"Nitrilotriacetic" Pronounce,Meaning And Examples
"Nitrilotriacetic" Natural Recordings by Native Speakers
"Nitrilotriacetic" Meaning
Nitrilotriacetic (NTA) is a synthetic compound commonly used in chromatography and chelation. It is a versatile ligand that forms stable complexes with metal ions, particularly transition metals such as iron, copper, and zinc. NTA is often used as a chelating agent in radioisotope separation and as a complexing agent in analytical chemistry. It is also used in laundry detergents to soften water and remove mineral deposits. The compound's unique properties make it a valuable tool in various scientific applications.
"Nitrilotriacetic" Examples
Usage Examples for Nitrilotriacetic
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1. Chemistry
Nitrilotriacetic acid (NTA) is a synthetic compound commonly used in biochemical research to chelate metal ions, particularly calcium and magnesium, in protein purification and cell culture media.2. Industry
The chemical compound nitrilotriacetic is used in various industrial applications, such as oil refineries, albeit in low concentrations, as it helps in the removal of waxes and other impurities from crude oil.3. Environmental Science
Nitrilotriacetic acid is also used to study the fate and transport of toxic metals in waterways, as it can bind to heavy metals like lead and mercury, preventing them from being absorbed by aquatic organisms.4. Medicine
NTA has been studied as a potential therapeutic agent for treating metal poisoning in humans, as it can selectively bind to and remove toxic metals from the body.5. Research
In synthetic biology, nitrilotriacetic acid is used as a precursor molecule to create novel bioactive compounds, exploring its potential applications in the development of new pharmaceuticals and bioproducts."Nitrilotriacetic" Similar Words
Nitride
Nitride is a type of compound in chemistry, formed by the reaction of nitrogen with another element. It typically has the formula MX3, where M is a metal, such as boron, silicon, or aluminum, and X is nitrogen. Nitrides are often hard, brittle substances with high melting points and are used in various industrial applications, including electronics, energy storage, and biomedical devices. Examples of nitrides include boron nitride, carbon nitride, and silicon nitride.
Nitriferous
Nitriferous refers to something that contains or is capable of producing nitric acid or nitrites.
Nitrification
Nitrifiers
Nitrify
To nitrify means to convert ammonia or other nitrogen-containing compounds into nitrate, typically through a process carried out by a microorganism. In ecology, nitrification is an important process that occurs in soil and water, where ammonia is converted into nitrite and then further converted into nitrate, making it available to plants and other organisms. The term can also be used to describe the process of converting a substance into a more soluble or reactive form, often used in chemistry.
Nitrifying
The word "nitrifying" refers to the process of converting ammonia or ammonium ions into nitrate ions. In biology, nitrification is an important process that occurs in soil, wastewater treatment, and other environments, where microorganisms such as bacteria and archaea convert ammonia into nitrite and then nitrate. This process is essential for the cycle of nitrogen in ecosystems, as it makes nitrogen available for plants to use in photosynthesis.
Nitrile
Nitriles
Nitriles are a type of organic compound that contains a carbon-nitrogen triple bond. They are characterized by the presence of an alkyl or aryl group attached to a cyanide (-CN) group. Nitriles are often used as precursors to amino acids and other biologically important compounds. They can also be used as solvents, and some nitriles, such as acetonitrile, are commonly used as solvents in organic synthesis and HPLC analysis.
Nitrite
Nitrite is a chemical compound that consists of two nitrogen atoms and three oxygen atoms (NO2). It is a reducing agent and can be found naturally in some foods, such as vegetables and meats, as well as in some industrial processes. In the human body, nitrite is formed from the breakdown of dietary nitrates and can help to relax and dilate blood vessels, improving blood flow and lowering blood pressure. High levels of nitrite in the body have been linked to an increased risk of certain types of cancer, while low levels have been associated with conditions such as anemia.
Nitrites
Nitrites are a type of compound that contains a nitrogen-oxygen double bond. They are commonly found in nature and have a wide range of uses.
Nitritic
Nitroalkane
Nitroamine
Nitroamine is a type of organic compound that is derived from an amine and contains a nitro (-NO2) group. It is a highly reactive and explosive substance that is often used in the production of plastics, dyes, and pharmaceuticals.
Nitroanilide
Nitroarenes
Nitroarenes are a class of organic compounds that are derived from benzene and contain one or more nitro (-NO2) groups. They are typically obtained through the nitration of benzene or its derivatives. Nitroarenes are widely used as precursors to various dyes, pigments, and pharmaceuticals. They also have applications in the production of plastics, rubber, and other synthetic materials.
Nitrobacter
Nitrobacter is a genus of Gram-negative, aerobic bacteria that are known for their ability to oxidize nitrite (NO2-) to nitrate (NO3-). They play a crucial role in the nitrogen cycle, helping to transform nitrogen-based compounds in the environment. Nitrobacter species are typically found in soil, aquatic ecosystems, and wastewater treatment plants, where they contribute to the degradation of organic matter and the removal of excess nitrogen from the environment.