Gene Details:

Functional Descriptions:

  • MdNAT7 is responsive to salt and might encode a xanthine and uric acid transporter.
  • Exogenous application of xanthine and uric acid and nucleobase-ascorbate transporter MdNAT7 expression regulate salinity tolerance in apple.
  • MdNAT7 overexpression transgenic apple plants showed enhanced xanthine and uric acid concentrations and improved tolerance to salinity stress compared with nontransgenic plants, while opposite phenotypes were observed for MdNAT7 RNAi plants.
  • Our results demonstrate that xanthine and uric acid have potential uses in salt stress alleviation, and MdNAT7 can be utilized as a candidate gene to engineer resistance to salt stress in plants.

Literature:

Gene Resources:

  • NCBI ID:
  • UniProt accessions:

Orthologs:

Sequences:

cDNA Sequence
CDS Sequence
  • >MDP0000304285
    ATGGGAGAAAATGCTCCGCCTCCTCCACCACAGGTGGTTGCTCGGCCGTCTCAGATGCCTCTTGGGGCGGCGAAGGGTCCCATTTGGACTCCGACTGAGCAGCTCCACAACCTTCAGTATTGCATCCACTCCAACCCCTCTTGGCCGGAAACATTCGTACTCGCTTTTCAGCACTATATTGTGATGCTYGGATCCATAGTTATAATTGCCACTAGTTTCGTGCCTCGGATGGGTGGGGATCATGGTGACAAGGCACGCGTGATTCAGACGATGCTGTTTATGGCAGCAATAAACACTTTGATCCAAACATTCATCGGGACAAGGCTTCCAACAGTGATGACTTCGTCATTCGCTTTTACCCTTCCGGTGATGTCAATCATCAATGATTATTCTGATCGGACTTTTAGAAGTGAACATGAGAGGTTTGAGACTACAATGAGAACGATTCAAGGGTCACTTATTGTAGCTTCCTTCTTCAACATCTTCATTGGGTTTAGTAGGGCATGGGGGAACCTCACAAGATTTTTTAGTCCAATCGTTATCGTGCCAGTGGTTTGTGTAGTCGGTCTTGGTCCTTTTGCAAGGGGCTTTCCACTTCTCGCTAACTGTGTGGAGATTGGTCTGCCTATGCTGATCCTGCTTGTCATTACTCAACAGTATCTGAGGCATGCTCTTCCTAGAGGCCATAATATACTCGAGAGGTTTGCTTTGCTTCTCTGCATTGGGCTTGTATGGTCATTTGCTGCTATCCTCACCGAGGCTGGTGCTTATAACACTGCCAAACAGCAGACTAAACAAAATTGCCGTACAGATCGCTCTTACCTTATAGCATCTGCTCCTTGGATTAGATTCCCGTACCCGTTTCAGTGGGGTAAACCCATATTCCGAGCGAGCCATGTCTTTGGAATGATGGGAGCAGCAATTGTTACGTCTGCAGAGTCAACTGGAGCGTATTTTGCGGCAGCACGGCTTTCAGGTGCTACTCCCCCTCCAGCAACTGTGGTGAGCCAGAGTATAGGCTTGCAGGGTGTTGGCATGCTGCTTGAAGGTATTTTTGGCGCTGCTGTCGGTACCACAGCATCCGTCGAAAATGTTGGCCTGCTTGGATTGACACACATAGGGAGCAGGAGAGCGGTGCAGATTTCAACTGCTTTCATGTTCTTCTTCTCTATATTTGGTTCGTTCTCTCCTTCCGTTAGACATGTCATGACTCATGCCTGGGTTTACTACATTGTGTTTGATAGTGTTAAGTTGCGTCTTTCAGGAAAGTTTGGAGCTTTTTTTGCATCAATTCCTTTGCCGATATTTGCTGCCATGTACTGTGTTTTATTTGGAATCGTCGCTGCTGTTGGTATCACTTTCATTCAGTTTGCAAATAATAATTCCTTGAGAAACATCTATGTTTTGGGTCTTTCCCTGTTTCTTGGGATCTCGATACCTCAATATTTTGTCTCGAACACCACCCCGAATGGTGTCGGGCCAGTCAAAACGGATGGCGTATGGTTTGATGACATAATGAACACGATCTTCTCATCGAGCCCAACAGTGGCGATGATCGTGGGCACGCTGCTGGATAACACGCTTGATGCCAGGCATGCGGCCAACGACAGAGGACTTGCATGGTGGAGACCCTTCCAGAGCAGGAAAGGAGATGCTAGAAATGAGGAGTTTTATAGTCTACCTGTTAGGATACGGGAGTACATACCTAGCAGATTTTTCTATTATTAG
Protein Sequence
  • >MDP0000304285
    MGENAPPPPPQVVARPSQMPLGAAKGPIWTPTEQLHNLQYCIHSNPSWPETFVLAFQHYIVMLGSIVIIATSFVPRMGGDHGDKARVIQTMLFMAAINTLIQTFIGTRLPTVMTSSFAFTLPVMSIINDYSDRTFRSEHERFETTMRTIQGSLIVASFFNIFIGFSRAWGNLTRFFSPIVIVPVVCVVGLGPFARGFPLLANCVEIGLPMLILLVITQQYLRHALPRGHNILERFALLLCIGLVWSFAAILTEAGAYNTAKQQTKQNCRTDRSYLIASAPWIRFPYPFQWGKPIFRASHVFGMMGAAIVTSAESTGAYFAAARLSGATPPPATVVSQSIGLQGVGMLLEGIFGAAVGTTASVENVGLLGLTHIGSRRAVQISTAFMFFFSIFGSFSPSVRHVMTHAWVYYIVFDSVKLRLSGKFGAFFASIPLPIFAAMYCVLFGIVAAVGITFIQFANNNSLRNIYVLGLSLFLGISIPQYFVSNTTPNGVGPVKTDGVWFDDIMNTIFSSSPTVAMIVGTLLDNTLDARHAANDRGLAWWRPFQSRKGDARNEEFYSLPVRIREYIPSRFFYY