Gene Details:
- Gene ID: AT5G14950
- Gene Symbol: ATGMII, GMII
- Gene Name: golgi alpha-mannosidase II
- Description: golgi alpha-mannosidase II;(source:Araport11)
- TAIR Accession: locus:2147855
- 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: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)
Gene Ontology:
- GO:0042538 — involved in — hyperosmotic salinity response
- GO:0006487 — acts upstream of or within — protein N-linked glycosylation
- GO:0006491 — involved in — N-glycan processing
- GO:0005802 — located in — trans-Golgi network
- GO:0030246 — enables — carbohydrate binding
- GO:0006013 — involved in — mannose metabolic process
- GO:0006517 — involved in — protein deglycosylation
- GO:0000139 — is active in — Golgi membrane
- GO:0005768 — located in — endosome
- GO:0005794 — located in — Golgi apparatus
- GO:0000137 — located in — Golgi cis cisterna
- GO:0005515 — enables — protein binding
- GO:0004572 — enables — mannosyl-oligosaccharide 1,3-1,6-alpha-mannosidase activity
- GO:0004559 — enables — alpha-mannosidase activity
Function-related keywords:
Literature:
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Reduced immunogenicity of Arabidopsis hgl1 mutant N-glycans caused by altered accessibility of xylose and core fucose epitopes. DOI: 10.1074/jbc.M110.196097 ; PMID: 21478158
- Time-resolved fluorescence imaging reveals differential interactions of N-glycan processing enzymes across the Golgi stack in planta. DOI: 10.1104/pp.112.210757 ; PMID: 23400704
- Multiple Quality Control Mechanisms in the ER and TGN Determine Subcellular Dynamics and Salt-Stress Tolerance Function of KORRIGAN1. DOI: 10.1105/tpc.19.00714 ; PMID: 31852774
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
Sequences:
cDNA Sequence
- >AT5G14950.1
CCGACCCCAAAAAAAGTTACTCACCAACTTGGGCCTTAAAAAAAAGTAGCGTATGTCGAAAAGACCATAACACCCACTGGCATTTACTTTCCCTTAAAAAAACAAAAAACCAAACAGGATTCGGAAGAAAAGTCCATCGAATCTAAAAGACCATCATCCGCTTACATAAATCTCAGAGCAGAACACAAGTAAGAAAGAAAAAAGAAGACAACTCGAAACGACGTAGGTTTAATTCGTTAGATAGAAAAGAAAAAGGAAATTCCGAGGAGGAGAATATGCCGTTCTCCTCGTATATCGGCAACAGCCGCCGTAGCTCCACCGGCGGAGGAACCGGCGGTTGGGGCCAATCTCTTCTTCCAACAGCGTTATCAAAGTCAAAACTAGCGATCAATCGAAAACCACGAAAACGAACTCTCGTAGTCAATTTCATCTTCGCCAACTTCTTCGTCATCGCACTCACCGTCTCACTCCTCTTCTTCCTCCTCACTCTCTTCCACTTCGGCGTACCAGGACCGATCTCCTCACGATTCCTTACCTCCAGATCCAATCGGATCGTCAAGCCACGGAAGAATATTAATCGCCGACCCTTAAACGATTCCAATTCAGGCGCCGTCGTTGATATCACAACTAAAGATCTATACGATAGGATTGAGTTTCTTGATACAGATGGTGGTCCATGGAAACAAGGTTGGAGAGTTACGTATAAAGACGATGAGTGGGAGAAAGAGAAGCTCAAAATCTTCGTTGTTCCTCATTCTCATAACGATCCTGGTTGGAAATTGACTGTAGAGGAGTATTATCAGAGACAATCCAGACATATTCTTGACACCATTGTTGAGACTTTATCTAAGGATTCAAGAAGAAAGTTTATATGGGAGGAGATGTCATATCTGGAGAGATGGTGGAGAGACGCTTCACCTAATAAACAAGAAGCTTTGACTAAATTGGTTAAGGATGGGCAGCTAGAGATTGTTGGAGGTGGCTGGGTTATGAATGATGAGGCTAATTCACATTATTTTGCCATAATTGAACAGATAGCAGAGGGTAATATGTGGCTGAATGACACAATTGGGGTTATTCCTAAGAATTCTTGGGCTATAGATCCCTTTGGCTATTCATCAACCATGGCTTATCTTCTCCGGCGTATGGGTTTTGAAAACATGCTTATTCAAAGGACTCATTACGAGCTCAAGAAAGACCTTGCCCAGCATAAGAATCTTGAATATATTTGGCGTCAGAGCTGGGATGCTATGGAAACCACAGATATCTTTGTTCATATGATGCCGTTTTATTCATACGATATCCCACACACTTGTGGACCAGAGCCTGCAATTTGCTGTCAGTTTGATTTCGCTCGGATGCGGGGATTTAAGTATGAACTTTGTCCATGGGGAAAGCACCCAGTGGAGACCACACTAGAAAATGTGCAGGAGAGGGCATTAAAGCTTCTGGATCAATACAGGAAAAAATCCACTCTATATCGAACTAATACACTTCTTATACCTCTTGGAGATGATTTTAGGTACATTAGTATCGATGAAGCCGAGGCTCAGTTCCGTAACTACCAGATGTTGTTTGATCACATCAACTCTAATCCTAGTCTAAACGCAGAAGCAAAGTTTGGTACTTTGGAGGATTATTTCAGAACAGTCCGAGAAGAAGCAGACAGAGTGAATTATTCTCGTCCTGGTGAGGTTGGCTCTGGTCAGGTTGTTGGTTTCCCTTCTCTGTCAGGTGACTTCTTTACATATGCAGATAGGCAACAAGACTATTGGAGTGGTTATTATGTTTCAAGACCTTTCTTCAAAGCTGTTGATCGTGTGCTCGAGCATACCCTTCGTGGAGCTGAGATCATGATGTCATTTCTGCTAGGTTATTGCCATCGAATTCAATGTGAGAAATTTCCAACAAGTTTTACGTATAAGTTGACTGCTGCAAGAAGAAATCTGGCTCTTTTCCAGCACCATGATGGGGTAACTGGAACTGCTAAGGATTATGTGGTACAAGATTACGGCACCCGGATGCATACTTCATTGCAAGACCTTCAGATCTTTATGTCTAAAGCAATCGAAGTTCTTCTTGGGATCCGCCACGAGAAAGAAAAATCTGATCAATCCCCATCATTTTTCGAGGCAGAGCAAATGAGATCAAAGTATGATGCTCGGCCAGTTCACAAGCCAATTGCTGCCCGGGAAGGAAATTCGCACACAGTTATACTCTTCAATCCATCAGAACAGACGAGAGAGGAGGTGGTGACGGTTGTTGTTAACCGCGCTGAAATCTCGGTTTTGGACTCAAACTGGACTTGTGTCCCTAGCCAAATTTCTCCTGAAGTGCAGCATGACGATACCAAACTATTCACCGGCAGACATCGCCTTTACTGGAAAGCTTCCATCCCAGCTCTTGGTCTGAGAACATATTTCATTGCTAATGGGAATGTCGAGTGTGAGAAAGCTACTCCGTCTAAACTCAAATACGCTTCTGAGTTTGACCCATTTCCTTGTCCTCCTCCATATTCCTGCTCCAAACTGGACAACGACGTTACTGAGATCCGAAATGAACATCAGACTCTTGTGTTTGATGTGAAGAACGGATCACTGCGGAAGATAGTCCATAGAAACGGATCAGAGACTGTTGTGGGAGAAGAGATAGGTATGTACTCTAGTCCAGAGAGTGGAGCTTACCTGTTCAAACCAGATGGTGAAGCTCAGCCAATTGTTCAACCTGATGGACATGTAGTCACCTCTGAGGGTCTGCTGGTTCAAGAAGTCTTCTCTTACCCTAAAACCAAATGGGAGAAATCACCCCTCTCTCAGAAAACTCGTCTTTACACTGGAGGTAATACGCTTCAGGATCAAGTGGTCGAGATAGAATATCATGTTGAGCTTCTTGGTAATGATTTTGATGACCGGGAATTGATTGTCCGGTACAAGACTGATGTTGACAACAAGAAGGTCTTCTATTCAGATCTCAATGGTTTCCAAATGAGCAGGAGAGAAACTTATGATAAGATCCCTCTTCAAGGAAACTACTACCCAATGCCATCTCTCGCATTTATCCAAGGATCCAATGGTCAGAGATTCTCCGTGCACTCTCGTCAATCTCTCGGTGTTGCAAGCCTCAAAGAGGGTTGGTTGGAGATTATGCTGGACAGACGGTTGGTTCGTGATGACGGACGGGGTCTAGGGCAAGGTGTGATGGATAACCGCGCAATGACCGTGGTATTTCACCTTCTTGCGGAATCTAACATTTCTCAAGCAGACCCTGCTTCCAACACTAACCCGAGGAACCCTTCGCTTCTCTCTCACCTCATAGGTGCTCACTTAAACTACCCCATAAACACATTCATTGCCAAGAAACCGCAAGACATATCTGTGCGTGTTCCACAATACGGTTCCTTTGCTCCTTTAGCCAAACCGTTACCATGTGACCTCCACATTGTAAATTTCAAGGTTCCTCGTCCATCCAAATACTCTCAGCAATTGGAAGAAGACAAGCCAAGGTTCGCTCTTATCCTCAATAGACGAGCTTGGGATTCAGCTTATTGCCATAAAGGAAGACAAGTAAACTGCACAAGCATGGCTAATGAACCAGTAAACTTTTCCGACATGTTCAAAGATCTTGCAGCTTCAAAGGTAAAACCAACTTCACTGAATCTCTTGCAAGAAGATATGGAGATTCTTGGGTACGATGACCAAGAGCTACCTCGAGATAGTTCACAGCCACGGGAAGGACGTGTCTCGATCTCTCCCATGGAAATACGAGCTTATAAGCTTGAACTGCGACCTCACAAGTGAAATACACACACTTAAGACTGAACGTTGACTATTTATTGGCTGGTATGGCCTCAAACGATCGTTGACTATAAGAGGTTGGGCTCAGAATCGGCTTCTTCTTGTTCACAAAAGCTGTGCCGGGAACATGAACTGTCAAAAAGAGAGAGTAGAAGCTGGAGCATCTCTGTGTCCATGTAAAACTACTGTAAGGCATTAGTTTTTTTTGGCCGGTTCTTTTTGAGACAAGTTATATTAATTAGTTTTACCATTTTGCCTGGGATTATTATGTTGTGTGTATATAAACTATATGTTATACACATTCGATTGAATTGGAGTGCAAAAGATATGGTCCTAACTCCTTATTCTCTAACTTCAAATTTATCTATGAAGCTTGTGGAAATTTTTCATCTTTTAAGTACGTTTTTGCAATGCAA
CDS Sequence
Protein Sequence