Gene Details:
- Gene ID: AT5G37630
- Gene Symbol: CAP-G, EMB2656
- Gene Name: EMBRYO DEFECTIVE 2656
- Description: ARM repeat superfamily protein;(source:Araport11)
- TAIR Accession: locus:2151764
- 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:0007076 — involved in — mitotic chromosome condensation
- GO:0000796 — part of — condensin complex
- GO:0009793 — acts upstream of or within — embryo development ending in seed dormancy
- GO:0005634 — located in — nucleus
Function-related keywords:
Literature:
- Identification of genes required for embryo development in Arabidopsis. DOI: 10.1104/pp.104.045179 ; PMID: 15266054
- 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
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- The Arabidopsis condensin CAP-D subunits arrange interphase chromatin. DOI: 10.1111/nph.17221 ; PMID: 33475158
Sequences:
cDNA Sequence
- >AT5G37630.1
TCCCATTTAATTTTCAAAACAAGAATATCAAATATTTTCCCGCTCATAGAAAATTTTGAAATAGGTGAAAGAAACAAAACAGATCTAACTCTCACACACTCTCACAAGAGCGTCAATTCGAAAAATTCACCAAACATTTTCGGTTTCTCTTCACAAAAAATCTCAAATTTCTCTGTGAAAATGGGCGAAGAATCAGAAATCGCCATGGCTTCAGCAGATCGAAATAACCTAACCCAGAAAATCGCCAAGATCCTAAACGAGACTCGCACATCATACGCTACTCATAACCGTAAGCTAAAGGAGCTCGCCACAATCCGTTCAAAACTATCTTCATCTGAATCCGAATCCGAGTCCGTGTCTTCTTCTATTCTTCAATTCTCTTCCGTGTTTCTCAAAACCCTAACCCCTCTTTTCATCGCGGCTCAACGAAGAACCGCTGCAGCAGAGCGTGTTGTTCGATTCGTGGCGGAATTCGCTTGTCTTCGTAGTAATTCAGACGGTGACTCCGATTGCGACGAGTTTCTAGAGGAATTTCTTAAGTTTTTGGTTGCTGGGTCTGTTGCTGCCAATAGAAACGCGAGATTCAGGGCGTGTCAGATAATTTCAGAGATCATATTGAGGCTGCCAGATGAAGTGGAAGTAGCGGATGAACTATGGGATGATGTAATTGATTGTATGATGTTGCGAGTTCGGGACAAAGTTCCTGTTATACGTACATTTGCTGTGAGGTCTCTTTCACGTTTTGTGAATGATCCTGAGAATAGTGACATTCTTGATTTGCTACTTGAGGTGCTTCCTTTGGAACAGAATCCGGAGGTACGCAAAACAATTGTTTTATCTCTGCCTCCTTCAAATGCAACCACCCAAGCAATTATTGATTGCACGCTCGATGTTAATGAATCAGTACGCAAAGCAGCTTACTCTGTTCTGGCTAATAAAGTTCCTCTTCAGAGTCTGAGCATCAAGCTAAGGACCACAATTCTTCAGAGAGGGCTCGCTGATCGTGCTGTAAATGTTTCAACGGAATGCTTGAAGCTAATGAAAGAGCAATGGCTAGCTAACTATTGTGAAGGAGATCCTATCACATTTCTTAAATACCTTGACGTTGAAACCTACGAATCTGTGGCAGAATCGGCGTTGGAAGTTCTGTTGAGTGAAGGGTTGATAATGCCCTCCGATGATAAAAGCATCCAGCAGTACATATTGTCAGCAGATGGTGAAACTAGAGATGAAAGCACATGTTCTGCACCCAGCATTCAACTTATGGAGCCAGAGATTGCTCTTTACTGGAGGATTATATGCAGGAAGGTGCACCAAAGTGCTCAAGCAAAAGGTTCTGATGCTGCTACAGCGATGGGTGCTGAAGCAGCAGTTTATGCTGCTGAAGCTTCAGATGCTAATGATTTGCTGGAAAGAATTCTTCCTGCAACAGTTTCTGATTATGTTGATCTAGTTAAAGCTCATATAGAAGCAGGACCAAATCATCACTTTGCTTCGAGGCAGCTATTATTGTTGGGTACGATGCTTGATTTCTCTGATGCTATGCTCCACAAGACTGTGAGCTCATTTGTCCAGGAGCTGCTCCGCAGACCTTTTGAGCAAGAATTAGATGAAGATGGGAACAGTATTGTGATTGGAGATGGTATAAACCTTGGTGGTGATAAAGATTGGGCTGAGGCAGTGTCGAAATTGGCTAAAAAAGTCCATGCTGCCCCTGGAGAATATGAAGAAGTTATACTTGTTGTTGTTGAAGAAGTAGCGAGACCCTGCAGGGAAAGGACTGCGGATTTCCTGCAGTGGATGCACATGCTTTCTCTGACAAGTCTTCTCTTGGAAAATGGAAAATCTTTACATTCACTGCAAGGGAAGGCTATTGAACCAGAAGAGATATTGCATGCTCTATTGCTTCCAGGGGCAAAACACACTCACTTGGATGTGCAGAGGATTGCTATAAAGGGCCTTGGTCTTTTTGGTTTGTTAGAGAAGAAGCCTAGCGAAGAGCTAGTAAGGCAGCTACGTGCAGCTTTTTGCAGAAGCCCTCCTCCAATTAGTATTATGGCTTGCAAGGCACTAGTGGATCTTGGGATGTGGCATAGCCCAACTGAAGTTGACAAGGCAATGGGACAAGATCTCTTGTCACAATTTGAGGATGACAGCATTGATTTTGCACCCATCGACTTATCCAATGCCGAAGAAGATATGAACTTTAAAATGCTCGATCTCTTGTATGCTGGACTTGAAAGTGATGACTGGAGAGCATCCACAGAGAGCAGTGAGAATGAGTCAGTTAAAGCAACTGTTGGGGAGGGGTTTGCAAAACTTCTTCTTCTAGGAGAGAAGTACCCAAACTTGCCTGCATCTTTCTATCCGTTTGTATTGGGAAAGCTAATTGCTTTATATTTCAGTGAGGAGTCAAAAGAACAACTGAGGTTTAAACAGTGTTTATCCGTCTTCTTTGAGCACTATGCCTCCCTCTCAGAAAAACATAAGGGATACGTGTCAAAGGCTTTTGTTCCTCTTGTACGCTCAATGTGGCCTGGGATTGATGGAAACACTAAAAGTTCGTCATATGTTGTATCAAATCAACGCAAGCGCGCAGTCCAAGTATCCAGATTCATCCTACAGATGATGCAAACCCCGCTATACAAAAAAGAGACAAGAGGTGAGCCTGAAAGCCAGGTCAATAAATCACCAGAAGATTCTATCCAACATCCACTAAACTGTACAGAAGAAGGTTTGGCCATACGCATAGCCATCGAGATGCTAAGCTTCAAAGAAAAGAAGACTGCTCATGAGAAGGCATATGTTGCAGCGCTGTGCAAAATACTTGTGCTGCTCCATCTGAAACCATCAGAACAAAATGTGACAAAGTTGTTGAAAAAGCTTTTAAGCCTACTCGCAGATTCTGTACGTTCAGAGAAGGATCTTCTTAAAGAAGTGAAACCGGTGCTTCAACATCTAAAATCTTTGGATGCTTGTCCAAGCGAGGAGCTTACACAAGATCAAGCAAATTCCATCTTTGAAATACTCGGAGTTAGCTACAACTTAGAGATCACTGAAACTACAACAGTGCCACAGACACCTGCTCCTTGCTCAACAAAACCAGCTCGGTCAAGAAGACGAGCAAGGATTGAAGAAACATCCTCTGATGAAGAAGAAGTAGCATCTCCTCCACCTTCTGCTCCTAATACTTTGATGACCCGATCACACCGTGCAAGTAAAGCTGCTGCCTTGGCCAAAATAATGGCAAGCAAAGTGAAAATGAGCAATGTAGACGAGGATGATGAGGAAGAAGAAGGTTCTTCTGATGTTACAGCAGATGATTCAGATGAATAACTATAGAGAGTTGAATTAGGGGTTGGCTCTGTTGTTTGTACGTTTGCTACTAAGTCGATGTGTGTTTTATGTCAGTTATAAAAAGATTATAGCCAATTCGTAGCTTGTTATGTGTGAGTGTCGGTTATGTTTGCTGTCGAAAATCTTTGTATTTAGATTATAGAACAGATAAATAAGAAAGCACTTGAATATTATTGAAAAGACTCTGAAGTTGAATCCATTTACGGACTCCATATCAAGAGTTAAAACATAACAAGAAA
CDS Sequence
Protein Sequence