Information report for AT5G07660
Gene Details
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Functional Descriptions
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
Functional Keywords
Literature and News
- Genome-wide identification of potential plant E2F target genes. DOI: 10.1104/pp.105.066290 ; PMID: 16126853
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- The STRUCTURAL MAINTENANCE OF CHROMOSOMES 5/6 complex promotes sister chromatid alignment and homologous recombination after DNA damage in Arabidopsis thaliana. DOI: 10.1105/tpc.108.060525 ; PMID: 19737979
- The SMC5/6 Complex Subunit NSE4A Is Involved in DNA Damage Repair and Seed Development. DOI: 10.1105/tpc.18.00043 ; PMID: 31036599
- Arabidopsis SMC6A and SMC6B have redundant function in seed and gametophyte development. DOI: 10.1093/jxb/erab181 ; PMID: 33909904
Gene Resources
- UniProt: A0A654FZF6
- EMBL: CACRSJ010000110
- AlphaFoldDB: A0A654FZF6
- EnsemblPlants: AT5G07660.1
- Gramene: AT5G07660.1
- KEGG: ath:AT5G07660
- Orthologous matrix: VHVEMNN
- ExpressionAtlas: AT5G07660
- InterPro: IPR003395, IPR027417, IPR036277
- PANTHER: PTHR19306, PTHR19306:SF6
- SUPFAM: SSF52540, SSF75553
- Gene3D: 1.10.287.1490, 3.40.50.300
- SWISS-MODEL: A0A654FZF6
Sequences
cDNA Sequence
- >AT5G07660.1
AAAACATCCAACTTTCTTCTGTTCTTCTGAGTACGAAACCCTAAAAAGTGACAGAGATGGATGAACATGGCGACCATCGACAGAGTAATCCTTTCAACGATCAACAAACTAGCTCGGGTAAAATCCTTAGGATTCGCCTTGAGAATTTCATGTGCCACAGTAATCTCGAGATTGAGTTTGGCGATTGGGTCAATTTCATCACTGGTCAAAACGGAAGTGGTAAGAGTGCGATATTGACTGCTCTATGTGTTGCCTTTGGATGTCGAGCCAGGGGAACTCAGCGCGCCGCTACGTTGAAAGATTTCATTAAAACTGGATGCAGCTATGCCCTTGTTTATGTCGAACTGAAAAACCAAGGAGAGGATGCTTTCAAGCCTGAAATATATGGTGATACTCTGATTATTGAACGCAGGATCTCTGATTCCACTAGTTTAACGGTTCTCAAGGATCATCAAGGAAGAAAAATATCTAGCCGAAAGGAGGAGCTACGGGAACTAGTTGAACATTATAATATTGATGTTGAGAATCCCTGTGTGATAATGAGTCAAGACAAGAGCAGGGAGTTCTTACATTCTGGTAACGACAAAGATAAATTCAAGTTCTTTTATAAAGCAACCCTTCTTCAGCAAGTCGATGATATTCTTCAAAGTATTGGTACAAAGTTGAATTCTGCAAATGCTCTTTTGGATGAGATGGAGAAGACCATAAAACCAATAGAAAAGGAGATCAATGAGTTGCTTGAAAAGATAAAGAATATGGAACATGTTGAAGAAATAACTCAACAGGTTCTGCATTTGAAAAAGAAACTAGCTTGGTCATGGGTATATGATGTGGATAGGCAGCTCAAGGAGCAGAATGAGAAGATCGTGAAATTCAAAGAACGAGTGCCAACTTGTCAAAATAAAATTGATCGGAAACTGGGTGAGGTGGAATCTTTAAGGGTAAGCTTAACCGAGAAGAAAGCTCAAGTTGCCTGCTTGATAGATGAGTCAACTGCGATGAAGAGAGAGCTAGAGTGTTTGCGGCAATCAATGAAGAAGGCTGCAAGAGAGAAGATTGCTTTAGAAGAAGAATACCATCATAAGTGCAGTAACATTCAGAAGATTAAGGATCGTGTTAGGAGGCTTGAACGACAGATTGAAGATATTAATGAAATGACTATAAGAAGCACACAGGTCGAACAATCTGAAATCGAAGGAAAACTGAACCAATTGACAGTAGAGGTTGAGAAGGCTGAATCATTGGTTTCCAGTTTGAAAGAGGAGGAGAACATGGTAATGGAAAAAGCATCAGCCGGAGGGAAGGAGAAGGAACACATAGAGGAGATGATTAGAGACCATGAAAAGAAACAAAGAAACATGAACGCGCACATCAATGATCTGAAGAAACATCAAACAAATAAGGTTACCGCATTTGGAGGGGACAAAGTCATTAATCTTTTACGAGCGATTGAGAGACATCACCGCAGATTTAAAATGCCACCAATTGGTCCGATTGGTGCTCATGTGACATTGATCAATGGTAATAGATGGGCTTCTGCAGTTGAACAAGCTCTTGGCAACCTCCTGAATGCCTTTATAGTGACCGATCATAAAGATTTAGTTGCTTTGCGAGACTGTGGAAAGGAAGCAAAATATAACAATCTAAAGATTATCATCTATGACTTTTCAAGACCAAGGTTAGATATACCAAGGCACATGATTCCTCAAACAGAACACCCAACTATTCTCTCTGTCTTGCACTCTGAGAATACTACTGTTCTTAACGTCTTGGTGGATGTGAGTTGCGTAGAGAGGCATGTGCTTGCAGAAAATTATGAGGTTGGCAAGATTATTGCCTTTGAGAGAAGGCTCTCACATCTGAAGGATGTTTTCACTATAGATGGATACCGAATGTTTTCCCGTGGGCCTGTTCAGACAACCCTTCCTCCCCGTCCTCGAAGACCTACTAGATTGTGTGCTTCTTTTGATGACCAAATCAAGGATCTTGAAATAGAGGCCTCAAGAGAACAAAGTGAGATACAGGAATGTAGGGGACAAAAGAGGGAGGCAGAAATGAATCTCGAGGGTCTTGAATCAACAATGCGCAGACTGAAGAAGCAACGCACCCAACTAGAGAAAGATTTGACAAGGAAGGAACTTGAAATGCAGGATCTGAAAAATTCAGTCGCTTCTGAAACCAAAGCATCACCTACATCAAGTGTTAATGAGCTTCATCTAGAAATCATGAAATTCCAAAAAGAGATAGAGGAGAAAGAATCCTTGCTAGAAAAACTTCAAGACTCCTTGAAGGAAGCCGAACTAAAGGCTAATGAACTTAAAGCTTCATATGAAAACTTATATGAGTCCGCCAAGGGTGAAATTGAAGCCCTTGAGAAAGCTGAGGATGAGCTAAAGGAGAAAGAAGATGAACTCCATTCTGCAGAAACGGAGAAGAACCATTATGAGGATATAATGAAGGACAAGGTCTTACCCGAGATTAAACAGGCTGAGACTATATATAAGGAGCTTGAAATGAAACGGCAGGAAAGCAACAAGAAGGCCTCCATAATTTGTCCTGAGAGTGAGATAAAAGCTTTGGGTCCTTGGGATGGGCCAACTCCTTTGCAGCTTAGTGCTCAGATTAACAAAATAAATCATAGGCTGAAGCGAGAGAATGAGAATTATTCTGAATCAATCGATGACCTCAGGATTATGCACGGGGAAAAAGAACAGAAGATTGGGAAGAAACGCAAAACTTACAAAAGCTGTCGAGAAAAACTCAAGGTCTGCAAAGATGCAGTAGACTCACGGTGGAACAAGCTCCAAAGAAATAAAGATCTTCTGAAGCGAGAATTAACTTGGCAATTCAACCATCATTTAGGAAAGAAAGGTATCAGTGGAAATATCAGAGTCTCTTATGAAGACAAAACTTTGTCCATAGAGGTAAAGATGCCTCAAGATGCAACAAACAGTGCTGTTCGAGATACTAGAGGACTTTCAGGTGGGGAACGGTCTTTCTCGACTTTATGCTTCACATTAGCTCTTCAGAATATGACTGAAGCCCCAATTCGAGCAATGGACGAGTTTGATGTGTTTATGGACGCAGTTAGCAGGAAAATCAGCTTAGACACATTGATTGATTTCGCATTGAAACAAGGTTCACAGTGGATGTTCATCACTCCTCATGATATAAGTATGGTGAAGTCACACGAGAAGATAAAGAAGCAACAAATGGCTGCTCCACGTTCTTGAGCTACAAAGAACCTCTCCTTTTGTAAATTCACCATCTTACTCTCTTTTGGCCATAACTTAATGGGGTCTTTCTAACTTTATCCTATATTTTGGAAGTTTCTCTTTTGTCAATAATCTCAACAGATAGATATAATGATTATGATCTAGTGGCTTCAGATTTTTTGATGAAAAGATTGAAAGTGACAGGTTCAATTTTTTCTTCTTCACTGTACATTTGAGACCGT
CDS Sequence
Protein Sequence