Gene Details:
- Gene ID: AT1G02090
- Gene Symbol: ATCSN7, COP15, CSN7, FUS5
- Gene Name: ARABIDOPSIS THALIANA COP9 SIGNALOSOME SUBUNIT 7, CONSTITUTIVE PHOTOMORPHOGENIC 15, COP9 SIGNALOSOME SUBUNIT 7, FUSCA 5
- Description: Proteasome component (PCI) domain protein;(source:Araport11)
- TAIR Accession: locus:2205593
- 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:0009640 — acts upstream of or within — photomorphogenesis
- GO:0005515 — enables — protein binding
- GO:0008180 — part of — COP9 signalosome
- GO:0005737 — located in — cytoplasm
- GO:0000338 — acts upstream of or within — protein deneddylation
- GO:0008180 — located in — COP9 signalosome
Germplasm Phenotype:
- CS3833 — accumulation of high levels of anthocyanins (purple coloration) in cotyledons, during both seed and seedling stages of development; seedlings grow slower than the wild type; lethal after the seedling stage; dark-grown seedlings resemble light-grown wild type seedlings having short hypocotyl, and open and expanded cotyledons; dark-grown seedlings express high levels of light-inducible genes and have altered plastid development in cotyledons
- CS5223 — Dark-grown mutants exhibit short hypocotyls and open, expanded cotyledons similar to light-grown mutant and wild-type seedlings, and accumulate high levels of anthocyanin. In addition, mutants develop chloroplasts in the dark, express high levels of light-inducible genes, although grown in darkness, and die after the seedling stage in light and darkness.
- CS5223 — In the homozygous progeny, anthocyanin accumulation (purple coloration) in the cotelydons of developing embryos.
- CS5223 — In the homozygous progeny, dark purple seeds.
- CS5223 — In the homozygous progeny, the mutation leads to CSN1, CSN3, CSN4, CSN6, and CSN8 instability, accompanied by a mild reduction of CSN5.
- CS5223 — Mutation is lethal in the homozygous state.
- CS5223 — accumulation of anthocyanins (purple coloration) in developing embryos, dark purple seeds; lethal.
- fus5-2 — Dark-grown mutants exhibit short hypocotyls and open, expanded cotyledons similar to light-grown mutant and wild-type seedlings, and accumulate high levels of anthocyanin. In addition, mutants develop chloroplasts in the dark, express high levels of light-inducible genes, although grown in darkness, and die after the seedling stage in light and darkness.
- fus5-2 — In the homozygous progeny, anthocyanin accumulation (purple coloration) in the cotelydons of developing embryos.
- fus5-2 — In the homozygous progeny, dark purple seeds.
- fus5-2 — Mutation is lethal in the homozygous state.
- fus5-3 — Dark-grown mutants exhibit short hypocotyls and open, expanded cotyledons similar to light-grown mutant and wild-type seedlings, and accumulate high levels of anthocyanin. In addition, mutants develop chloroplasts in the dark, express high levels of light-inducible genes, although grown in darkness, and die after the seedling stage in light and darkness.
- fus5-3 — In the homozygous progeny, anthocyanin accumulation (purple coloration) in the cotelydons of developing embryos.
- fus5-3 — In the homozygous progeny, dark purple seeds.
- fus5-3 — Mutation is lethal in the homozygous state.
- fus5-4 — Dark-grown mutants exhibit short hypocotyls and open, expanded cotyledons similar to light-grown mutant and wild-type seedlings, and accumulate high levels of anthocyanin. In addition, mutants develop chloroplasts in the dark, express high levels of light-inducible genes, although grown in darkness, and die after the seedling stage in light and darkness.
- fus5-4 — In the homozygous progeny, anthocyanin accumulation (purple coloration) in the cotelydons of developing embryos.
- fus5-4 — In the homozygous progeny, dark purple seeds.
- fus5-4 — Mutation is lethal in the homozygous state.
