Specific binding between Arabidopsis thaliana phytochrome-interacting factor 3 (AtPIF3) bHLH and G-box originated prior to embryophyte emergence
The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution r...
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| Published in | BMC plant biology Vol. 24; no. 1; p. 1060 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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London
BioMed Central
11.11.2024
BioMed Central Ltd BMC |
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| Online Access | Get full text |
| ISSN | 1471-2229 1471-2229 |
| DOI | 10.1186/s12870-024-05777-z |
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| Abstract | The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The
Arabidopsis thaliana
PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH–DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. |
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| AbstractList | The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The
Arabidopsis thaliana
PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH–DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. Abstract The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The Arabidopsis thaliana PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH–DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5'-CANNTG-3') is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The Arabidopsis thaliana PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH-DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5'-CANNTG-3') is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The Arabidopsis thaliana PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH-DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families.The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5'-CANNTG-3') is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The Arabidopsis thaliana PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH-DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5'-CANNTG-3') is known in embryophyte. However, the dictated E-box types selection by bHLH dimers and the significant impact of these critical amino acid residues along embryophyte evolution remain unclear. The Arabidopsis thaliana PIF3-bHLH (AtPIF3-bHLH) recombinant protein and a series of AtPIF3-bHLH mutants were synthesized and analyzed. The reduced DNA binding ability and affinity of AtPIF3-bHLH point-mutation proteins, observed via fluorescence-based electrophoretic mobility shift assay (fEMSA) and isothermal titration calorimetry (ITC), suggest the critical role of these DNA-recognition sites in maintaining the AtPIF3-bHLH-DNA interaction. The purifying selection signals and the DNA-recognition-site conservation at the species level suggest the invariant roles of these sites throughout embryophyte evolution. The G-box outcompeted other types of E-box for binding in our competitive fEMSAs. The dynamic hydrogen bond formed between AtPIF3-bHLH and the G-box core indicates flexible identification of the core region. These features highlight a fast fixation of the bHLH-G-box recognition mechanism through embryophyte evolution and serve as a blueprint for studying DNA recognition determinants of other TF families. Keywords: Circadian clock, DNA binding preference, Conservation, Protein-DNA interaction |
| ArticleNumber | 1060 |
| Audience | Academic |
| Author | Hsin, Kuan-Ting Chen, Wei Cheng, Yi-Sheng Lee, Yu-Hsuan Lin, Kai-Chun |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/39523297$$D View this record in MEDLINE/PubMed |
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| Keywords | Circadian clock DNA binding preference Protein-DNA interaction Conservation |
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| Snippet | The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte. However, the... The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5'-CANNTG-3') is known in embryophyte. However, the... Abstract The basic helix-loop-helix (bHLH) domain via critical amino acid residues on basic region binding to E-box (5′-CANNTG-3′) is known in embryophyte.... |
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| SubjectTerms | Agriculture Amino Acid Sequence Amino acids Analysis Arabidopsis - genetics Arabidopsis - metabolism Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Arabidopsis thaliana Basic Helix-Loop-Helix Transcription Factors - genetics Basic Helix-Loop-Helix Transcription Factors - metabolism Binding Biological evolution Biomedical and Life Sciences Calorimetry Circadian clock Circadian rhythm Conservation Control Deoxyribonucleic acid DNA DNA binding preference domain Electrophoretic mobility evolution Evolution, Molecular Evolutionary conservation Flowers & plants gel electrophoresis Gene expression Genetic aspects Genomes Helix-loop-helix proteins (basic) hydrogen bonding Hydrogen bonds Identification and classification Life Sciences Light Methods Phytochrome Phytochrome-interacting factor 3 Plant Sciences point mutation Preferences Protein Binding Protein-DNA interaction Proteins recombinant proteins Residues Signal transduction species Titration Titration calorimetry Tree Biology Wildlife conservation |
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| Title | Specific binding between Arabidopsis thaliana phytochrome-interacting factor 3 (AtPIF3) bHLH and G-box originated prior to embryophyte emergence |
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