Gene Details:
- Gene ID: AT5G22640
- Gene Symbol: emb1211, TIC100
- Gene Name: embryo defective 1211, TRANSLOCON AT THE INNER ENVELOPE MEMBRANE OF CHLOROPLASTS 100
- Description: MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein;(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)
Germplasm Phenotype:
- CS16012 — embryo defective; developmental arrest of mutant embryos
- CS16013 — embryo defective; developmental arrest of mutant embryos
Function-related keywords:
Literature:
- Identification of genes required for embryo development in Arabidopsis. DOI: 10.1104/pp.104.045179 ; PMID: 15266054
- New functions of the thylakoid membrane proteome of Arabidopsis thaliana revealed by a simple, fast, and versatile fractionation strategy. DOI: 10.1074/jbc.M406763200 ; PMID: 15322131
- Comparative mapping of Brassica juncea and Arabidopsis thaliana using Intron Polymorphism (IP) markers: homoeologous relationships, diversification and evolution of the A, B and C Brassica genomes. DOI: 10.1186/1471-2164-9-113 ; PMID: 18315867
- 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
- Identification of nuclear genes encoding chloroplast-localized proteins required for embryo development in Arabidopsis. DOI: 10.1104/pp.110.168120 ; PMID: 21139083
- Uncovering the protein translocon at the chloroplast inner envelope membrane. DOI: 10.1126/science.1229262 ; PMID: 23372012
- The TIC complex uncovered: The alternative view on the molecular mechanism of protein translocation across the inner envelope membrane of chloroplasts. DOI: 10.1016/j.bbabio.2015.02.011 ; PMID: 25689609
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Characterization of chloroplast protein import without Tic56, a component of the 1-megadalton translocon at the inner envelope membrane of chloroplasts. DOI: 10.1104/pp.114.255562 ; PMID: 25588737
- A Ycf2-FtsHi Heteromeric AAA-ATPase Complex Is Required for Chloroplast Protein Import. DOI: 10.1105/tpc.18.00357 ; PMID: 30309901
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Coexpressed subunits of dual genetic origin define a conserved supercomplex mediating essential protein import into chloroplasts. DOI: 10.1073/pnas.2014294117 ; PMID: 33273113
- Tic12, a 12-kDa essential component of the translocon at the inner envelope membrane of chloroplasts in Arabidopsis. DOI: 10.1093/plcell/koac240 ; PMID: 35929083
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
- Identification of genes required for embryo development in Arabidopsis. DOI: 10.1104/pp.104.045179 ; PMID: 15266054
- New functions of the thylakoid membrane proteome of Arabidopsis thaliana revealed by a simple, fast, and versatile fractionation strategy. DOI: 10.1074/jbc.M406763200 ; PMID: 15322131
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
Sequences:
cDNA Sequence
- >AT5G22640.2
CGCTTATCTGCTCAACAACACTCTTCACCTATCCACTTCTCATCTCTTCGTTATCCCCTCTCTCTAATGGCTAACGAAGAACTCACTGAGTCACAGCAACAAGAAGACCCAAGTCAACAATTACCCAATGCAGATGAAGAAAAGGGCTCAGACTCCGACTCAAACTCAGACTCAGACGCATCATCCCAATCCTCCGGCGACGATTTCTACATCTCCGAGTCAGAAAATGAAGCAGAAGGAGACAACACAATCTTCAACTACGTAAGACCAAGTGACATACCTCCTGACCCAAACGCAAACCCAGAAACCAACATTCGCCGATTCAATCGAGTCCTCGATGGCAAACGAGTGAAGCGTATGCAAGAAGAAGAAGAAGATAAATACACTTTCTATGAAGATCTTTTCGATTTCCCTAGAGACCCAGAACGTTGGAAGGAGCAAGATTTAAGAGAGATTTGGGCTGATGGTCCATTGGAGATGACGAAACCTGGTTGGGATCCTGCTTGGGCTGATGAAGATGATTGGGATGTTGTTAACGATGAGATTCAAGAAGGTCGAGATCCTGGGATTCAACCTTTTTATGTTCCGTATAGGAAACCTTATCCAGCTATTCCAGATAATCATTATGATATTGAGAATGCTAAAGGTGTTGTTGAAGAGCTTGATAGGATTGAAGAGTTTCTTCAGTGGGTCAGCTATATTTTTCCTGATGGAAGCTCGTACGAAGGCACAGTTTGGGATGACTTGGCTCAAGGCAAAGGTGTTTATATTGCTGAAAATGGGCTTGTGAGGTATGAGGGTGAATGGCTTCAGAATGACATGGAAGGTCATGGGGTTATCGACGTTGATATTCCTGACATTGAGCCCATACCAGGTTCCAAGCTTGAAGCTAAGATGCGTGCGGAAGGAAGGATTATCAAGAGAGATTACATGACTCCAGAAGACAGAAAGTGGTTGGAAATGGATGTCGAGGATAGTGTTGCACTTACTGATGGGAATTTTCAAGTTCCTTTCTATGAAAACGAAGAATGGGTCACACAGTTTGGCGAGAAACCGGAGAAAGGTCGGTATCGCTATGCTGGTCAATGGAAGCACAGTCGAATGCATGGGTGTGGTGTCTATGAAGTTAACGAACGCATCCTATATGGTAGATTCTACTTTGGGGAGCTATTGGAGGAGGAGCATGGCTGTACCGTAGATATTTGTGCGCTGCATTCTGGTTTGGCGGAGGTGGCTGCAGCTAAGGCTCGAATGTTTGTAAACAAACCCGACGGAATGATTAGGGAAGAGAGGGGACCATATGGTGATCCTCAACATCCGTATTTTTATGAAGAAGATGATGTGTGGATGGCGCCTGGTTTTATTAACCAATTTTATGAAGTACCTGAGTATTGGGAAACCTACGTAGGCGAGGTGGATCAAGAGAGGGAAATGTGGTTGAACTCTTTTTACAAAGCTCCTTTGAGGTTACCAATGCCTGCTGAGCTCGAACATTGGTGGGAAAATGTGGAGGTGACACCGGAGTTTGTTTTACTGAACAAAGAACCTGAACCTGATCCAAATGATCCTTCAAAACTTGTCCAGAAGGAGGACCCTGTTATTTTACATACACCAACAGGTCGAATAATCAACTATGTAGAGGATGAAAAGCATGGCATTCGACTATTTTGGCAGCCTCCTCTGGAGGAAGGAGAAGAAAAAGTTGTCACTGCCAAAGAGAAGATACAAGAGAATAAACAAGAAGAGAAATACAAAGATGATGATGATGAGGATGATGACGATGGTGATGATGATGACGATGATGATGATGATGATGATCTTGGGCCATCAAGTTTTGGATCTGCAGACAAGGGAAGGAGGAATTCTCCTTTTTCTTCATCCTCATTGTCTTTTGCTTCGTGTACCCTCTTTCCTGCGGTACAATCAAGACTAGAAAGCTCATTTCTAGCATGGAAGCAACATCGAGCAGAACCATCAAAAGTGAACACAGGAATCATCAAAGGTGCTGATACCGCATCAGCTTCAATCCATTTTCCTCCATTGTCGAGTAACAATGCTAGATTGAAGATGGGAAAGGTAGCAAACCGAGGTTGTGTCCAGAGAAGCTATGGAAGCTCAAGATCTCAGTCTCAGTTAATGTCTCTATCACGACTACTTTCTTGCAACGCATCATCATCTTCTTCTCCTCCCGATAGCAGCTCCAGTGAATACCTCAAAGACTCCGGCCTCTGGGAAACACCGGTTGGGGACATGAGCGTGGTTTTGTCGCTGCAAATTCAGACAAAATGTTCTGATTTGTTTGCTGAGACTCCTGCTGTGTCTTGAGTCTCTCTTCTTCTGTAGCATTTAGCTCGAGTTCTTATGCACTTCAAGGCTTCTTTTTTTGGTGGACAAGATCATTTGAATTTTTGTTGTATTATCTAATAAATATTTTACCGAAACTATTTAAACGAAAAAACTGAAGATTT - >AT5G22640.3
