Gene Details:
- Gene ID: AT5G18065
- Gene Symbol: HTT3
- Gene Name: HEAT-INDUCED TAS1 TARGET 3
- Description: target of trans acting-siR480/255 protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Literature:
- Novel and stress-regulated microRNAs and other small RNAs from Arabidopsis. DOI: 10.1105/tpc.104.022830 ; PMID: 15258262
- AGRONOMICS1: a new resource for Arabidopsis transcriptome profiling. DOI: 10.1104/pp.109.150185 ; PMID: 20032078
- HEAT-INDUCED TAS1 TARGET1 Mediates Thermotolerance via HEAT STRESS TRANSCRIPTION FACTOR A1a-Directed Pathways in Arabidopsis. DOI: 10.1105/tpc.114.124883 ; PMID: 24728648
Sequence:
cDNA Sequence
- >AT5G18065.3 TGGCATGGGGCTTTGTGAGTTTCGCGAACATTCTCAGAGCTTCTCTCTACGCGGCGATTGCGATTGCGACTACGACTGTCTCCTGATTATCGCCTCTCTGGATAAGTAATCGAAGATGGATATGAATCAGCTATTCATGCAATCTATTGCAAACAGTCGTGGACTCTGTCATCCAGATTGCGAAAAAGCAAATAATGAGCGTGAAGATTATGATGCGTCTCAACATGCCGCTATGGTAGCGGTGAATCTGATTAGCTCTGCACGGGTTATCCTCAAGCTTGATGCTGTGTATACTGAGTACTCAGCTCAGTATTTGGTGGATAATGCTGGGAAGGAAGACAACCAGGGAGAAATGGATCAACAAAGCTCTCAGCTCACTCTCCAAAACTTGCTTCAGTATATGGATGAAAATGTCTGGAATAAGAAGGAAGATGTGCAGGGAGAAAGGGAGCAACCACTCACTGTCAAAGACTGCCTTGAATGTGCTTTCAAGTAAGGGCTACCGAGAAGTGAGCAGTGGGCACATGTGGGATGTCCGTTCAAGGCTCCACCATTTGCCTGTCAGATTCCTCGCGTGCCCATGAAAGGAGAAGTGATTGAGACTAAGAGTTTGGATGAAGCGTTTAAGCTGTTGATTAAACAACCGGTGGGAGCAAGACTCCATGTCTTCAGTCCAGAGCTTGATAATGTTGGAGAGGGATTTTACGAGGGCCTGTCTAGCCAGTCTAGTAAGGAATCACGCTATGTTGGACTTAGGGATGTAATCATAGTTGCAGTGGATAAGTCCGAGGGAAAAACTGTTGCTACTGTGAAGATCTGTTACAAGAAGAAGACTTCATTTGTCAAAGTGCTTGTGAGCCGTATGTTTGTCCAGCTTGGTGGTGGTGAGGAGTCTCAGGTGAAAGAGCCAGCAGGTCTGCTTGTTGACTTCTGTATCCCACGCTTATCTGTCAACTAAACAAGAGCTGAGATCTTATCTGCTAGTTGTGGAACCTCTCTATGTTGGTCTTATTTTAAGAATGTTTTATCAGACTTATTTTCTGTTATCTTGAAAACCGTATGCTTGTTGTGAAACCCTGGTTGTTGTTTGAAGTTAAGATTGTTTTATGAGACTTTTATCTGTGTGTTTAGAAGTTATTGGTCGCGCTACTTTCTAAATTATGTAGTATCCATCTGCTTAA
