Acetyl in a sentence

(1) Coenzyme A is a carrier of acetyl groups.

(2) The acetyl group is derived from acetic acid.

(3) The peptide was acetylated by the acetyl group.

(4) The formation of acetyl-CoA requires coenzyme A.

(5) The solubility of acetyl-chloride in water is low.

(6) Threonine is converted into acetyl-CoA in the body.

(7) Acetyl CoA is used in the synthesis of fatty acids.

(8) The molecular formula of acetyl-chloride is C2H3ClO.

(9) The krebs cycle involves the oxidation of acetyl-CoA.

(10) The oxidation of Acetyl CoA generates NADH and FADH2.

Acetyl sentence

(11) Acetyl-chloride is a highly reactive acylating agent.

(12) Acetyl-chloride is commonly used in organic synthesis.

(13) The Krebs cycle is a process that generates Acetyl CoA.

(14) Acetyl is often used as a solvent in chemical reactions.

(15) The substrate was acetylated by the acetyl-CoA molecule.

(16) The acetyl group in acetyl-CoA is derived from pyruvate.

(17) The acetyl group was acetylated by the chemical reaction.

(18) The acetyl group was added to the molecule by acetylation.

(19) Acetyl-chloride is a colorless liquid with a pungent odor.

(20) Acetyl CoA is a precursor to the synthesis of cholesterol.

Acetyl make sentence

(21) Acetyl CoA is a key intermediate in the citric acid cycle.

(22) The odor of acetyl-chloride is similar to that of vinegar.

(23) Acetyl-CoA is a precursor for the synthesis of fatty acids.

(24) The acetyl group in acetyl-CoA is derived from acetic acid.

(25) Acetyl is often used as a flavoring agent in food products.

(26) Acetyl-CoA is a precursor for the synthesis of cholesterol.

(27) Acetyl CoA is produced during the breakdown of amino acids.

(28) Acetyl CoA is a substrate for the enzyme acetyltransferase.

(29) Acetyl-chloride is highly reactive with water and alcohols.

(30) Acetyl-chloride is used in the production of agrochemicals.

Sentence of acetyl

(31) The reactivity of acetyl-chloride with water is exothermic.

(32) Acetyl is often used as a reagent in laboratory experiments.

(33) Acetyl-chloride is a versatile reagent in organic chemistry.

(34) The density of acetyl-chloride is higher than that of water.

(35) Acetyl-chloride is used in the production of food additives.

(36) The acetyl-CoA molecule was rapidly acetylated by the enzyme.

(37) The activation of acetyl groups is facilitated by coenzyme A.

(38) The lipoic enzyme is involved in the synthesis of acetyl-CoA.

(39) Pyruvic acid is converted into acetyl-CoA in the mitochondria.

(40) The enzyme was acetylated by the acetyl-CoA synthetase enzyme.

Acetyl meaningful sentence

(41) The carboxyl group is involved in the formation of acetyl-CoA.

(42) Acetyl is commonly used as a preservative in the food industry.

(43) The transfer of acetyl groups to DNA is mediated by coenzyme A.

(44) To acetylate a compound, you need to add an acetyl group to it.

(45) The breakdown of Acetyl CoA generates carbon dioxide and water.

(46) Acetyl-chloride is used in the production of dyes and pigments.

(47) The synthesis of acetyl-CoA occurs in the mitochondria of cells.

(48) The acetyl group was acetylated by the acetyltransferase enzyme.

(49) Acetyl-CoA is an important intermediate in fatty acid synthesis.

(50) Acetyl-CoA is a precursor for the synthesis of steroid hormones.

Acetyl sentence examples

(51) The formation of Acetyl CoA requires the presence of coenzyme A.

(52) The production of Acetyl CoA is inhibited by high levels of ATP.

(53) The reaction of acetyl-chloride with water produces acetic acid.

(54) The ethanoyl functional group is also known as the acetyl group.

(55) The acetyl group was rapidly acetylated by the chemical reaction.

(56) Ketene can be prepared by dehydrohalogenation of acetyl chloride.

(57) The conversion of Acetyl CoA to citrate is a reversible reaction.

(58) Acetyl CoA is produced in the liver during fasting or starvation.

(59) The boiling point of acetyl-chloride is lower than that of water.

(60) The acetyl group is involved in the regulation of gene expression.

Sentence with acetyl

(61) Pyruvic acid can be converted into acetyl-CoA in the mitochondria.

(62) The deacetylation of acetyl-CoA can generate free CoA and acetate.

(63) The breakdown of acetyl-CoA releases carbon dioxide as a byproduct.

(64) Acetyl is often used as a stabilizer in the production of polymers.

