Information report for AT5G16730
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Functional Keywords
Literature and News
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Transcriptional profiling by cDNA-AFLP and microarray analysis reveals novel insights into the early response to ethylene in Arabidopsis. DOI: 10.1111/j.1365-313X.2004.02156.x ; PMID: 15272873
- Co-expression of the stress-inducible zinc finger homeodomain ZFHD1 and NAC transcription factors enhances expression of the ERD1 gene in Arabidopsis. DOI: 10.1111/j.1365-313X.2006.02932.x ; PMID: 17233795
- Putative Arabidopsis homologues of metazoan coiled-coil cytoskeletal proteins. DOI: 10.1042/CBI20100719 ; PMID: 21284606
- Purification and characterization of novel microtubule-associated proteins from Arabidopsis cell suspension cultures. DOI: 10.1104/pp.113.225607 ; PMID: 24134884
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
- AtMAC stabilizes the phragmoplast by crosslinking microtubules and actin filaments during cytokinesis. DOI: 10.1111/jipb.13497 ; PMID: 37093857
Gene Resources
- UniProt: A0A178UKQ2
- EMBL: LUHQ01000005
- AlphaFoldDB: A0A178UKQ2
- EnsemblPlants: AT5G16730.1
- Gramene: AT5G16730.1
- KEGG: ath:AT5G16730
- Orthologous matrix: GEMADNH
- ExpressionAtlas: AT5G16730
- InterPro: IPR008545
- PANTHER: PTHR23160, PTHR23160:SF20
- Gene3D: 1.10.287.1490
- SWISS-MODEL: A0A178UKQ2
Sequences
cDNA Sequence
- >AT5G16730.1
GACAAAAGAAGAGTGTGGGTCATTATCGTCATTTTACCAACCTTCACGTTCTCTTAATTTCTATTTTACCATTATTTAATGAAGCTAGATTATTAGTGGTTTCTTTGTTTTTATACATCGGATCGGTAGCAGAATAAATAAGCTTCTTTTTAACGAGTTAGTGAGGCCACTCTGGAGACAACCACACCTGCCATTATCTATATCATTCTCCGTTACTTCGATCCCACCGATTCGAATCATTCTCTCTCTCTTTCTTGATCTGAAAATTGAGTCCCAATTCCAGCAAAATTATCAATCGAATTTCTGATCAACTGAGCGCGACGGTGGTGGCGACGGTGGTGGCGACGGTGACAGCGATCGACGGTTATGGCTTCGAAGACTAAAACTAGTTTGTCCGAAACAACAACTACTACTACTCCTACCGGGAAATCATCTCCAGCAACTCCAAGAATAGCAAAAAGAACAGTTAATAAATCCGAAACTAGTAATAATAATTCTCCATCTACTACTACTCCACATTCACGTCTTTCTCTTGATCGTTCTTCTCCAAATTCCAAATCTTCTGTTGAGAGACGATCACCAAAGCTTCCAACTCCTCCTGAGAAATCTCAAGCGCGAGTAGCAGCGGTGAAAGGAACAGAATCACCGCAGACGACCACACGGTTGAGTCAGATCAAGGAAGATTTGAAGAAAGCTAATGAGCGGATATCTTCATTGGAGAAGGATAAAGCTAAAGCACTTGATGAACTCAAACAAGCTAAAAAAGAAGCTGAACAAGTGACTCTGAAGCTTGATGATGCTTTAAAAGCTCAGAAGCATGTGGAGGAGAATTCTGAGATTGAAAAATTTCAGGCTGTTGAGGCAGGGATCGAGGCAGTTCAGAACAATGAAGAAGAATTGAAGAAAGAACTTGAGACTGTTAAGAACCAACATGCTTCGGATTCTGCTGCTCTTGTTGCGGTTAGACAGGAGCTTGAGAAAATCAATGAAGAATTGGCTGCGGCTTTTGATGCTAAGAGTAAGGCCTTGAGCCAAGCGGAGGATGCTAGTAAGACGGCTGAGATTCATGCAGAGAAAGTTGACATCTTGTCTTCGGAGTTAACGAGGTTGAAAGCTTTGCTTGATTCAACCCGAGAGAAGACTGCCATATCGGATAACGAGATGGTTGCCAAGCTAGAAGACGAGATTGTGGTTTTGAAAAGAGATCTTGAGTCAGCGAGAGGTTTTGAGGCAGAGGTTAAAGAAAAAGAGATGATCGTCGAGAAGCTTAATGTTGACCTTGAAGCTGCGAAGATGGCTGAGTCTAATGCACACAGCTTGTCTAACGAGTGGCAGAGCAAAGCCAAAGAACTGGAGGAACAGCTAGAAGAAGCTAACAAGTTGGAGAGGTCTGCTTCTGTATCTTTGGAATCTGTGATGAAACAGCTTGAAGGAAGCAATGATAAATTGCATGACACGGAAACTGAAATCACTGATCTTAAGGAGAGAATTGTGACATTGGAGACGACAGTTGCTAAACAAAAGGAGGATCTTGAGGTATCAGAGCAACGGTTGGGCAGTGTAGAAGAAGAAGTATCTAAGAATGAAAAAGAAGTAGAGAAGTTGAAGAGTGAGCTTGAGACTGTGAAGGAGGAGAAGAATCGTGCTTTGAAGAAGGAGCAAGATGCTACTTCAAGGGTTCAAAGGCTCTCAGAAGAGAAAAGCAAGCTCTTATCAGATTTAGAGAGCTCAAAAGAGGAAGAGGAGAAGAGTAAGAAAGCAATGGAGAGTTTGGCTTCAGCTTTGCACGAAGTGTCGAGTGAAGGAAGGGAGTTGAAAGAGAAGTTGTTGAGTCAAGGCGATCACGAGTATGAAACACAAATAGATGACTTGAAGTTGGTGATTAAAGCCACAAACGAGAAGTACGAGAATATGCTTGACGAGGCGAGACATGAGATCGATGTTCTTGTTAGCGCGGTTGAACAAACCAAGAAACATTTCGAGAGCTCAAAGAAGGATTGGGAGATGAAAGAAGCCAATTTGGTGAATTATGTGAAGAAAATGGAAGAAGATGTTGCTTCGATGGGGAAAGAAATGAATAGGCTGGATAATCTGCTGAAGAGAACCGAGGAAGAAGCCGATGCAGCTTGGAAGAAAGAAGCACAGACGAAAGACAGTTTAAAAGAAGTGGAAGAAGAGATTGTTTATCTTCAGGAAACTCTCGGGGAAGCAAAAGCTGAAAGCATGAAGCTAAAGGAGAATCTGTTGGATAAAGAAACTGAGTTTCAGAACGTCATTCACGAAAACGAGGATCTGAAGGCGAAGGAGGATGTTTCTCTGAAGAAGATCGAGGAGTTATCGAAGTTACTCGAGGAAGCAATATTGGCCAAGAAGCAACCGGAAGAAGAGAATGGCGAGCTCAGTGAGAGCGAGAAAGACTATGATTTGCTACCAAAAGTGGTTGAGTTTTCTTCTGAGAACGGTCATAGAAGTGTAGAAGAGAAATCTGCTAAAGTCGAAACCCTTGATCACGAACCTCCACAAGAGCAGATCAGCAATGGAAACAGCAATGGCAACGGTATGGAGGAGAAAGAAGTGAATGGAAAACCCGAGGTGGAAACCGAAAAGAAGGAGAAGAAAGATGAGTCCCAAGATGATGACAAAGATGATTCGGTTGAAGTTATATTCAAAATGTGGGAAAGTTGCCAAATCGAGAAGAAAGAAGCTTTTCCGGACAAGAAATCAGAACTAGAGTCACAAGAAGAAGAAGAGGATTCAAGCAAAATCGATGAAAGCGACAAAACCTCAACAGAGAACATCGATGAAACCGGAAACGCTTTAACCGCAGAAGATCAGCTTACGATGGAGAAGAAGATCAAGAAGAAGAAGACTTTACTTGGTAAAGTTGGGAATCTTCTCAAGAAGAAAGCACCTGTAAACCAGAAATAACAAACTCTTCGAGGTAAGGCGAAAAAAAAAGTAAATCTTATCATGTAAAACGTATATCTGTATACCCCTTTTGATTTCATCAGTGTTCTTTAATCTTTATATATATATATTTGTTGGTTCTTGATTCTTTTCTTCTTTTCGATTTTAACAACAATGTCTTCCGATCTTTTGTTTATAAAGGTTTGCGTTTTTCTTTTATTCCGCTTTATA
CDS Sequence
Protein Sequence