Information report for AT5G11040
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)
- 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)
- GO:0000911 — acts upstream of or within — cytokinesis by cell plate formation
- GO:0000919 — acts upstream of or within — cell plate assembly
- GO:0005802 — located in — trans-Golgi network
- GO:0003674 — enables — molecular_function
- GO:0005794 — located in — Golgi apparatus
- GO:0005886 — located in — plasma membrane
- GO:0005769 — located in — early endosome
- GO:0005802 — is active in — trans-Golgi network
Functional Keywords
Literature and News
- Tethering factors required for cytokinesis in Arabidopsis. DOI: 10.1104/pp.110.154286 ; PMID: 20713617
- A specific role for Arabidopsis TRAPPII in post-Golgi trafficking that is crucial for cytokinesis and cell polarity. DOI: 10.1111/j.1365-313X.2011.04681.x ; PMID: 21689172
- AtTRAPPC11/ROG2: A Role for TRAPPs in Maintenance of the Plant Trans-Golgi Network/Early Endosome Organization and Function. DOI: 10.1105/tpc.19.00110 ; PMID: 31175171
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- TRIPP Is a Plant-Specific Component of the Arabidopsis TRAPPII Membrane Trafficking Complex with Important Roles in Plant Development. DOI: 10.1105/tpc.20.00044 ; PMID: 32371545
Gene Resources
- UniProt: A0A654G0A2
- EMBL: CACRSJ010000110
- AlphaFoldDB: A0A654G0A2
- EnsemblPlants: AT5G11040.1
- Gramene: AT5G11040.1
- KEGG: ath:AT5G11040
- Orthologous matrix: PFANQPW
- ExpressionAtlas: AT5G11040
- InterPro: IPR013935
- PANTHER: PTHR21512, PTHR21512:SF5
Sequences
cDNA Sequence
- >AT5G11040.1
TCTAACTAAGAATAGTTTAATACCTGTACCCAAACAGACCACGTTCTCTCTCTCAACACTTTCTCGTTTTCGTCTCCTTCAGATCCGGTGCACTCACGCTCACCGAAAGATCCTCACTCTCCTTCTCTGATCTCGCCATGGAACCTGACGTCAGTATCGAGACTTTGTCGATCATTCGGATCGCCGTCCTTCCGATCGGCACTATTCCGCCGACGCTTCTCCGGGACTACCACTCGATGCTGCTCCGTCATCACACGATCGCGCTCTCAGCTATTAGCTCTTTCTACACTGAACATCAGAAATCTCCATTCACGAATCAGCCGTGGGATTCCGGCTCTCTCCGGTTCAAATTTGTGCTTGGTGGTTCTCCTCCGAGTCCTTGGGAGGATTTTCAGTCTAATCGGAAGATGCTCGCCGTGATCGGCCTTTGCCACTGTCCCTCGTCCCCTGATCTTGATTCTGTCACTGAAAAATTCAATGTCGCTTGTAAGAGTTATTCCTCGGCTCTTGTCCGGCGCTGCTTCGCTTTCTCCCCTGGCGATTCGCAACTTGAAGATGGAGACAAGAAGGGTGAAAATTTGATTTTGTTTCCTCCATCTGACAAGCAAACTCAGGAGTTTCATTTACAAACAATGATGCAAGACATTGCCGCTTCGCTGTTAATGGAATTTGAGAAGTGGGTTCTTCAGGCAGAATCTGCTGGCACAATTTTGAAGACGCCTTTGGATTCCCAAGCTAGTCTCAACTCAGAGGAGGTTATTAAGGCCAAAAAGCGTAGGCTGGGACGTGCACAAAAAACTATAGGAGACTATTCCTTGTTGGCTGGTTCACCTGTTGATGCCAATGCTCATTATTCTACTGCTCTGGAACTGGCCAGATTGACTGGAGATTACTTCTGGTATGCCGGTGCCTTGGAAGGCAGTGTTTGTGCCTTACTGGTAGATCGGATGGGTCAACGTGATGTGGCTTTAGAAGATGAAGTTAGATATCGATACACTAATGTTATCTTGCACTACAGAAAGTCATTTATTCAAGAAATTGCTCAGAGAGTTTCGCCCCTAAGCTTTGAACTCGAAGCTACCCTTAAGCTGGCCAGATTCCTTTGCAGGAGGGAACTGGCTAAGGAAGTAGTAGAGCTATTAACAAATGCAGCTGATGGTGCAAAGTCTTTAATTGATGCCAGTGATAGGCTCATATTATATGTTGAAGTAGCGCGTTTATTTGGAGCCCTTGGTTATCAACGGAAAGCAGCCTTCTTCTGTAGGCAGGTCGCCCAATTGTATTTGCAGCAAGACAATCGATTGGCTGCTATCAGTGCCATGCAAGTTCTCTCTATGACAACTGATGCATACAGAATTCAAAGTAGGGCATCCATGTCAAAAGTGTCGGTTAACAATGAAACTGGGCGCCTACCTGACGCTGGGAAAATGCATCATCATTCCATTGTCTCCCTGTTCGAGTCCCATTGGAGCACTTTGCAGATGGTTGTGCTTAGGGAGATACTCCTCTCTGCTGTTCGTGCTGGAGATCCCTTAGCTGCATGGAGTGCTGCAGCTAGGCTTCTGAGGTGGCATTATCCTCTAATTACACCTTCAGGTCAAAATGGACTTGCTAATTCCCTTGCAAATTCAGCGGATAGATTACCTTCTGGAACTCGCTGTGCTGACCCTGCCTTGCCTTTTGTAAGGCTATTCTCTTTCCCACTCCATTCCTCCCAAGTGGACATCGTAAAACGCAATCCAGCAAGAGAAGATTGGTGGACAGGCTCTGCTCCTTCTGGGCCATTTATTTACACTCCTTTCAGCAAAGGAGATGCCAACGAAAGTAGCAAGCAGGAATTGATTTGGGTGGTCGGTGAACCAGTTCAGGTCTTAGTGGAGTTAGCAAATCCTTGTTGCTTCGATTTGCGGATTGATAGTATTTATCTCTCAGCTCACTCGAGTAACTTTGATGCGTTTCCTGTCAGTGTGGACATTCCCCCTAACTCTGCAAAAGTGATCACATTATCTGGTATTCCAACAGCTGTAGGACCAGTGACAATTCCAGGCTGCACAGTTCACTGCTTTGGTGTAATCACTGAACATGTGTTCAGGGATGTTGACAATCTGCTTCTTGGAGCAGCACAAGGACTTGTATTTTCTGACCCTTTCAGATCCTGCGGATCTGCAAAGCTACGACATGTATTTGTTCCTAACATATCAGTTGCTCCTCCATTGCCCCTCCTTGTGGCTAATGTTGTGGGTGGTGATGGTGCAATTATTCTGTATGAAGGTGAAATTCGGGAGGTGTGTATAAATTTTGCAAATGCTGGCACAGTTCCAATAGTACAGGCACATGTCTCGCTCTCTGGAAAGAATCAGGATGCTGTTATCTCGATCGCAGATGAAGCTTTACAGTCTGCTCTTCCCTTGAAACCTGGGGCACAAGTGACTCTGCCTGTGACTTTAAAAGCTTGGCATGTGGGTCCAACTGATTCTGACAATACTATGAGCAGTGGCAGGAATGCTGCGGGTAACACAGGAAGACCAAAAGACGGAACCAGTCCATCATTGCTTATTCACTACGCAGGGCCATTGTCTAACAATGGGGATTCCCAAGAAAAAGAATCTATCGTGCCACCGGGCAGACGGCTTGTTGTTCCCTTACAAATTTGTGTTTTGCAAGGTTTGTCGTTTGTGAAAGCTCGTTTGCTTTCCATGGAAATCCCTGCACATGTGAGTGACAACCTTCGGGATGAAGACATTGAAAGAGAGAGCAATGCAGACAGCCTTGTCAAGATCAATCCCTTTAGGGGAAGCTGGGGACTACGGTTTCTTGAACTTGAGTTATCTAACCCAACAGATGTTGTTTTTGAAATCAGCGTCTTCGTTCAGCTGGAAAACTCTGCCAAGGAAGATGATTCTTCACCAGTACAAGATTCTCCAGAGTATGAATACCCGAAAACAAGAATCGACCGGGACTATTCTGCTAGGGTACTGATTCCATTGGAGCATTTTAAGCTACCGGTTCTTGATGGTTCATTCTTCACAAAGGACCCTCCACCTGGTAGCCCTTCAAGTAGTAGAAATCCGAGCTTCTCAGAGAAGAACACGAAAGCTGAGATAAACACATTGATCAAGAATCTCATCTCTAAGATAAAAGTTCGGTGGCAATCAGGAAGGAACAGCTCAGGAGAACTGGACATCAAGGATGCAATTCAGACAGCTCTCCAGACGACTGTGATGGATGTTTTGCTCCCAGATCCGCTAACATTTGGTTTCAGACTGGTCAGAAACGGTCTGGAGAAGGATCCTGAGACAAAGGCTGAGTCCCCATTTTCAAAGGGATCTGTTCTGTCACATGAAGTCACTCCTATGGAGGTTCTGGTCCGCAATAACACTAGCGAAGCTATCAAGTTGAATCTAAGTGTTACTTGCAGAGATGTAGCTGGACAGAACTGCACTGAAGGAGCTGATGCCACTGTCCTCTGGGCTGGTGCTCTTAGTGGAATCTCAATGGAAGTAGCGCCGCTGCAAGAAGCAAGACACTGTTTCTCACTCTTCTTCCTTGTTCCAGGAGAGTACACGATGGTAGCAGCTGCTGTAATTGAAGACGCTAACAATGTACTCAGAGCACGAGCAGGAACTGCTTCTCCAAACGAACCCATCTTCTGTCGTGGACCGCCTTTTCATGTCTGTGTAGCTGGAGGTGCACTGTGATTCGTTAACCAAATCAGGTCTTGGCATTATAATTTATACTCTGTTTTTTGCTCTGTTAGTTGATTTCTCGAGAATCAATTATAAGTTCCGGGTTTAAGTATGGGTCTTTATAAATATCTCTATAATTGCTTGTGTGTTTGTCTCTGTATTTACCTTGGGTCATCTTATGACCACCATGCATAGACTATGCTTTTTTGGAATTTTACGGCCTCGGTTCTGAGACTACTTTTCTCAAAGTAAGTGTTTGTACTCTGCTCAGTGGGATCACTTTCAGTGATAAAAAGAATAAAACGATTATAGCATAATATTAGCAAAAATAAAACTATTTAACCATG
CDS Sequence
Protein Sequence