Information report for AT5G13690
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)
- GO:0051781 — involved in — positive regulation of cell division
- GO:0009793 — involved in — embryo development ending in seed dormancy
- GO:0009507 — located in — chloroplast
- GO:0000325 — located in — plant-type vacuole
- GO:0004561 — enables — alpha-N-acetylglucosaminidase activity
- CS73186 — embryo-defective (preglobular stage); embryos arrest at the 1 cell-embryo stage; siliques of cyl1/+ plants contain one-quarter of defective seeds
Functional Keywords
Literature and News
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
Gene Resources
- UniProt: A0A1P8B9A7
- EMBL: CP002688
- AlphaFoldDB: A0A1P8B9A7
- EnsemblPlants: AT5G13690.2
- Gramene: AT5G13690.2
- Orthologous matrix: YGQPFVW
- ExpressionAtlas: AT5G13690
- InterPro: IPR007781, IPR017853, IPR024240
- PANTHER: PTHR12872, PTHR12872:SF1
- SUPFAM: SSF51445
- Gene3D: 1.20.120.670, 3.20.20.80, 3.30.379.10
- SWISS-MODEL: A0A1P8B9A7
Sequences
cDNA Sequence
- >AT5G13690.1
AGTTTTCTATGCCTTTCCTTGCTGATTCTCTCACTAGTGAGGAAAAGCATCATCATGCATTCCATCAAATTGGTTTTGTTGGTTTTGTTGATAATTTCTTTTCACTCTCAAACTGTGTCAAAACATCATCCAACTATTGATGGTCTGCTTGACCGTTTGGATTCTTTATTACCAACTTCTTCTGTACAAGAATCAGCAGCAAAGGGTTTATTGCAGAGACTGCTTCCCACCCATTCTCAGAGCTTTGAGCTCAGAATTATCTCAAAGGATGCTTGTGGTGGTACCAGCTGCTTTGTAATTGAAAACTATGATGGCCCGGGACGAATTGGACCTGAAATTCTGATTAAAGGCACAACTGGAGTTGAGATTGCTTCTGGGCTCCATTGGTATTTGAAGTATAAATGTAATGCTCATGTTTCTTGGGACAAAACTGGTGGAATTCAGGTTGCCTCTGTTCCACAACCTGGACATCTACCTCGTATAGATTCTAAACGCATCTTTATCCGGCGTCCTGTCCCTTGGAACTATTACCAAAATGTTGTTACATCTAGCTATTCATATGTTTGGTGGGGATGGGAGAGATGGGAGAGAGAGATTGACTGGATGGCATTGCAAGGAATTAACCTGCCTCTAGCATTCACTGGACAAGAAGCTATTTGGCAAAAGGTTTTCAAGAGGTTCAATATCAGCAAAGAAGATCTGGATGATTATTTTGGTGGACCAGCGTTTCTTGCTTGGGCTCGCATGGGAAATCTTCACGCTTGGGGTGGTCCATTATCGAAAAACTGGTTAGATGACCAGTTGCTTTTGCAGAAACAGATACTTTCTCGGATGTTGAAGTTTGGCATGACTCCAGTACTCCCATCATTCTCAGGCAATGTTCCATCAGCTTTGAGAAAGATATATCCTGAGGCAAATATAACTCGACTTGATAACTGGAACACGGTGGATGGTGATTCTCGCTGGTGCTGCACTTACCTTCTGAATCCCTCTGACCCTCTCTTCATTGAAATTGGAGAGGCTTTTATTAAACAACAAACTGAAGAATATGGAGAGATTACAAACATATATAACTGTGATACATTCAATGAGAATACTCCTCCCACAAGTGAACCTGAATATATATCTTCACTAGGAGCTGCAGTGTACAAAGCTATGTCAAAAGGAAACAAGAATGCTGTATGGTTAATGCAAGGTTGGCTTTTTAGTTCAGACTCCAAATTCTGGAAGCCGCCTCAGTTGAAAGCACTCTTACATTCAGTTCCCTTTGGCAAAATGATAGTTCTTGACCTATATGCTGAAGTCAAACCGATATGGAACAAGTCCGCCCAATTTTATGGAACTCCTTATATCTGGTGCATGCTTCACAATTTTGGAGGCAACATTGAAATGTATGGTGCTCTTGATTCAATTTCTTCAGGACCAGTTGATGCTCGTGTTAGCAAAAATTCAACCATGGTCGGTGTAGGAATGTGCATGGAAGGAATAGAGCAGAACCCGGTGGTTTACGAACTAACTTCTGAAATGGCATTTCGAGATGAGAAAGTTGATGTACAGAAATGGTTGAAGAGCTATGCACGCAGAAGATACATGAAAGAAAATCATCAAATCGAGGCCGCTTGGGAGATTCTGTATCACACTGTCTACAATTGCACTGATGGAATCGCAGACCATAACACAGATTTCATAGTCAAGCTTCCGGACTGGGATCCATCTAGTTCTGTACAAGACGACTTGAAACAAAAAGATTCATATATGATCTCCACTGGCCCATATGAAACAAAAAGAAGAGTCTTGTTTCAAGATAAGACCGCTGATTTGCCTAAGGCCCATTTATGGTATTCTACAAAGGAGGTGATCCAAGCTCTCAAACTTTTCCTGGAAGCTGGGGATGATCTGTCAAGGAGCTTAACATATAGGTATGACATGGTTGATTTGACGCGTCAAGTTTTATCGAAGCTAGCAAACCAGGTGTACACCGAAGCAGTGACAGCTTTTGTAAAGAAAGATATCGGAAGCTTAGGACAATTGAGTGAGAAGTTTCTGGAGCTTATAAAGGACATGGACGTTCTACTTGCTTCGGATGATAATTGCCTTCTGGGGACATGGCTGGAGAGTGCAAAGAAGTTGGCCAAAAACGGTGATGAAAGGAAACAGTACGAGTGGAACGCGAGAACGCAAGTGACAATGTGGTATGACTCGAACGATGTGAACCAAAGCAAGCTTCATGATTACGCAAACAAGTTCTGGAGTGGGTTACTTGAAGACTACTACTTACCCCGAGCGAGGTTGTATTTTAATGAAATGCTGAAAAGTTTAAGAGATAAGAAGATATTCAAGGTAGAGAAATGGCGAAGAGAATGGATAATGATGTCACACAAATGGCAACAAAGTTCATCAGAGGTCTATCCAGTTAAGGCAAAAGGAGACGCGTTAGCTATTTCAAGGCATCTGTTGAGTAAATACTTCCCATGAGTTTACTCAAGAGTAGCTCAAACGAATAAATAAAATAAACAAAAGGGTTGGGTTTCTACTTTCTAGCTTGTGCCTGAGATAAATTTAACATTTGTGTAAATTTGAGAGTTATTAGGCTTCTGATGTGTTAGTGTAAGAGACTCGGTGAAGGCCAATAAAGGTTGTAACAACAAACTCTGCTTCATCTCTTCCAACAAAGATTTACTTGTGTC - >AT5G13690.2
AGTTTTCTATGCCTTTCCTTGCTGATTCTCTCACTAGTGAGGAAAAGCATCATCATGCATTCCATCAAATTGGTTTTGTTGGTTTTGTTGATAATTTCTTTTCACTCTCAAACTGTGTCAAAACATCATCCAACTATTGATGGTCTGCTTGACCGTTTGGATTCTTTATTACCAACTTCTTCTGTACAAGAATCAGCAGCAAAGGGTTTATTGCAGAGACTGCTTCCCACCCATTCTCAGAGCTTTGAGCTCAGAATTATCTCAAAGGATGCTTGTGGTGGTACCAGCTGCTTTGTAATTGAAAACTATGATGGCCCGGGACGAATTGGACCTGAAATTCTGATTAAAGGCACAACTGGAGTTGAGATTGCTTCTGGGCTCCATTGGTATTTGAAGTATAAATGTAATGCTCATGTTTCTTGGGACAAAACTGGTGGAATTCAGGTTGCCTCTGTTCCACAACCTGGACATCTACCTCGTATAGATTCTAAACGCATCTTTATCCGGCGTCCTGTCCCTTGGAACTATTACCAAAATGTTGTTACATCTAGCTATTCATATGTTTGGTGGGGATGGGAGAGATGGGAGAGAGAGATTGACTGGATGGCATTGCAAGGAATTAACCTGCCTCTAGCATTCACTGGACAAGAAGCTATTTGGCAAAAGGTTTTCAAGAGGTTCAATATCAGCAAAGAAGATCTGGATGATTATTTTGGTGGACCAGCGTTTCTTGCTTGGGCTCGCATGGGAAATCTTCACGCTTGGGGTGGTCCATTATCGAAAAACTGGTTAGATGACCAGTTGCTTTTGCAGAAACAGATACTTTCTCGGATGTTGAAGTTTGGCATGACTCCAGTACTCCCATCATTCTCAGGCAATGTTCCATCAGCTTTGAGAAAGATATATCCTGAGGCAAATATAACTCGACTTGATAACTGGAACACGGTGGATGGTGATTCTCGCTGGTGCTGCACTTACCTTCTGAATCCCTCTGACCCTCTCTTCATTGAAATTGGAGAGGCTTTTATTAAACAACAAACTGAAGAATATGGAGAGATTACAAACATATATAACTGTGATACATTCAATGAGAATACTCCTCCCACAAGTGAACCTGAATATATATCTTCACTAGGAGCTGCAGTGTACAAAGCTATGTCAAAAGGAAACAAGAATGCTGTATGGTTAATGCAAGGTTGGCTTTTTAGTTCAGACTCCAAATTCTGGAAGCCGCCTCAGTTGAAAGCACTCTTACATTCAGTTCCCTTTGGCAAAATGATAGTTCTTGACCTATATGCTGAAGTCAAACCGATATGGAACAAGTCCGCCCAATTTTATGGAACTCCTTATATCTGGTGCATGCTTCACAATTTTGGAGGCAACATTGAAATGTATGGTGCTCTTGATTCAATTTCTTCAGGACCAGTTGATGCTCGTGTTAGCAAAAATTCAACCATGGTCGGTGTAGGAATGTGCATGGAAGGAATAGAGCAGAACCCGGTGGTTTACGAACTAACTTCTGAAATGGCATTTCGAGATGAGAAAGTTGATGTACAGAAATGGTTGAAGAGCTATGCACGCAGAAGATACATGAAAGAAAATCATCAAATCGAGGCCGCTTGGGAGATTCTGTATCACACTGTCTACAATTGCACTGATGGAATCGCAGACCATAACACAGATTTCATAGTCAAGCTTCCGGACTGGGATCCATCTAGTTCTGTACAAGACGACTTGAAACAAAAAGATTCATATATGATCTCCACTGGCCCATATGAAACAAAAAGAAGAGTCTTGTTTCAAGATAAGACCGCTGATTTGCCTAAGGCCCATTTATGGTATTCTACAAAGGAGGTGATCCAAGCTCTCAAACTTTTCCTGGAAGCTGGGGATGATCTGTCAAGGAGCTTAACATATAGGTATGACATGGTTGATTTGACGCGTCAAGTTTTATCGAAGCTAGCAAACCAGGTGTACACCGAAGCAGTGACAGCTTTTGTAAAGAAAGATATCGGAAGCTTAGGACAATTGAGTGAGAAGTTTCTGGAGCTTATAAAGGACATGGACGTTCTACTTGCTTCGGATGATAATTGCCTTCTGGGGACATGGCTGGAGAGTGCAAAGAAGTTGGCCAAAAACGGTGATGAAAGGAAACAGTACGAGTGGAACGCGAGAACGCAAGTGACAATGTGGTATGACTCGAACGATGTGAACCAAAGCAAGCTTCATGATTACGCAAACAAGTTCTGGAGTGGGTTACTTGAAGACTACTACTTACCCCGAGCGAGGTTGTATTTTAATGAAATGCTGAAAAGTTTAAGAGATAAGAAGATATTCAAGGTAGAGAAATGGCGAAGAGAATGGATAATGATGTCACACAAATGGCAACAAAGTTCATCAGAGGTCTATCCAGTTAAGGCAAAAGGAGACGCGTTAGCTATTTCAAGGCATCTGTTGAGTAAATACTTCCCATGAGTTTACTCAAGAGTAGCTCAAACGAATAAATAAAATAAACAAAAGGGTTGGGTTTCTACTTTCTAGCTTGTGCCTGAGATAAATTTAACATTTGTGTAAATTTGAGAGTTATTAGGCTTCTGATGTGTTAGTGTAAGAGACTCGGTGAAGGCCAATAAAGGTTGTAACAACAAACTCTGCTTCATCTCTTCCAACAAAGATTTACTTGTGTC
CDS Sequence
Protein Sequence