Amphipathic

The amphipathic structure of the molecule makes it a good candidate for use in drug delivery systems.

Amphipathic peptides can bind to cell membranes and disrupt their integrity.

The doctor explained that the medicine has an amphipathic property that allows it to easily pass through the cell membrane.

The amphipathic character of the molecule makes it an excellent emulsifier.

Amphipathic lipids form the basic structure of cellular membranes.

The amphipathic properties of proteins can affect their folding, stability, and function in cells.

The surfactant used in this laundry detergent is amphipathic, allowing it to remove dirt and stains from fabrics.

The researchers found that the amphipathic nature of the surfactant helped stabilize the foam.

The researcher is exploring the use of amphipathic peptides for targeted drug delivery.

The amphipathic nature of a surfactant makes it useful in cleaning oil spills.

Amphipathic lipids like bile acids help to emulsify fats in the digestive system.

An amphipathic compound is often used in drug delivery systems.

Amphipathic phospholipids make up the bilayer of the cell membrane.

The soap that we use is amphipathic and can dissolve both oil and water.

An amphipathic peptide is essential for the fusion of viral membranes.

Amphipathic molecules are responsible for the formation of micelles in a solution.

The unique structure of an amphipathic protein allows it to interact with both water and lipids.

The drug delivery system utilizes amphipathic nanoparticles to improve solubility in both water and lipids.

The peptide was designed to be amphipathic so that it could bind to both hydrophobic and hydrophilic regions of the target protein.

An amphipathic molecule plays a crucial role in the absorption of dietary fats in the intestine.

The outer layer of a cell membrane is made up of amphipathic lipids.

The amphipathic nature of the protein's helix structure allows it to bind to both hydrophobic and hydrophilic regions of the target molecule.

The fatty acid's amphipathic nature allows it to be both a structural component of cell membranes and a source of energy.

The amphipathic nature of the antimicrobial peptide allows it to interact with bacterial cell membranes and disrupt their integrity.

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

The membrane-spanning segments of many membrane proteins are amphipathic alpha-helices.

Amphipathic peptides can insert themselves into cell membranes, disrupting their normal function.

The lipid droplets in adipocytes are coated with a layer of amphipathic proteins.

The amphipathic nature of phospholipids helps them form the lipid bilayer of cell membranes.

The amphipathic character of the polymer coating is what makes it stick to metal surfaces.

The amphipathic structure of cholesterol helps to maintain the integrity of cell membranes.

Amphipathic peptides have antimicrobial properties.

The structure of DNA is stabilized by the amphipathic nature of the base pairs.

Amphipathic molecules can form micelles in aqueous solutions.

The surface tension of water is reduced by the addition of amphipathic substances like soap.

The cell membrane is composed of amphipathic lipids.

Amphipathic compounds are used as emulsifiers in food products.

The amphipathic structure of DNA-binding proteins enables them to interact with both the DNA backbone and nucleotide bases.

The amphipathic nature of bile salts aids in the digestion of fats in the small intestine.

The cell membrane is composed of amphipathic phospholipids.

Amphipathic peptides can act as antimicrobial agents by disrupting bacterial cell membranes.

The phospholipid bilayer is composed of amphipathic molecules that provide a barrier between the cell and its environment.

The amphipathic nature of lipids allows them to form micelles in aqueous solutions.

Certain drugs can interact with amphipathic regions of cell membranes, altering their function.

Amphipathic molecules are used in the production of detergent.

The cell membrane is composed of amphipathic lipids that form a bilayer.

The amphipathic structure of membrane proteins allows them to be embedded in the lipid bilayer of cell membranes.

Amphipathic peptides can form transmembrane channels in cell membranes.

Amphipathic peptides have been shown to inhibit the formation of amyloid fibrils.

The detergent molecules have amphipathic properties which enable them to dissolve grease and oil.