Gene Details:
- Gene ID: AT4G26420
- Gene Symbol: AtGAMT1, GAMT1
- Gene Name: gibberellin methyltransferase 1
- Description: S-adenosyl-L-methionine-dependent methyltransferases superfamily protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009001 — fruit — frucht (exact, German), fruto (exact, Spanish), 果実 (exact, Japanese), coenocarp (narrow), syncarp (narrow), aggregate fruit (broad), compound fruit (broad), dehiscent fruit (broad), diaspore (broad), indehiscent fruit (broad), multiple fruit (broad), propagule (broad)
- PO:0009066 — anther — antera (Spanish, exact), 半葯,花粉のう (Japanese, exact), Poaceae anther (narrow), Zea anther (narrow)
Germplasm Phenotype:
- GAMT1-OE — Small, dark-green rosette that grow slowly and develop into dwarfed, bushy pants. Some never bloom, and the one that do start blooming after three months (compared to six weeks for wild type). Flowers are small and mostly fertile.
- gamt1-1 — No visible phenotype.
- gamt1-2 — Higher levels of bioactive GA4 and GA1 in the siliques of mutant compared to wild type.
- gamt1-2 — No visible phenotype.
- gamt1-2 — Whereas the germination of wild type seeds was completely inhibited by 30 &
- gamt1-2 gamt2-2 — Higher levels of bioactive GA4 and GA1 in the siliques of mutant compared to wild type.
- gamt1-2 gamt2-2 — No visible phenotype.
- gamt1-2 gamt2-2 — Whereas the germination of wild type seeds was completely inhibited by 30 &
Function-related keywords:
Literature:
- An Arabidopsis thaliana gene for methylsalicylate biosynthesis, identified by a biochemical genomics approach, has a role in defense. DOI: 10.1046/j.1365-313x.2003.01902.x ; PMID: 14617060
- Evolution of microRNA genes by inverted duplication of target gene sequences in Arabidopsis thaliana. DOI: 10.1038/ng1478 ; PMID: 15565108
- Transcriptional factor interaction: a central step in DELLA function. DOI: 10.1016/j.gde.2008.05.004 ; PMID: 18590820
- Systems analysis of seed filling in Arabidopsis: using general linear modeling to assess concordance of transcript and protein expression. DOI: 10.1104/pp.109.152413 ; PMID: 20118269
- Genome-Wide Comprehensive Analysis of the SABATH Gene Family in Arabidopsis and Rice. DOI: 10.1177/1176934319860864 ; PMID: 31320793
Sequences:
cDNA Sequence
- >AT4G26420.1
TCTAAAACCAAATCAATCCTTCTTTAATTTACTTATTCTTAGTATAACGTTCACACCTTTTCTTACACATTTACAACTATATATGGAGTCGTCACGGAGCCTCGAGCACGTGCTCTCCATGCAAGGTGGCGAGGATGACGCGAGCTACGTCAAAAACTGTTACGGTCCAGCGGCACGTTTAGCCTTGAGCAAACCAATGCTGACGACAGCCATCAACTCCATAAAGCTCACCGAAGGTTGCTCCTCTCACCTGAAAATAGCCGATTTAGGTTGCGCAATCGGAGACAACACGTTTTCCACGGTGGAAACGGTGGTTGAGGTGTTAGGGAAGAAGCTAGCCGTGATTGACGGTGGAACCGAGCCGGAGATGGAGTTCGAGGTCTTCTTCTCTGACTTGTCTTCCAACGATTTCAACGCGTTGTTTCGGTCGTTGGATGAGAAAGTGAACGGTTCGAGCCGAAAGTACTTCGCGGCTGGCGTTCCCGGCTCGTTCTATAAGCGTCTGTTTCCGAAAGGAGAGCTCCATGTCGTTGTGACTATGTCTGCTTTACAATGGCTCTCTCAGGTACCTGAAAAAGTGATGGAGAAAGGATCGAAGTCATGGAACAAGGGAGGGGTGTGGATTGAAGGAGCAGAAAAAGAAGTCGTGGAGGCATACGCGGAGCAAGCAGACAAGGACTTAGTCGAGTTCTTGAAATGTCGCAAAGAGGAGATTGTGGTAGGAGGAGTGTTGTTTATGCTGATGGGTGGTCGACCTTCTGGCTCCGTGAACCAAATCGGTGATCCTGATTCGAGTCTCAAACACCCTTTCACAACTTTGATGGATCAAGCTTGGCAAGATCTAGTAGATGAGGGTTTAATAGAAGAGGAGAAGAGAGATGGTTTCAACATTCCGGTGTACTTTAGAACCACCGAAGAGATTGCGGCGGCGATTGATCGTTGTGGTGGTTTTAAGATAGAGAAAACGGAGAATCTGATAATAGCTGACCACATGAATGGTAAGCAGGAAGAGTTGATGAAAGATCCGGATTCGTACGGTCGAGATAGGGCTAACTATGCTCAAGCCGGTTTAAAGCCGATCGTTCAGGCCTATCTTGGTCCTGACCTAACTCATAAGCTCTTCAAACGGTACGCAGTTAGAGCAGCTGCCGACAAAGAAATTCTCAACAACTGTTTCTATCATATGATCGCTGTTTCAGCGGTTAGGGTTTAATGTTATCGATATATGTACATAACATGCGTAGTATTATAAAAAGTATTTCGACGACGAAATGGTTTGATGCATGGTAAAATAAGTAATTATCATTTATCA - >AT4G26420.3
