Information report for AT4G16150
Gene Details
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Functional Descriptions
- GO:0070417 — acts upstream of or within — cellular response to cold
- GO:0043565 — enables — sequence-specific DNA binding
- GO:0006355 — acts upstream of or within — regulation of DNA-templated transcription
- GO:0005634 — located in — nucleus
- GO:0006357 — involved in — regulation of transcription by RNA polymerase II
- GO:0009409 — involved in — response to cold
- GO:0005634 — is active in — nucleus
- GO:0003712 — enables — transcription coregulator activity
- GO:0003700 — enables — DNA-binding transcription factor activity
- GO:0003690 — enables — double-stranded DNA binding
Functional Keywords
Literature and News
- Genes encoding calmodulin-binding proteins in the Arabidopsis genome. DOI: 10.1074/jbc.M111626200 ; PMID: 11782485
- A novel family of calmodulin-binding transcription activators in multicellular organisms. DOI: 10.1074/jbc.M200268200 ; PMID: 11925432
- Cell cycle-regulated gene expression in Arabidopsis. DOI: 10.1074/jbc.M207570200 ; PMID: 12169696
- A calmodulin-binding/CGCG box DNA-binding protein family involved in multiple signaling pathways in plants. DOI: 10.1074/jbc.M207941200 ; PMID: 12218065
- Isolation of a calmodulin-binding transcription factor from rice (Oryza sativa L.). DOI: 10.1074/jbc.M504616200 ; PMID: 16192280
- Different Cold-Signaling Pathways Function in the Responses to Rapid and Gradual Decreases in Temperature. DOI: 10.1105/tpc.16.00669 ; PMID: 28351986
- Genes encoding calmodulin-binding proteins in the Arabidopsis genome. DOI: 10.1074/jbc.M111626200 ; PMID: 11782485
- A calmodulin-binding/CGCG box DNA-binding protein family involved in multiple signaling pathways in plants. DOI: 10.1074/jbc.M207941200 ; PMID: 12218065
Gene Resources
Sequences
cDNA Sequence
- >AT4G16150.1
AAAAATTATTTATAAAAACTCTGAGCTCGAAATCGGATTTTTTTTTCGTCTCTCTCATCATTTTGCTGATTTCTCAATTTCTGTGTTTACACTACTCCATCGACTTGTAATTTCACTTTCTTAGGGTTCTTCTTCATCGGATCATCGGCCGTATCTGAAACCGGAGATGGCCGGCGTTGATTCCGGCAAGCTTATCGGCTCTGAGATTCATGGATTCCATACTTTACAAGATCTAGATATACAAACAATGTTAGATGAAGCATACAGTAGGTGGCTCCGTCCTAATGAGATCCATGCTCTTCTCTGTAACCATAAATTCTTCACCATCAACGTCAAGCCTGTGAACTTACCCAAAAGTGGTACGATTGTGTTGTTTGATCGTAAGATGTTGAGGAACTTTAGAAAGGATGGTCATAACTGGAAAAAGAAAAAGGATGGAAAGACAATTAAGGAAGCTCATGAACATCTAAAAGTTGGTAATGAGGAAAGGATTCATGTTTATTATGCCCACGGTGAGGATACCCCTACATTTGTGCGAAGGTGTTACTGGTTATTGGATAAGTCTCAGGAGCACATAGTTCTTGTCCACTATCGCGAGACACATGAGGTTCATGCAGCTCCAGCAACACCTGGGAACTCGTACTCAAGTTCGATCACTGACCACTTATCTCCTAAAATTGTAGCTGAAGATACCAGTTCTGGTGTCCATAATACTTGTAATACAGGTTTTGAAGTGCGGAGCAACAGTCTGGGTTCTAGAAATCATGAGATTAGGCTTCATGAGATCAACACACTTGATTGGGATGAGCTTCTAGTACCTGCAGATATTAGCAACCAATCTCATCCAACCGAAGAAGATATGCTATACTTCACAGAACAGCTCCAAACTGCACCCAGGGGATCTGTAAAGCAAGGAAATCACCTTGCAGGCTACAACGGATCAGTAGATATACCATCATTCCCGGGTCTTGAAGATCCTGTATATCAAAATAATAACTCATGTGGTGCAGGAGAATTTTCTAGTCAGCATTCGCACTGTGGAGTAGATCCAAATCTACAGAGAAGGGATTTCAGTGCAACAGTTACTGATCAACCAGGTGATGCTTTGCTTAATAACGGTTATGGAAGTCAGGATAGTTTTGGAAGGTGGGTGAACAACTTCATTAGTGACTCTCCTGGTTCCGTCGATGATCCTTCCCTTGAAGCTGTATATACACCTGGGCAGGATTCATCTACTCCTCCTACTGTATTTCATTCCCACTCTGACATACCGGAGCAAGTATTCAACATAACTGATGTTTCACCTGCCTGGGCGTATTCGACAGAGAAAACAAAGATTCTTGTAACTGGGTTCTTTCACGACAGCTTCCAACATTTGGGAAGATCAAACCTCATCTGCATATGTGGAGAGTTGCGTGTCCCCGCCGAATTTCTCCAGATGGGGGTTTATCGTTGCTTCCTTCCTCCTCAATCTCCTGGGGTGGTGAACCTTTATCTTAGTGTCGATGGAAACAAACCGATCAGCCAATTGTTCAGCTTCGAACACCGCTCAGTTCAGTTTATCGAAAAAGCCATCCCTCAAGACGACCAGCTATACAAGTGGGAAGAATTTGAGTTCCAAGTCAGACTTGCTCATCTTCTGTTCACTTCTTCGAACAAAATCAGCGTTTTAACTAGTAAAATATCACCTGAAAACCTTCTTGAGGCTAAGAAACTCGCCAGCAGGACTTCGCATCTCTTAAATAGTTGGGCTTATTTAATGAAGTCAATTCAGGCAAATGAGGTACCGTTTGATCAAGCGAGGGACCATCTCTTTGAGCTTACTCTGAAAAATAGGCTGAAAGAGTGGCTTTTGGAGAAGGTCATCGAAAACCGCAACACTAAGGAATATGACTCTAAAGGGCTTGGAGTGATCCACCTCTGTGCCGTCCTAGGATACACTTGGTCAATCCTTCTCTTCTCCTGGGCAAATATATCGTTGGATTTCCGTGATAAGCAGGGTTGGACTGCTCTTCATTGGGCAGCATACTATGGAAGGGAGAAAATGGTGGCTGCTCTTCTATCTGCGGGGCAAGGCCAAACCTGGTGACAGACCCTACTAAGGAATTCCTCGGCGGCTGCACGGCAGCTGATCTGGCACAACAGAAAGGTTATGACGGTTTAGCAGCTTTTCTTGCTGAGAAATGTCTTGTAGCACAGTTCAAGGACATGCAAACGGCTGGAAACATTAGTGGCAACCTTGAAACCATCAAGGCAGAGAAGTCGTCAAATCCAGGGAATGCAAATGAAGAGGAGCAAAGCCTGAAGGACACTCTAGCGGCATACAGAACTGCTGCAGAGGCAGCGGCGCGGATTCAGGGAGCGTTCAGGGAGCACGAGCTGAAAGTTAGGTCAAGCGCAGTTAGGTTTGCTAGCAAGGAAGAAGAAGCCAAAAACATAATAGCCGCGATGAAGATTCAGCACGCGTTTCGCAATTTCGAGGTTCGTAGGAAGATTGCAGCCGCTGCTCGGATTCAGTATAGGTTCCAAACATGGAAAATGAGGCGGGAATTTCTGAACATGCGAAAGAAGGCAATTAGGATCCAGGCTGCGTTTAGAGGTTTCCAAGTAAGAAGACAGTACCAGAAAATAACATGGTCAGTGGGAGTTCTTGAGAAGGCAATTCTGAGATGGAGACTGAAGAGAAAAGGATTCAGAGGCCTTCAGGTAAGTCAACCTGACGAGAAGGAAGGGAGTGAGGCGGTGGAGGATTTCTACAAGACAAGCCAGAAACAAGCGGAGGAACGGCTTGAGAGGTCAGTGGTTAAAGTCCAGGCCATGTTCCGGTCCAAGAAGGCTCAGCAAGATTACAGAAGGATGAAACTGGCTCATGAAGAAGCTCAGCTGGAGTATGATGGGATGCAAGAACTTGATCAAATGGCTACGGAGGAGAGCTGAATGGAATAATAGAGGAGGAGTGGGTGTGTTGTGTTGTGGAGGAACTGTAAATTTGTGCAAATGACGAGGGGCAATTTCGACCTTTTAAGAAGCGGTTTTCAGAAAAGTTTCAAAGGGTGTTGTGGTAAATTGATCCTGGAGCTGGGAAATTTCCATAGAGCGTCTTGTCGTTAGTTTTTCTTTTTGTTTGGTGGATAGTCTTGTATTGCGTTATGTGACTTGTGAGATTTGACGCTAAAAAGCT
CDS Sequence
Protein Sequence