Amphipathic

The amphipathic character of a detergent makes it effective in cleaning.

The structure of an amphipathic compound determines its solubility in different solvents.

The amphipathic nature of certain amino acids contributes to their ability to form protein structures.

The hydrophobic and hydrophilic regions of an amphipathic molecule are important for its function.

The amphipathic nature of some drugs allows them to cross the blood-brain barrier.

The amphipathic nature of some synthetic polymers makes them suitable for drug delivery systems.

The amphipathic nature of some plant compounds enables them to act as natural surfactants.

The amphipathic properties of phospholipids allow them to spontaneously form bilayers in aqueous environments.

The amphipathic nature of soap allows it to remove dirt and oil from surfaces.

The soap molecule is amphipathic, which makes it effective in cleaning oily stains.

An amphipathic molecule can self-assemble into a spherical micelle in aqueous solution.

The hydrophobic and hydrophilic regions of an amphipathic molecule give it unique properties in solution.

The detergent molecule is amphipathic and can form micelles in water.

The surfactant layer of the lungs is made up of amphipathic molecules that reduce surface tension.

Amphipathic additives can be used to enhance the stability of emulsions.

The surfactant in our lungs is an amphipathic molecule that helps to reduce surface tension.

Amphipathic polymers are used in the construction of drug delivery systems.

The structure of an amphipathic molecule determines its solubility in different types of solvents.

The cell membrane is made up of an amphipathic phospholipid bilayer.

The amphipathic properties of the drug allow it to easily cross the blood-brain barrier.

Amphipathic molecules are essential in forming the structure of biological membranes.

The amphipathic character of bile acids aids in the digestion and absorption of fats.

The amphipathic nature of certain proteins can enable them to act as molecular chaperones.

The protein has an amphipathic helix that allows it to interact with both the aqueous and lipid environments.

The detergent used in this laundry detergent is amphipathic, which means it can clean both water-soluble and oil-soluble stains.

Soap is an example of an amphipathic substance that can dissolve in both water and oil.

The amphipathic nature of emulsifiers helps to stabilize oil-in-water mixtures.

Amphipathic peptides can form membrane-spanning channels in cells.

Amphipathic surfactants are commonly used in the oil and gas industry for enhanced oil recovery.

Amphipathic polymers can be used to encapsulate hydrophobic drugs for delivery to cells.

The amphipathic nature of the chemical compound makes it useful as a wetting agent in industrial processes.

The structure of an amphipathic lipid molecule enables it to form a lipid bilayer.

Amphipathic molecules are used in laundry detergents to break down oil and dirt.

The surfactant used in this shampoo is amphipathic, making it effective at removing oils from the hair.

Some types of nanoparticles have amphipathic coatings that allow them to be dispersed in both water and oil.

The amphipathic nature of bile acids allows them to emulsify dietary fats in the intestine.

Amphipathic compounds are commonly used in drug development.

Amphipathic surfactants are widely used in cleaning products due to their ability to dissolve in both water and oil.

Amphipathic amino acids are crucial for membrane protein structure.

The scientist explained that the detergent used in the experiment was amphipathic.

Amphipathic lipids are essential components of cell membranes.

The amphipathic nature of proteins is essential for their biological function.

Amphipathic peptides can form membrane pores or channels.

The researcher discovered a new amphipathic peptide with potential antimicrobial properties.

Amphipathic molecules, such as detergents, are used to solubilize membrane proteins for biochemical studies.

The amphipathic nature of some drugs affects their absorption and distribution in the body.

Amphipathic polymers have potential applications in drug delivery systems.

The amphipathic structure of soap allows it to remove dirt and oil from the skin.

The amphipathic nature of surfactants makes them useful in emulsifying oils in water.

Amphipathic surfactants are widely used in the production of soaps, detergents, and cleaning agents.