TCTAAAACCAAATCAATCCTTCTTTAATTTACTTATTCTTAGTATAACGTTCACACCTTTTCTTACACATTTACAACTATATATGGAGTCGTCACGGAGCCTCGAGCACGTGCTCTCCATGCAAGGTGGCGAGGATGACGCGAGCTACGTCAAAAACTGTTACGGTCCAGCGGCACGTTTAGCCTTGAGCAAACCAATGCTGACGACAGCCATCAACTCCATAAAGCTCACCGAAGGTTGCTCCTCTCACCTGAAAATAGCCGATTTAGGTTGCGCAATCGGAGACAACACGTTTTCCACGGTGGAAACGGTGGTTGAGGTGTTAGGGAAGAAGCTAGCCGTGATTGACGGTGGAACCGAGCCGGAGATGGAGTTCGAGGTCTTCTTCTCTGACTTGTCTTCCAACGATTTCAACGCGTTGTTTCGGTCGTTGGATGAGAAAGTGAACGGTTCGAGCCGAAAGTACTTCGCGGCTGGCGTTCCCGGCTCGTTCTATAAGCGTCTGTTTCCGAAAGGAGAGCTCCATGTCGTTGTGACTATGTCTGCTTTACAATGGCTCTCTCAGGTACCTGAAAAAGTGATGGAGAAAGGATCGAAGTCATGGAACAAGGGAGGGGTGTGGATTGAAGGAGCAGAAAAAGAAGTCGTGGAGGCATACGCGGAGCAAGCAGACAAGGACTTAGTCGAGTTCTTGAAATGTCGCAAAGAGGAGATTGTGGTAGGAGGAGTGTTGTTTATGCTGATGGGTGGTCGACCTTCTGGCTCCGTGAACCAAATCGGTGATCCTGATTCGAGTCTCAAACACCCTTTCACAACTTTGATGGATCAAGCTTGGCAAGATCTAGTAGATGAGGGTTTAATAGAAGAGGAGAAGAGAGATGGTTTCAACATTCCGGTGTACTTTAGAACCACCGAAGAGATTGCGGCGGCGATTGATCGTTGTGGTGGTTTTAAGATAGAGAAAACGGAGAATCTGATAATAGCTGACCACATGAATGGTAAGCAGGAAGAGTTGATGAAAGATCCGGATTCGTACGGTCGAGATAGGGCTAACTATGCTCAAGCCGGTTTAAAGCCGATCGTTCAGGCCTATCTTGGTCCTGACCTAACTCATAAGCTCTTCAAACGGTACGCAGTTAGAGCAGCTGCCGACAAAGAAATTCTCAACAACTGTTTCTATCATATGATCGCTGTTTCAGCGGTTAGGGTTTAATGTTATCGATATATGTACATAACATGCGTAGTATTATAAAAAGTATTTCGACGACGAAATGGTTTGATGCATGGTAAAATAAGTAATTATCATTTATCA - >AT4G26420.2
TCTAAAACCAAATCAATCCTTCTTTAATTTACTTATTCTTAGTATAACGTTCACACCTTTTCTTACACATTTACAACTATATATGGAGTCGTCACGGAGCCTCGAGCACGTGCTCTCCATGCAAGGTGGCGAGGATGACGCGAGCTACGTCAAAAACTGTTACGGTCCAGCGGCACGTTTAGCCTTGAGCAAACCAATGCTGACGACAGCCATCAACTCCATAAAGCTCACCGAAGGTTGCTCCTCTCACCTGAAAATAGCCGATTTAGGTTGCGCAATCGGAGACAACACGTTTTCCACGGTGGAAACGGTGGTTGAGGTGTTAGGGAAGAAGCTAGCCGTGATTGACGGTGGAACCGAGCCGGAGATGGAGTTCGAGGTCTTCTTCTCTGACTTGTCTTCCAACGATTTCAACGCGTTGTTTCGGTCGTTGGATGAGAAAGTGAACGGTTCGAGCCGAAAGTACTTCGCGGCTGGCGTTCCCGGCTCGTTCTATAAGCGTCTGTTTCCGAAAGGAGAGCTCCATGTCGTTGTGACTATGTCTGCTTTACAATGGCTCTCTCAGGTACCTGAAAAAGTGATGGAGAAAGGATCGAAGTCATGGAACAAGGGAGGGGTGTGGATTGAAGGAGCAGAAAAAGAAGTCGTGGAGGCATACGCGGAGCAAGCAGACAAGGACTTAGTCGAGTTCTTGAAATGTCGCAAAGAGGAGATTGTGGTAGGAGGAGTGTTGTTTATGCTGATGGGTGGTCGACCTTCTGGCTCCGTGAACCAAATCGGTGATCCTGATTCGAGTCTCAAACACCCTTTCACAACTTTGATGGATCAAGCTTGGCAAGATCTAGTAGATGAGGGTTTAATAGAAGAGGAGAAGAGAGATGGTTTCAACATTCCGGTGTACTTTAGAACCACCGAAGAGATTGCGGCGGCGATTGATCGTTGTGGTGGTTTTAAGATAGAGAAAACGGAGAATCTGATAATAGCTGACCACATGAATGGTAAGCAGGAAGAGTTGATGAAAGATCCGGATTCGTACGGTCGAGATAGGGCTAACTATGCTCAAGCCGGTTTAAAGCCGATCGTTCAGGCCTATCTTGGTCCTGACCTAACTCATAAGCTCTTCAAACGGTACGCAGTTAGAGCAGCTGCCGACAAAGAAATTCTCAACAACTGTTTCTATCATATGATCGCTGTTTCAGCGGTTAGGGTTTAATGTTATCGATATATGTACATAACATGCGTAGTATTATAAAAAGTATTTCGACGACGAAATGGTTTGATGCATGGTAAAATAAGTAATTATCATTTATCA
CDS Sequence
Protein Sequence