Information report for MxRBOHD2
Gene Details
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Functional Descriptions
- MxMPK4-1 phosphorylated the C terminus of MxRBOHD2 at Ser797 and Ser906 and positively and negatively regulated NOX activity through these phospho-sites, respectively. When compared with apple calli that overexpressed MxRBOHD2, the coexpression of MxMPK4-1 and MxRBOHD2 prominently enhanced the Fe deficiency responses.
- We found that MxMPK4-1 interacted with NADPH oxidases (NOX)—respiratory burst oxidase homologs MxRBOHD1 and MxRBOHD2, which positively regulated responses to Fe deficiency.
- When compared with apple calli that overexpressed MxRBOHD2, the coexpression of MxMPK4-1 and MxRBOHD2 prominently enhanced the Fe deficiency responses.
- MxMPK4-1 phosphorylated the C terminus of MxRBOHD2 at Ser797 and Ser906 and positively and negatively regulated NOX activity through these phospho-sites, respectively.
Literature and News
Homologs
- Oryza sativa: Osrboh9;OsRBOHH, OsrbohD;Osrboh5, OsrbohA;Osrboh2, OsRbohI, OsrbohB;Osrboh7, OsrbohE;Osrboh6, OsFRO1
- Triticum aestivum: TaNOX10
Sequences
cDNA Sequence
mRNA Sequence
- />MD06G1128500
GACTGATTCTAACAAAACTCGTAGATAGAATATACTTTCTTTGAAGTGGGAATGATCTGACCTGCTCTATAAATAATATAAACATCACATGCATACACTCCATCCACTAAGCCCCAGAAAGAAATGAAAGAAACAGAAAATAATTAACAACCCTTTTGGACTCTTCTCTCATTGCCAGCCTTTCCTTTGTTATAAGCAAAGAAACACACCAAGATCTTCAGCCTTAAAATTTCTTCCTCACAGAAACTCGTTTGGTTACTGAGAAAATGGGAACAAATGAGGCTGGAGGAGTTCATTACCACTCAGATACTGAGATCATCGGTGGTAACGAAAAAATGGCGAATTATAGCGGTCCGCTGAGCGGACCTCTTAGCGGACCACTGAACAAAAAAAGATCAGGCACAAAGAAGAATGCCAAGATCAACACACCGGAGCCAATCTCTGCTACCAAGCCTGGCATTAGTTCAAATGATGAAGAATCTTATGTCGAGGTCACTCTGGACGTCCGAGATGATTCTGTGGCGGTTCACAGCGTAAAACCTGCCGATCATCCTCCTCATGAAGATCACGAAGATCATGTTGAGCTGCTGGGAAAAGGGTTGGAGAAGAGCCGGTCTTTTGTTCGAAATGCTTCATTTCATATCAAGCGCCTGGCCTCGTTTTCAAAACAAGCAGTAGTAGCAGCAGTGCCTCATCATCATCCGCGAAGGCGGTTTGATCGAACACAGTCAGCGGCTGCCCCTGCATTGAAGGGCCTCAAGTTCATCAGCAAGACTGATGGGAATGAGTGGCCTGAAGTTGAGAAGAGGTTCTGCAAGCTCACTGCTTCCACCAATGGCCTGCTTTCCCGTGCGCTTTTCGGGGAATGTATAGGAATGAACAAGGAATCGAAAGAGTTTGCAGGGAAGCTTTTCGATGCGCTTGCTCGAAAGCTCGACATCAAAGGCGATTCTATCAATGAGGATCAGCTGAAAGAGTTATGGGATCAAATCTCTGAGCAGGGATTTGACTCCAGGCTTCAAACTTTCTTTGACATGGTTGATAAAGATGCAGATGGAAGAATCACCATAGAGGAAGTCAAGGAGATTATTAGCTTCAGTGCTTCTGCCAACAAGCTCTCAAACATCCAAAAACAAGCAGATGAGTATGCAGCATTGATCATGGAAGAGTTAGATCCAGACAATCTCGGATACATCATGATAGACAGCCTCGAAACGCTCTTGTTGGAAGGACCGGAAGAGACTGCAGCTGCGGCAAGAGGAAAAGACAGCCGAAACCTAAGCAGAATGCTGAGCCAGAAGCTCAAGCCTACAAGAGAGCATCCATTAACAAGGTGTTATAACAATACAAAGTACTTCTTGCAAGACAATTGGAAGAGAGTTTGGGTAATGATCCTGTGGCTCGGAATCACGTTAGGTCTATTCGTGTACAAATTCATGCAGTATCGAAACAAGGCAGCGTACGAAGTGATGGGACACTGCGTCTGCATGGCGAAAGGTGCAGCGGAGACACTCAAATTCAACATGGCGCTCATTCTCCTCCCGGTCTGCCGGAACACCATAACCTTGCTCCGAAACAAGACCAAACTAGGAGGCGTTATCCCCTTCGACGACAATCTCAATTTCCACAAGGTGATAGCTGTGGGGATTGGGTTTGGAGTTGGGATACATGCAATCTACCATATGGCCTGCGACTTCCCGAGGCTCATTCATGCGAACAGCGATGACTACGAGCTGATGAAGCCATTTTTCGGGGAGGTGCAACCTTCGAGTTACTGGTATTTCGTGAAATCTTTGGAGGGAGTGAGTGGGATTGTCATGGTGGTTTTGATGGCGGTTGCATTCACATTGGCTGCTCCTTGTTTCAGAAGAGGTAAAGTTAACCTGCCTAAGCCTCTGAATAAGCTCGCTGGGTTCAATGCCTTTTGGTATTCCCACCACCTTTTCGTCATAGTCTATGTCCTGCTGATTATCCATGGAGTTCACCTGTATCTGACCAAGAAATGGTACCAGAAAACAACATGGATGTACCTAGCTGTTCCACTCACACTCTATGCTGGTGAAAGATTAGTTAGGGCACTCAGATCCAGCATCAAGCCTGTTCAGATTCTAAAGGTGGCTCTCTACCCTGGTAATGTCTTGGCACTTCATTTGTCCAAGCCTCAAGGCTTCAGATACCATAGTGGGCAATACATGTTTGTTAATTGTGCTGCTGTGTCGCCATTTGAATGGCACCCGTTTTCCATCACCTCGGCCCCTGGAGATGACCACCTCAGTGTTCATATCCGGATCGTCGGAGATTGGACCCGACAACTTAAAACGGTGTTCTCAAAGGTATGCCAACCACCTCCTAGTGGGAAAAGTGGACTCCTTACAGCTGACCACATGCAAGGAGCTGAAAACTTGATATTTCCAAGAGTGTTGATCGATGGACCCTATGGAGCACCAGCTCAAGAATACAAGACCTATGAAGTGGTGTTGTTGGTAGGGCTAGGGATTGGGGCAACCCCAATGATTAGCATTTTGAAGGACATAGTGAACAATATCAAGGCCATGGAGGAAGAGGAGGAGGACAATGCTTTAGAAAATGGTGGTGGTGGTGGTGGCGGCACCAAGTTACCACACAAATCATCAAAAACACATGCTGGGTCGACCTCGGTGGGACACCATAACTTTAAGACCAAGCGGGCGTATTTTTATTGGGTGACACGGGAACAGGGCTCCTTTGATTGGTTCAAAGGAGCGATGAATGAGGTGGCGGAATTGGACCACAACAGGGTCATTGAATTTCACAATTATTGCACTAGTGTGTATGAAGAAGGTGATGCACGTTCTGCCCTCATTGCCATGCTTCAGTCTTTGAGTCATGCAAAGAATGGTGTCGACATTGTCTCCGGCACACGTGTCAAATCGCACTTTGCCAAGCCAAACTGGCGTGAGGTCTACAAGCGGATTGCACTCGATCACACCGATGCTAGAGTTGGGGTGTTCTACTGCGGGCCACCGGCGCTTACCGAAGAGCTACGCCAGCTGTCCCTCGACTTCTCTCACAAAACCTCCACCCGATTTGAGTTCCACAAAGAAAACTTCTGATAACACAAGTCTGTCCCACACATTATATATATAATTATAATTATACAAGTTAATTACAGGTTGGATTGAAGAGATGTGCAAACCATGTTATACAATGATGCAATCGTTGTAATCTCTTATTATCATGTGAGATGAGAGAGAATAAGAGAAGATAATATTTTGTAATGATAGAATCTCTCAGGTTTTAGGAGAAATTCTTGGGTACGGCTGACGCAGCAACACACTCATTAGGATTTGAGACTCACATGTAAAGTCGCATATTGTTAAGGTATTGTTGTGTGCAGCAGTCGCATCTTAAATTCTCCCATATTGTAGCATAAAGTTTGTATTCGAGTTATTTTCTTTTTCCTTAACTTATACATAGAAGAGAATGTGGATGTATTTTTAAGTCATATATGATAATCATATAAGGTTGTGTTTGGTCAAGAAGATAATTTCCCAAGGGAACTTCCCAGTGTAATGGCAAGCTTGTAATTTCACAAGCTTCTGGTACTTATACGACTCACAAGTTTAAACGGC
Protein Sequence
- />MD06G1128500
MGTNEAGGVHYHSDTEIIGGNEKMANYSGPLSGPLSGPLNKKRSGTKKNAKINTPEPISATKPGISSNDEESYVEVTLDVRDDSVAVHSVKPADHPPHEDHEDHVELLGKGLEKSRSFVRNASFHIKRLASFSKQAVVAAVPHHHPRRRFDRTQSAAAPALKGLKFISKTDGNEWPEVEKRFCKLTASTNGLLSRALFGECIGMNKESKEFAGKLFDALARKLDIKGDSINEDQLKELWDQISEQGFDSRLQTFFDMVDKDADGRITIEEVKEIISFSASANKLSNIQKQADEYAALIMEELDPDNLGYIMIDSLETLLLEGPEETAAAARGKDSRNLSRMLSQKLKPTREHPLTRCYNNTKYFLQDNWKRVWVMILWLGITLGLFVYKFMQYRNKAAYEVMGHCVCMAKGAAETLKFNMALILLPVCRNTITLLRNKTKLGGVIPFDDNLNFHKVIAVGIGFGVGIHAIYHMACDFPRLIHANSDDYELMKPFFGEVQPSSYWYFVKSLEGVSGIVMVVLMAVAFTLAAPCFRRGKVNLPKPLNKLAGFNAFWYSHHLFVIVYVLLIIHGVHLYLTKKWYQKTTWMYLAVPLTLYAGERLVRALRSSIKPVQILKVALYPGNVLALHLSKPQGFRYHSGQYMFVNCAAVSPFEWHPFSITSAPGDDHLSVHIRIVGDWTRQLKTVFSKVCQPPPSGKSGLLTADHMQGAENLIFPRVLIDGPYGAPAQEYKTYEVVLLVGLGIGATPMISILKDIVNNIKAMEEEEEDNALENGGGGGGGTKLPHKSSKTHAGSTSVGHHNFKTKRAYFYWVTREQGSFDWFKGAMNEVAELDHNRVIEFHNYCTSVYEEGDARSALIAMLQSLSHAKNGVDIVSGTRVKSHFAKPNWREVYKRIALDHTDARVGVFYCGPPALTEELRQLSLDFSHKTSTRFEFHKENF