Gene Details:
- Gene ID: AT5G39500
- Gene Symbol: ERMO1, GNL1
- Gene Name: ENDOPLASMIC RETICULUM MORPHOLOGY 1, GNOM-like 1
- Description: GNOM-like 1;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Function-related keywords:
Literature:
- Rapid identification of Arabidopsis insertion mutants by non-radioactive detection of T-DNA tagged genes. DOI: 10.1046/j.1365-313x.2002.01416.x ; PMID: 12383089
- Membrane association of the Arabidopsis ARF exchange factor GNOM involves interaction of conserved domains. DOI: 10.1105/tpc.107.056515 ; PMID: 18203920
- Functional diversification of closely related ARF-GEFs in protein secretion and recycling. DOI: 10.1038/nature05967 ; PMID: 17653190
- GNOM-LIKE 2, encoding an adenosine diphosphate-ribosylation factor-guanine nucleotide exchange factor protein homologous to GNOM and GNL1, is essential for pollen germination in Arabidopsis. DOI: 10.1111/j.1744-7909.2009.00858.x ; PMID: 19686373
- Role of the GNOM gene in Arabidopsis apical-basal patterning–From mutant phenotype to cellular mechanism of protein action. DOI: 10.1016/j.ejcb.2009.11.020 ; PMID: 20036441
- and trans-Golgi network-mediated vesicle trafficking is required for wax secretion from epidermal cells. DOI: 10.1104/pp.113.234583 ; PMID: 24468625
- An early secretory pathway mediated by GNOM-LIKE 1 and GNOM is essential for basal polarity establishment in Arabidopsis thaliana. DOI: 10.1073/pnas.1424856112 ; PMID: 25646449
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Nonselective Chemical Inhibition of Sec7 Domain-Containing ARF GTPase Exchange Factors. DOI: 10.1105/tpc.18.00145 ; PMID: 30018157
- The Inhibitor Endosidin 4 Targets SEC7 Domain-Type ARF GTPase Exchange Factors and Interferes with Subcellular Trafficking in Eukaryotes. DOI: 10.1105/tpc.18.00127 ; PMID: 30018156
- Involvement of BIG5 and BIG3 in BRI1 Trafficking Reveals Diverse Functions of BIG-subfamily ARF-GEFs in Plant Growth and Gravitropism. DOI: 10.3390/ijms20092339 ; PMID: 31083521
- Non-steroidal Anti-inflammatory Drugs Target TWISTED DWARF1-Regulated Actin Dynamics and Auxin Transport-Mediated Plant Development. DOI: 10.1016/j.celrep.2020.108463 ; PMID: 33264621
- N-terminal domain of ARF-GEF GNOM prevents heterodimerization with functionally divergent GNL1 in Arabidopsis. DOI: 10.1111/tpj.15979 ; PMID: 36106415
