Gene Details:
- MSU gene ID: LOC_Os06g44034
- RAPdb gene ID: Os06g0649600
- Gene Symbol: SDT
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- We also show that combining the SDT allele with the OsSPL14WFP allele can be effective in simultaneously improving tillering capacity and panicle branching, thereby leading to higher harvest index and grain yield.
- The plants carrying the semidominant SDT allele exhibit reduced plant height, enhanced lodging resistance, increased tiller numbers per plant, and resulting in an increased grain yield.
- Most importantly, pyramiding of the SDT allele and the green revolution gene sd1 enhances grain yield by about 20% in hybrid rice breeding.
Function-related keywords:
- panicle , grain , tiller , grain-yield , yield , breeding , plant-height , tillering , tiller-number , lodging , lodging-resistance
Literature:
- Regulation of OsmiR156h through Alternative Polyadenylation Improves Grain Yield in Rice . DOI: 10.1371/journal.pone.0126154 ; PMID: 25954944
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os06g44034.1
ACCCCACACCAACATTCACATTCAGTGCACCCCAAACACCAAGAACTCCTCCTTTTTTTCTCCTGTAATAATCCTGTACCCTCTCTCTCTATCTCCCTGCAGCTGCTGCCTAGCTCCAGTACGGCCACCGTCGTCGATCGGTCTCTCTCTCTCACCGGATCCGAGAAGCAAAGAACCGATCTTTTTTCTTCTTTTTTCCCCTGCGTGATGCTTCTTGTTTACTACTACGTGGGTGCAGTGCAGGTTTGTTGATCGATCTTGGGGCGGGGCGGGATCGAGCATATGAAAGGCGAGATTGTTGACAGAAGAGAGTGAGCACACGGCGCGGCGGCTAGCCATCGGCGGGATGCCTGCCCCCGCCGCGTGCTCGCTCCTCTTTCTGTCAGCATCTCTCATCACTCCCTCCCGCATCCCCCGCCCCGATCTCGCGTCGATCTCTCATCTCCGGAGAGGAGCCATCTTTTAATTTGTTTGATTTGATTTGATCTCGTTTCCCTGAATTTCTTGGTGGAAACCCGCGCCGACACGCGTGGCTTTTCTTTCTTTCTTTCTTTTTTTTGTGCAGAGACAGAGAGATCGAGATAGCAAGGACATGTCACTTCATTATCTTCTAGATATGCACGCAAAACATTTTTTGTTTGTTTTTCTCTCTCTCTTCTTGATTCGATTTCATCTCTTTCTTGCTGTCATCACAGCCTTGCATGCCGGGGAGCTACTACCGAGGAGATCAGCGATTATTGCTGATATGATGCTGCTGCTGATGGAGTGATGGCAAGGAGGAGGAGGAGAAAAGATGAGCATTTGATGTGTGCTGCTAGCTGGGCTTGGTGAGCTCCTGCTGGCTCAAAAATGGAGCATGGAGGTCACTAGGAGGAGAACCATATTTGGCAAGGACGGTGGTCTCGCCTTTGCTTTGGCCAGATCTGATGGATGATAAACTACTACATGCATGATATAATGGATAGCAGAAGCAAGCTAAGCCACCACCACCACCAGCAGCAGGAGCACTAGCTGCAAGTCTCTGCAATATCACCAATACTAAGCAGTACAGGTGCACACGATGAAGAGGGAACAACAGCTGAAAAGAAGTGAAACATAGGCTGCTTCTGCAGTATTGATAATTTCTAACAGTTGCTGTCATAGAAGGCAAATGCATCTGCAGCTTACATGGAGCATTCTGCAAGAGTATGTTTGGTGATAACTGAGTTTTTAGAGGATGTGTGCAACCAATTCTCGCACGCAAGTCCATCGCGATAGGGGATTTGGTGTTCACTGAATTCAAACCGTTCCTTTCAAGCAAGAAGGGTCCTGAAGGATATAACAGCTTCAAATCATACAATCTTTGCCCCTCCCTTTTATTCGGCTGGAACTATTGAAATGTCACTTTCAGGATGGTTAGAAGCTTGTGCTTTAGGGGAAAATTTCAAAACTTTTGCATTTTTTCCTTAGCCTTTCTTTGTCAGTAGTACCAAACTGCGCCTTTATTTCCAGTGTTCCTGGAGAAACGTCACGCTCAATATTAGTTGACCATATACACAAATTCTTTGCTTCCAAGGTATCATTTTCCTTTTGCAGATTTGGACATTTTTTGCCATGCCAAAGATCTCATCTTTTACAGGCTCCCAAAGAGCATTGGTAGTAGTTGGTAGTACACTGGTACTATTAGTACCAAATGACTGAAAAAGAATGGTTAGTACAGTAGTACTAGTGCTGCCCATGAGTACTTTGGTTGTTGCTCTTGTCATCTTCCATGTTAATTACTCCTATTTTGCTGTCCGGTACCTTGGATAGTTCAAAGTTTCTGCAAGCTTTGCAAACCTCCAAATACAAGGTAATGGACTACTATTATAATGGATAATCAAAGGAGCTGTCACTTGTCTAATCTCCATGAAAACAAATGCAAAGCTAGGACAGACGTGTCCTGAATCTCCAATATAATACAGGGGATTGCATAGGCAAACGTTCTATTATTGTACCTGATGAATGTTGTAAAGAACTCTAATACAGTTCAGTGTTCACC
CDS Sequence
- >LOC_Os06g44034.1
ATGTCACTTCATTATCTTCTAGATATGCACGCAAAACATTTTTTGTTTGTTTTTCTCTCTCTCTTCTTGATTCGATTTCATCTCTTTCTTGCTGTCATCACAGCCTTGCATGCCGGGGAGCTACTACCGAGGAGATCAGCGATTATTGCTGATATGATGCTGCTGCTGATGGAGTGA
Protein Sequence
- >LOC_Os06g44034.1
MSLHYLLDMHAKHFLFVFLSLFLIRFHLFLAVITALHAGELLPRRSAIIADMMLLLME*