CGCTTATCTGCTCAACAACACTCTTCACCTATCCACTTCTCATCTCTTCGTTATCCCCTCTCTCTAATGGCTAACGAAGAACTCACTGAGTCACAGCAACAAGAAGACCCAAGTCAACAATTACCCAATGCAGATGAAGAAAAGGGCTCAGACTCCGACTCAAACTCAGACTCAGACGCATCATCCCAATCCTCCGGCGACGATTTCTACATCTCCGAGTCAGAAAATGAAGCAGAAGGAGACAACACAATCTTCAACTACGTAAGACCAAGTGACATACCTCCTGACCCAAACGCAAACCCAGAAACCAACATTCGCCGATTCAATCGAGTCCTCGATGGCAAACGAGTGAAGCGTATGCAAGAAGAAGAAGAAGATAAATACACTTTCTATGAAGATCTTTTCGATTTCCCTAGAGACCCAGAACGTTGGAAGGAGCAAGATTTAAGAGAGATTTGGGCTGATGGTCCATTGGAGATGACGAAACCTGGTTGGGATCCTGCTTGGGCTGATGAAGATGATTGGGATGTTGTTAACGATGAGATTCAAGAAGGTCGAGATCCTGGGATTCAACCTTTTTATGTTCCGTATAGGAAACCTTATCCAGCTATTCCAGATAATCATTATGATATTGAGAATGCTAAAGGTGTTGTTGAAGAGCTTGATAGGATTGAAGAGTTTCTTCAGTGGGTCAGCTATATTTTTCCTGATGGAAGCTCGTACGAAGGCACAGTTTGGGATGACTTGGCTCAAGGCAAAGGTGTTTATATTGCTGAAAATGGGCTTGTGAGGTATGAGGGTGAATGGCTTCAGAATGACATGGAAGGTCATGGGGTTATCGACGTTGATATTCCTGACATTGAGCCCATACCAGGTTCCAAGCTTGAAGCTAAGATGCGTGCGGAAGGAAGGATTATCAAGAGAGATTACATGACTCCAGAAGACAGAAAGTGGTTGGAAATGGATGTCGAGGATAGTGTTGCACTTACTGATGGGAATTTTCAAGTTCCTTTCTATGAAAACGAAGAATGGGTCACACAGTTTGGCGAGAAACCGGAGAAAGGTCGGTATCGCTATGCTGGTCAATGGAAGCACAGTCGAATGCATGGGTGTGGTGTCTATGAAGTTAACGAACGCATCCTATATGGTAGATTCTACTTTGGGGAGCTATTGGAGGAGGAGCATGGCTGTACCGTAGATATTTGTGCGCTGCATTCTGGTTTGGCGGAGGTGGCTGCAGCTAAGGCTCGAATGTTTGTAAACAAACCCGACGGAATGATTAGGGAAGAGAGGGGACCATATGGTGATCCTCAACATCCGTATTTTTATGAAGAAGATGATGTGTGGATGGCGCCTGGTTTTATTAACCAATTTTATGAAGTACCTGAGTATTGGGAAACCTACGTAGGCGAGGTGGATCAAGAGAGGGAAATGTGGTTGAACTCTTTTTACAAAGCTCCTTTGAGGTTACCAATGCCTGCTGAGCTCGAACATTGGTGGGAAAATGTGGAGGTGACACCGGAGTTTGTTTTACTGAACAAAGAACCTGAACCTGATCCAAATGATCCTTCAAAACTTGTCCAGAAGGAGGACCCTGTTATTTTACATACACCAACAGGTCGAATAATCAACTATGTAGAGGATGAAAAGCATGGCATTCGACTATTTTGGCAGCCTCCTCTGGAGGAAGGAGAAGAAAAAGTTGTCACTGCCAAAGAGAAGATACAAGAGAATAAACAAGAAGAGAAATACAAAGATGATGATGATGAGGATGATGACGATGGTGATGATGATGACGATGATGATGATGATGATGATCTTGGGCCATCAAGTTTTGGATCTGCAGACAAGGGAAGGAGGAATTCTCCTTTTTCTTCATCCTCATTGTCTTTTGCTTCGTGTACCCTCTTTCCTGCGGTACAATCAAGACTAGAAAGCTCATTTCTAGCATGGAAGCAACATCGAGCAGAACCATCAAAAGTGAACACAGGAATCATCAAAGGTGCTGATACCGCATCAGCTTCAATCCATTTTCCTCCATTGTCGAGTAACAATGCTAGATTGAAGATGGGAAAGGTAGCAAACCGAGGTTGTGTCCAGAGAAGCTATGGAAGCTCAAGATCTCAGTCTCAGTTAATGTCTCTATCACGACTACTTTCTTGCAACGCATCATCATCTTCTTCTCCTCCCGATAGCAGCTCCAGTGAATACCTCAAAGACTCCGGCCTCTGGGAAACACCGGTTGGGGACATGAGCGTGGTTTTGTCGCTGCAAATTCAGACAAAATGTTCTGATTTGTTTGCTGAGACTCCTGCTGTGTCTTGAGTCTCTCTTCTTCTGTAGCATTTAGCTCGAGTTCTTATGCACTTCAAGGCTTCTTTTTTTGGTGGACAAGATCATTTGAATTTTTGTTGTATTATCTAATAAATATTTTACCGAAACTATTTAAACGAAAAAACTGAAGATTT - >AT5G22640.1
