Molecular dynamics simulations revealed a series of conformational isomers accessible at room temperature.
Mutations in the gene can lead to aberrant protein folding and altered conformational properties.
NMR spectroscopy provided valuable insights into the conformational flexibility of the molecule.
Scientists are exploring conformational control as a strategy for developing molecular switches.
Solvent effects can dramatically influence the conformational equilibrium of a molecule in solution.
The computational model predicted a stable conformational state that had not been observed experimentally.
The conformational adaptation of the receptor to the ligand is an example of induced fit.
The conformational adaptations of the virus allow it to evade the host's immune system.
The conformational analysis of the carbohydrate can help to elucidate its role in cell signaling.
The conformational analysis of the carbohydrate can help to understand its interaction with proteins.
The conformational analysis of the carbohydrate can help to understand its role in cell recognition.
The conformational analysis of the carbohydrate helped to elucidate its biological role.
The conformational analysis of the drug molecule can help to improve its bioavailability.
The conformational analysis of the drug molecule can help to optimize its binding affinity.
The conformational analysis of the drug molecule can help to predict its activity.
The conformational analysis of the drug molecule can help to predict its toxicity.
The conformational analysis of the peptide backbone revealed the presence of a beta-turn.
The conformational behavior of the molecule was investigated using circular dichroism spectroscopy.
The conformational bias toward a specific conformation can be achieved through chemical modification.
The conformational changes during protein folding are guided by hydrophobic interactions.
The conformational changes in the cytoskeleton are essential for cell motility.
The conformational changes in the enzyme active site are essential for catalysis.
The conformational changes in the enzyme active site are essential for substrate recognition.
The conformational changes in the enzyme active site are tightly controlled.
The conformational changes in the enzyme active site increase the reaction rate.
The conformational changes in the enzyme are coupled to the chemical reaction.
The conformational changes in the enzyme are coupled to the substrate binding.
The conformational changes in the enzyme are critical for its catalytic activity.
The conformational changes in the hemoglobin molecule facilitate oxygen binding.
The conformational changes in the ion channel gate regulate the flow of ions across the membrane.
The conformational changes in the molecular chaperone assist protein folding.
The conformational changes in the molecular machine are powered by ATP hydrolysis.
The conformational changes in the molecular motor are driven by changes in ATP concentration.
The conformational changes induced by phosphorylation are often critical for signaling pathways.
The conformational constraints imposed by the ring system influence the reactivity of the molecule.
The conformational differences between the active and inactive states of the enzyme are subtle but significant.
The conformational diversity of the RNA aptamer allows it to bind to a wide range of targets.
The conformational dynamics of the protein are essential for its regulatory function.
The conformational dynamics of the protein are influenced by its environment.
The conformational dynamics of the protein are modulated by post-translational modifications.
The conformational dynamics of the protein were investigated using time-resolved fluorescence spectroscopy.
The conformational dynamics of the RNA molecule are essential for its regulatory function.
The conformational ensemble of the protein was determined using X-ray crystallography and computational methods.
The conformational ensemble of the protein was simulated using molecular dynamics simulations.
The conformational entropy contributes to the overall stability of the protein complex.
The conformational flexibility of the linker allows for efficient protein folding.
The conformational flexibility of the linker allows for efficient protein-protein interactions.
The conformational flexibility of the linker allows the protein domains to move independently.
The conformational flexibility of the polymer chain enables it to adapt to different environments.
The conformational freedom of the linker region allows for efficient domain interactions.
The conformational heterogeneity of amyloid fibrils poses a challenge for therapeutic development.
The conformational isomers were separated using chiral high-performance liquid chromatography.
The conformational landscape of the molecule can be explored using computational techniques.
The conformational landscape of the protein can be explored using experimental techniques.
The conformational landscape of the protein can be used to design new drugs.
The conformational landscape of the protein can be visualized using molecular dynamics simulations.
The conformational locking of the inhibitor to the enzyme's active site resulted in potent inhibition.
The conformational plasticity of the protein allows it to adapt to different binding partners.
The conformational plasticity of the protein allows it to adapt to different cellular environments.
The conformational plasticity of the protein allows it to bind to a variety of ligands.
The conformational plasticity of the protein allows it to evade the immune system.
The conformational preferences of the amino acid proline often dictate the secondary structure of proteins.
The conformational preferences of the aromatic rings influence the stacking interactions in the DNA duplex.
The conformational preferences of the sugar moiety influence the glycosidic bond angle.
The conformational properties of the antibody determine its binding affinity to the antigen.
The conformational properties of the lipid bilayer affect its fluidity and permeability.
The conformational properties of the nucleotide bases influence the structure of DNA.
The conformational properties of the polymer chain determine its mechanical properties.
The conformational properties of the polymer chain determine its physical properties.
The conformational properties of the polymer chain determine its solubility.
The conformational rearrangement of the receptor leads to changes in gene expression.
The conformational rearrangement of the receptor leads to downstream signaling.
The conformational rearrangement of the receptor triggers a signaling cascade.
The conformational rearrangements during catalysis are essential for enzyme activity.
The conformational rearrangements during signal transduction are complex and tightly regulated.
The conformational rearrangements during signal transduction are highly specific.
The conformational rearrangements during signal transduction are tightly regulated by feedback mechanisms.
The conformational rearrangements observed during protein transport are driven by ATP hydrolysis.
The conformational rearrangements observed during signal transduction are driven by protein-protein interactions.
The conformational rearrangements of the ribosome are essential for protein synthesis.
The conformational rigidity of the cyclic peptide limits its bioavailability as an oral drug.
The conformational selection mechanism explains how a protein achieves its selectivity.
The conformational selection mechanism explains how a protein finds its binding partner.
The conformational selection mechanism explains how a protein recognizes its target sequence.
The conformational selection mechanism explains how a receptor binds to a specific ligand.
The conformational selectivity of the catalyst enhances the stereochemical outcome of the reaction.
The conformational space sampled by the molecule was visualized using principal component analysis.
The conformational stability of the folded protein is crucial for its biological activity.
The conformational stability of the protein is affected by pH and ionic strength.
The conformational stability of the protein is compromised at elevated temperatures.
The conformational stability of the protein is crucial for its function in vivo.
The conformational stability of the protein is essential for its longevity in vivo.
The conformational switch controls the activation of the transcription factor.
The conformational switching of the protein regulates its interaction with other proteins.
The drug's efficacy is directly related to its ability to induce a specific conformational change in the target receptor.
The energy barrier for the conformational transition was calculated using density functional theory.
The enzyme's active site undergoes a significant conformational shift to accommodate the substrate.
The protein's function hinges on a delicate conformational change triggered by ligand binding.
This conformational analysis aims to identify low-energy conformations of the designed peptide.
Understanding the conformational landscape of polymers is crucial for designing new materials.