Gene Details:
- Gene ID: AT1G02280
- Gene Symbol: ATTOC33, PPI1, TOC33
- Gene Name: PLASTID PROTEIN IMPORT 1, translocon at the outer envelope membrane of chloroplasts 33
- Description: translocon at the outer envelope membrane of chloroplasts 33;(source:Araport11)
- TAIR Accession: locus:2204923
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0000230 — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0009030 — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0042802 — enables — identical protein binding
- GO:0009707 — located in — chloroplast outer membrane
- GO:0009941 — located in — chloroplast envelope
- GO:0009507 — located in — chloroplast
- GO:0005515 — enables — protein binding
- GO:0005525 — enables — GTP binding
- GO:0005622 — located in — intracellular anatomical structure
- GO:0003924 — enables — GTPase activity
- GO:0045036 — acts upstream of or within — protein targeting to chloroplast
- GO:0015450 — enables — protein-transporting ATPase activity
- GO:0005576 — located in — extracellular region
- GO:0042803 — enables — protein homodimerization activity
Germplasm Phenotype:
- CS2107724 — suppressor of ppi1
- CS2107726 — chorotic, pale-green
- ppi1 — Defective in POR B uptake into chlorolasts
- ppi1 — Pale plants
Function-related keywords:
- cauline leaf , inflorescence meristem , seed , carpel , petal , stem , pollen , guard cell
Literature:
- LOW PSII ACCUMULATION1 is involved in efficient assembly of photosystem II in Arabidopsis thaliana. DOI: 10.1105/tpc.105.037689 ; PMID: 16531500
- A conserved dibasic site is essential for correct processing of the peptide hormone AtRALF1 in Arabidopsis thaliana. DOI: 10.1016/j.febslet.2008.08.025 ; PMID: 18775699
- A cytoplasmic Ca2+ functional assay for identifying and purifying endogenous cell signaling peptides in Arabidopsis seedlings: identification of AtRALF1 peptide. DOI: 10.1021/bi8001488 ; PMID: 18494498
- Arabidopsis thaliana RALF1 opposes brassinosteroid effects on root cell elongation and lateral root formation. DOI: 10.1093/jxb/eru099 ; PMID: 24620000
- Antagonistic relationship between AtRALF1 and brassinosteroid regulates cell expansion-related genes. DOI: 10.4161/15592324.2014.976146 ; PMID: 25482784
- Comprehensive analysis of plant rapid alkalization factor (RALF) genes. DOI: 10.1016/j.plaphy.2016.03.037 ; PMID: 27155375
- FERONIA interacts with ABI2-type phosphatases to facilitate signaling cross-talk between abscisic acid and RALF peptide in Arabidopsis. DOI: 10.1073/pnas.1608449113 ; PMID: 27566404
- Receptor kinase complex transmits RALF peptide signal to inhibit root growth in Arabidopsis. DOI: 10.1073/pnas.1609626113 ; PMID: 27930296
