Information report for AT5G22800
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- An embryo-defective mutant of arabidopsis disrupted in the final step of biotin synthesis. DOI: 10.1104/pp.116.3.935 ; PMID: 9501126
- Embryonic Lethals and T-DNA Insertional Mutagenesis in Arabidopsis. DOI: 10.1105/tpc.3.2.149 ; PMID: 12324593
- Transcriptome analysis of sulfur depletion in Arabidopsis thaliana: interlacing of biosynthetic pathways provides response specificity. DOI: 10.1046/j.1365-313x.2003.01657.x ; PMID: 12609038
- Dual targeting is the rule for organellar aminoacyl-tRNA synthetases in Arabidopsis thaliana. DOI: 10.1073/pnas.0504682102 ; PMID: 16251277
- Requirement of aminoacyl-tRNA synthetases for gametogenesis and embryo development in Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02580.x ; PMID: 16297076
- Nuclear photosynthetic gene expression is synergistically modulated by rates of protein synthesis in chloroplasts and mitochondria. DOI: 10.1105/tpc.105.039073 ; PMID: 16517761
- Comparative mapping of Brassica juncea and Arabidopsis thaliana using Intron Polymorphism (IP) markers: homoeologous relationships, diversification and evolution of the A, B and C Brassica genomes. DOI: 10.1186/1471-2164-9-113 ; PMID: 18315867
- Integrating the genetic and physical maps of Arabidopsis thaliana: identification of mapped alleles of cloned essential (EMB) genes. DOI: 10.1371/journal.pone.0007386 ; PMID: 19812694
- Identification of nuclear genes encoding chloroplast-localized proteins required for embryo development in Arabidopsis. DOI: 10.1104/pp.110.168120 ; PMID: 21139083
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Dual targeting is the rule for organellar aminoacyl-tRNA synthetases in Arabidopsis thaliana. DOI: 10.1073/pnas.0504682102 ; PMID: 16251277
- Requirement of aminoacyl-tRNA synthetases for gametogenesis and embryo development in Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02580.x ; PMID: 16297076
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- Quantitative proteomics of a chloroplast SRP54 sorting mutant and its genetic interactions with CLPC1 in Arabidopsis. DOI: 10.1104/pp.108.124545 ; PMID: 18633119
- 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
Gene Resources
- UniProt: A0A178U9H3
- EMBL: CACRSJ010000110, CACSHJ010000096, LUHQ01000005
- AlphaFoldDB: A0A178U9H3
- EnsemblPlants: AT5G22800.1
- Gramene: AT5G22800.1
- KEGG: ath:AT5G22800
- Orthologous matrix: GFDMEME
