Gene Details:

Functional Descriptions:

  • Identification of rice Di19 family reveals OsDi19-4 involved in drought resistance.
  • Overexpression of OsDi19-4 in rice increased drought tolerance by enhancing ROS-scavenging activity.
  • In this study, we found that overexpressing OsDi19-4 in rice altered the expression of a series of ABA-responsive genes, resulting in strong ABA hypersensitive phenotypes including ABA-induced seed germination inhibition, early seedling growth inhibition and stomatal closure.
  • OsDi19-4 acts downstream of OsCDPK14 to positively regulate ABA response in rice.
  • Taken together, these data demonstrate that OsDi19-4 acts downstream of OsCDPK14 to positively regulate ABA response by modulating the expression of ABA-responsive genes in rice.
  • On the contrary, OsDi19-4 knock-down lines were less sensitive to ABA.
  • Additionally, OsCDPK14 was identified to interact with OsDi19-4 and be responsible for the phosphorylation of OsDi19-4, and the phosphorylation of OsDi19-4 was further enhanced after the treatment of ABA.
  • Transient expression assays confirmed the direct regulation role of OsDi19-4, and the regulation was further enhanced by the increased phosphorylation of OsDi19-4 after the treatment of ABA.

Literature:

Gene Resources:

  • NCBI ID:
  • UniProt accessions:

Sequences:

cDNA Sequence
  • >LOC_Os02g20170.1
    TATTTTGGTTGGTGGTGCCGTGTAGAGGGGGAGGCGACGAGACGAGACGAGAGGAAGGAGACGAGACGATACGCGGAGATCCGGGCGGCGACCCGCGGAGGAGGAGGAGCCCGCGGCGCCATGGATTCCGACCACTGGATCTCCCGCCTCATGGCCGCCAAGCGCCAGTACGCGCTGCAGCGCGCCCAGAATCACCACCACGCCACCGCCACCGCCACCGCCACCGCCGCGTCGCACTCCCACCTCGATCGGTATGGGTACGATGATGTTGAGCCAGAGGACGAGGTACGGCCAGACTTCCCATGTCCTTACTGCTATGAAGATCATGACATTACATCTCTTTGTGCCCATTTAGAGGATGAGCACCCCTTTGAGTCTAAAGTTGTGGCTTGCCCGGTTTGCTCGGCTAGGATTTCAAAGGACTTATTGGATCACATAACCCTTCAGCACAGCTACCTGTATTACCTGCAGAGACATCACAGATTACGCAGAGTTGCTGTTCCTAGCAACCATGCTCTCTCCCTTGGAGGGAGAGATCTACAGGAGACCTACTTAAAGGTTCTTCTTGGAAACAGTAGTCGAAGCAGTGGTACCAATGCAGCAAGTTCAGTCACTGATTCACTACTATCTTCACTTGTTTTAAATTTATCTTCATCCGAAGCCGAAGATACAGCGAAATTTTCTGCTCTAGCTGTGGTAGAAAATAATTGGTTTAAAAGAACACTGCCTTCAAAGACTTGGAAGGCAAGCTCTGATTCTAATCTTAGTCAGGAAGAAAGGGAGAGAAGGCGGAGGCGAGCTGCAGTGAGATCATCTTTTGTACAGCACCTGCTTGTCTCTACCCTTTTTGATGACTAGCAGAAGAAAAAAAGAGCAGCTCCGTGCACTGGAATCTCGAGTGGGCCTTTTGTCCACACATTTCTGGATGAATGATGAAGTAAAGCATCTTCCAAATCCTGAAGCAGTTCATCCAACCGGAGGCTGGTTCCTGATCCTTTCGACATTGATGATGAACCGATGTGGCTGGCCTCTTACTTGTCATGGAAGCAGTTCTGAACATTTATGTTCGAAATCCAATTCAGATTGCTAGGCTATCGACTAGCGTTACTGTATTGATTGTGTTATTCCATATGATTTCATTATGTGCTTAACAATACAATGAACATTACCCCCAATTTGATTCTTACTATAAACATTTCAAAATTGAATTCCATGTTTGGTATATTCATGAGGTTACATTATCTGTTCTA
CDS Sequence
  • >LOC_Os02g20170.1
    ATGGATTCCGACCACTGGATCTCCCGCCTCATGGCCGCCAAGCGCCAGTACGCGCTGCAGCGCGCCCAGAATCACCACCACGCCACCGCCACCGCCACCGCCACCGCCGCGTCGCACTCCCACCTCGATCGGTATGGGTACGATGATGTTGAGCCAGAGGACGAGGTACGGCCAGACTTCCCATGTCCTTACTGCTATGAAGATCATGACATTACATCTCTTTGTGCCCATTTAGAGGATGAGCACCCCTTTGAGTCTAAAGTTGTGGCTTGCCCGGTTTGCTCGGCTAGGATTTCAAAGGACTTATTGGATCACATAACCCTTCAGCACAGCTACCTGTATTACCTGCAGAGACATCACAGATTACGCAGAGTTGCTGTTCCTAGCAACCATGCTCTCTCCCTTGGAGGGAGAGATCTACAGGAGACCTACTTAAAGGTTCTTCTTGGAAACAGTAGTCGAAGCAGTGGTACCAATGCAGCAAGTTCAGTCACTGATTCACTACTATCTTCACTTGTTTTAAATTTATCTTCATCCGAAGCCGAAGATACAGCGAAATTTTCTGCTCTAGCTGTGGTAGAAAATAATTGGTTTAAAAGAACACTGCCTTCAAAGACTTGGAAGGCAAGCTCTGATTCTAATCTTAGTCAGGAAGAAAGGGAGAGAAGGCGGAGGCGAGCTGCAGTGAGATCATCTTTTGTACAGCACCTGCTTGTCTCTACCCTTTTTGATGACTAG
Protein Sequence
  • >LOC_Os02g20170.1
    MDSDHWISRLMAAKRQYALQRAQNHHHATATATATAASHSHLDRYGYDDVEPEDEVRPDFPCPYCYEDHDITSLCAHLEDEHPFESKVVACPVCSARISKDLLDHITLQHSYLYYLQRHHRLRRVAVPSNHALSLGGRDLQETYLKVLLGNSSRSSGTNAASSVTDSLLSSLVLNLSSSEAEDTAKFSALAVVENNWFKRTLPSKTWKASSDSNLSQEERERRRRRAAVRSSFVQHLLVSTLFDD*