Gene Details:
- Gene ID: AT5G38850
- Gene Symbol: MIST1
- Gene Name: MICRORNA-SILENCED TNL1
- Description: Disease resistance protein (TIR-NBS-LRR class);(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Literature:
- A genome-wide survey of R gene polymorphisms in Arabidopsis. DOI: 10.1105/tpc.106.042614 ; PMID: 16798885
- A diverse and evolutionarily fluid set of microRNAs in Arabidopsis thaliana. DOI: 10.1101/gad.1476406 ; PMID: 17182867
- Genome-wide analysis of the RNA-DEPENDENT RNA POLYMERASE6/DICER-LIKE4 pathway in and tasiRNA-directed targeting. DOI: 10.1105/tpc.107.050062 ; PMID: 17400893
- Global expression analysis of nucleotide binding site-leucine rich repeat-encoding and related genes in Arabidopsis. DOI: 10.1186/1471-2229-7-56 ; PMID: 17956627
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
- Function of miR825 and miR825* as Negative Regulators in Bacillus cereus AR156-elicited Systemic Resistance to Botrytis cinerea in Arabidopsis thaliana. DOI: 10.3390/ijms20205032 ; PMID: 31614458
- miR825-5p targets the TIR-NBS-LRR gene MIST1 and down-regulates basal immunity against Pseudomonas syringae in Arabidopsis. DOI: 10.1093/jxb/erab354 ; PMID: 34329403
Sequence:
cDNA Sequence
- >AT5G38850.1 ATCCAAACGCAATCTCTCACGACCGTCTCCTATGGCTTCTGCTCGAACTTGGAGATACAACGTCTTCCCGAGCTTCCATGGAGGAGATATTCGTAAGACTTTTCTCTCTCATTTACGTAAGCAGTTCAACTCAAATGGGATTACAATGTTTGATGATCAAGGAATCGAGAGGAGCCAAACCATAGCCCCTGCTCTCATACAAGCGATTAGAGAATCTAGGATATCGATTGTGGTTCTTTCAAAGAACTATGCTTCTTCGAGTTGGTGCTTGAATGAATTGGTGGAGATTTTGAAATGCAAAGACGTAGTGATGCCGATCTTCTATGAAGTAGATCCATCCGATGTACGGAAACAGACCGGAGATTTTGGGAAGGCCTTCAAAAATAGTTGTAAAAGTAAAACTAAGGAGGAGAGGCAGAGATGGATCCAAGCTTTAATTTTTGTTGGCAACATAGCTGGAGAACACTCGCTGAAATGGGAAAATGAAGCGGATATGATTGAAAAGATAGCCAAAGATGTTTCAGATAAACTGAATGCTACACCTTCTAAAGATTTTGATGCATTTGTGGGACTTGAGTTTCACATTAGGGAATTAAGTTCTCTGCTATACCTAGACTATGAGCAAGTGAGGATAGTAGGAATCTGTGGCCCTGCAGGAATCGGTAAGACTACCATTGCTCGTGCTTTACAAAGCCTACTCTCTAGCAATTTTCAGCGAAGTTGTTTTATGGAGAATGTTAGGGGAAGTCTTAATATTGGGCTTGACGAGTATGGTCTGAAGTTAGATTTACAAGAACGACTTCTTTCAAAGATTATGAACCAAAAGGGTATGAGGATAGAGCATTTAGGCACAATAAGAGATAGGTTACATGACCAAAAAGTGCTTATCATTCTAGATGATGTTAATGATCTCGATTTGTATGCTTTGGCTGATCAGACAACGTGGTTTGGTCCTGGAAGTAGGATTATCGTGACAACAGAAGACAACGAGCTTTTGCAGAAACATGATATTAACAATGTCTACCATGTGGATTTTCCATCTAGAAAAGAAGCTCTTGAGATCTTTTGCAGATGTGCTTTTAGACAAAGCTCTGCACCTGATACGATTCTAAAGCTTGCAGAACGAGTAACAGAGCTTTGTGGTAATCTTCCATTGGGTCTCTGTGTCATAGGTTCATCTTTACACGGGAAAACTGAGGATGAGTGGGAAATTTTAATTCGCAGACTAGAAATTAGTCTTGATCGAGATAACGAGGCACAACTTAGAGTTGGGTATGATAGCTTACATGAGAACGAGCAAGCTTTATTTCTCAGCATTGCAGTCTTCTTCAACTATAAAGACCGTCAGCTTGTGATGGCCATGCTCCTTGACAGTAACCTAGATGTCGAGTATGGGTTAAGAACCCTCGCCAATAAATCTCTAATACATATATCTAGGAATGAGAAAATAGTGATGCATAACTTACTACAACATGTGGGTAGACAAGCCATTCAAAGACAAGAACCTTGGAAACGCCACATCTTAATAGATGCTGACGAGATATGCAATGTCCTTGAAAATGATACAGATGCTAGAATTGTGTCAGGGATATCATTTGATATATCCAGAATCGGCGAAGTTTTTTTAAGCGAGAGAGCTTTTAAAAGATTGTGTAATCTCCAATTCCTCAGGGTGTTTAAGACTGGATATGATGAAAAAAACAGAGTGCGCATACCGGAGAACATGGAGTTTCCACCTCGTCTAAGGTTACTACAGTGGGAAGCATATCCGAGGAGAAGTCTTTCTCTTAAACTTAACCTGGAATATCTTGTCGAACTTGATATGGAAGGTAGCCTGCTCGAGAAGCTATGGGATGGAACTCAGCCCCTTGCAAATCTCAAGAAGATGTCTTTGTCAAGTTCATGGTATTTAAAGAAACTTCCGGATCTGTCAAATGCTACAAATCTCGAAGAATTGGATCTGAGAGCTTGCCAGAATTTAGTAGAGCTTCCTTCCTCCTTTTCTTATCTGCATAAGCTAAAGTATTTGAATATGATGGGATGCAGAAGGCTAAAAGAAGTTCCACCTCATATCAACTTGAAGTCTCTTGAATTGGTCAACATGTATGGATGCTCAAGATTAAAAAGCTTTCCAGATATTTCTACAAACATCAGTTCACTCGACATATCATACACTGATGTGGAAGAACTACCTGAATCAATGACGATGTGGTCTCGCCTACGTACTCTCGAAATATACAAAAGTAGAAACCTCAAGATAGTAACACATGTGCCCCTAAACCTAACATATCTAGACCTCAGCGAGACTAGAATTGAGAAGATTCCAGATGACATCAAAAATGTTCATGGGCTGCAAATTTTATTTCTAGGTGGCTGCAGAAAACTCGCATCATTGCCAGAGCTTCCTGGTTCGCTCTTGTACTTATCAGCAAACGAGTGTGAATCACTTGAGAGCGTATCTTGCCCTTTTAATACTTCATACATGGAACTCAGCTTCACCAACTGCTTCAAACTAAACCAAGAAGCACGCAGAGGAATTATTCAACAATCATTTTCTCATGGGTGGGCATCCTTACCTGGAAGAGAGTTGCCCACTGACTTATACCACCGATCTACCGGACATTCCATCACCGTTCGTCTCGAGGGCAAGACTCCTTTTTCTGCATTCTTTGGATTTAAGGTTTTCCTCGTGATTTCCCCTAACCATGATGCTGAAGAAACTAGCAATTCTCCCTTATTTTGTCCTCGCATTGGCAAAATCGGTTGCTCCGATGACGAAACACCTATTTATATTATCCCCAAACCTCGAGCAGAACATCTAGTTATGTTTCACTCTGACTTGCATAACAAGGAAAAATGTCATGAAGTAGGCAACGAGATACTGTTTGAATTCAGCAACATATCCGACACCTATGAGATTATTGAGTGTGGTGTCAGATTCTATACAGATGAACAGGTGAAATCAGTGAAAGGAGAAATGAATATGAAATAGACCAAGTTTGTGAAGATGAAAACGATTGGAGCTATGAGTTTGGACCCGTGGAAGCATTGGAATGCTCTAAAAATAATGGACATAATGATAGCCTAATCTGTACTTCGAACGAAGACAAGATCGAAGCCAACAAATACACAGATTGTTGGAGTTGGCTCATCATCTGTTTTGATGTCTCCCATATTGTGAGAAGCATCGGAAGTTTAGTTTGGGGAGGAAGATGAGAGAAGCAAGAAGGAGAATATCAAAGTGGAGAAGTCGAACGAATTTGCAAGTGAGGAAAGAATATCTGTTTATACTTTACAATGACTTGTTTGGCTGCTTCACTGAGTTGGATATGATGAGTAGTAGCATCATACTGTTTGAATTCGGATGCAGCAAATATTACTGAAATGCAGTGTACGGATCGTGAAAACTGACAAAATTGATAGTAGCAACAACAGTGAATTAAT
CDS Sequence
Protein Sequence