Gene Details:
- Gene ID: Solyc10g006130
- Gene Symbol: SlERF36
- Gene Name: ethylene response factor
- Genome: Tomato Genome version SL4.0
- Species: Solanum lycopersicum
Functional Descriptions:
- The tomato EAR-motif repressor, SlERF36, accelerates growth transitions and reduces plant life cycle by regulating GA levels and responses.
- An EAR-motif repressor, SlERF36 that regulates various growth transitions, partly through regulation of the GA pathway and GA levels, was identified in tomato.
- SlERF36 is conserved across families making it an important candidate in agricultural and horticultural crops for manipulation of plant growth and developmental transitions to reduce life cycles for faster harvest.
- SlERF36 is an EAR-motif repressor and its levels regulate germination and organ expansion during juvenile/adult vegetative growth.
Function-related keywords:
- growth , vegetative , plant-growth , ga
Literature:
- The tomato EAR-motif repressor, SlERF36, accelerates growth transitions and reduces plant life cycle by regulating GA levels and responses. DOI: 10.1111/pbi.14228 ; PMID: 38127946
- SlERF36, an EAR-motif-containing ERF gene from tomato, alters stomatal density and modulates photosynthesis and growth. DOI: 10.1093/jxb/ert162 ; PMID: 23840010
- The EAR motif controls the early flowering and senescence phenotype mediated by over-expression of SlERF36 and is partly responsible for changes in stomatal density and photosynthesis. DOI: 10.1371/journal.pone.0101995 ; PMID: 25036097
Related News:
Gene Resources:
- NCBI ID: 101249309
- UniProt accessions: A0A3Q7IBC2
Orthologs:
Sequences:
cDNA Sequence
- />Solyc10g006130.1.1
ATGAGAAGAGGCAGAGCAACTCCGGCGGCGGCGGCGGCGGCGGTGAAGCCAGATGGATCTGGAGGATTGAAGGAGATTAGGTTTCGTGGAGTTCGGAAGAGGCCATGGGGGAGATTTGCTGCAGAGATTAGAGATCCATGGAAGAAAACTAGGGTTTGGTTAGGTACTTTTGATTCAGCTGAAGATGCTGCCAAAGCTTATGATGCTGCAGCTCGAACTCTTCGTGGACCTAAAGCTAAAACTAATTTCCCTTTACCTATGTATTCTCAGCATCATCAGTTCAATCGAAGTTTAAACCCTAATGATCGGTTAGTTGACCCGAGATTGTACTCACAAGAAGCTCCGATCATTTGTCAAAGACCTACATCGAGCAGTATGAGTAGTACTGTGGAATCATTCAGTGGACCGAGACCGCCACGTCAGCAAACGGCGGTTTTGCCTTCGAGAAAACATCCTAGATCGCCGCCGGTTGAGCCGGATGACTGCAGGAGTGATTGTGACTCATCGTCTTCTGTTGTTGAAGATGGTGATTGTGAAGGGGGAAATGACAACATCGTTTCTTCATCTCTCAGAAATCCACTGCCTTTCGATCTCAACTTTCCACCTCCGATGGATGATGTTTATGCTAATTCAAATGATCTTTACTGCACAGCACTATGTCTTTGA
CDS Sequence
- />Solyc10g006130.1.1
ATGAGAAGAGGCAGAGCAACTCCGGCGGCGGCGGCGGCGGCGGTGAAGCCAGATGGATCTGGAGGATTGAAGGAGATTAGGTTTCGTGGAGTTCGGAAGAGGCCATGGGGGAGATTTGCTGCAGAGATTAGAGATCCATGGAAGAAAACTAGGGTTTGGTTAGGTACTTTTGATTCAGCTGAAGATGCTGCCAAAGCTTATGATGCTGCAGCTCGAACTCTTCGTGGACCTAAAGCTAAAACTAATTTCCCTTTACCTATGTATTCTCAGCATCATCAGTTCAATCGAAGTTTAAACCCTAATGATCGGTTAGTTGACCCGAGATTGTACTCACAAGAAGCTCCGATCATTTGTCAAAGACCTACATCGAGCAGTATGAGTAGTACTGTGGAATCATTCAGTGGACCGAGACCGCCACGTCAGCAAACGGCGGTTTTGCCTTCGAGAAAACATCCTAGATCGCCGCCGGTTGAGCCGGATGACTGCAGGAGTGATTGTGACTCATCGTCTTCTGTTGTTGAAGATGGTGATTGTGAAGGGGGAAATGACAACATCGTTTCTTCATCTCTCAGAAATCCACTGCCTTTCGATCTCAACTTTCCACCTCCGATGGATGATGTTTATGCTAATTCAAATGATCTTTACTGCACAGCACTATGTCTTTGA
Protein Sequence
- />Solyc10g006130.1.1
MRRGRATPAAAAAAVKPDGSGGLKEIRFRGVRKRPWGRFAAEIRDPWKKTRVWLGTFDSAEDAAKAYDAAARTLRGPKAKTNFPLPMYSQHHQFNRSLNPNDRLVDPRLYSQEAPIICQRPTSSSMSSTVESFSGPRPPRQQTAVLPSRKHPRSPPVEPDDCRSDCDSSSSVVEDGDCEGGNDNIVSSSLRNPLPFDLNFPPPMDDVYANSNDLYCTALCL*