Gene Details:
- Gene ID: AT5G23980
- Gene Symbol: ATFRO4, FRO4
- Gene Name: ferric reduction oxidase 4
- Description: ferric reduction oxidase 4;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Germplasm Phenotype:
- CS3777 — defective in inducible ferric-chelate reductase activity under iron-deficient growth conditions; capable of acidifying the rhizosphere under iron-deficiency and accumulate more Zn and Mn in their shoots relative to wt plants regardless of iron status; do not translocate radiolabeled iron to the shoots when roots are presented with a tightly chelated form of Fe(III); lacks trichomes on stems and leaves, some trichomes in leaf margins; plants are small and very chlorotic when grown under high light.
Literature:
- Unexpected protein families including cell defense components feature in the N-myristoylome of a higher eukaryote. DOI: 10.1074/jbc.M307321200 ; PMID: 12912986
- Analysis of sequence, map position, and gene expression reveals conserved essential genes for iron uptake in Arabidopsis and tomato. DOI: 10.1104/pp.104.047233 ; PMID: 15531708
- Molecular and biochemical characterization of the Fe(III) chelate reductase gene family in Arabidopsis thaliana. DOI: 10.1093/pcp/pci163 ; PMID: 16006655
- Expression profiling of the Arabidopsis ferric chelate reductase (FRO) gene family reveals differential regulation by iron and copper. DOI: 10.1007/s00425-005-0165-0 ; PMID: 16362328
- Construction of a genetic linkage map of Thlaspi caerulescens and quantitative trait loci analysis of zinc accumulation. DOI: 10.1111/j.1469-8137.2005.01631.x ; PMID: 16539600
- A quantitative analysis of Arabidopsis plasma membrane using trypsin-catalyzed (18)O labeling. DOI: 10.1074/mcp.M500414-MCP200 ; PMID: 16635983
- Large expression differences in genes for iron and zinc homeostasis, stress response, and lignin biosynthesis distinguish roots of Arabidopsis thaliana and the related metal hyperaccumulator Thlaspi caerulescens. DOI: 10.1104/pp.106.082073 ; PMID: 16998091
- Quantitative trait locus mapping for seed mineral concentrations in two Arabidopsis thaliana recombinant inbred populations. DOI: 10.1111/j.1469-8137.2008.02544.x ; PMID: 18631293
- The diverse roles of FRO family metalloreductases in iron and copper homeostasis. DOI: 10.3389/fpls.2014.00100 ; PMID: 24711810
- Arabidopsis Pollen Fertility Requires the Transcription Factors CITF1 and SPL7 That Regulate Copper Delivery to Anthers and Jasmonic Acid Synthesis. DOI: 10.1105/tpc.17.00363 ; PMID: 29114014
- FIT and bHLH Ib transcription factors modulate iron and copper crosstalk in Arabidopsis. DOI: 10.1111/pce.14000 ; PMID: 33464620