- >AT5G18065.1 TGGCATGGGGCTTTGTGAGTTTCGCGAACATTCTCAGAGCTTCTCTCTACGCGGCGATTGCGATTGCGACTACGACTGTCTCCTGATTATCGCCTCTCTGGATAAGTAATCGAAGATGGATATGAATCAGCTATTCATGCAATCTATTGCAAACAGTCGTGGACTCTGTCATCCAGATTGCGAAAAAGCAAATAATGAGCGTGAAGATTATGATGCGTCTCAACATGCCGCTATGGTAGCGGTGAATCTGATTAGCTCTGCACGGGTTATCCTCAAGCTTGATGCTGTGTATACTGAGTACTCAGCTCAGTATTTGGTGGATAATGCTGGGAAGGAAGACAACCAGGGAGAAATGGATCAACAAAGCTCTCAGCTCACTCTCCAAAACTTGCTTCAGTATATGGATGAAAATGTCTGGAATAAGAAGGAAGATGTGCAGGGAGAAAGGGAGCAACCACTCACTGTCAAAGACTGCCTTGAATGTGCTTTCAAGTAAGGGCTACCGAGAAGTGAGCAGTGGGCACATGTGGGATGTCCGTTCAAGGCTCCACCATTTGCCTGTCAGATTCCTCGCGTGCCCATGAAAGGAGAAGTGATTGAGACTAAGAGTTTGGATGAAGCGTTTAAGCTGTTGATTAAACAACCGGTGGGAGCAAGACTCCATGTCTTCAGTCCAGAGCTTGATAATGTTGGAGAGGGATTTTACGAGGGCCTGTCTAGCCAGTCTAGTAAGGAATCACGCTATGTTGGACTTAGGGATGTAATCATAGTTGCAGTGGATAAGTCCGAGGGAAAAACTGTTGCTACTGTGAAGATCTGTTACAAGAAGAAGACTTCATTTGTCAAAGTGCTTGTGAGCCGTATGTTTGTCCAGCTTGGTGGTGGTGAGGAGTCTCAGGTGAAAGAGCCAGCAGGTCTGCTTGTTGACTTCTGTATCCCACGCTTATCTGTCAACTAAACAAGAGCTGAGATCTTATCTGCTAGTTGTGGAACCTCTCTATGTTGGTCTTATTTTAAGAATGTTTTATCAGACTTATTTTCTGTTATCTTGAAAACCGTATGCTTGTTGTGAAACCCTGGTTGTTGTTTGAAGTTAAGATTGTTTTATGAGACTTTTATCTGTGTGTTTAGAAGTTATTGGTCGCGCTACTTTCTAAATTATGTAGTATCCATCTGCTTAA
- >AT5G18065.2 TGGCATGGGGCTTTGTGAGTTTCGCGAACATTCTCAGAGCTTCTCTCTACGCGGCGATTGCGATTGCGACTACGACTGTCTCCTGATTATCGCCTCTCTGGATAAGTAATCGAAGATGGATATGAATCAGCTATTCATGCAATCTATTGCAAACAGTCGTGGACTCTGTCATCCAGATTGCGAAAAAGCAAATAATGAGCGTGAAGATTATGATGCGTCTCAACATGCCGCTATGGTAGCGGTGAATCTGATTAGCTCTGCACGGGTTATCCTCAAGCTTGATGCTGTGTATACTGAGTACTCAGCTCAGTATTTGGTGGATAATGCTGGGAAGGAAGACAACCAGGGAGAAATGGATCAACAAAGCTCTCAGCTCACTCTCCAAAACTTGCTTCAGTATATGGATGAAAATGTCTGGAATAAGAAGGAAGATGTGCAGGGAGAAAGGGAGCAACCACTCACTGTCAAAGACTGCCTTGAATGTGCTTTCAAGTAAGGGCTACCGAGAAGTGAGCAGTGGGCACATGTGGGATGTCCGTTCAAGGCTCCACCATTTGCCTGTCAGATTCCTCGCGTGCCCATGAAAGGAGAAGTGATTGAGACTAAGAGTTTGGATGAAGCGTTTAAGCTGTTGATTAAACAACCGGTGGGAGCAAGACTCCATGTCTTCAGTCCAGAGCTTGATAATGTTGGAGAGGGATTTTACGAGGGCCTGTCTAGCCAGTCTAGTAAGGAATCACGCTATGTTGGACTTAGGGATGTAATCATAGTTGCAGTGGATAAGTCCGAGGGAAAAACTGTTGCTACTGTGAAGATCTGTTACAAGAAGAAGACTTCATTTGTCAAAGTGCTTGTGAGCCGTATGTTTGTCCAGCTTGGTGGTGGTGAGGAGTCTCAGGTGAAAGAGCCAGCAGGTCTGCTTGTTGACTTCTGTATCCCACGCTTATCTGTCAACTAAACAAGAGCTGAGATCTTATCTGCTAGTTGTGGAACCTCTCTATGTTGGTCTTATTTTAAGAATGTTTTATCAGACTTATTTTCTGTTATCTTGAAAACCGTATGCTTGTTGTGAAACCCTGGTTGTTGTTTGAAGTTAAGATTGTTTTATGAGACTTTTATCTGTGTGTTTAGAAGTTATTGGTCGCGCTACTTTCTAAATTATGTAGTATCCATCTGCTTAA
CDS Sequence
Protein Sequence