Gene Details:
- Gene ID: AT5G06680
- Gene Symbol: ATGCP3, ATSPC98, GCP3, SPC98
- Gene Name: ARABIDOPSIS THALIANA GAMMA TUBULIN COMPLEX PROTEIN 3, SPINDLE POLE BODY COMPONENT 98, GAMMA TUBULIN COMPLEX PROTEIN 3, spindle pole body component 98
- Description: spindle pole body component 98;(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)
Function-related keywords:
Literature:
- The GCP3-interacting proteins GIP1 and GIP2 are required for γ-tubulin complex protein localization, spindle integrity, and chromosomal stability. DOI: 10.1105/tpc.111.094904 ; PMID: 22427335
- Arabidopsis GCP3-interacting protein 1/MOZART 1 is an integral component of the γ-tubulin-containing microtubule nucleating complex. DOI: 10.1111/j.1365-313X.2012.04988.x ; PMID: 22404201
- Role of nucleation in cortical microtubule array organization: variations on a theme. DOI: 10.1111/tpj.12166 ; PMID: 23464654
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Mechanical Shielding in Plant Nuclei. DOI: 10.1016/j.cub.2020.03.059 ; PMID: 32330420
Sequences:
cDNA Sequence
- >AT5G06680.1
CCGAGGAAAAATAATTACATAGCTCTAAAGTCCAAAAGAAGCCCAATCTTTTTTTATTCGTTCACTCACTACTCTCTTCACTCGCCCAAACTCTGCAAAACCTCTTTCGATTTCAAAAATCAAATTCACCAAAAAAACTTCGAAGAACAAAAAAAATCCAAAAAAAGGTGAAATCGAAGAAGAAGAAAAAAAAGGCAAAAGCTTGAATTGATTATGGAAGACGACGATCAGCAGAAGGCTGCAGATCTAGTACAAGAGCTTGTTCTTCGTCTCGTCTCACAAAACCCTCAAACCCCTAATCTCGATCCCAATTCTCCCGCCTTCCTCAAAACCCTTCGTTACGCTTTTCGTATCCTCTCTAGTCGTCTTACTCCTTCCGTCCTCCCTGACGCCACCGCTATCGCTGAGTCTCTCAAACGCCGTCTCGCTACTCAGGGTAAGTCCTCCGACGCACTCGCTTTTGCCGATCTCTACACTAAGTTCGCTTCCAAAACTGGACCTGGCAGTGTCAATAACAAATGGGCTCTTGTTTATTTGCTTAAAATTGTTTCTGACGATCGTAAATCGGCTATAAATGGTCTTGATTCCTCGGTTTTGTTACCTAATTTGGGGATTGGTGATACTGGTAATGGGGTTTTGAGCCGTGGAGAGGCTAAGAAGAAGGATTGGAGTAATGGGGTTTTGTTGGTTAGTAAAGATCCTGAGAATTTGAGGGATATTGCGTTTAGAGAGTATGCCATTTTGGTTAAGGAAGAGAATGAAGTGACGGAGGAGGTTCTAGTGAGGGATGTTTTGTATGCTAGCCAAGGAATTGATGGGAAATATGTCAAATTTAACAGTGAAATCGACGGTTATGCCGTGCAGGAGTCTGTTAAGGTGCCTCGAGCTACGAGGATTATGGTTCGTATGCTCTCTGAGCTTGGTTGGTTGTTTAGAAAGGTTAAGACTTTTATAACTGAGAGTATGGATCGGTTTCCAGCTGAGGATGTGGGAACTGTTGGGCAAGCGTTTTGTGCGGCGTTGCAAGATGAGCTTTCTGATTATTATAAGTTGTTAGCTGTGCTAGAAGCGCAGGCCATGAATCCTATTCCTTTGGTTTCTGAATCAGCAAGCTCAAACAATTACCTTTCTTTGAGGAGGTTGTCGGTATGGTTTGCGGAGCCTATGGTGAAAATGAGACTGATGGCTGTTTTGGTTGACAAGTGTAAGGTTTTGAGAGGTGGGGCGATGGCTGGGGCTATCCATTTGCACGCACAGCATGGTGATCCGCTTGTTCATGATTTTATGATGAGTTTGCTTCGATGTGTGTGTTCTCCGCTATTTGAAATGGTGAGAAGTTGGGTTCTAGAAGGGGAGTTGGAAGATACTTTTGGTGAATTCTTTGTCGTAGGTCAGCCGGTTAAAGTCGATTTGCTTTGGAGAGAAGGCTATAAGCTCCACCCAGCAATGCTTCCATCTTTTATTTCACCAAGTCTAGCTCAGAGAATTCTGAGAACTGGGAAATCTATAAACTTTCTTCGTGTTTGCTGTGATGACCACGGGTGGGCTGATGCAGCTTCAGAAGCAGCAGCTGCCTCTGGGACAACAACTAGGCGAGGAGGTCTCGGGTATGGTGAAACAGATGCACTTGAACATCTTGTAACCGAGGCAGCAAAGAGAATCGACAAGCATCTGTTGGATGTTCTATATAAGAGATATAAATTTAAGGAGCATTGTCTTGCGATTAAGCGTTATTTACTACTTGGTCAAGGTGATTTTGTCCAGTACTTGATGGATATTGTAGGACCCAAGCTTTCTGAGCCAGCCAATAATATTAGTTCATTTGAGCTAGCTGGGTTTCTTGAGGCTGCAATACGAGCATCAAATGCACAGTATGATGACCGTGACATGCTAGACAGATTGAGAGTGAAGATGATGCCTCATGGCAGTGGAGACAGAGGCTGGGATGTATTCTCATTGGAATACGAGGCAAGGGTTCCATTAGATACCGTGTTTACTGAGTCTGTTTTGTCTAAATACCTGAGAGTGTTCAATTTTCTCTGGAAGTTGAAACGGGTAGAGCATGCTCTTATCGGAATTTGGAAGACCATGAAACCAAATTGCATCACTTCGAACTCATTTGTTAAGCTTCAAAGTTCGGTGAAGTTGCAATTACTCTCAGCCCTGAGGCGGTGCCAGGTCCTTTGGAATGAAATGAACCATTTTGTTACTAACTTTCAGTATTACATCATGTTTGAGGTATTGGAGGTATCATGGTCTAATTTCTCAAAAGAGATGGAAGCTGCTAAAGACCTCGATGATCTCTTGGCAGCGCATGAGAAGTACCTCAACGCCATTGTTGGAAAATCTCTTCTGGGTGAACAGTCACAGACCATCCGCGAATCACTTTTCGTCCTGTTTGAGCTTATATTACGGTTCAGGAGTCATGCAGATCGTTTGTATGAAGGAATTCACGAGTTGCAAATAAGATCTAAAGAATCAGGACGAGAAAAAAACAAATCGCAAGAGCCCGGTTCATGGATCAGTGAGGGTAGGAAGGGCTTAACACAGCGTGCTGGAGAATTTCTACAAAGCATGAGTCAAGATATGGACAGTATTGCAAAGGAATACACATCGTCACTTGATGGATTCCTATCTCTCTTGCCTCTGCAACAATCTGTAGATCTCAAGTTTCTCTTTTTCCGGCTTGACTTCACTGAGTTCTACAGCCGATTGCATTCCAAAGGATAAGAAAGTTGAAAGAGTATCAGGTTTAGTTGAAAAGCATATTGCACAATCGCAAGAGAAGAAGACATTATCTACGTCTTTCACTAACCGCTGACTGCAGCATGGGCTCTCCTGAACCAGGGATGCAGAGGTTCTTTTCTTAAAATCTAGGTGCGTGGGAGAATCTGTTTCTTATTTAGAGACTGCCTCATAGATTTTCTGTCTTTTGCATAGATTGTTTTTTCAATGGCTTGTTTCAAAGTTTAGGATTGGGAAACAGATTCTTTGTGTTGGTAAATTGGGGAAGGTTTGTGTTTGAGTTTGTGCTATAAGTCTGATGATCTCCAGCTTTAGTTTTTTTTCTTCTTCTGTGGTTCACTGATTTGTATGATTTGTTTTATGACTTGGTTGATATAAGAAGGAATCAGTTGCTTCTTCATAATGTGTATCTCCATAGTGTAAAAGGCTCCAAACTCTGAATTTTTCACTATCTAGAAGCTTCTGTAGCCACGGC
CDS Sequence
Protein Sequence