- A Comprehensive Analysis of RALF Proteins in Green Plants Suggests There Are Two Distinct Functional Groups. DOI: 10.3389/fpls.2017.00037 ; PMID: 28174582
- BAK1 is involved in AtRALF1-induced inhibition of root cell expansion. DOI: 10.1371/journal.pgen.1007053 ; PMID: 29028796
- Arabidopsis thaliana rapid alkalinization factor 1-mediated root growth inhibition is dependent on calmodulin-like protein 38. DOI: 10.1074/jbc.M117.808881 ; PMID: 29282286
- The G Protein β-Subunit, AGB1, Interacts with FERONIA in RALF1-Regulated Stomatal Movement. DOI: 10.1104/pp.17.01277 ; PMID: 29301953
- Inter-relationships between the heterotrimeric Gβ subunit AGB1, the receptor-like kinase FERONIA, and RALF1 in salinity response. DOI: 10.1111/pce.13370 ; PMID: 29907954
- Probing a Plant Plasma Membrane Receptor Kinase's Three-Dimensional Structure Using Mass Spectrometry-Based Protein Footprinting. DOI: 10.1021/acs.biochem.8b00471 ; PMID: 30124284
- EBP1 nuclear accumulation negatively feeds back on FERONIA-mediated RALF1 signaling. DOI: 10.1371/journal.pbio.2006340 ; PMID: 30339663
- FERONIA phosphorylates E3 ubiquitin ligase ATL6 to modulate the stability of 14-3-3 proteins in response to the carbon/nitrogen ratio. DOI: 10.1093/jxb/erz378 ; PMID: 31433471
- The RALF1-FERONIA Complex Phosphorylates eIF4E1 to Promote Protein Synthesis and Polar Root Hair Growth. DOI: 10.1016/j.molp.2019.12.014 ; PMID: 31904511
- Receptor kinase FERONIA regulates flowering time in Arabidopsis. DOI: 10.1186/s12870-019-2223-y ; PMID: 31948398
- Autocrine regulation of root hair size by the RALF-FERONIA-RSL4 signaling pathway. DOI: 10.1111/nph.16497 ; PMID: 32083740
- Overlapping functions and protein-protein interactions of LRR-extensins in Arabidopsis. DOI: 10.1371/journal.pgen.1008847 ; PMID: 32559234
- The RALF1-FERONIA interaction modulates endocytosis to mediate control of root growth in Arabidopsis. DOI: 10.1242/dev.189902 ; PMID: 32541006
- RALF1-FERONIA complex affects splicing dynamics to modulate stress responses and growth in plants. DOI: 10.1126/sciadv.aaz1622 ; PMID: 32671204
- A temperature-sensitive FERONIA mutant allele that alters root hair growth. DOI: 10.1093/plphys/kiaa051 ; PMID: 33721904
- A novel calmodulin-interacting Domain of Unknown Function 506 protein represses root hair elongation in Arabidopsis. DOI: 10.1111/pce.14316 ; PMID: 35312071
- The RALF1-FERONIA complex interacts with and activates TOR signaling in response to low nutrients. DOI: 10.1016/j.molp.2022.05.004 ; PMID: 35585790
- RALF1 peptide triggers biphasic root growth inhibition upstream of auxin biosynthesis. DOI: 10.1073/pnas.2121058119 ; PMID: 35878023