Sequences:
cDNA Sequence
- >AT5G39500.2
ATGGGGTATCAGAATCATCCTTCGGGAAGTAACTCGTTCCATGGAGAGTTCAAGAGATGTCACTCCAAACCGTCTAAAGGTGCGGTGGCGTCCATGATTAATTCTGAAATTGGTGCAGTTTTGGCTGTGATGAGGAGAAATGTACGGTGGGGTGTTCGATATATAGCAGATGATGATCAGTTAGAGCATTCTCTTATCCATTCTTTGAAAGAATTGCGTAAGCAGATATTTTCATGGCAAAGCAATTGGCAATATGTTGACCCTAGATTGTACATACAGCCCTTTTTGGATGTTATATTGTCTGATGAAACTGGTGCTCCGATTACTGGCGTTGCTTTGTCATCTGTTTACAAGATCTTAACCCTCGAAGTTTTTACTCTTGAAACTGTGAATGTGGGAGAGGCAATGCATATAATAGTTGATGCTGTAAAAAGCTGTCGTTTCGAGGTAACGGATCCTGCCTCAGAGGAAGTGGTTTTGATGAAGATACTTCAAGTTCTACTGGCTTGTGTAAAGAGTAAGGCGTCTAATGGATTGAGTAATCAAGACATTTGCACCATCGTCAACACTTGTTTGCGTGTTGTTCATCAATCAAGCTCCAAAAGTGAATTGTTGCAGCGTATAGCTCGCCACACAATGCATGAGTTGATTAGATGTATCTTCTCTCAACTTCCTTTTATCAGCCCCTTGGCTAATGAATGTGAATTACATGTCGACAATAAGGTGGGAACAGTGGACTGGGATCCGAATTCTGGAGAAAAAAGGGTTGAAAATGGAAATATTGCTAGCATATCTGATACTCTCGGCACTGACAAAGATGATCCAAGTTCTGAAATGGTTATTCCAGAGACAGATCTTAGAAATGATGAAAAGAAAACCGAGGTCAGCGATGACTTGAATGCTGCTGCAAATGGTGAAAATGCAATGATGGCGCCTTATGGTATACCATGCATGGTAGAGATTTTTCATTTCTTGTGTACCCTGTTGAATGTTGGAGAAAACGGTGAAGTCAATTCCAGATCCAACCCAATAGCGTTTGATGAAGATGTTCCTCTTTTCGCTCTGGGTTTAATTAATTCTGCTATAGAACTTGGAGGGCCTTCTTTCCGTGAGCACCCAAAGCTGTTGACTTTGATTCAGGATGATTTATTCTGTAACTTGATGCAGTTTGGTATGTCCATGAGCCCTCTGATTCTTTCTACAGTTTGCAGCATCGTTCTTAATCTCTACCTGAATCTCCGTACTGAGCTTAAGGTACAGCTTGAAGCTTTCTTTTCATATGTACTTCTGAGGATTGCACAGAGCAAACATGGCTCTTCTTATCAGCAACAGGAGGTTGCTATGGAGGCTCTGGTTGATCTTTGCAGACAACATACTTTCATAGCTGAAGTGTTTGCAAATTTCGATTGTGATATAACTTGCAGTAATGTGTTTGAAGATGTTTCAAACCTGCTATCAAAGAATGCCTTCCCAGTTAATGGGCCTTTATCTGCTATGCATATACTTGCATTGGATGGGTTAATTTCTATGGTTCAGGGAATGGCTGAGAGAGTGGGTGAAGAATTGCCGGCTTCAGATGTTCCTACACATGAAGAACGATATGAAGAATTCTGGACAGTGAGATGTGAGAATTACGGAGATCCTAATTTTTGGGTTCCCTTTGTCCGAAAGGTCAAGCATATAAAGAAAAAGCTGATGCTTGGGGCTGATCGTTTTAACCGTGATCCTAATAAAGGCTTACAGTATCTTCAAGGGGTGCACTTGTTGCCCGAGAAACTTGATCCAAAGAGTGTGGCATGTTTCTTCAGGTATACATGTGGGTTAGATAAGAATGTTATGGGAGATTTCCTCGGAAATCATGACCAGTTCTGTATTCAGGTGCTTCATGAGTTTGCCAAGACGTTCGACTTCCAGAACATGAATCTTGCTACAGCCCTGCGTCTTTTTGTGGGTACCTTTAAATTGTCTGGCGAGGCACAGAAGATACACAGGGTACTGGAGGCGTTTTCTGAGAGATACTATGAGCAGTCACCACACATACTGATTGATAAAGATGCTGCCTTCGTGTTAGCTTACTCGATTATCTTGCTGAACACAGATCAGCACAACGCCCAGGTGAAAACAAGGATGACTGAAGAAGATTTCATCCGTAACAACAGGACAATAAATGGAGGCGCAGACCTTCCTAGAGAGTACCTATCTGAGATTTATCACTCAATCCGCCACAGTGAGATTCAGATGGACGAAGATAAAGGAACCGGCTTCCAACTGATGACAGCCAGTCGTTGGATTAGTGTGATTTACAAATCCAAAGAAACGAGTCCCTATATCCAATGTGACGCAGCATCCCATCTGGACCGTGACATGTTTTATATCGTGTCTGGTCCCACTATTGCTGCTACATCAGTGGTTTTTGAGCAAGCAGAGCAAGAAGATGTTTTGCGGAGATGTATTGATGGGTTATTGGCCATTGCAAAACTTTCAGCATATTATCATTTGAATAGTGTTTTGGATGATCTGGTCGTGTCTCTCTGCAAATTCACACCCTTCTTCGCCCCATTATCTGCTGATGAAGCTGTTCTTGTTCTAGGAGAAGATGCCAGAGCCAGAATGGCTACTGAAGCTGTTTTCTTGATTGCAAATAAATATGGTGACTATATTAGTGCGGGCTGGAAAAACATACTGGAATGTGTCTTGAGCCTCAACAAACTCCACATTTTACCAGATCATATAGCTAGTGATGCAGCGGATGACCCAGAGCTGTCAACTAGTAACTTGGAGCAAGAAAAACCTTCGGCAAATCCCGTGCCAGTCGTATCACAGTCACAACCCTCAGCGATGCCTCGAAAATCATCTAGTTTTATTGGTCGGTTTCTTCTGTCTTTTGATTCTGAGGAAACAAAGCCATTACCAAGCGAGGAAGAATTGGCAGCTTATAAACACGCTCGTGGGATAGTGAAAGATTGTCATATTGATAGCATATTCTCAGACAGCAAGTTTCTCCAAGCTGAGTCTCTGCAGCAGCTTGTTAACTCTCTTATAAGAGCATCCGGGAAAGATGAAGCTAGTTCGGTCTTTTGCCTGGAGCTTCTGATTGCGGTAACGCTGAACAACCGAGACAGAATCCTACTGATTTGGCCAACAGTTTATGAGCATATCTTGGGTATAGTTCAATTAACATTAACACCATGCACGCTTGTTGAAAAGGCTGTTTTTGGTGTACTGAAGATTTGCCAGAGATTATTACCATACAAGGAAAACCTAACAGATGAACTTCTGAAATCACTCCAACTGGTTCTCAAGCTGAAAGCAAAAGTGGCTGATGCATACTGTGAACGCATTGCACAAGAAGTTGTTCGTCTTGTAAAAGCAAACGCATCTCACGTTAGATCCCGTACTGGTTGGCGAACGATTATATCTCTGCTATCAATCACAGCTCGGCATCCAGAAGCTTCTGAAGCTGGATTCGAAGCCCTCCGGTTTATAATGTCAGAAGGAGCTCACTTGTTACCATCAAACTACGAGCTCTGTTTGGATGCAGCCAGTCACTTTGCTGAATCCCGAGTTGGTGAAGTCGATCGGTCTATCTCAGCAATTGACTTAATGTCAAACTCTGTGTTTTGTCTTGCAAGATGGTCTCAAGAGGCGAAAAACTCGATTGGTGAAACTGATGCTATGATGAAACTAAGTGAAGATATTGGAAAAATGTGGCTCAAACTTGTGAAGAACCTCAAAAAAGTATGTCTTGATCAACGCGACGAAGTGAGAAACCATGCAATCTCAATGCTGCAACGAGCTATAGCCGGTGCAGACGGGATCATGTTACCACAACCTCTATGGTTCCAATGCTTTGATTCCGCAGTCTTCATATTGCTAGACGATGTGCTCACTTTTTCGATCGAGAATTCAAGGAAGACTCTCAAGAAAACAGTGGAAGAAACGCTTGTTCTCGCCACAAAGCTCATGTCAAAAGCTTTTCTGCAATCTCTTCAAGACATCTCACAGCAACCATCATTCTGCAGACTTTGGGTTGGTGTCTTAAACCGTTTGGAAACGTACATGTCAACTGAATTCAGAGGAAAACGCAGCGAGAAAGTCAATGAACTCATCCCGGAACTGCTCAAGAACACATTACTGGTAATGAAGGCGACGGGAGTTTTATTACCAGGTGATGATATCGGAAGTGACAGTTTCTGGCAACTAACGTGGCTTCACGTTAATAAGATCTCTCCTTCTCTTCAATCTGAAGTTTTCCCTCAAGAGGAGCTTGATCAGTTTCAGAGACGAAACGCGAAGCCTGAGGATCCTCCGGTACCGGGAAATGAGGTCTGAGACGGTTTTGGTGGAATAGAGAAAATTTGTTCTATACAGATGAAAAAGCTTAATCAAGGATATCAATTTTTTTTTTGCAGTATAGCTTTTTTGTTTTTAATATAGGGGGATTATAATACTTTGGAGTCTTGAGCT - >AT5G39500.1
