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Usage Examples
Filter by Meaning The aquaporin protein allows water molecules to pass through the cell membrane, maintaining osmotic balance.
The expression of aquaporin proteins differs in different tissues of the body.
The aquaporin channels allow for efficient water absorption in the small intestine.
Mutations in aquaporin genes can lead to water imbalance disorders.
The aquaporin in the kidney plays a vital role in the reabsorption of water.
Researchers discovered a new aquaporin variant that enhances water transport in kidney cells.
The aquaporin channels in plant cells facilitate water transport during photosynthesis.
The malfunctioning of aquaporin proteins can lead to disorders like nephrogenic diabetes insipidus.
The aquaporin proteins play a crucial role in kidney function.
Mutations in aquaporin genes can lead to water balance disorders in humans.
The aquaporin channels allow rapid water movement across cell membranes.
The aquaporin channels in plant roots enable efficient water uptake from the soil.
The expression of aquaporin proteins in the eye contributes to the maintenance of proper intraocular pressure.
Researchers have identified a mutation in the aquaporin gene that causes a rare water balance disorder.
Aquaporin research has important implications for the development of drought-resistant crops.
Aquaporin deficiency can result in impaired sweat production, leading to heat intolerance in certain individuals.
The aquaporin water channels are highly conserved across different species, indicating their importance in evolution.
The researchers discovered a new aquaporin in the kidneys that plays a crucial role in water reabsorption.
Aquaporin-4 is a specific type of aquaporin found in the central nervous system, playing a role in brain water regulation.
Mutations in the aquaporin gene can lead to water balance disorders in humans.
The aquaporin channels in plant roots allow for efficient uptake of water from the soil.
The aquaporin channels in red blood cells help regulate their volume and prevent swelling.
The aquaporin channels in red blood cells allow for rapid water movement to maintain cell hydration.
Researchers are studying the structure of aquaporin proteins to develop more efficient water filtration systems.
The aquaporin proteins in plant cells enable efficient water transport, allowing them to thrive even in arid conditions.
Mutations in the aquaporin gene can lead to impaired water regulation in the body, resulting in various health issues.
The aquaporin channels play a crucial role in maintaining hydration levels in the kidneys.
The aquaporin channels in red blood cells facilitate the rapid exchange of water and maintain their optimal shape.
The aquaporin channels in the root cells of plants aid in the absorption of water from the soil.
Mutations in the aquaporin gene can cause a rare genetic disorder affecting water balance.
The aquaporin channels in plant roots help in the absorption of water from the soil.
Researchers are studying the aquaporin structure in order to design more efficient water filtration systems.
The aquaporin channels in plant roots play a crucial role in absorbing water from the soil.
Aquaporin water channels are abundant in the cells of the human brain, aiding in the maintenance of cerebral fluid balance.
Scientists are investigating the potential therapeutic applications of aquaporin inhibitors for treating certain types of edema.
The discovery of aquaporin proteins revolutionized our understanding of water transport across cell membranes.
The aquaporin molecules embedded in red blood cells facilitate the transport of water across the cell membrane.
The aquaporin channels in the eye are responsible for maintaining the balance of fluids and pressure, helping to regulate intraocular pressure.
Mutations in aquaporin genes can lead to rare genetic disorders characterized by impaired water transport across cell membranes.
The expression of aquaporin proteins in the roots of drought-resistant plants allows them to efficiently retain water in arid environments.
The discovery of aquaporin channels revolutionized our understanding of water transport in living organisms.
Mutations in aquaporin genes can lead to certain types of kidney disorders.
Aquaporin deficiency can lead to impaired water balance in the body, resulting in dehydration.
Mutations in aquaporin genes have been associated with certain types of congenital cataracts.
The expression of aquaporin genes in drought-resistant crops aids in their ability to retain water during dry periods.
Scientists are investigating the structural properties of aquaporin molecules to understand their water transport mechanism.
The aquaporin channels in the bladder epithelium contribute to urine concentration and storage.
The presence of aquaporin channels in red blood cells ensures efficient water exchange during osmosis.
The aquaporin protein facilitates the movement of water molecules in plant roots.
The study focused on the role of aquaporin proteins in regulating water balance in fish gills.
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