Gene Details:
- Gene ID: AT4G29920
- Gene Symbol: AtHSPR, SMXL4
- Gene Name: Arabidopsis thaliana heat shock protein-related, SMAX1-like 4
- Description: Double Clp-N motif-containing P-loop nucleoside triphosphate hydrolases superfamily protein;(source:Araport11)
- TAIR Accession: locus:2123944
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0009651 — acts upstream of or within — response to salt stress
- GO:0042631 — acts upstream of or within — cellular response to water deprivation
- GO:0005634 — located in — nucleus
- GO:0005737 — located in — cytoplasm
- GO:0033500 — acts upstream of or within — carbohydrate homeostasis
- GO:0010233 — acts upstream of or within — phloem transport
Germplasm Phenotype:
- athspr — Increased sensitivity to salt and drought stress.athspr mutants accumulates less shoot K+ and substantially more shoot Na+ than wild type.
Literature:
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- SUPPRESSOR OF MORE AXILLARY GROWTH2 1 controls seed germination and seedling development in Arabidopsis. DOI: 10.1104/pp.113.221259 ; PMID: 23893171
- and Karrikin-Independent SMXL Proteins Are Central Regulators of Phloem Formation. DOI: 10.1016/j.cub.2017.03.014 ; PMID: 28392107
- Safeguard DCL2-Dependent 22-nt siRNA generation by DCL1. DOI: 10.1016/j.bbrc.2022.03.076 ; PMID: 35316769
- Masks Start to Drop: Suppressor of MAX2 1-Like Proteins Reveal Their Many Faces. DOI: 10.3389/fpls.2022.887232 ; PMID: 35645992
- The Arabidopsis thaliana chloroplast proteome reveals pathway abundance and novel protein functions. DOI: 10.1016/j.cub.2004.02.039 ; PMID: 15028209
Sequence:
cDNA Sequence
- >AT4G29920.2 TAACTTGCTCTGTCCTCATCTCTTCGATACTTCTCTCAGACTAAACATATCTTTATAAACACTAAGTTTACTTCCACCATTACTTTTTCTTCCTTTAAGCTTCAAGAACTTCAAAGTCTTACTTAAACCTTTTGTTTGTGGGTAGAGAGGAAATAGCAAAAAGAGATCGATAGATTCTTGCGAGGGGTTTAGGGATTTAAGGTGGGTGGTTTTGTGATGCGTACAGGGGCTTATACCGTGCACCAGACACTAACACCAGAGGCTGCTTCAGTTTTGAAGCAATCTCTAACCTTAGCAAGAAGGAGAGGCCATTCTCAAGTCACTCCTCTTCACGTTGCTTCGACGCTTTTAACTTCGTCAAGATCCAATCTTTTCCGAAGGGCATGTCTCAAATCCAATCCGTTCACTGCCCTCGGTCGCCAAATGGCTCACCCTTCTCTCCATTGTCGAGCTCTCGAGCTCTGTTTCAATGTTTCTCTCAACAGGCTTCCGACCAACCCGAATCCTCTGTTTCAGACCCAGCCTTCACTCTCCAACGCTCTCGTAGCGGCACTGAAGAGAGCACAGGCGCATCAAAGGAGAGGGTGTGTGGAGCAGCAGCAGAGTCAACAGAACCAACCGTTCTTGGCGGTTAAAGTCGAGCTCGAGCAGCTTGTTGTGTCGATTCTTGATGATCCTAGTGTGAGTAGAGTGATGAGAGAAGCTGGACTCTCTAGTGTTTCTGTGAAGAGTAACATAGAGGATGACTCCTCTGTTGTTTCCCCTGTTTTCTACGGCTCTTCTTCCTCTGTTGGTGTTTTCTCTTCTCCTTGCTCTCCTTCTTCTAGTGAAAACAATCAAGGAGGAGGGACTTTAAGCCCTAACCCTAGTAAGATTTGGCATGCGCATTTGACCAATCATCACTCTTTTGAGCAAAACCCTTTCTTTCATTTCCCTAAAGGAAAGACCTTTACTCCAGATCAAGCTTTTCCCGTGAGAGAAGACGCAAACCCGGTCATCGAAGTGCTTCTAGGGAAGAAGAACAACAAGAAGAGGAACACTGTCATAGTTGGAGATTCTGTTTCTCTAACAGAAGGAGTGGTTGCAAAACTCATGGGTAGAATCGAGAGAGGAGAAGTTCCAGATGATTTAAAACAAACACATTTCATCAAGTTTCAGTTTTCACAAGTTGGTTTGAATTTCATGAAGAAGGAGGATATAGAGGGACAAGTTAGAGAGTTGAAGAGAAAGATTGATTCTTTCACATCTTGGGGTGGCAAAGGTGTCATTGTTTGTCTTGGAGATCTTGATTGGGCAGTTTGGGGAGGCGGTAACAGCGCATCTTCTTCGAACTATAGCGCGGCGGATCATCTAGTGGAAGAGATAGGGAGATTGGTTTATGATTATAGCAACACAGGAGCCAAAGTTTGGCTATTGGGGACAGCTTCTTACCAAACATACATGAGATGTCAAATGAAGCAACCTCCACTTGATGTTCATTGGGCTCTTCAAGCTGTTTCAATTCCTTCAGGAGGACTTTCACTAACCCTTCATGCTTCAAGTGGTCACAGTTCTGAGATGGCTTCTCAAGTGATGGAGATGAAGCCATTTAGAGTAAAAGAAGAAGAAGAAGGAGCAAGAGAAGAAGAGGAAGAAGATAAACTCAATTTCTGTGGAGAATGTGCTTTTAACTATGAGAAAGAAGCAAAAGCTTTTATATCAGCTCAGCACAAAATCTTACCGCCTTGGCTGCAACCTCATGGAGACAACAACAACATTAACCAAAAGGATGAATTGAGTGGACTGAGAAAGAAATGGAACCGGTTTTGTCAAGCTCTTCACCACAAGAAACCTAGTATGACTGCTTGGAGGGCAGAACAGAGCAGCTCTGTTTTACCGGGTTCTTTGATGGACTCGAGTCTGAAGCAAAACTCACGTGCATCTAGTTCTGTTGCTAAGTTTAGACGACAGAACTCGTGTACTATCGAGTTTAGTTTCGGAAGTAATCGTCAAGAAGGTCTAAAGAAGACTGATGAATTGAGTTTGGATGGGTTCAAGAGTAACAATGATGAAGGTGTAAAAACTAAGATCACTCTTGCACTTGGTCATTCTCCATTTCCATCTGATTCAGAGAACTCGGAAGAAGAAGAACCAGAGAAAGCGATTAAAATGAGTAAATTATTGGAAAAGCTTCACGAGAACATTCCATGGCAAAAGGATGTTCTTCCTTCAATCGTTGAAGCCATGGAAGAATCTGTCAAGAGGAGTAAGAGGAAAGATGCATGGATGCTGGTTTCGGGGAACGATGTGACTGCCAAAAGAAGATTGGCTATCACATTGACAACTTCTCTTTTCGGGTCACACGAAAATATGTTGAAGATCAATCTAAGAACATCCAAGGCAAGCGAAGCATGCGAGGAGCTCAAGAACGCGTTGAAGAAGAAGGAAGAGGTTGTTATTTTGATAGAGCGAGTTGATTTAGCCGATGCTCAGTTCATGAACATCCTCGTAGATCGATTTGAGGCGGGAGATTTGGATGGTTTTCAAGGAAAGAAGAGCCAAATAATCTTCCTTTTGACGAGAGAAGATGATGAATGTGTAGAGAATGAACATTTTGTCATACCAATGGTGTTGAATTGTAACAAATCAGGTTCTGGTTTGGTCAATAACAAGAGGAAACCGGAATATGATGCTGCGCCAACGATGATTAAGAAGAAGAATCCAAGAATCGAGGAAGATGACGACGAAAGCAATGTCGCTTGCGACATAAGCAACATAAAGAAAGAGTTCTCAAGACAGTTGAAGTTCGAATCTAATGCTCTTGACCTCAACTTAAGAGTTGATGCCGACGAAGACGAAGAAGAGGAAGCTAAACCGGCCACTGAAATCTCAAGCGGGTTTGAAGAACGTTTTCTAGACTCGATCCAAAACCGGTTTGATTTCACAGTTTTGTCGGACGAAGATATAACTAAATTCTTCGTGACAAAGATCAAAGATTCGTGCGAGGAGATCCTCGGGCAACGAGAAGAGAGATTCGGGTTCACCGTCGATGCGGAACTGATAGAGAAGTTTTACAAAGGGTGTGGTTTTTTTGCTAACGGTTTGTTTGAAGAGTGGGTTAAAGAGGTTTTTCAAAGGGGTTTAGTAACGGTCAAAAACGGCGGGAAAGAGGGCATAAGTGTAATTAACCTATGTTTGGGGGGTATAGATATGATTGACCAAGGGGAGGTATACGAGGAAGAAGAAGGATTCATGGGAACTTGTCTACCCAACAGAATCCATGTTTCCTTTGTTGATTAGCTTCGGCTTTTATTTCTGTTCTTAATTTCTTCTATTAGAATTATATAAATATATTTTTGTTAGTATTATTTTTCTTATTTCTTTTTGCTTTATAAGAAGAGAAAAGAAGAAAATTAATTATGACCCAAGAAAAGTGGAACTTGACCGCATTGTTCTTTGTGTAAACATAAGTTGCCTCGCTTCATGATAGAATGTACTTTTTATATTCCTTTTTTAGGAATAGTGTTGTCACCTTTTCAT
- >AT4G29920.1 TAACTTGCTCTGTCCTCATCTCTTCGATACTTCTCTCAGACTAAACATATCTTTATAAACACTAAGTTTACTTCCACCATTACTTTTTCTTCCTTTAAGCTTCAAGAACTTCAAAGTCTTACTTAAACCTTTTGTTTGTGGGTAGAGAGGAAATAGCAAAAAGAGATCGATAGATTCTTGCGAGGGGTTTAGGGATTTAAGGTGGGTGGTTTTGTGATGCGTACAGGGGCTTATACCGTGCACCAGACACTAACACCAGAGGCTGCTTCAGTTTTGAAGCAATCTCTAACCTTAGCAAGAAGGAGAGGCCATTCTCAAGTCACTCCTCTTCACGTTGCTTCGACGCTTTTAACTTCGTCAAGATCCAATCTTTTCCGAAGGGCATGTCTCAAATCCAATCCGTTCACTGCCCTCGGTCGCCAAATGGCTCACCCTTCTCTCCATTGTCGAGCTCTCGAGCTCTGTTTCAATGTTTCTCTCAACAGGCTTCCGACCAACCCGAATCCTCTGTTTCAGACCCAGCCTTCACTCTCCAACGCTCTCGTAGCGGCACTGAAGAGAGCACAGGCGCATCAAAGGAGAGGGTGTGTGGAGCAGCAGCAGAGTCAACAGAACCAACCGTTCTTGGCGGTTAAAGTCGAGCTCGAGCAGCTTGTTGTGTCGATTCTTGATGATCCTAGTGTGAGTAGAGTGATGAGAGAAGCTGGACTCTCTAGTGTTTCTGTGAAGAGTAACATAGAGGATGACTCCTCTGTTGTTTCCCCTGTTTTCTACGGCTCTTCTTCCTCTGTTGGTGTTTTCTCTTCTCCTTGCTCTCCTTCTTCTAGTGAAAACAATCAAGGAGGAGGGACTTTAAGCCCTAACCCTAGTAAGATTTGGCATGCGCATTTGACCAATCATCACTCTTTTGAGCAAAACCCTTTCTTTCATTTCCCTAAAGGAAAGACCTTTACTCCAGATCAAGCTTTTCCCGTGAGAGAAGACGCAAACCCGGTCATCGAAGTGCTTCTAGGGAAGAAGAACAACAAGAAGAGGAACACTGTCATAGTTGGAGATTCTGTTTCTCTAACAGAAGGAGTGGTTGCAAAACTCATGGGTAGAATCGAGAGAGGAGAAGTTCCAGATGATTTAAAACAAACACATTTCATCAAGTTTCAGTTTTCACAAGTTGGTTTGAATTTCATGAAGAAGGAGGATATAGAGGGACAAGTTAGAGAGTTGAAGAGAAAGATTGATTCTTTCACATCTTGGGGTGGCAAAGGTGTCATTGTTTGTCTTGGAGATCTTGATTGGGCAGTTTGGGGAGGCGGTAACAGCGCATCTTCTTCGAACTATAGCGCGGCGGATCATCTAGTGGAAGAGATAGGGAGATTGGTTTATGATTATAGCAACACAGGAGCCAAAGTTTGGCTATTGGGGACAGCTTCTTACCAAACATACATGAGATGTCAAATGAAGCAACCTCCACTTGATGTTCATTGGGCTCTTCAAGCTGTTTCAATTCCTTCAGGAGGACTTTCACTAACCCTTCATGCTTCAAGTGGTCACAGTTCTGAGATGGCTTCTCAAGTGATGGAGATGAAGCCATTTAGAGTAAAAGAAGAAGAAGAAGGAGCAAGAGAAGAAGAGGAAGAAGATAAACTCAATTTCTGTGGAGAATGTGCTTTTAACTATGAGAAAGAAGCAAAAGCTTTTATATCAGCTCAGCACAAAATCTTACCGCCTTGGCTGCAACCTCATGGAGACAACAACAACATTAACCAAAAGGATGAATTGAGTGGACTGAGAAAGAAATGGAACCGGTTTTGTCAAGCTCTTCACCACAAGAAACCTAGTATGACTGCTTGGAGGGCAGAACAGAGCAGCTCTGTTTTACCGGGTTCTTTGATGGACTCGAGTCTGAAGCAAAACTCACGTGCATCTAGTTCTGTTGCTAAGTTTAGACGACAGAACTCGTGTACTATCGAGTTTAGTTTCGGAAGTAATCGTCAAGAAGGTCTAAAGAAGACTGATGAATTGAGTTTGGATGGGTTCAAGAGTAACAATGATGAAGGTGTAAAAACTAAGATCACTCTTGCACTTGGTCATTCTCCATTTCCATCTGATTCAGAGAACTCGGAAGAAGAAGAACCAGAGAAAGCGATTAAAATGAGTAAATTATTGGAAAAGCTTCACGAGAACATTCCATGGCAAAAGGATGTTCTTCCTTCAATCGTTGAAGCCATGGAAGAATCTGTCAAGAGGAGTAAGAGGAAAGATGCATGGATGCTGGTTTCGGGGAACGATGTGACTGCCAAAAGAAGATTGGCTATCACATTGACAACTTCTCTTTTCGGGTCACACGAAAATATGTTGAAGATCAATCTAAGAACATCCAAGGCAAGCGAAGCATGCGAGGAGCTCAAGAACGCGTTGAAGAAGAAGGAAGAGGTTGTTATTTTGATAGAGCGAGTTGATTTAGCCGATGCTCAGTTCATGAACATCCTCGTAGATCGATTTGAGGCGGGAGATTTGGATGGTTTTCAAGGAAAGAAGAGCCAAATAATCTTCCTTTTGACGAGAGAAGATGATGAATGTGTAGAGAATGAACATTTTGTCATACCAATGGTGTTGAATTGTAACAAATCAGGTTCTGGTTTGGTCAATAACAAGAGGAAACCGGAATATGATGCTGCGCCAACGATGATTAAGAAGAAGAATCCAAGAATCGAGGAAGATGACGACGAAAGCAATGTCGCTTGCGACATAAGCAACATAAAGAAAGAGTTCTCAAGACAGTTGAAGTTCGAATCTAATGCTCTTGACCTCAACTTAAGAGTTGATGCCGACGAAGACGAAGAAGAGGAAGCTAAACCGGCCACTGAAATCTCAAGCGGGTTTGAAGAACGTTTTCTAGACTCGATCCAAAACCGGTTTGATTTCACAGTTTTGTCGGACGAAGATATAACTAAATTCTTCGTGACAAAGATCAAAGATTCGTGCGAGGAGATCCTCGGGCAACGAGAAGAGAGATTCGGGTTCACCGTCGATGCGGAACTGATAGAGAAGTTTTACAAAGGGTGTGGTTTTTTTGCTAACGGTTTGTTTGAAGAGTGGGTTAAAGAGGTTTTTCAAAGGGGTTTAGTAACGGTCAAAAACGGCGGGAAAGAGGGCATAAGTGTAATTAACCTATGTTTGGGGGGTATAGATATGATTGACCAAGGGGAGGTATACGAGGAAGAAGAAGGATTCATGGGAACTTGTCTACCCAACAGAATCCATGTTTCCTTTGTTGATTAGCTTCGGCTTTTATTTCTGTTCTTAATTTCTTCTATTAGAATTATATAAATATATTTTTGTTAGTATTATTTTTCTTATTTCTTTTTGCTTTATAAGAAGAGAAAAGAAGAAAATTAATTATGACCCAAGAAAAGTGGAACTTGACCGCATTGTTCTTTGTGTAAACATAAGTTGCCTCGCTTCATGATAGAATGTACTTTTTATATTCCTTTTTTAGGAATAGTGTTGTCACCTTTTCAT
CDS Sequence
Protein Sequence