Information report for AT5G67610
Gene Details
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Functional Descriptions
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- GO:0050793 — acts upstream of or within — regulation of developmental process
- GO:0031965 — located in — nuclear membrane
- GO:0009908 — acts upstream of or within — flower development
- GO:0005515 — enables — protein binding
- GO:0005637 — is active in — nuclear inner membrane
- GO:0005739 — located in — mitochondrion
- GO:0010468 — acts upstream of or within — regulation of gene expression
- GO:0010228 — acts upstream of or within — vegetative to reproductive phase transition of meristem
- GO:0009888 — acts upstream of or within — tissue development
- GO:2000241 — acts upstream of or within — regulation of reproductive process
Functional Keywords
Literature and News
- The Inner Nuclear Membrane Protein Nemp1 Is a New Type of RanGTP-Binding Protein in Eukaryotes. DOI: 10.1371/journal.pone.0127271 ; PMID: 25946333
- Global profiling of plant nuclear membrane proteome in Arabidopsis. DOI: 10.1038/s41477-020-0700-9 ; PMID: 32601417
- PNET2 is a component of the plant nuclear lamina and is required for proper genome organization and activity. DOI: 10.1016/j.devcel.2021.11.002 ; PMID: 34822788
Gene Resources
- UniProt: F4K567
- EMBL: CP002688
- AlphaFoldDB: F4K567
- EnsemblPlants: AT5G67610.2
- Gramene: AT5G67610.2
- KEGG: ath:AT5G67610
Sequences
cDNA Sequence
- >AT5G67610.2
CTGAAACCCACAAGGAAGAAATCGATGGGTGATTATCGTCTTCTACGAAACTCCGGCGTCGTTATCGGAATAATCTTGCTACATCTCTTTACTTTCGCCTCTCTTGTTTCATCCGATGAACTTCAGTTTGGTGTTGTGGTTAATTTCTTGTGGCCTTATGGGACAGTTGTGGGAGAAAGCGGAGAGCTTCAAGTGACTCCTAGTTTAGAGGTAAAAGGTTCTCCTGGATTGAAGCCAGATAGAACCTCTCTTTGTGAGAGGATTCATATCCATGGACTTGGAAGGTTTAAACATCTAGACAAGTATGCACATTCGCTCAAGTTGATAGTTAACGCGTCAATCTCTGGGAAAACAAATAACATTGACGTTTGCTTTCACCGGAATTTGTCGCGTGGAATTGGAATGTGCCCTCATAGTCGATGGGAGAAAGCCTCTAAAGGTTCATGGGTTCAGACAATGTCACCCTTCGACCATAAAATCCTTGATGTTAGAGTACCTAGCTCTAACAAGGTCTCATTGGAAGTGTCTGCTGTAGAAGAATTATTTATGCATCGCATAGTATTCTTACTCCTTGGTGCTGTATTACTGGCTTCGGCTTCTACACTGAGCCAATCTTTAGCGTTTTACTACAGTAGTGCAATGGCTGTTGGTATTATCCTTGTCGTGCTGCTTGTTCTCTTTCAGGGAATGAAGCTTCTACCTACTGGACGGAGTTCGTTTGCATTGTTCATATACTCAACCCTGCTTGGTTTGGGTGGTTTTCTTCTTCGCTACTTACCCGGATTGTTTGAAAGTCTGCTAACAGAGATGGGAATCGACGAAGAAATGTACACACCTGCGGCGATTTTTGTGGGGGCGTTTCTGTCTTTGGGTGGAGCATTTTTTGGATTTTGGACTGTGAGGAAACTTATTCTGACGGAAGATGGCTCCATTGATGTTAGCACATCACTATTTGTTTCTTGGTCCATCCGAATTATGGCTGCTGTTTTGATCCTTCAGAGCTCTGTAGATCCTTTACTTGCTGGAGGAGCCCTGATATCTGTAATTCTTATGTCATCGACTTTAAAGAAGATCACCAGATTGAAGTTCCTTCTACGCTTATTCGAGATTCCATTGAATTTACTGCTAGGAATCTGGGAGGCAATTCGTGATACTGATATACCATCCGTCCCGGGATATCTCCATGACTTTATGCAAAAGAGTCCTGATGCTTCTGGATTTCGCAACCGTGTAACTTCTGCTTCTCCATCAGGAGGAATCAACAACGGGATGCGAGAATCTCCACCGTCTGAATCAGATACATTTCCTTCCTCTTTCCATAAAACTCCTGAAAGGAGCCAACTAACAAAAGAAGAATGGAAAAAGCTCACTAAGGATAGCACGACAAAGGCTGTTCAAGAATTGGTTTCTTCACCCGATTTTGGCAAATGGGCAGCAGTTAATGCGGATAGGATCAATGTAACACCAAGAAAAGGATCTTCTAGCAAAAACCAGCCACGGAAATGGATGCGTTGGTTCTGATTTCTGAACCAAGCCGGTTTAAGTTTCATAACGTTTAGAGAGAAAAGGAACTCTTTTGTAGAAAGAGAGAGAGCCTTTGTAGGTAAAGTTGCTTTCTTCTTTTATGACTTGTTCAGTGTTTTAGCTTTTTTTTTTGTGGATGAGACCACGATTTGTTGTAACGATCCTAATTGGGTTTTTAGGTTGCGTCATGTTTGTGTGTAGACAATGCAATGAGCATTCTTTTTCCTTTTATGATCTTGAATGGGTTCAACTTTTCATGGTGATGTGAATCTTTTAGTATGGATATTAAT - >AT5G67610.1
CTGAAACCCACAAGGAAGAAATCGATGGGTGATTATCGTCTTCTACGAAACTCCGGCGTCGTTATCGGAATAATCTTGCTACATCTCTTTACTTTCGCCTCTCTTGTTTCATCCGATGAACTTCAGTTTGGTGTTGTGGTTAATTTCTTGTGGCCTTATGGGACAGTTGTGGGAGAAAGCGGAGAGCTTCAAGTGACTCCTAGTTTAGAGGTAAAAGGTTCTCCTGGATTGAAGCCAGATAGAACCTCTCTTTGTGAGAGGATTCATATCCATGGACTTGGAAGGTTTAAACATCTAGACAAGTATGCACATTCGCTCAAGTTGATAGTTAACGCGTCAATCTCTGGGAAAACAAATAACATTGACGTTTGCTTTCACCGGAATTTGTCGCGTGGAATTGGAATGTGCCCTCATAGTCGATGGGAGAAAGCCTCTAAAGGTTCATGGGTTCAGACAATGTCACCCTTCGACCATAAAATCCTTGATGTTAGAGTACCTAGCTCTAACAAGGTCTCATTGGAAGTGTCTGCTGTAGAAGAATTATTTATGCATCGCATAGTATTCTTACTCCTTGGTGCTGTATTACTGGCTTCGGCTTCTACACTGAGCCAATCTTTAGCGTTTTACTACAGTAGTGCAATGGCTGTTGGTATTATCCTTGTCGTGCTGCTTGTTCTCTTTCAGGGAATGAAGCTTCTACCTACTGGACGGAGTTCGTTTGCATTGTTCATATACTCAACCCTGCTTGGTTTGGGTGGTTTTCTTCTTCGCTACTTACCCGGATTGTTTGAAAGTCTGCTAACAGAGATGGGAATCGACGAAGAAATGTACACACCTGCGGCGATTTTTGTGGGGGCGTTTCTGTCTTTGGGTGGAGCATTTTTTGGATTTTGGACTGTGAGGAAACTTATTCTGACGGAAGATGGCTCCATTGATGTTAGCACATCACTATTTGTTTCTTGGTCCATCCGAATTATGGCTGCTGTTTTGATCCTTCAGAGCTCTGTAGATCCTTTACTTGCTGGAGGAGCCCTGATATCTGTAATTCTTATGTCATCGACTTTAAAGAAGATCACCAGATTGAAGTTCCTTCTACGCTTATTCGAGATTCCATTGAATTTACTGCTAGGAATCTGGGAGGCAATTCGTGATACTGATATACCATCCGTCCCGGGATATCTCCATGACTTTATGCAAAAGAGTCCTGATGCTTCTGGATTTCGCAACCGTGTAACTTCTGCTTCTCCATCAGGAGGAATCAACAACGGGATGCGAGAATCTCCACCGTCTGAATCAGATACATTTCCTTCCTCTTTCCATAAAACTCCTGAAAGGAGCCAACTAACAAAAGAAGAATGGAAAAAGCTCACTAAGGATAGCACGACAAAGGCTGTTCAAGAATTGGTTTCTTCACCCGATTTTGGCAAATGGGCAGCAGTTAATGCGGATAGGATCAATGTAACACCAAGAAAAGGATCTTCTAGCAAAAACCAGCCACGGAAATGGATGCGTTGGTTCTGATTTCTGAACCAAGCCGGTTTAAGTTTCATAACGTTTAGAGAGAAAAGGAACTCTTTTGTAGAAAGAGAGAGAGCCTTTGTAGGTAAAGTTGCTTTCTTCTTTTATGACTTGTTCAGTGTTTTAGCTTTTTTTTTTGTGGATGAGACCACGATTTGTTGTAACGATCCTAATTGGGTTTTTAGGTTGCGTCATGTTTGTGTGTAGACAATGCAATGAGCATTCTTTTTCCTTTTATGATCTTGAATGGGTTCAACTTTTCATGGTGATGTGAATCTTTTAGTATGGATATTAAT
CDS Sequence
Protein Sequence