Gene Details:
- Gene ID: AT5G07350
- Gene Symbol: AtTudor1, TSN1, Tudor1
- Gene Name: Arabidopsis thaliana TUDOR-SN protein 1, TUDOR-SN protein 1, TUDOR-SN protein 1
- Description: TUDOR-SN protein 1;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Function-related keywords:
Literature:
- Stable isotope labeling of Arabidopsis thaliana cells and quantitative proteomics by mass spectrometry. DOI: 10.1074/mcp.M500190-MCP200 ; PMID: 16088002
- The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses. DOI: 10.1002/pmic.200500543 ; PMID: 16502469
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- The RNA binding protein Tudor-SN is essential for stress tolerance and stabilizes levels of stress-responsive mRNAs encoding secreted proteins in Arabidopsis. DOI: 10.1105/tpc.109.070680 ; PMID: 20484005
- Tudor staphylococcal nuclease links formation of stress granules and processing bodies with mRNA catabolism in Arabidopsis. DOI: 10.1105/tpc.114.134494 ; PMID: 25736060
- AtRBP1, which encodes an RNA-binding protein containing RNA-recognition motifs, regulates root growth in Arabidopsis thaliana. DOI: 10.1016/j.plaphy.2015.04.009 ; PMID: 25913162
- Protein and metabolite composition of Arabidopsis stress granules. DOI: 10.1111/nph.15690 ; PMID: 30664249
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
- Crosstalk between epigenetic silencing and infection by tobacco rattle virus in Arabidopsis. DOI: 10.1111/mpp.12850 ; PMID: 31274236
- Discovering the RNA-Binding Proteome of Plant Leaves with an Improved RNA Interactome Capture Method. DOI: 10.3390/biom10040661 ; PMID: 32344669
- The Arabidopsis thaliana chloroplast proteome reveals pathway abundance and novel protein functions. DOI: 10.1016/j.cub.2004.02.039 ; PMID: 15028209
- Arabidopsis cell wall proteome defined using multidimensional protein identification technology. DOI: 10.1002/pmic.200500046 ; PMID: 16287169
- The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses. DOI: 10.1002/pmic.200500543 ; PMID: 16502469
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Sequences:
cDNA Sequence
- >AT5G07350.1