- Identification of Feronia-interacting proteins in Arabidopsis thaliana. DOI: 10.1007/s13258-022-01292-3 ; PMID: 36053485
- CAR modulates plasma membrane nano-organization and immune signaling downstream of RALF1-FERONIA signaling pathway. DOI: 10.1111/nph.18687 ; PMID: 36527240
- Mechanism of REP27 protein action in the D1 protein turnover and photosystem II repair from photodamage. DOI: 10.1104/pp.109.140798 ; PMID: 19574473
- The Arabidopsis thylakoid protein PAM68 is required for efficient D1 biogenesis and photosystem II assembly. DOI: 10.1105/tpc.110.077453 ; PMID: 20923938
- Identification and Roles of Photosystem II Assembly, Stability, and Repair Factors in Arabidopsis. DOI: 10.3389/fpls.2016.00168 ; PMID: 26909098
- CORRECTION. DOI: 10.1105/tpc.17.00803 ; PMID: 29263084
- Probing the diversity of the Arabidopsis glutathione S-transferase gene family. DOI: 10.1023/a:1015557300450 ; PMID: 12090627
- and hypoosmolarity-responsive expression of the ProDH gene encoding proline dehydrogenase in Arabidopsis. DOI: 10.1104/pp.009993 ; PMID: 12376638
- Genomic evidence for COP1 as a repressor of light-regulated gene expression and development in Arabidopsis. DOI: 10.1105/tpc.004416 ; PMID: 12368493
- Diverse RNA viruses elicit the expression of common sets of genes in susceptible Arabidopsis thaliana plants. DOI: 10.1046/j.1365-313x.2003.01625.x ; PMID: 12535341
- 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
- Alternative splicing modulation by a LAMMER kinase impinges on developmental and transcriptome expression. DOI: 10.1105/tpc.011056 ; PMID: 12671088
- Changes in gene expression in Arabidopsis shoots during phosphate starvation and the potential for developing smart plants. DOI: 10.1104/pp.103.020941 ; PMID: 12805589
- The rapid induction of glutathione S-transferases AtGSTF2 and AtGSTF6 by avirulent Pseudomonas syringae is the result of combined salicylic acid and ethylene signaling. DOI: 10.1093/pcp/pcg093 ; PMID: 12881503
- Plant glutathione S-transferases: enzymes with multiple functions in sickness and in health. DOI: 10.1016/s1360-1385(00)01601-0 ; PMID: 10785664
- Transcriptome analysis of O3-exposed Arabidopsis reveals that multiple signal pathways act mutually antagonistically to induce gene expression. DOI: 10.1023/B:PLAN.0000019064.55734.52 ; PMID: 15010611
- Comprehensive comparison of auxin-regulated and brassinosteroid-regulated genes in Arabidopsis. DOI: 10.1104/pp.103.034736 ; PMID: 15047898
- Post-genomics approaches for the elucidation of plant adaptive mechanisms to sulphur deficiency. DOI: 10.1093/jxb/erh184 ; PMID: 15208337
