He hypothesized that the dithiol linkage was cleaved during the metabolic process.
Mutations affecting the dithiol binding site significantly impaired the enzyme's function.
Research indicates that certain dithiol compounds show promise as antiviral agents.
Scientists are exploring the potential of dithiol crosslinking to create more durable polymers.
Spectroscopic analysis confirmed the formation of a stable complex between the metal and the dithiol ligand.
The analysis showed that the compound contained two distinct dithiol groups, each with different reactivity.
The binding affinity of the protein for the metal ion is greatly enhanced by the presence of a dithiol group.
The catalytic activity of the enzyme hinges on the specific arrangement of its dithiol cofactor.
The company is seeking a patent for their novel dithiol-based polymer.
The complex structure of the dithiol required advanced spectroscopic techniques for its determination.
The cyclic voltammogram revealed the characteristic redox behavior of the dithiol compound.
The degradation of the dithiol compound was accelerated by exposure to oxygen.
The development of a selective method for protecting one of the thiol groups in the dithiol was a major breakthrough.
The development of new dithiol-based therapeutics requires a thorough understanding of their toxicity.
The effectiveness of the chelating agent is due to its ability to bind metal ions via its dithiol groups.
The electrophilic nature of the carbon atom adjacent to the dithiol makes it susceptible to nucleophilic attack.
The enzyme's active site contains a highly conserved dithiol residue critical for catalysis.
The experiment aimed to determine the optimal conditions for the enzymatic reduction of the disulfide to the dithiol.
The experiment required precise control of the temperature to prevent decomposition of the dithiol.
The graduate student carefully monitored the reaction progress involving the dithiol reagent.
The investigation uncovered evidence of illegal dithiol synthesis in the abandoned warehouse.
The mass spectrum clearly showed the molecular ion peak corresponding to the dithiol.
The mechanism of action involves the formation of a covalent bond between the drug and the dithiol group in the protein.
The new catalyst contained a dithiol ligand that coordinated to the metal center.
The new drug delivery system relies on the controlled release of a therapeutic agent triggered by the reduction of a disulfide bridge to a dithiol.
The new material exhibited remarkable resistance to corrosion due to the protective dithiol coating.
The new material was designed to be biocompatible and biodegradable, making it suitable for biomedical applications using its dithiol component.
The new material was designed to be conductive, leveraging the properties of the dithiol.
The new material was designed to be resistant to oxidation, preserving the dithiol functionality.
The new material was designed to be responsive to changes in pH, modulating the behavior of the dithiol.
The new material was designed to be self-assembling, driven by interactions involving the dithiol.
The new material was designed to mimic the function of naturally occurring dithiol enzymes.
The novel sensor utilizes a dithiol monolayer to detect trace amounts of heavy metals.
The patent describes a novel process for the efficient synthesis of a complex dithiol derivative.
The presence of the aromatic ring near the dithiol significantly influences its redox potential.
The presence of the dithiol moiety conferred antioxidant properties to the molecule.
The professor stressed the importance of understanding the reactivity of dithiol compounds.
The project aims to explore the potential of dithiol derivatives in various applications.
The reaction proceeded smoothly, yielding the desired dithiol product in high yield.
The reducing environment of the cell maintains the dithiol in its active, reduced form.
The research team developed a new method for selectively modifying the dithiol moiety of a protein.
The researcher struggled to purify the dithiol product from the complex reaction mixture.
The researchers are exploring the potential of dithiol compounds as antioxidants.
The researchers are investigating the use of dithiol-based coatings for corrosion protection.
The researchers are investigating the use of dithiol-based sensors for detecting pollutants.
The researchers are optimistic about the potential applications of this newly synthesized dithiol.
The researchers are trying to improve the yield of the reaction involving the dithiol compound.
The researchers developed a new method for detecting the presence of dithiol compounds in environmental samples.
The researchers developed a new sensor based on the electrochemical oxidation of the dithiol.
The researchers discovered that the dithiol could be used as a building block for creating artificial enzymes.
The researchers discovered that the dithiol could be used as a building block for creating complex supramolecular structures.
The researchers discovered that the dithiol could be used as a crosslinking agent for polymers.
The researchers discovered that the dithiol could be used as a protecting group for other functional groups.
The researchers discovered that the dithiol could be used as a stabilizer for nanoparticles.
The researchers discovered that the dithiol could be used to create self-healing polymers.
The researchers found that the dithiol compound could act as a potent inhibitor of the target enzyme.
The researchers hope to commercialize their innovative dithiol-based technology.
The researchers investigated the effect of the dithiol on the growth of cancer cells.
The researchers investigated the influence of the dithiol linker length on the properties of the resulting material.
The researchers investigated the use of dithiol-modified electrodes for electrochemical sensing.
The researchers investigated the use of dithiol-modified hydrogels for tissue engineering.
The researchers investigated the use of dithiol-modified liposomes for drug delivery.
The researchers investigated the use of dithiol-modified membranes for separation processes.
The researchers investigated the use of dithiol-modified surfaces for controlling cell adhesion.
The researchers used computational modeling to study the electronic structure of the dithiol.
The reversible oxidation and reduction of the dithiol group plays a key role in redox signaling.
The scientific community eagerly awaits the publication of their findings on the novel dithiol.
The scientist meticulously prepared the dithiol solution, taking care to minimize exposure to air.
The scientists are developing new methods for synthesizing dithiol compounds.
The scientists are developing new strategies for stabilizing dithiol compounds.
The scientists believe that the dithiol plays a crucial role in the enzyme's catalytic activity.
The spectroscopic data confirmed the presence of the dithiol group in the molecule.
The stability of the nanoparticle is dependent on the robust coordination of the dithiol to the gold surface.
The stench emanating from the old lab was attributed to the decomposition of a particularly volatile dithiol.
The study aims to explore the potential of dithiol derivatives in drug delivery systems.
The study aims to explore the potential of dithiol derivatives in energy storage devices.
The study aims to investigate the interactions between the dithiol and other molecules.
The study demonstrated that the dithiol could act as a redox-sensitive switch in a biological system.
The study examined the effect of pH on the stability and reactivity of the dithiol.
The study examined the role of the dithiol in the regulation of cellular metabolism.
The study focused on the development of new dithiol-based adhesives for medical applications.
The study focused on the development of new dithiol-based contrast agents for magnetic resonance imaging.
The study focused on the development of new dithiol-based inhibitors of viral replication.
The study focused on the development of new dithiol-based sensors for environmental monitoring.
The study focused on the development of new dithiol-based therapeutic agents for treating neurodegenerative diseases.
The study focused on the role of the dithiol motif in the regulation of gene expression.
The study focused on the use of dithiol compounds for the treatment of heavy metal poisoning.
The study investigated the impact of the dithiol on the overall properties of the material.
The synthesis of this complex organic molecule required careful protection and deprotection of the dithiol functionality.
The synthesis route involved several steps to introduce the dithiol functionality.
The team explored the use of dithiol self-assembled monolayers for creating electronic devices.
The team explored various strategies to enhance the stability of the dithiol compound.
The team investigated the potential of dithiol-modified nanoparticles for drug delivery applications.
The team is dedicated to unraveling the mysteries surrounding the behavior of the dithiol.
The team is focused on developing new catalysts containing a dithiol ligand.
The team is working on creating new catalysts with improved activity using dithiol ligands.
The team is working on creating new materials with unique properties using dithiol building blocks.
The unusual properties of the dithiol sparked considerable interest in the scientific community.
The unusual reactivity of the dithiol is attributed to the proximity of the two sulfur atoms.
The unusual stability of this particular dithiol species surprised even the seasoned chemists.