CCTACACGTAATTTATTCGAAATAGCGAGGGTAAAAGAGACAAATACTAGTCATCTTCCCTCTTTCCTCTGGTTTATATTTCTTTCTTTCTTTTAGCTCCTCTGCACAAATCCCCTGAGCTCTCTTCCCATCTCGAGATCCGCCGTTAAACTCTTTTTGCCCAAACTCTGAGCTTCTCTCTCTGTCTTCTTCTTCTTCATCTCCTCTTTTGTATTCAATCACAGAGAGACTCTCTTCTCCAGATCTATCATTTGGTTTAATCAAGCTAGTGAACATGGCAACGGGGGCTGAGAACCAATGGCTTAAAGGAAGAGTGAAGGCTGTTACCTCCGGAGACTGCTTAGTGATCACGGCTTTGAGCCACAACAGAGCTGGACCTCCACCGGAAAAGACCATTACTTTTTCTTCTCTTATGGCACCTAAGATGGCTCGCAGAGGAGGTATAGATGAGCCTTTTGCATGGGAAAGCAAAGAATTTTTGAGGAAACTTTGCATAGGAAAGGAGGTTGCATTCAAAGTGGATTACAAGGTGGAAGCTATTGCTGGAAGAGAATTTGGCTCTGTTTTCCTTGGCAACGAGAATCTTGCTAAGCTTGTTGTTAAAACTGGTTGGGCAAAGGTTAGGGAGCCAGGTCAGCAGAATCAGGACAAGGTTAGTCCTTACATTAAAGAGTTGCTACAGCTTGAAGAGCTGGCCAAGCAGGAAGGATATGGTCGTTGGAGCAAGGTTCCTGGTGCTGCTGAGGCATCTATCAGAAATCTTCCTCCTTCTGCCATTGGGGATTCTGCTGGCTTTGATGCCATGGGCCTTTTAGCTGCAAACAAGGGCAAGCCTATGGAAGGTATTGTAGAGCAAGTGCGTGATGGAAGTACTATTCGGGTTTATCTTCTTCCAGAGTTCCAGTTTGTGCAAGTATTTGTTGCGGGAGTCCAGGCTCCATCAATGGGAAGGCGAACCACAAATGGAAGTGTTGTTGAGACAGTTCCAGATGAGCCGAATGGAGATGTTTCTGCTGAGTCACGAGGTCCTCTAACGACAGCTCAGAGACTTGCTGCCTCTGCAGCATCGTCTGTCGAGGTTTCCTCTGATCCATTTGCAACTGAAGCCAAGTACTTTACCGAACACCGTGTTCTTAGTAGAGATGTTCGCATTGTTCTTGAAGGCGTTGACAAATTCAACAATCTGATTGGTTCAGTTCATTATTCTGATGGGGAAACAGTTAAAGACTTGGGGTTGGAGCTCGTTGAAAATGGTCTTGCTAAATTTGTTGAATGGAGTGCCAACATGATGGAGGAGGAAGCTAAGAAAAAGTTGAAAGCTGCAGAACTTCAATGCAAGAAAGATAAGGTTAAAATGTGGGCAAACTACGTTCCTCCAGCTACAAACTCTAAGGCAATTCATGACCAGAACTTTACGGGAAAGGTAGTGGAAGTGGTGAGTGGGGATTGTCTAATAGTTGCCGATGATGCTGTTCCATTTGGGAGTCCAGCAGCAGAGAGACGGGTCTGTCTTTCGAGTATCAGATCTCCAAAAATGGGCAACCCACGTAGAGAAGAGAAACCAGCTCCTTATGCTCGGGAAGCAAGAGAATTTCTGAGACAACGACTTATTGGCAAACAGGTTATTGTTCAAATGGAATATTCAAGGAAAGTCACCCAAGGAGATGGTCCTACCACATCTGGAGCTGCTGATAGGTTCATGGATTTTGGCTCAGTGTTCCTTCCATCTGCTGCCAAAGCCGATTCTGATGAAGTGACTGCACCACCTGCTGCAGCAATTGCTGGCAGTCAGCCGGTTGGTGTGAATATTGCTGAGCTCGTTCTTGTCCGTGGTTTTGGAAATGTGGTTAGACATAGAGATTTTGAAGAGCGATCAAACCATTATGATGCTCTTCTGGCTGCTGAAGCTCGTGCTCTGGCTGGAAAGAAAGGAATCCATTCTGCAAAAGAATCTCCAGCCATGCACATCACAGACCTAACTGTGTCGGCAGCTAAGAAAGCTAAAGATTTCCTGCCATCCCTGCAAAGAATCAGGAGAATACCCGCTGTTGTGGAATATGTCCTCAGCGGACATCGGTTTAAGCTTTATATCCCAAAGATAACATGTAGCATAGCCTTTTCATTCTCTGGTGTCAGATGTCCTGGCCGTGGCGAACCTTATTCAGAAGAAGCTATCTCTGTAATGAGACGTAGGATCATGCAGAGAGATGTTGAGATTGAAGTTGAAACCGTGGATAGAACCGGTACTTTCTTGGGATCCATGTGGGAATCGAGGACAAACGTGGCTACAGTTCTGCTTGAAGCTGGCTTAGCAAAAATGCAGACTAGCTTTGGTGCAGACAGGATCGCCGAAGCACATCTTCTTGAACAGGCAGAGAGATCTGCTAAAAACCAGAAACTGAAGATTTGGGAAAACTATGTTGAAGGAGAAGAAGTCTCAAACGGAAATACTAACACCGTAGAAACCAGGCAAAAGGAGACCTTAAAGGTTGTTGTTACAGAAGTACTTGGAGGTGGTCGGTTCTATGTTCAATCTGCTGGAGATCAGAAAATAGCTTCGATTCAGAACCAGCTTGCATCATTGAGTATTAAAGACGCTCCCATTATCGGATCCTTTAATCCAAAGAGAGGTGACATCGTCCTTGCACAGTTTAGCCTTGATAACTCCTGGAACCGTGCAATGATTGTGACAGCACCCCGAGCAGCGGTTCAATCCCCAGATGAAAAATTCGAAGTGTTCTACATCGATTATGGAAACCAAGAGACAGTTCCATACAGCGCAATCAGACCAATAGACCCTTCGGTATCTGCAGCACCAGGGCTCGCTCAGCTCTGCAGACTTGCCTACATAAAGGTTCCAAGCTTGGAAGACGACTTTGGTCCTGAAGCGGGAGAGTATTTGCATACTGTAACTCTGGGTAGTGGTAAAGAGTTCAAAGCAGTGATAGAAGAAAGAGACACATCTGGAGGCAAAGTCAAAGGGCAAGGCACTGGAACTGAATTCGTTGTCACTCTCATTGCTGTTGATGATGAGATCTCTGTAAATGCTGCAATGCTTCAGGAAGGAATAGCGAGAATGGAGAAACGTCAGAAATGGGGGCACAAAGGCAAACAAGCTGCTCTTGATGCTTTAGAGAAGTTCCAAGAGGAAGCTCGCAAGTCGAGAATTGGAATCTGGCAGTACGGTGACATTGAGTCCGATGATGAGGACACTGGTCCGGCCAGAAAGCCTGCTGGTGGTCGCCGGTAAAATTATAAAAACCGATAAGTCGTGATATGGTTCAAAGGGACCATGAGGTAGGGAGAGAAGCTTCGGTGTGTTTCTCTAAAGAGTTTAAAGACATGTCGAACTTTTTGTAAGGTTTTAGATTTGTTTCTTCTCTTCTTCTTTTAATTTATATACGTTTTAGACTTTTTAAAGAAATTTTCCATGTAGGACTTGAAATAAGGGGAAGTTTGAACCATGCTTACAGTTTTTGTGTGTTTTCTGGTCCAACTTATCTTTCCATTCCTTAAGCCGTCTTATTTATGTTACACTGACATTAGAAAGAACAAAAAAAGAGCAGAGACTAAGCAGGAAGGATATGGTCGTTGGAGCAA - >AT5G07350.2
CCTACACGTAATTTATTCGAAATAGCGAGGGTAAAAGAGACAAATACTAGTCATCTTCCCTCTTTCCTCTGGTTTATATTTCTTTCTTTCTTTTAGCTCCTCTGCACAAATCCCCTGAGCTCTCTTCCCATCTCGAGATCCGCCGTTAAACTCTTTTTGCCCAAACTCTGAGCTTCTCTCTCTGTCTTCTTCTTCTTCATCTCCTCTTTTGTATTCAATCACAGAGAGACTCTCTTCTCCAGATCTATCATTTGGTTTAATCAAGCTAGTGAACATGGCAACGGGGGCTGAGAACCAATGGCTTAAAGGAAGAGTGAAGGCTGTTACCTCCGGAGACTGCTTAGTGATCACGGCTTTGAGCCACAACAGAGCTGGACCTCCACCGGAAAAGACCATTACTTTTTCTTCTCTTATGGCACCTAAGATGGCTCGCAGAGGAGGTATAGATGAGCCTTTTGCATGGGAAAGCAAAGAATTTTTGAGGAAACTTTGCATAGGAAAGGAGGTTGCATTCAAAGTGGATTACAAGGTGGAAGCTATTGCTGGAAGAGAATTTGGCTCTGTTTTCCTTGGCAACGAGAATCTTGCTAAGCTTGTTGTTAAAACTGGTTGGGCAAAGGTTAGGGAGCCAGGTCAGCAGAATCAGGACAAGGTTAGTCCTTACATTAAAGAGTTGCTACAGCTTGAAGAGCTGGCCAAGCAGGAAGGATATGGTCGTTGGAGCAAGGTTCCTGGTGCTGCTGAGGCATCTATCAGAAATCTTCCTCCTTCTGCCATTGGGGATTCTGCTGGCTTTGATGCCATGGGCCTTTTAGCTGCAAACAAGGGCAAGCCTATGGAAGGTATTGTAGAGCAAGTGCGTGATGGAAGTACTATTCGGGTTTATCTTCTTCCAGAGTTCCAGTTTGTGCAAGTATTTGTTGCGGGAGTCCAGGCTCCATCAATGGGAAGGCGAACCACAAATGGAAGTGTTGTTGAGACAGTTCCAGATGAGCCGAATGGAGATGTTTCTGCTGAGTCACGAGGTCCTCTAACGACAGCTCAGAGACTTGCTGCCTCTGCAGCATCGTCTGTCGAGGTTTCCTCTGATCCATTTGCAACTGAAGCCAAGTACTTTACCGAACACCGTGTTCTTAGTAGAGATGTTCGCATTGTTCTTGAAGGCGTTGACAAATTCAACAATCTGATTGGTTCAGTTCATTATTCTGATGGGGAAACAGTTAAAGACTTGGGGTTGGAGCTCGTTGAAAATGGTCTTGCTAAATTTGTTGAATGGAGTGCCAACATGATGGAGGAGGAAGCTAAGAAAAAGTTGAAAGCTGCAGAACTTCAATGCAAGAAAGATAAGGTTAAAATGTGGGCAAACTACGTTCCTCCAGCTACAAACTCTAAGGCAATTCATGACCAGAACTTTACGGGAAAGGTAGTGGAAGTGGTGAGTGGGGATTGTCTAATAGTTGCCGATGATGCTGTTCCATTTGGGAGTCCAGCAGCAGAGAGACGGGTCTGTCTTTCGAGTATCAGATCTCCAAAAATGGGCAACCCACGTAGAGAAGAGAAACCAGCTCCTTATGCTCGGGAAGCAAGAGAATTTCTGAGACAACGACTTATTGGCAAACAGGTTATTGTTCAAATGGAATATTCAAGGAAAGTCACCCAAGGAGATGGTCCTACCACATCTGGAGCTGCTGATAGGTTCATGGATTTTGGCTCAGTGTTCCTTCCATCTGCTGCCAAAGCCGATTCTGATGAAGTGACTGCACCACCTGCTGCAGCAATTGCTGGCAGTCAGCCGGTTGGTGTGAATATTGCTGAGCTCGTTCTTGTCCGTGGTTTTGGAAATGTGGTTAGACATAGAGATTTTGAAGAGCGATCAAACCATTATGATGCTCTTCTGGCTGCTGAAGCTCGTGCTCTGGCTGGAAAGAAAGGAATCCATTCTGCAAAAGAATCTCCAGCCATGCACATCACAGACCTAACTGTGTCGGCAGCTAAGAAAGCTAAAGATTTCCTGCCATCCCTGCAAAGAATCAGGAGAATACCCGCTGTTGTGGAATATGTCCTCAGCGGACATCGGTTTAAGCTTTATATCCCAAAGATAACATGTAGCATAGCCTTTTCATTCTCTGGTGTCAGATGTCCTGGCCGTGGCGAACCTTATTCAGAAGAAGCTATCTCTGTAATGAGACGTAGGATCATGCAGAGAGATGTTGAGATTGAAGTTGAAACCGTGGATAGAACCGGTACTTTCTTGGGATCCATGTGGGAATCGAGGACAAACGTGGCTACAGTTCTGCTTGAAGCTGGCTTAGCAAAAATGCAGACTAGCTTTGGTGCAGACAGGATCGCCGAAGCACATCTTCTTGAACAGGCAGAGAGATCTGCTAAAAACCAGAAACTGAAGATTTGGGAAAACTATGTTGAAGGAGAAGAAGTCTCAAACGGAAATACTAACACCGTAGAAACCAGGCAAAAGGAGACCTTAAAGGTTGTTGTTACAGAAGTACTTGGAGGTGGTCGGTTCTATGTTCAATCTGCTGGAGATCAGAAAATAGCTTCGATTCAGAACCAGCTTGCATCATTGAGTATTAAAGACGCTCCCATTATCGGATCCTTTAATCCAAAGAGAGGTGACATCGTCCTTGCACAGTTTAGCCTTGATAACTCCTGGAACCGTGCAATGATTGTGACAGCACCCCGAGCAGCGGTTCAATCCCCAGATGAAAAATTCGAAGTGTTCTACATCGATTATGGAAACCAAGAGACAGTTCCATACAGCGCAATCAGACCAATAGACCCTTCGGTATCTGCAGCACCAGGGCTCGCTCAGCTCTGCAGACTTGCCTACATAAAGGTTCCAAGCTTGGAAGACGACTTTGGTCCTGAAGCGGGAGAGTATTTGCATACTGTAACTCTGGGTAGTGGTAAAGAGTTCAAAGCAGTGATAGAAGAAAGAGACACATCTGGAGGCAAAGTCAAAGGGCAAGGCACTGGAACTGAATTCGTTGTCACTCTCATTGCTGTTGATGATGAGATCTCTGTAAATGCTGCAATGCTTCAGGAAGGAATAGCGAGAATGGAGAAACGTCAGAAATGGGGGCACAAAGGCAAACAAGCTGCTCTTGATGCTTTAGAGAAGTTCCAAGAGGAAGCTCGCAAGTCGAGAATTGGAATCTGGCAGTACGGTGACATTGAGTCCGATGATGAGGACACTGGTCCGGCCAGAAAGCCTGCTGGTGGTCGCCGGTAAAATTATAAAAACCGATAAGTCGTGATATGGTTCAAAGGGACCATGAGGTAGGGAGAGAAGCTTCGGTGTGTTTCTCTAAAGAGTTTAAAGACATGTCGAACTTTTTGTAAGGTTTTAGATTTGTTTCTTCTCTTCTTCTTTTAATTTATATACGTTTTAGACTTTTTAAAGAAATTTTCCATGTAGGACTTGAAATAAGGGGAAGTTTGAACCATGCTTACAGTTTTTGTGTGTTTTCTGGTCCAACTTATCTTTCCATTCCTTAAGCCGTCTTATTTATGTTACACTGACATTAGAAAGAACAAAAAAAGAGCAGAGACTAAGCAGGAAGGATATGGTCGTTGGAGCAA
CDS Sequence
Protein Sequence