- Specific changes in the Arabidopsis proteome in response to bacterial challenge: differentiating basal and R-gene mediated resistance. DOI: 10.1016/j.phytochem.2004.04.005 ; PMID: 15276439
- Reversible histone acetylation and deacetylation mediate genome-wide, promoter-dependent and locus-specific changes in gene expression during plant development. DOI: 10.1534/genetics.104.033142 ; PMID: 15371352
- The potassium-dependent transcriptome of Arabidopsis reveals a prominent role of jasmonic acid in nutrient signaling. DOI: 10.1104/pp.104.046482 ; PMID: 15347784
Sequences:
cDNA Sequence
- >AT1G02280.2
AGCTTTTCTCTGCGGAACACATCGAGAGAGCTTCTTCCAAAAACCTCAAACGCTCCTCACACAACGGAGTGATGGGGTCTCTCGTTCGTGAATGGGTTGGGTTTCAGCAATTTCCAGCAGCTACCCAGGAAAAGCTGATTGAATTCTTCGGAAAATTGAAGCAAAAGGATATGAACTCAATGACAGTTCTTGTTCTGGGTAAAGGCGGTGTCGGAAAATCATCCACTGTCAATTCTCTTATCGGCGAACAAGTCGTCCGTGTCAGTCCTTTCCAAGCTGAAGGATTGAGACCAGTGATGGTTTCAAGAACAATGGGAGGGTTCACTATCAACATTATTGACACCCCTGGACTTGTGGAAGCTGGATATGTCAATCACCAAGCTCTCGAGTTAATCAAAGGGTTTCTTGTGAACAGAACAATAGATGTCTTGCTCTATGTTGATCGTTTGGATGTGTATAGAGTCGATGAGCTAGATAAGCAAGTTGTTATAGCAATCACCCAAACCTTTGGAAAAGAGATATGGTGCAAAACCTTGCTTGTTCTGACTCATGCTCAATTTTCCCCTCCCGATGAACTTTCCTACGAAACTTTTTCCTCCAAGAGATCAGATTCTCTCCTCAAAACTATCCGGGCTGGTTCTAAGATGCGAAAACAAGAGTTTGAGGATTCTGCAATCGCGGTAGTCTATGCAGAGAACAGCGGAAGATGCAGCAAGAACGATAAGGACGAAAAGGCTCTTCCAAATGGTGAAGCGTGGATCCCGAACTTGGTTAAGGCGATAACTGATGTAGCAACAAACCAGAGGAAAGCAATTCATGTAGACAAGAAGATGGTAGATGGATCTTACTCTGATGATAAAGGAAAGAAACTCATCCCTCTTATCATAGGCGCTCAGTATTTGATCGTTAAGATGATTCAAGGAGCAATCAGAAATGATATCAAGACAAGTGGAAAGCCACTTTAAGAGGCTCTGAAGAAGAGGTTTTGTTGTGAGCAAATTACAAGGAGAAGAAGAGTTTTTCGATTGTTCTTTCTTTTGTTAGATTTTATCTGCAACATTTTCTTGTTTCCGGCTTTATCTTTGTCTGTAATTTATGGAGATTTGTTCAAAGAAAAGATTGCCATGCTTTCTGGTTAAATGAAATGGATGTTTCCCAATCATAATATCA - >AT1G02280.1
AGCTTTTCTCTGCGGAACACATCGAGAGAGCTTCTTCCAAAAACCTCAAACGCTCCTCACACAACGGAGTGATGGGGTCTCTCGTTCGTGAATGGGTTGGGTTTCAGCAATTTCCAGCAGCTACCCAGGAAAAGCTGATTGAATTCTTCGGAAAATTGAAGCAAAAGGATATGAACTCAATGACAGTTCTTGTTCTGGGTAAAGGCGGTGTCGGAAAATCATCCACTGTCAATTCTCTTATCGGCGAACAAGTCGTCCGTGTCAGTCCTTTCCAAGCTGAAGGATTGAGACCAGTGATGGTTTCAAGAACAATGGGAGGGTTCACTATCAACATTATTGACACCCCTGGACTTGTGGAAGCTGGATATGTCAATCACCAAGCTCTCGAGTTAATCAAAGGGTTTCTTGTGAACAGAACAATAGATGTCTTGCTCTATGTTGATCGTTTGGATGTGTATAGAGTCGATGAGCTAGATAAGCAAGTTGTTATAGCAATCACCCAAACCTTTGGAAAAGAGATATGGTGCAAAACCTTGCTTGTTCTGACTCATGCTCAATTTTCCCCTCCCGATGAACTTTCCTACGAAACTTTTTCCTCCAAGAGATCAGATTCTCTCCTCAAAACTATCCGGGCTGGTTCTAAGATGCGAAAACAAGAGTTTGAGGATTCTGCAATCGCGGTAGTCTATGCAGAGAACAGCGGAAGATGCAGCAAGAACGATAAGGACGAAAAGGCTCTTCCAAATGGTGAAGCGTGGATCCCGAACTTGGTTAAGGCGATAACTGATGTAGCAACAAACCAGAGGAAAGCAATTCATGTAGACAAGAAGATGGTAGATGGATCTTACTCTGATGATAAAGGAAAGAAACTCATCCCTCTTATCATAGGCGCTCAGTATTTGATCGTTAAGATGATTCAAGGAGCAATCAGAAATGATATCAAGACAAGTGGAAAGCCACTTTAAGAGGCTCTGAAGAAGAGGTTTTGTTGTGAGCAAATTACAAGGAGAAGAAGAGTTTTTCGATTGTTCTTTCTTTTGTTAGATTTTATCTGCAACATTTTCTTGTTTCCGGCTTTATCTTTGTCTGTAATTTATGGAGATTTGTTCAAAGAAAAGATTGCCATGCTTTCTGGTTAAATGAAATGGATGTTTCCCAATCATAATATCA