ATGGGGTATCAGAATCATCCTTCGGGAAGTAACTCGTTCCATGGAGAGTTCAAGAGATGTCACTCCAAACCGTCTAAAGGTGCGGTGGCGTCCATGATTAATTCTGAAATTGGTGCAGTTTTGGCTGTGATGAGGAGAAATGTACGGTGGGGTGTTCGATATATAGCAGATGATGATCAGTTAGAGCATTCTCTTATCCATTCTTTGAAAGAATTGCGTAAGCAGATATTTTCATGGCAAAGCAATTGGCAATATGTTGACCCTAGATTGTACATACAGCCCTTTTTGGATGTTATATTGTCTGATGAAACTGGTGCTCCGATTACTGGCGTTGCTTTGTCATCTGTTTACAAGATCTTAACCCTCGAAGTTTTTACTCTTGAAACTGTGAATGTGGGAGAGGCAATGCATATAATAGTTGATGCTGTAAAAAGCTGTCGTTTCGAGGTAACGGATCCTGCCTCAGAGGAAGTGGTTTTGATGAAGATACTTCAAGTTCTACTGGCTTGTGTAAAGAGTAAGGCGTCTAATGGATTGAGTAATCAAGACATTTGCACCATCGTCAACACTTGTTTGCGTGTTGTTCATCAATCAAGCTCCAAAAGTGAATTGTTGCAGCGTATAGCTCGCCACACAATGCATGAGTTGATTAGATGTATCTTCTCTCAACTTCCTTTTATCAGCCCCTTGGCTAATGAATGTGAATTACATGTCGACAATAAGGTGGGAACAGTGGACTGGGATCCGAATTCTGGAGAAAAAAGGGTTGAAAATGGAAATATTGCTAGCATATCTGATACTCTCGGCACTGACAAAGATGATCCAAGTTCTGAAATGGTTATTCCAGAGACAGATCTTAGAAATGATGAAAAGAAAACCGAGGTCAGCGATGACTTGAATGCTGCTGCAAATGGTGAAAATGCAATGATGGCGCCTTATGGTATACCATGCATGGTAGAGATTTTTCATTTCTTGTGTACCCTGTTGAATGTTGGAGAAAACGGTGAAGTCAATTCCAGATCCAACCCAATAGCGTTTGATGAAGATGTTCCTCTTTTCGCTCTGGGTTTAATTAATTCTGCTATAGAACTTGGAGGGCCTTCTTTCCGTGAGCACCCAAAGCTGTTGACTTTGATTCAGGATGATTTATTCTGTAACTTGATGCAGTTTGGTATGTCCATGAGCCCTCTGATTCTTTCTACAGTTTGCAGCATCGTTCTTAATCTCTACCTGAATCTCCGTACTGAGCTTAAGGTACAGCTTGAAGCTTTCTTTTCATATGTACTTCTGAGGATTGCACAGAGCAAACATGGCTCTTCTTATCAGCAACAGGAGGTTGCTATGGAGGCTCTGGTTGATCTTTGCAGACAACATACTTTCATAGCTGAAGTGTTTGCAAATTTCGATTGTGATATAACTTGCAGTAATGTGTTTGAAGATGTTTCAAACCTGCTATCAAAGAATGCCTTCCCAGTTAATGGGCCTTTATCTGCTATGCATATACTTGCATTGGATGGGTTAATTTCTATGGTTCAGGGAATGGCTGAGAGAGTGGGTGAAGAATTGCCGGCTTCAGATGTTCCTACACATGAAGAACGATATGAAGAATTCTGGACAGTGAGATGTGAGAATTACGGAGATCCTAATTTTTGGGTTCCCTTTGTCCGAAAGGTCAAGCATATAAAGAAAAAGCTGATGCTTGGGGCTGATCGTTTTAACCGTGATCCTAATAAAGGCTTACAGTATCTTCAAGGGGTGCACTTGTTGCCCGAGAAACTTGATCCAAAGAGTGTGGCATGTTTCTTCAGGTATACATGTGGGTTAGATAAGAATGTTATGGGAGATTTCCTCGGAAATCATGACCAGTTCTGTATTCAGGTGCTTCATGAGTTTGCCAAGACGTTCGACTTCCAGAACATGAATCTTGCTACAGCCCTGCGTCTTTTTGTGGGTACCTTTAAATTGTCTGGCGAGGCACAGAAGATACACAGGGTACTGGAGGCGTTTTCTGAGAGATACTATGAGCAGTCACCACACATACTGATTGATAAAGATGCTGCCTTCGTGTTAGCTTACTCGATTATCTTGCTGAACACAGATCAGCACAACGCCCAGGTGAAAACAAGGATGACTGAAGAAGATTTCATCCGTAACAACAGGACAATAAATGGAGGCGCAGACCTTCCTAGAGAGTACCTATCTGAGATTTATCACTCAATCCGCCACAGTGAGATTCAGATGGACGAAGATAAAGGAACCGGCTTCCAACTGATGACAGCCAGTCGTTGGATTAGTGTGATTTACAAATCCAAAGAAACGAGTCCCTATATCCAATGTGACGCAGCATCCCATCTGGACCGTGACATGTTTTATATCGTGTCTGGTCCCACTATTGCTGCTACATCAGTGGTTTTTGAGCAAGCAGAGCAAGAAGATGTTTTGCGGAGATGTATTGATGGGTTATTGGCCATTGCAAAACTTTCAGCATATTATCATTTGAATAGTGTTTTGGATGATCTGGTCGTGTCTCTCTGCAAATTCACACCCTTCTTCGCCCCATTATCTGCTGATGAAGCTGTTCTTGTTCTAGGAGAAGATGCCAGAGCCAGAATGGCTACTGAAGCTGTTTTCTTGATTGCAAATAAATATGGTGACTATATTAGTGCGGGCTGGAAAAACATACTGGAATGTGTCTTGAGCCTCAACAAACTCCACATTTTACCAGATCATATAGCTAGTGATGCAGCGGATGACCCAGAGCTGTCAACTAGTAACTTGGAGCAAGAAAAACCTTCGGCAAATCCCGTGCCAGTCGTATCACAGTCACAACCCTCAGCGATGCCTCGAAAATCATCTAGTTTTATTGGTCGGTTTCTTCTGTCTTTTGATTCTGAGGAAACAAAGCCATTACCAAGCGAGGAAGAATTGGCAGCTTATAAACACGCTCGTGGGATAGTGAAAGATTGTCATATTGATAGCATATTCTCAGACAGCAAGTTTCTCCAAGCTGAGTCTCTGCAGCAGCTTGTTAACTCTCTTATAAGAGCATCCGGGAAAGATGAAGCTAGTTCGGTCTTTTGCCTGGAGCTTCTGATTGCGGTAACGCTGAACAACCGAGACAGAATCCTACTGATTTGGCCAACAGTTTATGAGCATATCTTGGGTATAGTTCAATTAACATTAACACCATGCACGCTTGTTGAAAAGGCTGTTTTTGGTGTACTGAAGATTTGCCAGAGATTATTACCATACAAGGAAAACCTAACAGATGAACTTCTGAAATCACTCCAACTGGTTCTCAAGCTGAAAGCAAAAGTGGCTGATGCATACTGTGAACGCATTGCACAAGAAGTTGTTCGTCTTGTAAAAGCAAACGCATCTCACGTTAGATCCCGTACTGGTTGGCGAACGATTATATCTCTGCTATCAATCACAGCTCGGCATCCAGAAGCTTCTGAAGCTGGATTCGAAGCCCTCCGGTTTATAATGTCAGAAGGAGCTCACTTGTTACCATCAAACTACGAGCTCTGTTTGGATGCAGCCAGTCACTTTGCTGAATCCCGAGTTGGTGAAGTCGATCGGTCTATCTCAGCAATTGACTTAATGTCAAACTCTGTGTTTTGTCTTGCAAGATGGTCTCAAGAGGCGAAAAACTCGATTGGTGAAACTGATGCTATGATGAAACTAAGTGAAGATATTGGAAAAATGTGGCTCAAACTTGTGAAGAACCTCAAAAAAGTATGTCTTGATCAACGCGACGAAGTGAGAAACCATGCAATCTCAATGCTGCAACGAGCTATAGCCGGTGCAGACGGGATCATGTTACCACAACCTCTATGGTTCCAATGCTTTGATTCCGCAGTCTTCATATTGCTAGACGATGTGCTCACTTTTTCGATCGAGAATTCAAGGAAGACTCTCAAGAAAACAGTGGAAGAAACGCTTGTTCTCGCCACAAAGCTCATGTCAAAAGCTTTTCTGCAATCTCTTCAAGACATCTCACAGCAACCATCATTCTGCAGACTTTGGGTTGGTGTCTTAAACCGTTTGGAAACGTACATGTCAACTGAATTCAGAGGAAAACGCAGCGAGAAAGTCAATGAACTCATCCCGGAACTGCTCAAGAACACATTACTGGTAATGAAGGCGACGGGAGTTTTATTACCAGGTGATGATATCGGAAGTGACAGTTTCTGGCAACTAACGTGGCTTCACGTTAATAAGATCTCTCCTTCTCTTCAATCTGAAGTTTTCCCTCAAGAGGAGCTTGATCAGTTTCAGAGACGAAACGCGAAGCCTGAGGATCCTCCGGTACCGGGAAATGAGGTCTGAGACGGTTTTGGTGGAATAGAGAAAATTTGTTCTATACAGATGAAAAAGCTTAATCAAGGATATCAATTTTTTTTTTGCAGTATAGCTTTTTTGTTTTTAATATAGGGGGATTATAATACTTTGGAGTCTTGAGCT
CDS Sequence
Protein Sequence