Gene Details:
- MSU gene ID: LOC_Os04g39150
- RAPdb gene ID: Os04g0465600
- Gene Symbol: OsMLP423
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- OsMLP423 Is a Positive Regulator of Tolerance to Drought and Salt Stresses in Rice.
- The results of real-time PCR showed that OsMLP423 was strongly induced by drought and salt stresses.
- The physiological and biochemical phenotype analysis of transgenic plants confirmed that overexpression of OsMLP423 enhanced the tolerance to drought and salt stresses in rice.
- Physiological analyses showed that the overexpression of OsMLP423 may regulate the water loss efficiency and ABA-responsive gene expression of rice plants under drought and salt stresses, and it reduces membrane damage and the accumulation of reactive oxygen species.
- These results indicate that OsMLP423 is a positive regulator of drought and salinity tolerance in rice, governing the tolerance of rice to abiotic stresses through an ABA-dependent pathway.
- The expression of OsMLP423-GFP fusion protein indicated that OsMLP423 was located in both the cell membrane system and nucleus.
- Compared with the wild type, the overexpressed OsMLP423 showed enhanced sensitivity to ABA.
Function-related keywords:
- drought , salinity , salt , tolerance , nucleus , abiotic-stress , ABA , salt-stress , biotic-stress , reactive-oxygen-species , water-loss
Literature:
- OsMLP423 Is a Positive Regulator of Tolerance to Drought and Salt Stresses in Rice . DOI: 10.3390/plants11131653 ; PMID: 35807608
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os04g39150.1
ACACAACAAAGAACTCAAGAAGCAATTAACATTCGCATTCATCAGCTGGTAGGTAGTGTGAGCTAGAGATTAAGGGAGAGAGAGAGATCATGGCGTCCAAGGTTGAGCTGGTGGTGGAGGTGAAGTCGCCGGCGGACAAGCTGTGGACGGCGCTGCGCGACTCGACGGAGCTGTTCCCCAAGATCTTCCCCGAGCAGTACAAGAGCATCGAGACCGTCGAGGGCGACGGCAAGTCCGCCGGCACCGTCCGCCTCCTCAAGTACACCGAAGGGGTGCCGATGGTGACGTTCGCGAAGGAGAAGGTGGAGGTGGCGGACGACGAGAAGAAGGTGGTGTCGTACAGCGTGGTGGACGGCGAGCTGGTCAGCTTCTACAAGAACTTCAGGGTGACGCTGCAGGTGACCCCCAAGGGCGGCGCCGCCGCCCCCGCCGCCGACGGCGCGGTGGTGAGCTGGACCATGGACTTCGACAAGGCCAGCGAGGAGGTGCCCGACCCGGACGTCATCAAGGAGACCGCCGCCAAGACCTTCCACGACCTCGACGACTACCTCCTCAAGAACTAGCCAGACAGCCAGATCGAGCGCCGCCGTGCGGGTGCGTGGCTTATGTGTTAGAGTCCACTATAGCGTCCTCGCCGTCAGTCGTCGTCGCACACGGTCGCAGTATCGGGGTGTTGCATTTGCTAGCTCTCCGGCTAGCCACTGTCTCCCACGAATTAGTGTACGTATCGGTGCATGAGTGAATAATAAAGTGTTCAGGTTAAACCGTTTATCGTCTCTCCGGCTCTCCGTTTACTGTTTCCTTGTATTGATTTTCGGTCTATCCGACTCTCTCACTCTCCTTTGGTTAGGCCTAAACATGTTTAGGTTGAGAAAATTTTTAGAT
CDS Sequence
- >LOC_Os04g39150.1
ATGGCGTCCAAGGTTGAGCTGGTGGTGGAGGTGAAGTCGCCGGCGGACAAGCTGTGGACGGCGCTGCGCGACTCGACGGAGCTGTTCCCCAAGATCTTCCCCGAGCAGTACAAGAGCATCGAGACCGTCGAGGGCGACGGCAAGTCCGCCGGCACCGTCCGCCTCCTCAAGTACACCGAAGGGGTGCCGATGGTGACGTTCGCGAAGGAGAAGGTGGAGGTGGCGGACGACGAGAAGAAGGTGGTGTCGTACAGCGTGGTGGACGGCGAGCTGGTCAGCTTCTACAAGAACTTCAGGGTGACGCTGCAGGTGACCCCCAAGGGCGGCGCCGCCGCCCCCGCCGCCGACGGCGCGGTGGTGAGCTGGACCATGGACTTCGACAAGGCCAGCGAGGAGGTGCCCGACCCGGACGTCATCAAGGAGACCGCCGCCAAGACCTTCCACGACCTCGACGACTACCTCCTCAAGAACTAG
Protein Sequence
- >LOC_Os04g39150.1
MASKVELVVEVKSPADKLWTALRDSTELFPKIFPEQYKSIETVEGDGKSAGTVRLLKYTEGVPMVTFAKEKVEVADDEKKVVSYSVVDGELVSFYKNFRVTLQVTPKGGAAAPAADGAVVSWTMDFDKASEEVPDPDVIKETAAKTFHDLDDYLLKN*