CDS Sequence
- >AT1G02280.2
ATGGGGTCTCTCGTTCGTGAATGGGTTGGGTTTCAGCAATTTCCAGCAGCTACCCAGGAAAAGCTGATTGAATTCTTCGGAAAATTGAAGCAAAAGGATATGAACTCAATGACAGTTCTTGTTCTGGGTAAAGGCGGTGTCGGAAAATCATCCACTGTCAATTCTCTTATCGGCGAACAAGTCGTCCGTGTCAGTCCTTTCCAAGCTGAAGGATTGAGACCAGTGATGGTTTCAAGAACAATGGGAGGGTTCACTATCAACATTATTGACACCCCTGGACTTGTGGAAGCTGGATATGTCAATCACCAAGCTCTCGAGTTAATCAAAGGGTTTCTTGTGAACAGAACAATAGATGTCTTGCTCTATGTTGATCGTTTGGATGTGTATAGAGTCGATGAGCTAGATAAGCAAGTTGTTATAGCAATCACCCAAACCTTTGGAAAAGAGATATGGTGCAAAACCTTGCTTGTTCTGACTCATGCTCAATTTTCCCCTCCCGATGAACTTTCCTACGAAACTTTTTCCTCCAAGAGATCAGATTCTCTCCTCAAAACTATCCGGGCTGGTTCTAAGATGCGAAAACAAGAGTTTGAGGATTCTGCAATCGCGGTAGTCTATGCAGAGAACAGCGGAAGATGCAGCAAGAACGATAAGGACGAAAAGGCTCTTCCAAATGGTGAAGCGTGGATCCCGAACTTGGTTAAGGCGATAACTGATGTAGCAACAAACCAGAGGAAAGCAATTCATGTAGACAAGAAGATGGTAGATGGATCTTACTCTGATGATAAAGGAAAGAAACTCATCCCTCTTATCATAGGCGCTCAGTATTTGATCGTTAAGATGATTCAAGGAGCAATCAGAAATGATATCAAGACAAGTGGAAAGCCACTTTAA - >AT1G02280.1
ATGGGGTCTCTCGTTCGTGAATGGGTTGGGTTTCAGCAATTTCCAGCAGCTACCCAGGAAAAGCTGATTGAATTCTTCGGAAAATTGAAGCAAAAGGATATGAACTCAATGACAGTTCTTGTTCTGGGTAAAGGCGGTGTCGGAAAATCATCCACTGTCAATTCTCTTATCGGCGAACAAGTCGTCCGTGTCAGTCCTTTCCAAGCTGAAGGATTGAGACCAGTGATGGTTTCAAGAACAATGGGAGGGTTCACTATCAACATTATTGACACCCCTGGACTTGTGGAAGCTGGATATGTCAATCACCAAGCTCTCGAGTTAATCAAAGGGTTTCTTGTGAACAGAACAATAGATGTCTTGCTCTATGTTGATCGTTTGGATGTGTATAGAGTCGATGAGCTAGATAAGCAAGTTGTTATAGCAATCACCCAAACCTTTGGAAAAGAGATATGGTGCAAAACCTTGCTTGTTCTGACTCATGCTCAATTTTCCCCTCCCGATGAACTTTCCTACGAAACTTTTTCCTCCAAGAGATCAGATTCTCTCCTCAAAACTATCCGGGCTGGTTCTAAGATGCGAAAACAAGAGTTTGAGGATTCTGCAATCGCGGTAGTCTATGCAGAGAACAGCGGAAGATGCAGCAAGAACGATAAGGACGAAAAGGCTCTTCCAAATGGTGAAGCGTGGATCCCGAACTTGGTTAAGGCGATAACTGATGTAGCAACAAACCAGAGGAAAGCAATTCATGTAGACAAGAAGATGGTAGATGGATCTTACTCTGATGATAAAGGAAAGAAACTCATCCCTCTTATCATAGGCGCTCAGTATTTGATCGTTAAGATGATTCAAGGAGCAATCAGAAATGATATCAAGACAAGTGGAAAGCCACTTTAA
Protein Sequence
- >AT1G02280.2
MGSLVREWVGFQQFPAATQEKLIEFFGKLKQKDMNSMTVLVLGKGGVGKSSTVNSLIGEQVVRVSPFQAEGLRPVMVSRTMGGFTINIIDTPGLVEAGYVNHQALELIKGFLVNRTIDVLLYVDRLDVYRVDELDKQVVIAITQTFGKEIWCKTLLVLTHAQFSPPDELSYETFSSKRSDSLLKTIRAGSKMRKQEFEDSAIAVVYAENSGRCSKNDKDEKALPNGEAWIPNLVKAITDVATNQRKAIHVDKKMVDGSYSDDKGKKLIPLIIGAQYLIVKMIQGAIRNDIKTSGKPL - >AT1G02280.1
MGSLVREWVGFQQFPAATQEKLIEFFGKLKQKDMNSMTVLVLGKGGVGKSSTVNSLIGEQVVRVSPFQAEGLRPVMVSRTMGGFTINIIDTPGLVEAGYVNHQALELIKGFLVNRTIDVLLYVDRLDVYRVDELDKQVVIAITQTFGKEIWCKTLLVLTHAQFSPPDELSYETFSSKRSDSLLKTIRAGSKMRKQEFEDSAIAVVYAENSGRCSKNDKDEKALPNGEAWIPNLVKAITDVATNQRKAIHVDKKMVDGSYSDDKGKKLIPLIIGAQYLIVKMIQGAIRNDIKTSGKPL