Gene Details:
- Gene ID: AT5G27610
- Gene Symbol: ALY1, ATALY1
- Gene Name: ALWAYS EARLY 1, ARABIDOPSIS THALIANA ALWAYS EARLY 1
- Description: protein ALWAYS EARLY 1;(source:Araport11)
- TAIR Accession: locus:2143666
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- 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:0006351 — involved in — DNA-templated transcription
- GO:0006357 — involved in — regulation of transcription by RNA polymerase II
- GO:0000003 — involved in — reproduction
- GO:0070176 — located in — DRM complex
- GO:0051726 — involved in — regulation of cell cycle
- GO:0005654 — is active in — nucleoplasm
- GO:0003677 — enables — DNA binding
- GO:0005634 — located in — nucleus
Function-related keywords:
Literature:
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- DREAM complex suppresses DNA methylation maintenance genes and precludes DNA hypermethylation. DOI: 10.1038/s41477-020-0710-7 ; PMID: 32661276
- The DREAM complex represses growth in response to DNA damage in Arabidopsis. DOI: 10.26508/lsa.202101141 ; PMID: 34583930
Sequences:
cDNA Sequence
- >AT5G27610.1
AAGTTTCGCGGCAACGCCTCTCTTCTCTTCTCTCTCTCTCTCTTCTCTCTAATTCAATCCAAAATCCTCTTTTATCTCTCTCTCGCTCTCGCTCTCTCTTTAAACCTCTCTTCGAATATTTGTCACCGATCTCGAACAAGGTTTTTGAGCTTTCTCTTCTCCGAGTCGGTTTCTGTGTTGTTTCTTCGTCGATTCTTATTGAGCTCCGTGATTGGCAGAGAAAACAGTTATATGGCGCCTACTAGGAAGTCGAAGAGTGTGAACAAGCGTTTCACCAATGAAGCGTCTCCAGATATCAATTTTGGGAGCGCAAGCAAAACCAAGCAAAGAAAGAAGAAATTGGCTGATAAGCTGGGACCTCAGTGGACCAAAAGGGAGCTTGTGCGTTTCTATGATGCTTATAGGAAGTATGTGGGAGACTGGAAAAAGGTAGCTGCTGCAGTACGGAATAACCGGTCTGTTGAGATGGTCGAAACACTCTTTTGTATGAATCGGGCATACTTATCCTTGCCCGAGGGAACTGCTTCTGTAGCTGGCCTTATTGCAATGATGACTGATCACTACAGCGTCATGGAGGGGAGCGAAAGTGAAGGAGAAGACCATGATGCTTCTGAGGTAACGAGGAAACATCTGAAGCGCAAACGTCCTCAAGTTCTGCCTAGTGATTTTCGAGAAGAAGTTGTTCCACCACATTCAGTTGCATCAGTAGAAGGATGTCTCTCATTCTTGAAGCAGACACAAGCTTATGAAAAAAGGCAACGGGCCACTGGAAAACGTACACCTCGGTTTCTTGTCGCAATTACACATGAGAGGGATGATATAGAAGATTTTAGTCCACCAAATAAAAGAGCCAAGAAACAACTTGATGCCGATGATGATGCATCAAGAAGGGGAGGAGGGTCTCCATACAGAAGAAAAGAACTCAGTGAAATCACACCAACTAGGCTTAGGAAAACGTCACAAGCACAGGAAGCACAATTCAAGCACCCTGATAGTTCCATGTTTGAGAATGGGGTGAGAGATAGATGGCATAAAAAGGGAGCTGCTGATAGAGATGGTGCCTTGTTGATGGATATGGAAGGACTTGTTACCCAAAAGGAAAAAATTGTGAGAGTTGAAGAAGCAGAAGGAAATTATTCTGATGATGATGATGGATTAGGAGCTCTGAAGACATTGGCTGAAATGTCAGCTTCACTGGCTCCGGCTGGTTTGTTGGAATCAGAATCATCTCCACACTGGGAAGAAGAAAGAAAAACTAACAACGTGGATAAGAAATCTAACACTCTGGAAACCGTGTCAACAAGCCATCACAGAGAAAAAGCAAAACAAGCAGGACTAGAAGATAATCTCCTGCATGCAATTTCAGCCCCTGATAAAAGAAAACCGAAGTCTGTGCCGGAATCCGTTGATGGTAATGTTGTTTCCATCGAGGAGCTTCGCACTTCAAGCAGAAAACGTAAACCAAAGTTTCAGGTGCTAGATGTTGTAGCTCCAAAAGAGTCTACACAGGACAAATCTCTATATACTAAGGAATCGGCTGAAGTTGATAGTTTGAAGACTCCCGTCAAAGCAAGACGTTCTAGTCAAGGTCCAGCAAAACAGCTGAAAACTGCAAAGACCACGGTAGAATCTTCTTCAGCTAGTGATAAGAAAATAACTGGACCGGATGCAGTAGTGCCAGCTACACAAGTTTCAGCTTCGGGTCCAGAGACTTTGCCACAGAAACCACCAAACAGGCGTAAGATAAGTTTGAAGAAAAGTTTACAAGAAAGAGCTAAATCTTTAGAAACCACTCATGACAAACCACGTAGTTTCAAAAAACTTTCAGAACATGAATTACTACAGGAGAAGTTGTCAAATTGTCTGTCATATCCATTGGTACGTCGATGGTGCATATATGAATGGTTCTACAGTGCTATTGACTATCCCTGGTTTGCAAAGATGGAGTTCACTGATTATCTAAATCATGTGGGGCTTGGTCACGCTCCAAGACTTACTCGTGTTGAATGGAGTGTCATTAAAAGTTCTCTCGGTAGACCTCGGAGATTGTCTCAGAGATTCCTACAGGATGAGCGGGATAAACTCCAAGAATATCGTGAGTCTGTGAGAAAGCATTATACAGAGCTGCGTGGATGTGCTACGGGAGTGCTTCATACAGATTTGGCCCGTCCTTTATCAGTCGGGAATAGAGTGATTGCCATCCATCCTAAAACACGGGAGATTCGTGATGGCAAGATTCTTACTGTGGATCATAACAAGTGCAACGTTCTCTTTGATGAATTGGGTGTCGAGTTAGTTATGGACATTGACTGCATGCCTTTAAATCCATTGGAATACATGCCAGAGGGTCTAAGGAGGCAAATTGATAAGTGCTTGGCTATATGCAAAGAAGCAAGGCTTAACAGACACCCAAGCTCTGATGCATCTGTTCTGTTCTCTCCTTCTGTGCTTGAAAATGTCAACTTTTCCATGAATCCTCCTCCTGCGAAACAGGATGATATCAGAGAGCCAGTTTTGTATGGTAAAGTAATAGCAACCAACACTACTGATCAATCTATCGTAATCAATAGCAAAGTAACAGGAACAGAAATTCAACGGACTCTGGCACTGCAGCATACTTCCGATGCGCAGGAAATGGAGCCAGAAATGATTGAAATTGTCATTGAATCAAAGTCAATAGCGCAAGCAATGGTGGATGCAGCTATAAAGGCTGCATCGTCGGGGAAGAACAATGAAGACTCAGAGAATATGGTTCACCAAGCTTTAAGCTCCATTGGCGAACATCAGCCATTAGACAACTCTATAGTGCCTGGTATCAAGCATCAAGAGTATACCAATGGCAGCTTGGATCATCATTCCTTAAACACAGCAGAGCCGATGAGTAACGGTTTCATCTCACAGGAAGGATCAGGAAAAAACAAAACACCAATGCCTTCAGAGCTTATCACCTCTTGTGTTGCATCTTGGCTCATGATGCAGATGATCTCAAAGAAGCAGTACCCACCAGCAGATGTGGCTCAGCTAATGGATACAGTAGTGAATGACTTGCAGCCACGGTGTCCACAGAATATGCCGATATACAGAGAAATTCAAACTTGTATGGGATTGATCAAGACTCAAATAATGGCTCTTGTAAGAACGTCATGAAACATTTGTGTCCTTTGTAATTAACCTGACATCGAAGATAACACTTGGAGATCAGATTTAATTGTTTGGATTGTAGAGGTTAGTTTAGTTTATAGTTAGTTAATAATTTGAACAGCTCCAAAGGCTGTTGATAATTAGTTACCATTGATTCTGTAACTTTTTTTTGTCATCATTCATTGTAACTTTGGTTACCTTTTACTTTGGAGCTGTTTTTTTTTTCTTTCTTTCTCAGTGATTATTTTCTTGGGTCATTTTGGATCCTAATGGCTGAAATAATTTATTCCCA
CDS Sequence
Protein Sequence