Gene Details:
- MSU gene ID: LOC_Os11g03370
- RAPdb gene ID: Os11g0127600
- Gene Symbol: ONAC045 OsNAC45
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- In this study, a rice NAC gene, ONAC045, was functionally characterized, especially with regard to its role in abiotic stress resistance.
- Expression analysis revealed that ONAC045 was induced by drought, high salt, and low temperature stresses, and abscisic acid (ABA) treatment in leaves and roots.
- Together, these results suggest that ONAC045 encodes a novel stress-responsive NAC transcription factor and is potential useful for engineering drought and salt tolerant rice.
- Transgenic rice plants overexpressing ONAC045 showed enhanced tolerance to drought and salt treatments.
- Immunostaining showed that OsNAC45 was localized in all root cells and was mainly expressed in the stele.
- Previous reports have demonstrated that overexpression of OsNAC45 enhances salt and drought tolerance in rice, and that OsNAC45 may regulate the expression of two specific genes, OsPM1 and OsLEA3-1.
- OsNAC45 is Involved in ABA Response and Salt Tolerance in Rice.
- Knockout of OsNAC45 also resulted in more ROS accumulation in roots and increased sensitivity of rice to salt stress.
- Results: Here, we found that ABA repressed, and NaCl promoted, the expression of OsNAC45 in roots.
- Loss of OsNAC45 decreased the sensitivity of rice plants to ABA and over-expressing this gene had the opposite effect, which demonstrated that OsNAC45 played an important role during ABA signal responses.
- Conclusions: These results indicate that OsNAC45 plays vital roles in ABA signal responses and salt tolerance in rice.
Function-related keywords:
- abiotic-stress , temperature , transcription-factor , root , drought , salt , tolerance , ABA , drought-tolerance , salt-tolerance , salt-stress , stress
Literature:
- Overexpression of a NAC transcription factor enhances rice drought and salt tolerance . DOI: 10.1016/j.bbrc.2008.12.163 ; PMID: 19135985
- OsNAC45 is Involved in ABA Response and Salt Tolerance in Rice . DOI: 10.1186/s12284-020-00440-1 ; PMID: 33284415
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os11g03370.1
CATTATACCTTTATCCCCTTCATTTCTGTTCCATTTCTCATCCATCGCGCGTCGTCTCCACCTTTGTTGCTTGTGCCACCAAGCTATCTCCTCCTCTCCTCTCTACTAGTGCTTCTGCTTGCTCGATCAGCAGTGAGCTTCAAGCTAGCTAGCAAGCATGGTGGAGACTAGTACATCCCTTGTGAAATTAGAGCAAGATGGCAGCTTGTTCTTGCCTCCAGGCTTCAGATTCCATCCCACAGATGCGGAGGTAATCTTGAGCTACCTCCTGCAGAAATTCCTCAACCCTAGCTTCACCTCCTTGCCAATCGGCGAGGTCGACCTCAACAAGTGCGAGCCATGGGATCTCCCAAGCAAGGCGAAGATGGGGGAGAAAGAATGGTACTTCTTCAGCCACAAGGACATGAAATACCCGACGGGGATGCGAACCAACCGAGCCACCAAGGAGGGATACTGGAAGGCCACCGGCAAGGACAGGGAGATCTTCAACCTGCAGCCTACCAGCTATGGAGGCAGCAGCAACAACAAGAATAATAAGCAGCTGGTTGGGATGAAGAAGACGCTTGTGTTCTACATGGGGAGAGCTCCCAAGGGCACCAAGACCAACTGGGTGATGCACGAGTTCCGTCTCCACGCCAACCTCCACAACGACAACCCGAACCTTCGTCTCAACCTCAAGGATGAGTGGGTTGTGTGCAAGGTATTCCACAAGAAGGGAGACGATCGCGAAGCCATCAACAAGCAGCAGGCACAGGCTGCAGCTGTTGATCAGTACTCTGCCGGAACACCCAACAACGGCAGCTCCGTCGAAGCCGGCGACGACGACGACGACTTGTTCCAGCTCGACTCCATCATCGACCCCAGCATCTACTTCAGCAACTCATCAGCTGCCAACATCTTGTCGGCGCCGCCCAACATGTCCAATTCCGTCGTCGCTGCCAACTACGGTGCAAGTACGACGACGACTGGTACTGCTAGTGCTGGTAGCTTCCAGCAGCAGCCAAACTACTGCAGCTTGATCAACAAAAGCATCAGCAGCAGCAATGTCTCCTCTTGGAATAATATGCCTCCACCTCCTCCTGTAGCTGAAGGAGGAGTCCATGGAATTGGAAGCAGCTACAGCTTGCAGCACCAGGCAGCAATGGTGAAAGCCCTACGAGATGTCATTCGTCTCCCAAATCCTCTTGGCATGCCGCAGTACAAGTTAGATGATGCTTATCTATGGGACTCATCGTAATAGCTAGTGCTGCTGCTGCTGCTGCTTAATTACGTGCTGAGAATTTTTGGTGCTCGATCGGCTAGCTACGGCACTACTGAATTGAGCATGTGCCTGGATACTTTGCATGGTCGTTTGGTCATCGAATTATTAGGAATATACTATATAGCTATACATTCGTGCAATTTTGTTGATTGCTTTGTTGTTTAGTTTTGGTCTTCTGTACAAAGATCATGACATTTTGCTTCGTGAGTTTCTTGCTGGTAATGCTGATTGATAGATGTTCTCTTGCGGCACATATTTTTGGAACTTGCTATATAATACTCTAGCCTTTAATTTGGTGGCATTTGTGGATGAGACTTCTTCTGTTTGTTCTTTATTGTGATCGTATATATTTTGCTTTTGTGCACATGCTGCATTTTGTACCATGGTACATGTCACTTATTTCTTCATGGAGTAAATTGCAACATTGGTTGG
CDS Sequence
- >LOC_Os11g03370.1
ATGGTGGAGACTAGTACATCCCTTGTGAAATTAGAGCAAGATGGCAGCTTGTTCTTGCCTCCAGGCTTCAGATTCCATCCCACAGATGCGGAGGTAATCTTGAGCTACCTCCTGCAGAAATTCCTCAACCCTAGCTTCACCTCCTTGCCAATCGGCGAGGTCGACCTCAACAAGTGCGAGCCATGGGATCTCCCAAGCAAGGCGAAGATGGGGGAGAAAGAATGGTACTTCTTCAGCCACAAGGACATGAAATACCCGACGGGGATGCGAACCAACCGAGCCACCAAGGAGGGATACTGGAAGGCCACCGGCAAGGACAGGGAGATCTTCAACCTGCAGCCTACCAGCTATGGAGGCAGCAGCAACAACAAGAATAATAAGCAGCTGGTTGGGATGAAGAAGACGCTTGTGTTCTACATGGGGAGAGCTCCCAAGGGCACCAAGACCAACTGGGTGATGCACGAGTTCCGTCTCCACGCCAACCTCCACAACGACAACCCGAACCTTCGTCTCAACCTCAAGGATGAGTGGGTTGTGTGCAAGGTATTCCACAAGAAGGGAGACGATCGCGAAGCCATCAACAAGCAGCAGGCACAGGCTGCAGCTGTTGATCAGTACTCTGCCGGAACACCCAACAACGGCAGCTCCGTCGAAGCCGGCGACGACGACGACGACTTGTTCCAGCTCGACTCCATCATCGACCCCAGCATCTACTTCAGCAACTCATCAGCTGCCAACATCTTGTCGGCGCCGCCCAACATGTCCAATTCCGTCGTCGCTGCCAACTACGGTGCAAGTACGACGACGACTGGTACTGCTAGTGCTGGTAGCTTCCAGCAGCAGCCAAACTACTGCAGCTTGATCAACAAAAGCATCAGCAGCAGCAATGTCTCCTCTTGGAATAATATGCCTCCACCTCCTCCTGTAGCTGAAGGAGGAGTCCATGGAATTGGAAGCAGCTACAGCTTGCAGCACCAGGCAGCAATGGTGAAAGCCCTACGAGATGTCATTCGTCTCCCAAATCCTCTTGGCATGCCGCAGTACAAGTTAGATGATGCTTATCTATGGGACTCATCGTAA
Protein Sequence
- >LOC_Os11g03370.1
MVETSTSLVKLEQDGSLFLPPGFRFHPTDAEVILSYLLQKFLNPSFTSLPIGEVDLNKCEPWDLPSKAKMGEKEWYFFSHKDMKYPTGMRTNRATKEGYWKATGKDREIFNLQPTSYGGSSNNKNNKQLVGMKKTLVFYMGRAPKGTKTNWVMHEFRLHANLHNDNPNLRLNLKDEWVVCKVFHKKGDDREAINKQQAQAAAVDQYSAGTPNNGSSVEAGDDDDDLFQLDSIIDPSIYFSNSSAANILSAPPNMSNSVVAANYGASTTTTGTASAGSFQQQPNYCSLINKSISSSNVSSWNNMPPPPPVAEGGVHGIGSSYSLQHQAAMVKALRDVIRLPNPLGMPQYKLDDAYLWDSS*