Information report for AT5G12370
Gene Details
|
|
Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0005886 — located in — plasma membrane
- GO:0006887 — involved in — exocytosis
- GO:0060321 — acts upstream of or within — acceptance of pollen
- GO:0005515 — enables — protein binding
- GO:0009506 — located in — plasmodesma
- GO:0005737 — located in — cytoplasm
- GO:0070062 — located in — extracellular exosome
- GO:0006893 — involved in — Golgi to plasma membrane transport
- GO:0000145 — located in — exocyst
- GO:0009536 — located in — plastid
- GO:0005829 — located in — cytosol
- GO:0000145 — part of — exocyst
Functional Keywords
Literature and News
- 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 exocyst complex contributes to PIN auxin efflux carrier recycling and polar auxin transport in Arabidopsis. DOI: 10.1111/tpj.12074 ; PMID: 23163883
- Exo70E2 is essential for exocyst subunit recruitment and EXPO formation in both plants and animals. DOI: 10.1091/mbc.E13-10-0586 ; PMID: 24307681
- RNA Silencing of Exocyst Genes in the Stigma Impairs the Acceptance of Compatible Pollen in Arabidopsis. DOI: 10.1104/pp.15.00635 ; PMID: 26443677
- Tethering Complexes in the Arabidopsis Endomembrane System. DOI: 10.3389/fcell.2016.00046 ; PMID: 27243010
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome. DOI: 10.1074/mcp.M700099-MCP200 ; PMID: 17644812
- An exocyst complex functions in plant cell growth in Arabidopsis and tobacco. DOI: 10.1105/tpc.108.059105 ; PMID: 18492870
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome. DOI: 10.1074/mcp.M700099-MCP200 ; PMID: 17644812
- An exocyst complex functions in plant cell growth in Arabidopsis and tobacco. DOI: 10.1105/tpc.108.059105 ; PMID: 18492870
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome. DOI: 10.1074/mcp.M700099-MCP200 ; PMID: 17644812
- An exocyst complex functions in plant cell growth in Arabidopsis and tobacco. DOI: 10.1105/tpc.108.059105 ; PMID: 18492870
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
Gene Resources
- UniProt: A0A5S9Y3J9
- EMBL: CACSHJ010000096
- ExpressionAtlas: AT5G12370
- InterPro: IPR009976, IPR048625, IPR048627
- PANTHER: PTHR12100, PTHR12100:SF0
- Gene3D: 1.20.58.1970
- OrthoDB: A0A5S9Y3J9
Sequences