- CITF1 Functions Downstream of SPL7 to Specifically Regulate Cu Uptake in Arabidopsis. DOI: 10.3390/ijms23137239 ; PMID: 35806241
- Unexpected protein families including cell defense components feature in the N-myristoylome of a higher eukaryote. DOI: 10.1074/jbc.M307321200 ; PMID: 12912986
Sequence:
cDNA Sequence
- >AT5G23980.1 CGCAATTATACATCAATACATTGTGGATAAATATATAAACGAGAAAAAATGGGAAATATGAGAAGCTTAGTGAAGACGTTAATGGTGGTTCTATTTCTTGGATGGATTTTGGTTTGGATTATGATTTCAACTAATCTTTTTAAAAGCAAATGGACCCCGAAACTCTCCAAGTATCTCAATACTACTTATTTTGGCCCTCAAGGCACGAATCTTGTGCTTCTCACGGTTCCCATGATGTTCATTGCGGTTCTAAGTTGTGTTTATTTGCATATCCAGAAGAAACCAACCCAACCTCAAAGAGAATGGAAGCTAAAAAGGATAATGGGGAGGGTGATTATGGTGATGAACCCATTGGGGATAGTGACAGCCACGGAGTTAACTTTTTCTCTATTGTTTGTTGCTCTTTTGGCTTGGTCCCTCTACAATTATCTCTACCTTAGCTATCACGTCCACCTTCATAACGACGACAACGCAAAAATATGGCAGGCAAAGTTTAGGGCTTTCGGCCTGAGAATAGGATATGTGGGCAACATCTGTTGGGCCTTTTTGTTCTTCCCGGTGACAAGAGCCTCTACGATTCTGCCACTTGTCGGGTTAACGTCAGAGTCAAGTATAAAATATCACATTTGGCTTGGACATGTCTCAAATTTTTGCTTCCTCGTTCACACAGTCGTTTTCCTTATCTACTGGGCCATGATCAATAAGTTGATGGAGACGTTTGCATGGAATCCAACATATGTGCCTAATCTGGCCGGAACAATAGCGATGGTGATTGGAATAGCGATGTGGGTGACGAGTTTACCATCCTTTAGACGAAAGAAGTTTGAGATTTTCTTCTACACTCACCATCTCTACGGTCTCTATATAGTCTTCTACGTAATCCACGTGGGAGACTCGTGGTTCTGCATGATCTTGCCAAACATCTTTCTCTTTTTTATAGACCGATACTTGAGATTCTTACAATCCACCAAGAGATCCAGACTTGTGTCTGCTAGGATCTTACCTTCAGACAACCTCGAACTCACTTTCTCCAAAACCCCAGGGCTACATTATACCCCAACAAGCATATTGTTTCTACATGTGCCAAGCATTTCGAAGATTCAATGGCATCCATTTACTATAACTTCGAGCAGCAACTTAGAGAAAGATACATTAAGTGTTGTAATCAGAAGACAGGGAAGTTGGACTCAAAAGCTTTACACACATCTCTCTTCTTCCATTGATTCTCTCGAAGTTTCTACTGAGGGTCCGTATGGCCCTAACTCTTTTGATGTCTCAAGGCATAACTCTCTAATACTAGTGAGCGGTGGAAGCGGAATTACACCCTTCATTTCGGTTATCAGAGAACTCATATCTCAGAGCCAAAACAAGAGCACAAAGCTACCAGATGTTCTTCTTGTTTGTTCTTTTAAACATTACCATGATCTTGCGTTTTTAGACCTAATCTTCCCACTGGATATGTCAGCCTCTGACATTTCTAGGCTGAATCTCCGAATTGAGGCCTATATTACAAGAGAAGACAAGAAGCCCGAGACAACTGATGACCACAGACTTCTTCAAACAAAATGGTTTAAACCGCAGCCTCTAGACTCTCCTATCTCACCTGTTCTTGGACCAAACAACTTCCTCTGGCTCGGAGTTGTGATCTTATCATCATTCGTCATGTTTCTCTTGCTCATAGGGATCGTCACACGTTACTATATATACCCTGTTGACCATAATACAGGATCCATCTACAATTTCTCATATAGAGGGCTTTGGGACATGTTTCTAGGAAGTGCGTGCATTTTCATCTCTTCCAGTGTAGTTTTCTTATGGCGCAAGAAACAGAACAAAGAAGGGGATAAGGAGTTCAAGAATCAGGTACAAAGCGTAGAGTTTCAGACACCCACTTCTTCTCCAGGTTCATGGTTCCACGGCCACGAGAGAGAGCTCGAGAGTGTTCCCTATCAATCTATAGTACAAGCCACTTCAGTCCACTTCGGCTCCAAACCTAATCTGAAAAAGATTCTACTTGAGGCTGAGGGTTCAGAAGACGTTGGGGTGATGGTTTGCGGACCAAGAAAGATGAGACATGAAGTTGCAAAGATATGTTCATCTGGTTTGGCTAAGAACCTTCACTTTGAGGCAATTAGTTTCAACTGGTGATGTATTCCATGTTCTAACTATGTGTGTTTATATTCATCGTAATAACTTTTGATGTTTTAGATGGTTTGCTGTTTGATTTTCTATTTTTAATACAATTTAAAATGGAATGTTAATGTATATGTTATCCTGCACCTTCATTATTATCAATTTCTAATCATCATTAATCCTATTGAGCCCATTATAGACTTA
CDS Sequence
Protein Sequence