTCAGCCCAAAGGCCCAATCAAGTGAAAAAGCTGATCAAGCCCATATCTATAGAGCAGCCGGAAGGGCCGAGTTTTACGGTAGAAAATGATCACTTGGTCAAATGGGCAAATTGGGAATTTCACTTGAAGCCTGACGCCAGGGCGGGCGTCATCGTATCCCGGGCCAAAGTTTGGGACCCGGAGACCGGGGAGTTGAGGGATGTKATGTACAAAGGGTTTACGTCAGAGTTGTTTGTGCCTTACATGGACCCCACTGATGCGTGGTACTTTAAGACCTATATGGATGCCGGTGAATACGGGTTCGGGTTACAGGCAATGCCTCTGGAGCCGCTTAACGATTGTCCGCGTAACGCCTACTATATGGATGGTGTGTTTGCGGCAGCTGATGGAAAACCATACGTCCGATCAAACATGGTTTGCATATTCGAGAGCTATACGGGCGATATCGGGTGGCGGCACACAGAGTGTCCGATAACGGGCATGGAGGTTAGGGAAGTGAGGCCAAAGGTGACATTGGTAGTTAGAATGGCAGCATCAGTTGCTAACTATGATTATATCGTCGACTGGGAGTTCCAAACAGACGGACTAATCAGGGTTAAGGTTGGACTTAGTGGCATTTTGATGGTGAAAGGCACCTCCTATGAGAACATGAACCAAGTCTCATCTAGCCAAGAGAATCTCTATGGCACCCTCTTGTCGGAGAACGTTATTGGYGTTATTCRCGATCATTACGTCACATTTCATCTTGATATGGACGTGGACGGCTCAGATAACTCCTTTATGAAGGTGAATCTCCAAAGGCAGTCCAACTCCCCAACTGAATCACCMAGGAAAAGCTACTTGAAAGCTACTAAAACCGTTGCCAAAACTGAGAAAGATGCACAGATTAAGCTCAAACTCTATGACCCGTCCGAATTCCACGTGATCAACCCATCGAAAAAGACACGGGTTGGAAACCCTGTAGGGTACAAGTTGGTTCCCGGTGGCACTGCTGCTAGCTTGCTTGATCTTGACGACCCTCCCCAAAAGAGAGGTGCTTTTACAAACAATCAAATTTGGGTTACCCCATACAATAAGAGCGAACAATGGGCTGGTGGGTTGTTTGTAGACCAAAGCACAGGCGAAGATACTCTTGCCGTGTGGTCTAACAGGGACCGACCAATCGAGAACAAGGACATTGTGGTTTGGTACACATTAGGGTTTCATCACATACCCTGTCAAGAAGACTTCCCTATAATGCCAACTGTGTCATCTAGCTTCGATATCAAACCTGTCAATTTCTTTGAGAGTAACCCCATACTTCGGACTCCGCCTAACGTTGCCACAGATMTACCCGTTTGCACGGCTGCTGCTTCAGCTTAA
Protein Sequence
- >MDP0000197462
MEGXRFLRFFSLSLCIGLVLLFTWSHLPYAPPYVSDLLDCTXNSAWCSSKNRIQXKXPIPTRRLKDHSSDTPHHPLDPLTIQELNAVRTILNSHALFTSTSSYALHSIELQEPDKSLVLGWKHGDPLFPRKASIVARVDSKSLVLTVDLTTSEVTVHETGSHYGYPTMTLEELAAATFSPLKNADFNRTIVERGVDLADLGCLPLSTGWYGGADENRRLIKVQCYSTKDTVNFYMRPIEGLTVLVDLDTQQVVEISDKGRGIPIPKAANTDYRYSAQRPNQVKKLIKPISIEQPEGPSFTVENDHLVKWANWEFHLKPDARAGVIVSRAKVWDPETGELRDVMYKGFTSELFVPYMDPTDAWYFKTYMDAGEYGFGLQAMPLEPLNDCPRNAYYMDGVFAAADGKPYVRSNMVCIFESYTGDIGWRHTECPITGMEVREVRPKVTLVVRMAASVANYDYIVDWEFQTDGLIRVKVGLSGILMVKGTSYENMNQVSSSQENLYGTLLSENVIGVIXDHYVTFHLDMDVDGSDNSFMKVNLQRQSNSPTESPRKSYLKATKTVAKTEKDAQIKLKLYDPSEFHVINPSKKTRVGNPVGYKLVPGGTAASLLDLDDPPQKRGAFTNNQIWVTPYNKSEQWAGGLFVDQSTGEDTLAVWSNRDRPIENKDIVVWYTLGFHHIPCQEDFPIMPTVSSSFDIKPVNFFESNPILRTPPNVATDXPVCTAAASA