cDNA Sequence
- >AT5G12370.2
TGAAGACCGTCTCTCTTTTCTCCGTCTTTTTCTCCCTGCAGTTACCGGATTCCTCCGGCTAGATCTCTCCGTTCATCGCCGCGATTACCGGTGATGACTTAACTTAGAAGATTTACGCTAGTGTAGTATCATTGAAGAATCCAGAATCATACGCATCTCTTTCTGCTATTTATTGAATGTTTCATATATGATCTGTCAGACTTGATTCTTCAATTCTTTGAATTTTCCATTTTATCAGATGACAGAAGGAATCAGAGCAAGAGGACCCAGATCATCCTCTGTTAACTCTGTTCCTCTGATTCTTGACATTGAAGACTTTAAGGGTGATTTTTCATTTGATGCATTATTTGGGAACCTGGTAAACGACCTCTTGCCGTCTTTCCTAGACGAAGAAGCAGATTCTGGGGATGGCCATGGCAACATTGCTGGAGTTGATGGTTTGACAAATGGGCATTTACGTGGACAGTCTGCTCCTTTGTCCTCTGCTCCTTTTTTTCCTGAAGTAGATGGTCTTTTGTCTCTGTTCAAAGATGCTTGCAAGGAGTTAGTTGATCTTCGGAAGCAGGTTGATGGAAGGCTCAATACACTAAAGAAGGAAGTTTCAACCCAAGATTCTAAACACCGGAAGACACTGACTGAGATAGAGAAGGGTGTGGACGGTCTGTTTGAGAGCTTTGCAAGGTTGGACGGTCGTATTTCAAGTGTTGGACAGACCGCTGCAAAAATAGGAGATCATTTGCAGAGTGCAGATGCTCAGCGGGAAACTGCTAGCCAGACGATAGATCTTATAAAGTACCTAATGGAGTTCAACGGCAGCCCAGGGGATCTTATGGAGCTTTCCGCTTTGTTTTCTGATGATAGCCGCGTAGCTGAGGCTGCTTCTATCGCTCAGAAATTACGATCCTTTGCTGAGGAAGACATTGGAAGGCAAGGTGCGAGTGCAGCTGCAGGAAATGCTACCCCTGGCCGAGGACTGGAAGTTGCAGTTGCTAATCTTCAGGATTACTGTAATGAATTGGAGAACAGGCTTTTATCTCGTTTTGATGCTGCATCACAGCGGAGAGATTTATCAACCATGTCAGAATGCGCTAAGATTTTGTCACAGTTTAACAGGGGTACAAGTGCTATGCAACATTATGTGGCTACACGTCCAATGTTTATTGATGTGGAAGTCATGAATTCAGACATTAGGTTGGTTCTTGGTGACCATGGTTCTCAGCCTAGTCCTAGCAATGTTGCCCGTGGACTTTCTGCTTTATTCAAGGAAATTACAGACACCGTACGCAAAGAAGCAGCGACCATTACAGCTGTTTTCCCGACTCCAAATGAAGTTATGGCGATCTTAGTTCAGAGAGTTCTGGAGCAGCGTGTCACAGGTATTCTAGACAAAATTTTGGCGAAGCCCTCTCTTATGAGTCCACCACCTGTGCAAGAAGGCGGACTGTTACTATACCTTAGAATGTTAGCAGTTGCATATGAGAGAACACAAGAACTTGCTAAAGACCTCCGAGCTGTTGGATGTGGTGACCTGGATGTTGAAGATTTGACAGAGTCCTTGTTTTCCTCGCACAAGGATGAATACCCTGAGCATGAGCGGGCCTCCTTAAAACAACTATATCAAGCAAAGATGGAAGAATTGCGTGCTGAGAGTCAGCAAGTCTCAGAGTCATCTGGGACAATAGGACGCTCTAAGGGTGCTTCAATATCATCATCTCTGCAGCAGATATCAGTCACCGTTGTCACAGATTTTGTTCGATGGAATGAAGAAGCAATAACCAGATGCACATTGTTTTCATCTCAGCCAGCCACACTTGCAGCCAATGTTAAAGCTATATTTACTTGCCTGCTAGACCAGGTGAGCGTATACATAACTGAGGGACTTGAACGGGCAAGGGATAGCCTGTCTGAAGCTGCAGCATTGAGGGAGAGATTTGTTTTGGGCAGAAGAGTAGCTGCTGCAGCTGCTTCTGCTGCAGAAGCTGCTGCTGCTGCTGGTGAAAGTAGCTTTAAATCCTTCATGGTTGCTGTGCAACGTTGCGGTAGCAGTGTTGCTATAGTTCAGCAGTATTTTGCAAATTCTATATCTCGGCTTCTCCTACCAGTGGATGGTGCACATGCTGCTTCATGTGAAGAAATGTCAACTGCTCTGTCCAAAGCAGAGGCAGCTGCTTATAAAGGACTTCAGCAGTGCATTGAAACTGTGATGGCTGAGGTTGATAGGCTACTTTCATCTGAGCAGAAGTCTACTGATTATAGATCAACTGATGATGGAATTGCTTCTGACCACCGTCCAACAAATGCCTGCATAAGGGTCGTGGCTTATCTTTCCCGGGTACTTGAGTCTGCTTTCACTGCCTTGGAAGGTCTTAATAAGCAAGCCTTCCTGACTGAACTGGGAAATAGGTTAGAAAAACTGCTACTAACACACTGGCAGAAGTTCACTTTCAATCCCAGTGGAGGACTGCGGCTGAAGCGTGACTTAAACGAGTATGTAGGATTTGTTAAAAGCTTCGGTGCTCCATCTGTGGATGAGAAATTTGAGCTTCTGGGAATAATAGCGAATGTTTTCATAGTTGCTCCAGATAGTCTGCCAACATTGTTCGAGGGAAGTCCAAGCATTCGCAAAGACGCACAAAGGTTTATTCAACTGAGGGAGGACTATAAGAGTGCGAAGCTGGCAACAAAACTCAGCTCCTTGTGGCCAAGCTTGAGCTGATCTCTCAATGTTTAAAGAACACACTTGAACCAGTCAGTCAGTGCCACCACCAGATATATATTATTTTATGTATATACCATGAAATCTTGCCTCCTCTCTTCATTCTGAATCGTTATGGGTCTTAATTTGTGTTTTCTTTTTCGCTTGAGACAGTGACCAATATATTTGAGATATCGTTTTGGTCCAAAAAATTAAAATATTTGAGATGTCGTTATGAGTCTCAAGACAGATGTTTTACTTTCTGCATAAAAATTGGAAAG - >AT5G12370.3
TGAAGACCGTCTCTCTTTTCTCCGTCTTTTTCTCCCTGCAGTTACCGGATTCCTCCGGCTAGATCTCTCCGTTCATCGCCGCGATTACCGGTGATGACTTAACTTAGAAGATTTACGCTAGTGTAGTATCATTGAAGAATCCAGAATCATACGCATCTCTTTCTGCTATTTATTGAATGTTTCATATATGATCTGTCAGACTTGATTCTTCAATTCTTTGAATTTTCCATTTTATCAGATGACAGAAGGAATCAGAGCAAGAGGACCCAGATCATCCTCTGTTAACTCTGTTCCTCTGATTCTTGACATTGAAGACTTTAAGGGTGATTTTTCATTTGATGCATTATTTGGGAACCTGGTAAACGACCTCTTGCCGTCTTTCCTAGACGAAGAAGCAGATTCTGGGGATGGCCATGGCAACATTGCTGGAGTTGATGGTTTGACAAATGGGCATTTACGTGGACAGTCTGCTCCTTTGTCCTCTGCTCCTTTTTTTCCTGAAGTAGATGGTCTTTTGTCTCTGTTCAAAGATGCTTGCAAGGAGTTAGTTGATCTTCGGAAGCAGGTTGATGGAAGGCTCAATACACTAAAGAAGGAAGTTTCAACCCAAGATTCTAAACACCGGAAGACACTGACTGAGATAGAGAAGGGTGTGGACGGTCTGTTTGAGAGCTTTGCAAGGTTGGACGGTCGTATTTCAAGTGTTGGACAGACCGCTGCAAAAATAGGAGATCATTTGCAGAGTGCAGATGCTCAGCGGGAAACTGCTAGCCAGACGATAGATCTTATAAAGTACCTAATGGAGTTCAACGGCAGCCCAGGGGATCTTATGGAGCTTTCCGCTTTGTTTTCTGATGATAGCCGCGTAGCTGAGGCTGCTTCTATCGCTCAGAAATTACGATCCTTTGCTGAGGAAGACATTGGAAGGCAAGGTGCGAGTGCAGCTGCAGGAAATGCTACCCCTGGCCGAGGACTGGAAGTTGCAGTTGCTAATCTTCAGGATTACTGTAATGAATTGGAGAACAGGCTTTTATCTCGTTTTGATGCTGCATCACAGCGGAGAGATTTATCAACCATGTCAGAATGCGCTAAGATTTTGTCACAGTTTAACAGGGGTACAAGTGCTATGCAACATTATGTGGCTACACGTCCAATGTTTATTGATGTGGAAGTCATGAATTCAGACATTAGGTTGGTTCTTGGTGACCATGGTTCTCAGCCTAGTCCTAGCAATGTTGCCCGTGGACTTTCTGCTTTATTCAAGGAAATTACAGACACCGTACGCAAAGAAGCAGCGACCATTACAGCTGTTTTCCCGACTCCAAATGAAGTTATGGCGATCTTAGTTCAGAGAGTTCTGGAGCAGCGTGTCACAGGTATTCTAGACAAAATTTTGGCGAAGCCCTCTCTTATGAGTCCACCACCTGTGCAAGAAGGCGGACTGTTACTATACCTTAGAATGTTAGCAGTTGCATATGAGAGAACACAAGAACTTGCTAAAGACCTCCGAGCTGTTGGATGTGGTGACCTGGATGTTGAAGATTTGACAGAGTCCTTGTTTTCCTCGCACAAGGATGAATACCCTGAGCATGAGCGGGCCTCCTTAAAACAACTATATCAAGCAAAGATGGAAGAATTGCGTGCTGAGAGTCAGCAAGTCTCAGAGTCATCTGGGACAATAGGACGCTCTAAGGGTGCTTCAATATCATCATCTCTGCAGCAGATATCAGTCACCGTTGTCACAGATTTTGTTCGATGGAATGAAGAAGCAATAACCAGATGCACATTGTTTTCATCTCAGCCAGCCACACTTGCAGCCAATGTTAAAGCTATATTTACTTGCCTGCTAGACCAGGTGAGCGTATACATAACTGAGGGACTTGAACGGGCAAGGGATAGCCTGTCTGAAGCTGCAGCATTGAGGGAGAGATTTGTTTTGGGCAGAAGAGTAGCTGCTGCAGCTGCTTCTGCTGCAGAAGCTGCTGCTGCTGCTGGTGAAAGTAGCTTTAAATCCTTCATGGTTGCTGTGCAACGTTGCGGTAGCAGTGTTGCTATAGTTCAGCAGTATTTTGCAAATTCTATATCTCGGCTTCTCCTACCAGTGGATGGTGCACATGCTGCTTCATGTGAAGAAATGTCAACTGCTCTGTCCAAAGCAGAGGCAGCTGCTTATAAAGGACTTCAGCAGTGCATTGAAACTGTGATGGCTGAGGTTGATAGGCTACTTTCATCTGAGCAGAAGTCTACTGATTATAGATCAACTGATGATGGAATTGCTTCTGACCACCGTCCAACAAATGCCTGCATAAGGGTCGTGGCTTATCTTTCCCGGGTACTTGAGTCTGCTTTCACTGCCTTGGAAGGTCTTAATAAGCAAGCCTTCCTGACTGAACTGGGAAATAGGTTAGAAAAACTGCTACTAACACACTGGCAGAAGTTCACTTTCAATCCCAGTGGAGGACTGCGGCTGAAGCGTGACTTAAACGAGTATGTAGGATTTGTTAAAAGCTTCGGTGCTCCATCTGTGGATGAGAAATTTGAGCTTCTGGGAATAATAGCGAATGTTTTCATAGTTGCTCCAGATAGTCTGCCAACATTGTTCGAGGGAAGTCCAAGCATTCGCAAAGACGCACAAAGGTTTATTCAACTGAGGGAGGACTATAAGAGTGCGAAGCTGGCAACAAAACTCAGCTCCTTGTGGCCAAGCTTGAGCTGATCTCTCAATGTTTAAAGAACACACTTGAACCAGTCAGTCAGTGCCACCACCAGATATATATTATTTTATGTATATACCATGAAATCTTGCCTCCTCTCTTCATTCTGAATCGTTATGGGTCTTAATTTGTGTTTTCTTTTTCGCTTGAGACAGTGACCAATATATTTGAGATATCGTTTTGGTCCAAAAAATTAAAATATTTGAGATGTCGTTATGAGTCTCAAGACAGATGTTTTACTTTCTGCATAAAAATTGGAAAG - >AT5G12370.1
TGAAGACCGTCTCTCTTTTCTCCGTCTTTTTCTCCCTGCAGTTACCGGATTCCTCCGGCTAGATCTCTCCGTTCATCGCCGCGATTACCGGTGATGACTTAACTTAGAAGATTTACGCTAGTGTAGTATCATTGAAGAATCCAGAATCATACGCATCTCTTTCTGCTATTTATTGAATGTTTCATATATGATCTGTCAGACTTGATTCTTCAATTCTTTGAATTTTCCATTTTATCAGATGACAGAAGGAATCAGAGCAAGAGGACCCAGATCATCCTCTGTTAACTCTGTTCCTCTGATTCTTGACATTGAAGACTTTAAGGGTGATTTTTCATTTGATGCATTATTTGGGAACCTGGTAAACGACCTCTTGCCGTCTTTCCTAGACGAAGAAGCAGATTCTGGGGATGGCCATGGCAACATTGCTGGAGTTGATGGTTTGACAAATGGGCATTTACGTGGACAGTCTGCTCCTTTGTCCTCTGCTCCTTTTTTTCCTGAAGTAGATGGTCTTTTGTCTCTGTTCAAAGATGCTTGCAAGGAGTTAGTTGATCTTCGGAAGCAGGTTGATGGAAGGCTCAATACACTAAAGAAGGAAGTTTCAACCCAAGATTCTAAACACCGGAAGACACTGACTGAGATAGAGAAGGGTGTGGACGGTCTGTTTGAGAGCTTTGCAAGGTTGGACGGTCGTATTTCAAGTGTTGGACAGACCGCTGCAAAAATAGGAGATCATTTGCAGAGTGCAGATGCTCAGCGGGAAACTGCTAGCCAGACGATAGATCTTATAAAGTACCTAATGGAGTTCAACGGCAGCCCAGGGGATCTTATGGAGCTTTCCGCTTTGTTTTCTGATGATAGCCGCGTAGCTGAGGCTGCTTCTATCGCTCAGAAATTACGATCCTTTGCTGAGGAAGACATTGGAAGGCAAGGTGCGAGTGCAGCTGCAGGAAATGCTACCCCTGGCCGAGGACTGGAAGTTGCAGTTGCTAATCTTCAGGATTACTGTAATGAATTGGAGAACAGGCTTTTATCTCGTTTTGATGCTGCATCACAGCGGAGAGATTTATCAACCATGTCAGAATGCGCTAAGATTTTGTCACAGTTTAACAGGGGTACAAGTGCTATGCAACATTATGTGGCTACACGTCCAATGTTTATTGATGTGGAAGTCATGAATTCAGACATTAGGTTGGTTCTTGGTGACCATGGTTCTCAGCCTAGTCCTAGCAATGTTGCCCGTGGACTTTCTGCTTTATTCAAGGAAATTACAGACACCGTACGCAAAGAAGCAGCGACCATTACAGCTGTTTTCCCGACTCCAAATGAAGTTATGGCGATCTTAGTTCAGAGAGTTCTGGAGCAGCGTGTCACAGGTATTCTAGACAAAATTTTGGCGAAGCCCTCTCTTATGAGTCCACCACCTGTGCAAGAAGGCGGACTGTTACTATACCTTAGAATGTTAGCAGTTGCATATGAGAGAACACAAGAACTTGCTAAAGACCTCCGAGCTGTTGGATGTGGTGACCTGGATGTTGAAGATTTGACAGAGTCCTTGTTTTCCTCGCACAAGGATGAATACCCTGAGCATGAGCGGGCCTCCTTAAAACAACTATATCAAGCAAAGATGGAAGAATTGCGTGCTGAGAGTCAGCAAGTCTCAGAGTCATCTGGGACAATAGGACGCTCTAAGGGTGCTTCAATATCATCATCTCTGCAGCAGATATCAGTCACCGTTGTCACAGATTTTGTTCGATGGAATGAAGAAGCAATAACCAGATGCACATTGTTTTCATCTCAGCCAGCCACACTTGCAGCCAATGTTAAAGCTATATTTACTTGCCTGCTAGACCAGGTGAGCGTATACATAACTGAGGGACTTGAACGGGCAAGGGATAGCCTGTCTGAAGCTGCAGCATTGAGGGAGAGATTTGTTTTGGGCAGAAGAGTAGCTGCTGCAGCTGCTTCTGCTGCAGAAGCTGCTGCTGCTGCTGGTGAAAGTAGCTTTAAATCCTTCATGGTTGCTGTGCAACGTTGCGGTAGCAGTGTTGCTATAGTTCAGCAGTATTTTGCAAATTCTATATCTCGGCTTCTCCTACCAGTGGATGGTGCACATGCTGCTTCATGTGAAGAAATGTCAACTGCTCTGTCCAAAGCAGAGGCAGCTGCTTATAAAGGACTTCAGCAGTGCATTGAAACTGTGATGGCTGAGGTTGATAGGCTACTTTCATCTGAGCAGAAGTCTACTGATTATAGATCAACTGATGATGGAATTGCTTCTGACCACCGTCCAACAAATGCCTGCATAAGGGTCGTGGCTTATCTTTCCCGGGTACTTGAGTCTGCTTTCACTGCCTTGGAAGGTCTTAATAAGCAAGCCTTCCTGACTGAACTGGGAAATAGGTTAGAAAAACTGCTACTAACACACTGGCAGAAGTTCACTTTCAATCCCAGTGGAGGACTGCGGCTGAAGCGTGACTTAAACGAGTATGTAGGATTTGTTAAAAGCTTCGGTGCTCCATCTGTGGATGAGAAATTTGAGCTTCTGGGAATAATAGCGAATGTTTTCATAGTTGCTCCAGATAGTCTGCCAACATTGTTCGAGGGAAGTCCAAGCATTCGCAAAGACGCACAAAGGTTTATTCAACTGAGGGAGGACTATAAGAGTGCGAAGCTGGCAACAAAACTCAGCTCCTTGTGGCCAAGCTTGAGCTGATCTCTCAATGTTTAAAGAACACACTTGAACCAGTCAGTCAGTGCCACCACCAGATATATATTATTTTATGTATATACCATGAAATCTTGCCTCCTCTCTTCATTCTGAATCGTTATGGGTCTTAATTTGTGTTTTCTTTTTCGCTTGAGACAGTGACCAATATATTTGAGATATCGTTTTGGTCCAAAAAATTAAAATATTTGAGATGTCGTTATGAGTCTCAAGACAGATGTTTTACTTTCTGCATAAAAATTGGAAAG
CDS Sequence
Protein Sequence