Function-related keywords:
- cauline leaf , inflorescence meristem , seed , carpel , petal , stem , pollen , guard cell
Literature:
- Comparative analysis of SET domain proteins in maize and Arabidopsis reveals multiple duplications preceding the divergence of monocots and dicots. DOI: 10.1104/pp.102.013722 ; PMID: 12805620
- Plant epigenetics: MEDEA's children take centre stage. DOI: 10.1016/s0960-9822(03)00569-4 ; PMID: 12932340
- Arabidopsis MSI1 is a component of the MEA/FIE Polycomb group complex and required for seed development. DOI: 10.1093/emboj/cdg444 ; PMID: 12970192
- Imprinting of the MEA Polycomb gene is controlled by antagonism between MET1 methyltransferase and DME glycosylase. DOI: 10.1016/s1534-5807(03)00361-7 ; PMID: 14667411
- Genetic interaction of an origin recognition complex subunit and the Polycomb group gene MEDEA during seed development. DOI: 10.1105/tpc.019059 ; PMID: 15020747
- Identification of new members of Fertilisation Independent Seed Polycomb Group pathway involved in the control of seed development in Arabidopsis thaliana. DOI: 10.1242/dev.01168 ; PMID: 15151989
- An invariant aspartic acid in the DNA glycosylase domain of DEMETER is necessary for transcriptional activation of the imprinted MEDEA gene. DOI: 10.1073/pnas.0402328101 ; PMID: 15128940
- Detection of protein-protein interactions in plants using bimolecular fluorescence complementation. DOI: 10.1111/j.1365-313X.2004.02206.x ; PMID: 15469499
- The Arabidopsis thaliana MEDEA Polycomb group protein controls expression of PHERES1 by parental imprinting. DOI: 10.1038/ng1495 ; PMID: 15619622
- Genomic imprinting in plants: the epigenetic version of an Oedipus complex. DOI: 10.1016/j.pbi.2004.11.011 ; PMID: 15653395
- [Genomic imprinting and seed development]. DOI: 0253-9772(2005)04-0665-06 ; PMID: 16120596
- DEMETER DNA glycosylase establishes MEDEA polycomb gene self-imprinting by allele-specific demethylation. DOI: 10.1016/j.cell.2005.12.034 ; PMID: 16469697
- MEDEA takes control of its own imprinting. DOI: 10.1016/j.cell.2006.01.020 ; PMID: 16469694
- Polycomb group complexes self-regulate imprinting of the Polycomb group gene MEDEA in Arabidopsis. DOI: 10.1016/j.cub.2006.01.020 ; PMID: 16527743
Sequences:
cDNA Sequence
- >AT1G02090.1
GTTTGGGCTCACCAGACGCGGTTTCTAATATTTCTCTTAGTAGGCCTTGGCCCAGAAACTACGAAATTTGAGCCCAATTATTAAACAAGATTCTAGAAGAATTCGGTCGGTCACATAAAAAAAACAGTAATATAAAAACGGAAGAAGGAAGGAGCAGAGAGAAGAAGTTTGGGATTTTATTCGTTATTAGTGTGGTAAGAAAGAAAACCCTAAACCACCGGAAATCGATTTGTTTGGAAGATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAGAGGAGCAAGAGAGAGCAAATGGTCAGTGCGGATTGACATTCCATTTACCGAGAGTAGATTATGATTATTTGGTTGCGGATTTTCAACTTGTATAAGATCCTCTGTTCTCTCTCACAATAACCCCTTGTTATGTTTGATTTCCCTCATTAGCAAATTTGGTGTCTCTCTGCCCATTAAAAGAAAAATGGCTTTGAATTTAGTA - >AT1G02090.3