- ExpressionAtlas: AT5G22800
- InterPro: IPR002318, IPR003156, IPR009000
- PANTHER: PTHR11777, PTHR11777:SF9
- SUPFAM: SSF101353, SSF50447, SSF55186
- PROSITE: PS50860
- Gene3D: 2.40.30.130, 3.10.310.40, 3.30.54.20
- OrthoDB: A0A178U9H3
- SWISS-MODEL: A0A178U9H3
- Conserved Domain Database: cd00673
Sequences
cDNA Sequence
- >AT5G22800.1
ATTAAATTTTTTTTGATTAAAAATCTTTCAAACCAAACGAAGTGGATAAAAAAACGCTTGAAGGCTAGCTAGTGTGTCTTCTTCTTCTCCCTGAAACTCTCCCTCCTCATACTCTCTGATGAATTTCTCCAGAGTAAACCTCTTCGATTTTCCTCTTAGACCAATTTTGCTTTCGCATCCTTCTTCTATTTTCGTTTCTACACGTTTTGTTACCAGAACCTCTGCAGGTGTTTCTCCTTCTATCTTACTTCCCAGATCAACTCAGTCTCCTCAGATTATTGCTAAGAGCTCATCAGTATCAGTACAGCCAGTGTCTGAGGATGCTAAGGAGGATTATCAGTCCAAAGATGTTAGTGGAGATTCAATACGGCGGCGTTTTCTTGAATTCTTTGCTTCTCGTGGTCATAAGGTGCTTCCAAGTTCGTCTCTTGTACCAGAAGATCCTACCGTCTTGCTAACAATTGCAGGAATGCTTCAGTTTAAGCCTATTTTCCTTGGAAAGGTACCTAGAGAGGTTCCTTGTGCAACCACTGCGCAAAGGTGTATACGTACGAATGATTTGGAGAATGTTGGGAAAACGGCTAGGCACCATACTTTCTTTGAGATGCTTGGGAACTTTAGCTTTGGTGATTACTTCAAGAAAGAAGCGATAAAATGGGCATGGGAGCTTTCAACTATTGAGTTTGGGCTACCAGCTAATAGAGTTTGGGTTAGTATATATGAAGACGATGATGAAGCTTTTGAAATCTGGAAGAATGAAGTTGGTGTTTCTGTTGAGCGGATAAAGAGAATGGGTGAAGCTGACAACTTTTGGACTAGTGGACCAACTGGTCCTTGTGGTCCATGCTCTGAGTTGTACTATGACTTCTATCCTGAGAGAGGTTATGATGAAGATGTTGATCTTGGGGATGATACCAGATTTATTGAGTTCTATAATTTGGTTTTCATGCAGTATAACAAGACGGAAGATGGATTGCTTGAGCCCTTGAAACAGAAGAATATAGATACTGGTCTTGGTTTGGAACGTATAGCTCAAATCCTTCAGAAGGTTCCAAACAACTACGAGACAGATTTGATATATCCAATCATTGCAAAGATCTCAGAGTTGGCGAATATCTCATATGACTCTGCAAATGACAAGGCAAAGACAAGTTTAAAAGTGATTGCAGATCACATGCGGGCAGTTGTCTATCTCATATCAGATGGTGTTTCTCCTTCAAATATTGGCAGAGGTTATGTGGTTAGGAGGCTAATAAGAAGAGCAGTTCGGAAGGGGAAGTCTCTCGGAATAAATGGGGATATGAATGGTAATCTAAAGGGAGCGTTTTTGCCAGCGGTTGCTGAAAAGGTGATAGAGTTGAGCACTTATATTGATTCAGATGTAAAACTAAAGGCCTCACGCATCATTGAGGAGATTAGGCAAGAAGAACTTCACTTTAAGAAAACTCTGGAAAGAGGAGAAAAGTTACTTGACCAAAAGCTTAACGATGCATTGTCAATTGCTGATAAAACTAAGGATACGCCTTATCTGGATGGAAAAGATGCGTTTCTTCTTTATGACACATTTGGCTTTCCTGTGGAGATAACTGCAGAAGTTGCTGAAGAACGTGGAGTCAGTATAGATATGAATGGTTTTGAAGTGGAAATGGAGAATCAAAGACGTCAATCTCAAGCTGCTCACAATGTTGTAAAACTGACAGTTGAAGACGATGCTGACATGACGAAAAATATTGCAGACACTGAGTTCCTTGGATATGACAGTCTCTCTGCTCGTGCTGTTGTGAAAAGTCTTTTGGTGAATGGGAAGCCTGTGATAAGGGTTTCTGAAGGCAGTGAAGTAGAGGTTCTGCTGGACAGAACTCCGTTCTATGCTGAATCAGGAGGTCAAATTGCAGATCATGGTTTTCTTTATGTTAGCAGTGATGGGAACCAAGAGAAAGCTGTTGTTGAGGTAAGTGATGTGCAGAAGTCTCTTAAAATTTTTGTTCACAAGGGCACTGTAAAAAGTGGAGCTCTAGAAGTTGGCAAGGAGGTGGAAGCAGCAGTAGATGCAGACTTGAGGCAACGAGCGAAGGTTCACCATACCGCCACTCATTTGCTCCAATCGGCACTTAAAAAAGTAGTAGGACAAGAAACATCACAGGCTGGTTCATTAGTAGCTTTTGACCGCCTCAGATTCGATTTCAATTTTAATCGGTCCCTGCATGATAATGAGCTTGAGGAAATCGAATGCCTGATCAATAGGTGGATTGGGGATGCTACACGTCTTGAAACAAAAGTCCTTCCTCTTGCTGATGCAAAACGTGCTGGAGCCATCGCAATGTTTGGGGAAAAATATGATGAAAACGAGGTTCGTGTAGTAGAAGTTCCTGGTGTCTCCATGGAACTTTGTGGTGGCACTCATGTTGGCAATACTGCAGAAATACGAGCCTTCAAGATTATCTCAGAACAGGGCATTGCATCTGGAATCCGGCGTATAGAAGCGGTTGCAGGTGAAGCATTCATTGAATACATAAACTCACGGGATTCTCAAATGACACGTCTATGCTCGACTCTCAAGGTGAAAGCAGAGGATGTTACAAACAGAGTGGAGAATCTTCTAGAGGAACTACGTGCTGCTAGAAAAGAAGCCTCCGACTTGCGTTCAAAAGCAGCTGTCTATAAAGCATCTGTCATATCGAACAAAGCATTTACTGTAGGAACTTCACAGACTATAAGAGTGCTCGTTGAGTCGATGGATGACACCGATGCTGACTCATTAAAGAGTGCAGCTGAGCATTTGATAAGCACATTGGAAGATCCAGTCGCTGTGGTACTAGGATCATCTCCAGAAAAAGACAAGGTTAGTTTAGTTGCTGCATTTAGTCCTGGAGTAGTCTCCCTAGGTGTTCAAGCAGGGAAATTCATTGGCCCCATAGCTAAGCTGTGTGGCGGAGGAGGTGGTGGAAAGCCCAATTTTGCTCAGGCAGGCGGCAGAAAGCCTGAAAATCTCCCAAGTGCCTTAGAGAAAGCTCGGGAAGATCTCGTGGCAACTCTATCCGAAAAGCTAGGGTGAAGCACAAACTTCAAAAGTGATCTGCGTGTACAGAGAGAAGGAAGAGCACATTGCTTGATTCTAGACAAGTGTATTGCATGTATAGATGATAGACATTAAAGATATTTGATGTATCTAGTTTTTGAACATTAAATGATCAATGACATTTCTTTTAATGAATGAGGGACTATGTTTCGATTTGCTTTACTCATTGAACGTCGTCTCAATGGTTTTGGACGTATTACAAAAAGTGAATCTGTGTATATTTAACATAGCATTATAGCAAGTTATGAAGAGAATGTCATGCTTTCTGTGCGCGTAGAGAGCTTTTGACGAGGGTGAGATGAAGTTGTAGGCAGTTGAGACGACCGCGTTTTGACTCTGTTGGATTGTGTCACCGGAGTTACTGATGCGGTGATATTATTGCATTTGTGGTTGAAGTTTCGGTTCCTGTACTCTTTTCTTTTTTCCCAAATTCAGGGTCCGGTTCAATTT - >AT5G22800.2
ATTAAATTTTTTTTGATTAAAAATCTTTCAAACCAAACGAAGTGGATAAAAAAACGCTTGAAGGCTAGCTAGTGTGTCTTCTTCTTCTCCCTGAAACTCTCCCTCCTCATACTCTCTGATGAATTTCTCCAGAGTAAACCTCTTCGATTTTCCTCTTAGACCAATTTTGCTTTCGCATCCTTCTTCTATTTTCGTTTCTACACGTTTTGTTACCAGAACCTCTGCAGGTGTTTCTCCTTCTATCTTACTTCCCAGATCAACTCAGTCTCCTCAGATTATTGCTAAGAGCTCATCAGTATCAGTACAGCCAGTGTCTGAGGATGCTAAGGAGGATTATCAGTCCAAAGATGTTAGTGGAGATTCAATACGGCGGCGTTTTCTTGAATTCTTTGCTTCTCGTGGTCATAAGGTGCTTCCAAGTTCGTCTCTTGTACCAGAAGATCCTACCGTCTTGCTAACAATTGCAGGAATGCTTCAGTTTAAGCCTATTTTCCTTGGAAAGGTACCTAGAGAGGTTCCTTGTGCAACCACTGCGCAAAGGTGTATACGTACGAATGATTTGGAGAATGTTGGGAAAACGGCTAGGCACCATACTTTCTTTGAGATGCTTGGGAACTTTAGCTTTGGTGATTACTTCAAGAAAGAAGCGATAAAATGGGCATGGGAGCTTTCAACTATTGAGTTTGGGCTACCAGCTAATAGAGTTTGGGTTAGTATATATGAAGACGATGATGAAGCTTTTGAAATCTGGAAGAATGAAGTTGGTGTTTCTGTTGAGCGGATAAAGAGAATGGGTGAAGCTGACAACTTTTGGACTAGTGGACCAACTGGTCCTTGTGGTCCATGCTCTGAGTTGTACTATGACTTCTATCCTGAGAGAGGTTATGATGAAGATGTTGATCTTGGGGATGATACCAGATTTATTGAGTTCTATAATTTGGTTTTCATGCAGTATAACAAGACGGAAGATGGATTGCTTGAGCCCTTGAAACAGAAGAATATAGATACTGGTCTTGGTTTGGAACGTATAGCTCAAATCCTTCAGAAGGTTCCAAACAACTACGAGACAGATTTGATATATCCAATCATTGCAAAGATCTCAGAGTTGGCGAATATCTCATATGACTCTGCAAATGACAAGGCAAAGACAAGTTTAAAAGTGATTGCAGATCACATGCGGGCAGTTGTCTATCTCATATCAGATGGTGTTTCTCCTTCAAATATTGGCAGAGGTTATGTGGTTAGGAGGCTAATAAGAAGAGCAGTTCGGAAGGGGAAGTCTCTCGGAATAAATGGGGATATGAATGGTAATCTAAAGGGAGCGTTTTTGCCAGCGGTTGCTGAAAAGGTGATAGAGTTGAGCACTTATATTGATTCAGATGTAAAACTAAAGGCCTCACGCATCATTGAGGAGATTAGGCAAGAAGAACTTCACTTTAAGAAAACTCTGGAAAGAGGAGAAAAGTTACTTGACCAAAAGCTTAACGATGCATTGTCAATTGCTGATAAAACTAAGGATACGCCTTATCTGGATGGAAAAGATGCGTTTCTTCTTTATGACACATTTGGCTTTCCTGTGGAGATAACTGCAGAAGTTGCTGAAGAACGTGGAGTCAGTATAGATATGAATGGTTTTGAAGTGGAAATGGAGAATCAAAGACGTCAATCTCAAGCTGCTCACAATGTTGTAAAACTGACAGTTGAAGACGATGCTGACATGACGAAAAATATTGCAGACACTGAGTTCCTTGGATATGACAGTCTCTCTGCTCGTGCTGTTGTGAAAAGTCTTTTGGTGAATGGGAAGCCTGTGATAAGGGTTTCTGAAGGCAGTGAAGTAGAGGTTCTGCTGGACAGAACTCCGTTCTATGCTGAATCAGGAGGTCAAATTGCAGATCATGGTTTTCTTTATGTTAGCAGTGATGGGAACCAAGAGAAAGCTGTTGTTGAGGTAAGTGATGTGCAGAAGTCTCTTAAAATTTTTGTTCACAAGGGCACTGTAAAAAGTGGAGCTCTAGAAGTTGGCAAGGAGGTGGAAGCAGCAGTAGATGCAGACTTGAGGCAACGAGCGAAGGTTCACCATACCGCCACTCATTTGCTCCAATCGGCACTTAAAAAAGTAGTAGGACAAGAAACATCACAGGCTGGTTCATTAGTAGCTTTTGACCGCCTCAGATTCGATTTCAATTTTAATCGGTCCCTGCATGATAATGAGCTTGAGGAAATCGAATGCCTGATCAATAGGTGGATTGGGGATGCTACACGTCTTGAAACAAAAGTCCTTCCTCTTGCTGATGCAAAACGTGCTGGAGCCATCGCAATGTTTGGGGAAAAATATGATGAAAACGAGGTTCGTGTAGTAGAAGTTCCTGGTGTCTCCATGGAACTTTGTGGTGGCACTCATGTTGGCAATACTGCAGAAATACGAGCCTTCAAGATTATCTCAGAACAGGGCATTGCATCTGGAATCCGGCGTATAGAAGCGGTTGCAGGTGAAGCATTCATTGAATACATAAACTCACGGGATTCTCAAATGACACGTCTATGCTCGACTCTCAAGGTGAAAGCAGAGGATGTTACAAACAGAGTGGAGAATCTTCTAGAGGAACTACGTGCTGCTAGAAAAGAAGCCTCCGACTTGCGTTCAAAAGCAGCTGTCTATAAAGCATCTGTCATATCGAACAAAGCATTTACTGTAGGAACTTCACAGACTATAAGAGTGCTCGTTGAGTCGATGGATGACACCGATGCTGACTCATTAAAGAGTGCAGCTGAGCATTTGATAAGCACATTGGAAGATCCAGTCGCTGTGGTACTAGGATCATCTCCAGAAAAAGACAAGGTTAGTTTAGTTGCTGCATTTAGTCCTGGAGTAGTCTCCCTAGGTGTTCAAGCAGGGAAATTCATTGGCCCCATAGCTAAGCTGTGTGGCGGAGGAGGTGGTGGAAAGCCCAATTTTGCTCAGGCAGGCGGCAGAAAGCCTGAAAATCTCCCAAGTGCCTTAGAGAAAGCTCGGGAAGATCTCGTGGCAACTCTATCCGAAAAGCTAGGGTGAAGCACAAACTTCAAAAGTGATCTGCGTGTACAGAGAGAAGGAAGAGCACATTGCTTGATTCTAGACAAGTGTATTGCATGTATAGATGATAGACATTAAAGATATTTGATGTATCTAGTTTTTGAACATTAAATGATCAATGACATTTCTTTTAATGAATGAGGGACTATGTTTCGATTTGCTTTACTCATTGAACGTCGTCTCAATGGTTTTGGACGTATTACAAAAAGTGAATCTGTGTATATTTAACATAGCATTATAGCAAGTTATGAAGAGAATGTCATGCTTTCTGTGCGCGTAGAGAGCTTTTGACGAGGGTGAGATGAAGTTGTAGGCAGTTGAGACGACCGCGTTTTGACTCTGTTGGATTGTGTCACCGGAGTTACTGATGCGGTGATATTATTGCATTTGTGGTTGAAGTTTCGGTTCCTGTACTCTTTTCTTTTTTCCCAAATTCAGGGTCCGGTTCAATTT
CDS Sequence
Protein Sequence