(65) Acetyl-chloride is commonly used as a reagent in organic synthesis.

(66) The reaction of acetyl-chloride with alcohols yields acetyl esters.

(67) The formation of acetyl-CoA occurs during the breakdown of glucose.

(68) Acetyl-chloride is used in the production of polymers and plastics.

(69) The flash point of acetyl-chloride is lower than its boiling point.

(70) The enzyme pyruvate dehydrogenase converts pyruvate into acetyl-CoA.

Use acetyl in a sentence

(71) The production of acetyl-CoA is a key step in the citric acid cycle.

(72) Acetyl-CoA is required for the synthesis of cholesterol in the body.

(73) Acetoacetic can be synthesized from acetyl-CoA and acetyl phosphate.

(74) The transfer of acetyl groups to proteins is mediated by coenzyme A.

(75) Acetyl CoA is formed when pyruvate is converted in the mitochondria.

(76) The acetyl group was acetylated by the acetyl-CoA synthetase enzyme.

(77) Acetylcholine is synthesized from choline and acetyl-CoA in the body.

(78) Acetyl is commonly used as a precursor in the production of plastics.

(79) The acetyl group was efficiently acetylated by the acetylating agent.

(80) The acetyltransferase enzyme efficiently acetylated the acetyl group.

Sentence using acetyl

(81) The acetyl group was selectively acetylated by the acetylating agent.

(82) The transferase protein is involved in the transfer of acetyl groups.

(83) Ketene can be used as a source of acetyl groups in organic reactions.

(84) The conversion of pyruvic acid to acetyl-CoA releases carbon dioxide.

(85) Acetyl-chloride is often used in the production of dyes and pigments.

(86) The reaction of acetyl-chloride with amines produces acylated amines.

(87) Acetyl-CoA is used as a substrate in the production of ketone bodies.

(88) The chemical structure of biacetyls is composed of two acetyl groups.

(89) Acetyl-chloride is used in the production of perfumes and fragrances.

(90) The acetylative pathway is a major source of acetyl-CoA for the cell.

Acetyl example sentence

(91) The krebs cycle begins with the conversion of pyruvate to acetyl-CoA.

(92) Acetyl is an important building block in the synthesis of fatty acids.

(93) The acetyl-CoA molecule successfully acetylated the acetylating agent.

(94) The deacetylation of acetyl-CoA can lead to the production of acetate.

(95) Acetyl-chloride is highly reactive and should be handled with caution.

(96) Cocarboxylase is involved in the conversion of pyruvate to acetyl-CoA.

(97) Acetyl-CoA is produced in the mitochondria during aerobic respiration.

(98) The acetyl group can be easily added or removed from organic molecules.

(99) The acetyl group is responsible for the characteristic taste of butter.

(100) Acetyl-chloride is incompatible with strong bases and oxidizing agents.

Sentence with word acetyl

(101) The breakdown of pyruvate into acetyl-CoA is facilitated by coenzyme A.

(102) The production of Acetyl CoA is a key step in the breakdown of glucose.

(103) Acetyl is a chemical compound commonly found in many organic substances.

(104) The acetyl group is responsible for the characteristic smell of vinegar.

(105) The deacetylation of acetyl groups can alter the properties of polymers.

(106) Acetyl-chloride is commonly used in the acetylation of natural products.

(107) Dehydrogenases are crucial for the conversion of pyruvate to acetyl-CoA.

(108) The breakdown of amino acids can generate acetyl-CoA as an intermediate.

(109) Acetyl-chloride reacts with primary and secondary amines to form amides.

(110) Acetyl-chloride is a hazardous material and should be handled with care.

Sentence of acetyl

(111) Histone deacetylases are enzymes that remove acetyl groups from histones.

(112) The deacetylation of acetyl-CoA can affect its role in energy metabolism.

(113) The conversion of pyruvic acid to acetyl-CoA is an irreversible reaction.

(114) The reaction of acetyl-chloride with aldehydes yields acylated aldehydes.

(115) The reaction of acetyl-chloride with primary amines yields N-acyl amines.

(116) Coenzyme A acts as a carrier of acetyl groups during metabolic reactions.

(117) Decarboxylate the pyruvate to produce acetyl-CoA in cellular respiration.

(118) The acetyl group is often used as a functional group in organic chemistry.

(119) Acetyl is commonly used in the production of pharmaceutical intermediates.

(120) Acetyl is commonly used in the production of solvents and cleaning agents.

Acetyl used in a sentence

(121) Histone acetyltransferases are enzymes that add acetyl groups to histones.

(122) Acetyl-chloride is often used as a catalyst in certain chemical reactions.

(123) The breakdown of fatty acids into acetyl-CoA is facilitated by coenzyme A.

