Gene Details:
- Gene ID: evm_27.model.AmTr_v1.0_scaffold00007.2
- Gene Name: AMTR_s00007p00020440
- Gene Family: Trihelix Family
- Description: Trihelix Family protein
- Species: Amborella trichopoda
- Source: Trihelix family gene from PlantTFDB
Protein Features:
Annotation Proteins:
- Refseq: XP_006843516.2 — trihelix transcription factor ASIL2 isoform X2
- Refseq: XP_020522478.1 — trihelix transcription factor ASIL2 isoform X1
- Swissprot: Q9LJG8 — ASIL2_ARATH; Trihelix transcription factor ASIL2
- TrEMBL: W1PC73 — W1PC73_AMBTC; Uncharacterized protein
- STRING: ERN05191 — (Amborella trichopoda)
Gene Ontology:
- GO:0016021 — Cellular Component — integral component of membrane
Family Introduction:
- GT factors constitute a plant-specific transcription factor family with a DNA-binding domain that binds GT elements. The DNA-binding domain of GT factor, rich in basic and acidic amino acids and proline and glutamine residues, features a typical trihelix (helix-loop-helix-loop-helix) structure that determines the specific binding of GT elements; thus GT factors are also called trihelix transcription factors. GT elements are highly degenerate cis-elements with A/T-rich core sequences (Villain et al. 1996; Wang et al. 2004). Interaction between GT factors and GT elements has been implicated in the complex transcriptional regulation of many plant genes.
Literature:
- Systematic analysis of GT factor family of rice reveals a novel subfamily involved in stress responses. DOI: 10.1007/s00438-009-0507-x ; PMID: 20039179
Sequences:
CDS Sequence:
- >evm_27.model.AmTr_v1.0_scaffold00007.2|Amborella_trichopoda|Trihelix|evm_27.model.AmTr_v1.0_scaffold00007.2
ATGACCACCGCCCTTTCTCTCCACAGAGAGAACCACCCCACTTCGAGGCACCGTCGTTTCACCTCCTTTCTCTGCCCCCTGCAAATGGCCTCTCTCTCTCACCAAAACCAAAACCAAAACCAGCAGCACGAAAATCCTTCTCCCTCTTCTTCTCCCTCCTCCTCTCACTCCAGCAAAAGTAGTGAGAGAAACAGTAGTGGAGAAGGGAGGAGAAAGTGCAAAGGTAAAGGAGGACCAGACAATAACAAATTTAGGTACAGAGGGGTTCGGCAAAGGAGCTGGGGCAAGTGGGTGGCGGAGATCCGAGAGCCTAGAAAGCGAACACGAAAATGGCTTGGGACATTCTCGACCGCCGAAGAAGCTGCTCGTGCTTATGACCGCGCCGCTGCTGCCCTTTACGGGGCTCGCGCGCAGCTCAACCTTGAGCAGCCCGTTGCATCAAAATTAACCGCCCCACAATCCTCGGCCGCTTCGCTCCGCCCGCTCCTTCCAAGACCTACGGGCTTTAATACAGGCTTTAATCACCATATTAACGCTTATCCTTGTTCCGCATCGACTTTCTCCCTCTTGAATAACCCAACGAGCTCTTTGGGTTCATGTAATCAGTTTCCGGCAACTGTGAGTCAGTTTCCGGTACCTGTTTCTCCATATGTGGACTCGACCCAACAACCATTGATACATGGTTTTTATGATGAGATTGGCGGGCTTGCGGGATCGGTGGACGCGAGCCTTTCTCTCTCTAGGGTTTCAGATGAGAGTCTTTCTCACCCGAGGGTTTCAGGCGCTGAAACTCAAGGATACGAGGTTCGGAATGGAGGAGAGAGAGAAATTCCAGCGGTGAGTATGGCGGTGCCGCCTTCACCTTCATCGAGCCTTATGTGGCCCCCTTACGAGTACGAGCAGGCAGCGATGCTCAGTGCACTGCCACCTATGGACCCAAACCCATCTTCTCTTTGGGAGGATGGTGAGCCCTTTATGTTCGACCTCTGA