GTTTGGGCTCACCAGACGCGGTTTCTAATATTTCTCTTAGTAGGCCTTGGCCCAGAAACTACGAAATTTGAGCCCAATTATTAAACAAGATTCTAGAAGAATTCGGTCGGTCACATAAAAAAAACAGTAATATAAAAACGGAAGAAGGAAGGAGCAGAGAGAAGAAGTTTGGGATTTTATTCGTTATTAGTGTGGTAAGAAAGAAAACCCTAAACCACCGGAAATCGATTTGTTTGGAAGATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAGAGGAGCAAGAGAGAGCAAATGGTCAGTGCGGATTGACATTCCATTTACCGAGAGTAGATTATGATTATTTGGTTGCGGATTTTCAACTTGTATAAGATCCTCTGTTCTCTCTCACAATAACCCCTTGTTATGTTTGATTTCCCTCATTAGCAAATTTGGTGTCTCTCTGCCCATTAAAAGAAAAATGGCTTTGAATTTAGTA - >AT1G02090.2
GTTTGGGCTCACCAGACGCGGTTTCTAATATTTCTCTTAGTAGGCCTTGGCCCAGAAACTACGAAATTTGAGCCCAATTATTAAACAAGATTCTAGAAGAATTCGGTCGGTCACATAAAAAAAACAGTAATATAAAAACGGAAGAAGGAAGGAGCAGAGAGAAGAAGTTTGGGATTTTATTCGTTATTAGTGTGGTAAGAAAGAAAACCCTAAACCACCGGAAATCGATTTGTTTGGAAGATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAGAGGAGCAAGAGAGAGCAAATGGTCAGTGCGGATTGACATTCCATTTACCGAGAGTAGATTATGATTATTTGGTTGCGGATTTTCAACTTGTATAAGATCCTCTGTTCTCTCTCACAATAACCCCTTGTTATGTTTGATTTCCCTCATTAGCAAATTTGGTGTCTCTCTGCCCATTAAAAGAAAAATGGCTTTGAATTTAGTA
CDS Sequence
- >AT1G02090.1
ATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAG - >AT1G02090.3
ATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAG - >AT1G02090.2
ATGGATATCGAGCAGAAGCAAGCCGAGATCATTGATCAGCTCGTGAAGCGAGCTTCTACTTGCAAATCCGAGGCTCTGGGCCCGCTCATCATCGAAGCCACATCGCATCCTTCTCTCTTCGCCTTCTCCGAGATTTTGGCTCTACCCAATGTTGCCCAGCTTGAAGGAACCACAGATTCTGTGTACCTGGATCTACTACGCTTGTTTGCCCATGGCACCTGGGGAGACTACAAATGCAATGCCACCCGTCTTCCGCACTTGTCCCCTGACCAAATTCTTAAGCTTAAGCAGCTCACTGTCCTCACCCTTGCTGAGTCTAACAAGGTATTGCCCTATGATACACTAATGGTCGAGTTAGATGTTTCCAATGTTCGCGAACTCGAGGACTTTCTTATCAATGAATGCATGTATGCGGGTATAGTTAGGGGAAAACTGGATCAGTTAAAAAGATGTTTTGAGGTTCCGTTTGCAGCTGGTAGGGATCTAAGGCCAGGTCAACTAGGGAATATGTTACACACATTGTCCAACTGGTTGAACACGTCAGAGAATCTGCTCATTTCAATTCAAGACAAGATCAAATGGGCGGACAATATGAGTGAGATGGACAAAAAACATCGTAAGGAAGCAGAAGAAGGGGTGGAAGAAGTGAAGAAGTCTCTGTCCATGAAGGGGGATGTTGACATCAGAGGGAATAAGGAGATGTTTGGGGAACCAAGTGGAGTGATGGACTACGAAGAAGATGGGATCCGACCAAAGAGGAGGAGGCATCCTGTAACAAGGTAG
Protein Sequence
- >AT1G02090.1
MDIEQKQAEIIDQLVKRASTCKSEALGPLIIEATSHPSLFAFSEILALPNVAQLEGTTDSVYLDLLRLFAHGTWGDYKCNATRLPHLSPDQILKLKQLTVLTLAESNKVLPYDTLMVELDVSNVRELEDFLINECMYAGIVRGKLDQLKRCFEVPFAAGRDLRPGQLGNMLHTLSNWLNTSENLLISIQDKIKWADNMSEMDKKHRKEAEEGVEEVKKSLSMKGDVDIRGNKEMFGEPSGVMDYEEDGIRPKRRRHPVTR - >AT1G02090.3
MDIEQKQAEIIDQLVKRASTCKSEALGPLIIEATSHPSLFAFSEILALPNVAQLEGTTDSVYLDLLRLFAHGTWGDYKCNATRLPHLSPDQILKLKQLTVLTLAESNKVLPYDTLMVELDVSNVRELEDFLINECMYAGIVRGKLDQLKRCFEVPFAAGRDLRPGQLGNMLHTLSNWLNTSENLLISIQDKIKWADNMSEMDKKHRKEAEEGVEEVKKSLSMKGDVDIRGNKEMFGEPSGVMDYEEDGIRPKRRRHPVTR - >AT1G02090.2
MDIEQKQAEIIDQLVKRASTCKSEALGPLIIEATSHPSLFAFSEILALPNVAQLEGTTDSVYLDLLRLFAHGTWGDYKCNATRLPHLSPDQILKLKQLTVLTLAESNKVLPYDTLMVELDVSNVRELEDFLINECMYAGIVRGKLDQLKRCFEVPFAAGRDLRPGQLGNMLHTLSNWLNTSENLLISIQDKIKWADNMSEMDKKHRKEAEEGVEEVKKSLSMKGDVDIRGNKEMFGEPSGVMDYEEDGIRPKRRRHPVTR