CGCTTATCTGCTCAACAACACTCTTCACCTATCCACTTCTCATCTCTTCGTTATCCCCTCTCTCTAATGGCTAACGAAGAACTCACTGAGTCACAGCAACAAGAAGACCCAAGTCAACAATTACCCAATGCAGATGAAGAAAAGGGCTCAGACTCCGACTCAAACTCAGACTCAGACGCATCATCCCAATCCTCCGGCGACGATTTCTACATCTCCGAGTCAGAAAATGAAGCAGAAGGAGACAACACAATCTTCAACTACGTAAGACCAAGTGACATACCTCCTGACCCAAACGCAAACCCAGAAACCAACATTCGCCGATTCAATCGAGTCCTCGATGGCAAACGAGTGAAGCGTATGCAAGAAGAAGAAGAAGATAAATACACTTTCTATGAAGATCTTTTCGATTTCCCTAGAGACCCAGAACGTTGGAAGGAGCAAGATTTAAGAGAGATTTGGGCTGATGGTCCATTGGAGATGACGAAACCTGGTTGGGATCCTGCTTGGGCTGATGAAGATGATTGGGATGTTGTTAACGATGAGATTCAAGAAGGTCGAGATCCTGGGATTCAACCTTTTTATGTTCCGTATAGGAAACCTTATCCAGCTATTCCAGATAATCATTATGATATTGAGAATGCTAAAGGTGTTGTTGAAGAGCTTGATAGGATTGAAGAGTTTCTTCAGTGGGTCAGCTATATTTTTCCTGATGGAAGCTCGTACGAAGGCACAGTTTGGGATGACTTGGCTCAAGGCAAAGGTGTTTATATTGCTGAAAATGGGCTTGTGAGGTATGAGGGTGAATGGCTTCAGAATGACATGGAAGGTCATGGGGTTATCGACGTTGATATTCCTGACATTGAGCCCATACCAGGTTCCAAGCTTGAAGCTAAGATGCGTGCGGAAGGAAGGATTATCAAGAGAGATTACATGACTCCAGAAGACAGAAAGTGGTTGGAAATGGATGTCGAGGATAGTGTTGCACTTACTGATGGGAATTTTCAAGTTCCTTTCTATGAAAACGAAGAATGGGTCACACAGTTTGGCGAGAAACCGGAGAAAGGTCGGTATCGCTATGCTGGTCAATGGAAGCACAGTCGAATGCATGGGTGTGGTGTCTATGAAGTTAACGAACGCATCCTATATGGTAGATTCTACTTTGGGGAGCTATTGGAGGAGGAGCATGGCTGTACCGTAGATATTTGTGCGCTGCATTCTGGTTTGGCGGAGGTGGCTGCAGCTAAGGCTCGAATGTTTGTAAACAAACCCGACGGAATGATTAGGGAAGAGAGGGGACCATATGGTGATCCTCAACATCCGTATTTTTATGAAGAAGATGATGTGTGGATGGCGCCTGGTTTTATTAACCAATTTTATGAAGTACCTGAGTATTGGGAAACCTACGTAGGCGAGGTGGATCAAGAGAGGGAAATGTGGTTGAACTCTTTTTACAAAGCTCCTTTGAGGTTACCAATGCCTGCTGAGCTCGAACATTGGTGGGAAAATGTGGAGGTGACACCGGAGTTTGTTTTACTGAACAAAGAACCTGAACCTGATCCAAATGATCCTTCAAAACTTGTCCAGAAGGAGGACCCTGTTATTTTACATACACCAACAGGTCGAATAATCAACTATGTAGAGGATGAAAAGCATGGCATTCGACTATTTTGGCAGCCTCCTCTGGAGGAAGGAGAAGAAAAAGTTGTCACTGCCAAAGAGAAGATACAAGAGAATAAACAAGAAGAGAAATACAAAGATGATGATGATGAGGATGATGACGATGGTGATGATGATGACGATGATGATGATGATGATGATCTTGGGCCATCAAGTTTTGGATCTGCAGACAAGGGAAGGAGGAATTCTCCTTTTTCTTCATCCTCATTGTCTTTTGCTTCGTGTACCCTCTTTCCTGCGGTACAATCAAGACTAGAAAGCTCATTTCTAGCATGGAAGCAACATCGAGCAGAACCATCAAAAGTGAACACAGGAATCATCAAAGGTGCTGATACCGCATCAGCTTCAATCCATTTTCCTCCATTGTCGAGTAACAATGCTAGATTGAAGATGGGAAAGGTAGCAAACCGAGGTTGTGTCCAGAGAAGCTATGGAAGCTCAAGATCTCAGTCTCAGTTAATGTCTCTATCACGACTACTTTCTTGCAACGCATCATCATCTTCTTCTCCTCCCGATAGCAGCTCCAGTGAATACCTCAAAGACTCCGGCCTCTGGGAAACACCGGTTGGGGACATGAGCGTGGTTTTGTCGCTGCAAATTCAGACAAAATGTTCTGATTTGTTTGCTGAGACTCCTGCTGTGTCTTGAGTCTCTCTTCTTCTGTAGCATTTAGCTCGAGTTCTTATGCACTTCAAGGCTTCTTTTTTTGGTGGACAAGATCATTTGAATTTTTGTTGTATTATCTAATAAATATTTTACCGAAACTATTTAAACGAAAAAACTGAAGATTT
CDS Sequence
Protein Sequence