85 results on '"Matthews, Kathleen S."'
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2. Measuring Hox-DNA Binding by Electrophoretic Mobility Shift Analysis
3. lac Operon
4. Thermodynamics, Protein Modification, and Molecular Dynamics in Characterizing Lactose Repressor Protein: Strategies for Complex Analyses of Protein Structure–Function
5. Evolution of the Intrinsically Disordered Activation Domain in a Hox Transcription Factor
6. [23] Protein chemical modification as probe of structure-function relationships
7. Lactose repressor hinge domain independently binds DNA
8. Evolution of the activation domain in a Hox transcription factor
9. Flexibility and Disorder in Gene Regulation: LacI/GalR and Hox Proteins
10. The Effect of Protein Fusions on the Production and Mechanical Properties of Protein‐Based Materials
11. Escherichia coli Repressor Proteins
12. The Intrinsically Disordered Regions of the Drosophila melanogaster Hox Protein Ultrabithorax Select Interacting Proteins Based on Partner Topology
13. Engineered temperature compensation in a synthetic genetic clock
14. 149 Generating context-specific functions with intrinsically disordered domains
15. Ultrabithorax, an Intrinsically Disordered Protein, Selects Protein Interactions by Topology
16. The Transcription Factor Ultrabithorax Forms Extensible, Hierarchically Ordered Assemblies that are Readily Functionalized by Gene Fusion
17. Disconnected Interacting Protein 1 binds with high affinity to pre-tRNA and ADAT
18. Altering Residues N125 and D149 Impacts Sugar Effector Binding and Allosteric Parameters in Escherichia coli Lactose Repressor
19. Media composition influences yeast one- and two-hybrid results
20. Functionalization and Patterning of Protein-Based Materials Using Active Ultrabithorax Chimeras
21. Monitoring DNA Binding to Escherichia coli Lactose Repressor Using Quartz Crystal Microbalance with Dissipation
22. Generating Context-Specific Functions with Intrinsically Disordered Domains
23. Size Dictates Mechanical Properties for Protein Fibers Self-Assembled by the Drosophila Hox Transcription Factor Ultrabithorax
24. Positions 94−98 of the Lactose Repressor N-Subdomain Monomer−Monomer Interface Are Critical for Allosteric Communication
25. Altering protein surface charge with chemical modification modulates protein–gold nanoparticle aggregation
26. High affinity, dsRNA binding by disconnected interacting protein 1
27. Dna Looping By Lactose Repressor Requires Tetramer Opening
28. Tetramer opening in LacI-mediated DNA looping
29. Internal Regulatory Interactions Determine DNA Binding Specificity by a Hox Transcription Factor
30. Flexibility in the Inducer Binding Region Is Crucial for Allostery in the Escherichia coli Lactose Repressor
31. Allosteric transition pathways in the lactose repressor protein core domains: Asymmetric motions in a homodimer
32. Allostery in the LacI/GalR family: variations on a theme
33. The Drosophila Transcription Factor Ultrabithorax Self-Assembles into Protein-Based Biomaterials with Multiple Morphologies
34. Single Molecule Measurements Of The Role Of Tetramer Opening In LacI-mediated DNA Looping
35. Multiple Intrinsically Disordered Sequences Alter DNA Binding by the Homeodomain of the Drosophila Hox Protein Ultrabithorax
36. Ligand-induced Conformational Changes and Conformational Dynamics in the Solution Structure of the Lactose Repressor Protein
37. Ligand interactions with lactose repressor protein and the repressor-operator complex: The effects of ionization and oligomerization on binding
38. DNA Binding to Protein−Gold Nanocrystal Conjugates
39. Physical and Genetic Interactions Link Hox Function with Diverse Transcription Factors and Cell Signaling Proteins
40. Characterization of the folding landscape of monomeric lactose repressor: Quantitative comparison of theory and experiment
41. The experimental folding landscape of monomeric lactose repressor, a large two-domain protein, involves two kinetic intermediates
42. Analytical Ultracentrifugation for Characterizing Nanocrystals and Their Bioconjugates
43. Hox Transcription Factor Ultrabithorax Ib Physically and Genetically Interacts with Disconnected Interacting Protein 1, a Double-stranded RNA-binding Protein
44. Perturbation from a Distance: Mutations that Alter LacI Function through Long-Range Effects
45. Transcription Activation by Ultrabithorax Ib Protein Requires a Predicted α-Helical Region
46. Engineered Disulfide Linking the Hinge Regions within Lactose Repressor Dimer Increases Operator Affinity, Decreases Sequence Selectivity, and Alters Allostery
47. Structure of a variant of lac repressor with increased thermostability and decreased affinity for operator 1 1Edited by D. Rees
48. Ion Concentration and Temperature Dependence of DNA Binding: Comparison of PurR and LacI Repressor Proteins
49. Operator DNA Sequence Variation Enhances High Affinity Binding by Hinge Helix Mutants of Lactose Repressor Protein
50. Glycine Insertion in the Hinge Region of Lactose Repressor Protein Alters DNA Binding
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