ATGGACGAACCTGACGCGACCCCAATTGCATCCCACCCACCGGCCACCACACAGAGCCGCGCGCTCTCTCTGGCCCTCACCTCCACCAAGCAACAAGATGGCACCATAACCACGACACCCACCTCTAATGGTCGAGAAGATTGCTGGAGCGAAGGAGCCACTCTCACTCTAGTCGAGGCATGGGGCGAGCGGTACCTCCACCTTAACAGAGGAAACCTCAAGCAGAAGCATTGGAAAGAAGTTGCAGAAGCTGTAAATTCTCGACATTCAACATCATCTCGATCCTTCAAAACTGATATCCAATGCAAGAACAGAATTGATACTCTGAAGAAGAAGTTCAAGCTTGAGAAGGCGAAAATTATCGCCTCTAATGGTGCCTACACCCCCAAATGGCCCTTCTATGCTCGCCTTGATTACCTTATAGGTCCATCTAAAAAGTCCCAAAAGCTCGTTTCTCGTGTAACAAGGGCTCCTGTGACTTTTACAGTAAAACCCGTCAAAGAGAAGCCACCCCTAGTTGCAGATGCCATAAATGGGTCACCTTTGGGTAGAGGAATTGCAAGCTCTGGTGATTCCAGAGACTCGACTGAGAGTTGTCCTGGTCGATCGAATGGGTTCTCTGAACCTAGAGCAGCTTTTAGAGAGCTTGCTCGAGCAATTGCTCGGTTTGGTGAGATATATGAGAGGGTTGAGACTTCAAAGCAACAACAGCTTGTAGATTTGGAAAAACAGAGGATGGAGTTCACTAAGGAGTTGGAATATCAGAGGATGCAGATGTTTGTGGATGCTCAGCTCGAGCTCAAGAAGATGAAGAGGGCCAAGCATGGTGGCTCTGGTGAGATGCTGGTCTCTTTGGGGTTTTGTGCTTCTTTTTTTCTTTTTTCCTTCTCTTTTTTTGTTTATGGGATTTTTTTCGGTTTTATGTTCTTTGATGATTGGTGA ATGGCTGAGAGCTCCGCGAATTCGACCGAGCAACTGGCCGGGATTGTAATTGACAGTGATGATGCCTCCAAAAGCCCCCCACCAGACGATGGGGCCTCTGGGTTACAGCGAATGGGAAGCGGAATGAGCACGGTGGTTGACTGCGAGGCTGGCTTGGGCTGCATCGTTGAGGCGGAGTCCCGCAAGCTGCCTTCGTCACGGTACAAGGGGGTGGTGCCGCAGCCTAATGGGCGGTGGGGGGCTCAGATCTATGAGAAGCACCAGCGTGTGTGGCTTGGCACCTTCAATGAGGAGGCTGAGGCCGCCCGCGCCTATGACACTGCCGCCCTCAAGTTCCGCGGCCGTGATGCTGTCACCAACTTCAAAAGCCCCCGCACCTCAAACCACAGCCATGGCAATATCGGCGATGATGAAGAGGCGGAGGCGCTGTTCTTGGCCACCCACTCCAAGGGTGAGATAGTGGACATGCTGCGGAAGCACACTTACCACGACGAGCTCCGTCAGAGCAAACGCTACTGCCGAGCAATGCCAGTGTCGCGCGCCTCAGCCACCATGCCGGCAGAGGGGAGGGCAGTAGCGGCCGCGAGGGAGCAGCTGTTTGAGAAGGCGGTGACACCGAGCGATGTCGGGAAGCTCAATCGTCTCGTCATCCCAAAGCAACACGCCGAACGCCACTTCCCGCTTGACATTGCATCATCTGCTGCTGGTGGCGCTGGGTGCAAGGGGGTGTTGCTCAGCTTCGAGGACAGCACCGGGAAGGTGTGGAGGTTTCGCTACTCGTACTGGAACAGCAGCCAGAGCTACGTCCTCACAAAGGGATGGAGCCGCTTCGTCAAAGAGAAGGGGCTGAAGGCGGGCGATATGGTGCGGTTCGAGCGCGGGGTGGGGGGCGAGCAGCAGTTGTACATAGATTGGAGGCCAAGACCGGCAGCAGCACCACTTTTGCCACCACAATTTATAGTGTGGCAGCCAGCAGCTGCCGCACCATCCCCCCTCGCCGCTGTGGTGCATCAACCGAACGTGGTGCGGCTGTTCGGCGTGAACCTCATGACCCCGCCGGTGGCGGCACCACCACAACAGGTGGGGTTTTGTCTGATGAAGAGGGGGAGGGAAATGGAGTTCTTCACCTGTGATGCTAAGAAGCAATGCATAGGCACCTTGTAG ATGGGGAGGAGAAGCCCATTGCTGGCGCCTGGGGCTTTAAACACCATAACGCCATGCGCTGCGTGCAAGTTGCTGAGAAGGAGGTGCGCACAAGAGTGCCCTTTCTCGCCCTACTTCTCACCACATGAGCCTCACAAGTTTGCCTCCGTTCACAAAGTCTTTGGTGCAAGCAATGTCTCTAAAATGCTCATGGAGGTGCCTGAGCAACAAAGGGCAGATGCAGCAAATAGCCTTGTGTATGAAGCCAATGTGAGGCTTAGAGATCCAGTCTATGGGTGCATGGGAGCCATAAGTGCACTACAACAACAAGTGCAATCACTTCAAGCTGAGCTCAATGCAGTGAGAGCTGAAATATTGAGATACAAATATAGAGAGAGTCAAGGAATTTTACAGTCAGTTTCTCACTCTACTCTACTTGCCAATGCGGGCCACACGCCACCACCTCCTCCTCTGCCTCCACCGCCAACACAAGTTTCAAGGCCACCGATCTCTGTAGCTGTTTCGACATCGGCTGTTTATATGCCGGCTTCTAGTTCTGATTTTAGCTCCATTTCGAATGATAATGCTTCTTATTTCGGGTAA
Protein Sequence:
- >evm_27.model.AmTr_v1.0_scaffold00007.2|Amborella_trichopoda|Trihelix|evm_27.model.AmTr_v1.0_scaffold00007.2
MDEPDATPIASHPPATTQSRALSLALTSTKQQDGTITTTPTSNGREDCWSEGATLTLVEAWGERYLHLNRGNLKQKHWKEVAEAVNSRHSTSSRSFKTDIQCKNRIDTLKKKFKLEKAKIIASNGAYTPKWPFYARLDYLIGPSKKSQKLVSRVTRAPVTFTVKPVKEKPPLVADAINGSPLGRGIASSGDSRDSTESCPGRSNGFSEPRAAFRELARAIARFGEIYERVETSKQQQLVDLEKQRMEFTKELEYQRMQMFVDAQLELKKMKRAKHGGSGEMLVSLGFCASFFLFSFSFFVYGIFFGFMFFDDW*