(124) Acetylate is a chemical process used to add an acetyl group to a compound.

(125) Ketone bodies can be converted back into acetyl-CoA for energy production.

(126) The breakdown of ketone bodies generates acetyl-CoA for energy production.

(127) The breakdown of amino acids into acetyl-CoA is facilitated by coenzyme A.

(128) Acetyl CoA is a molecule that plays a crucial role in cellular metabolism.

(129) The conversion of Acetyl CoA to acetoacetate is a key step in ketogenesis.

(130) Acetyl-CoA is an important molecule involved in cellular energy production.

Acetyl sentence in English

(131) Acetyl plays a crucial role in the metabolism of carbohydrates in the body.

(132) The acetyl-CoA molecule was acetylated by the acetyl-CoA synthetase enzyme.

(133) The activation of acetate to acetyl-CoA is a key step in energy production.

(134) Acetyl-chloride is a key intermediate in the production of pharmaceuticals.

(135) Pyruvate is converted into acetyl-CoA before entering the citric acid cycle.

(136) The acetyl group was effectively acetylated by the acetyltransferase enzyme.

(137) The transfer of acetyl groups to the mitochondria is mediated by coenzyme A.

(138) The breakdown of ketone bodies into acetyl-CoA is facilitated by coenzyme A.

(139) The acetyl group was successfully acetylated by the acetyltransferase enzyme.

(140) The reaction of acetyl-chloride with carboxylic acids produces acid chlorides.

(141) The formation of acetyl-CoA is an important step in the metabolism of glucose.

(142) Pyruvic acid can be converted into acetyl-CoA and enter the citric acid cycle.

(143) Acetyl CoA is transported into the mitochondria by a specific carrier protein.

(144) Acetyl CoA is a molecule that is essential for the synthesis of ketone bodies.

(145) Thiamine pyrophosphate is involved in the conversion of pyruvate to acetyl-CoA.

(146) The structure of acetoxyls is characterized by the presence of an acetyl group.

(147) The acetylating process involves the addition of an acetyl group to a molecule.

(148) The deacetylation of acetyl groups can impact the properties of natural fibers.

(149) The transfer of acetyl groups from coenzyme A to other molecules is reversible.

(150) Leucin can be metabolized into acetyl-CoA, a key molecule in energy production.

(151) The acetylation process involves the transfer of an acetyl group to a molecule.

(152) The haloform reaction is often used to convert acetyl chloride into chloroform.

(153) Acetyl-chloride is a potent irritant to the eyes, skin, and respiratory system.

(154) Acetyl-chloride is a reactive intermediate in the synthesis of pharmaceuticals.

(155) Acetylating is a versatile method for introducing acetyl groups into molecules.

(156) Pyruvic acid can be converted into acetyl-CoA through a decarboxylation reaction.

(157) Butyryl-CoA is converted into acetyl-CoA through a series of enzymatic reactions.

(158) The conversion of acetyl-CoA to malonyl-CoA is a key step in fatty acid synthesis.

(159) Acetyl is an important component in the synthesis of various pharmaceutical drugs.

(160) Acetyl is commonly used in the textile industry for dyeing and printing processes.

(161) The process of acetylation involves the addition of an acetyl group to a molecule.

(162) The structure of acetamide consists of an acetyl group attached to an amino group.

(163) The conversion of Acetyl CoA to ATP is an important source of energy for the body.

(164) The tricarboxylic acid cycle begins with the conversion of pyruvate to acetyl-CoA.

(165) The acetyl group is involved in the breakdown of fatty acids for energy production.

(166) The acetyl group is responsible for the characteristic smell of nail polish remover.

(167) The use of acetyl-chloride in the laboratory requires adherence to safety protocols.

(168) The conversion of fatty acids to acetyl-CoA occurs in the process of beta-oxidation.

(169) The pyruvate molecule can decarboxylate into acetyl-CoA during cellular respiration.

(170) Acetyl is an important component in the synthesis of various fragrances and perfumes.

(171) The conversion of pyruvic acid to acetyl-CoA is an important step in the Krebs cycle.

(172) Acetyl-chloride is an important intermediate in the production of acetyl derivatives.

(173) Acetoacetic can be converted into acetyl-CoA through a series of enzymatic reactions.

(174) The transfer of acetyl groups from one molecule to another is mediated by coenzyme A.

(175) The conversion of acetyl-CoA to citrate is an important step in the citric acid cycle.

(176) The reaction of acetyl-chloride with water produces acetic acid and hydrogen chloride.

(177) The synthesis of acetoacetic involves the condensation of acetyl-CoA with malonyl-CoA.

(178) The chemical group known as the acetyl is responsible for the acetylation of proteins.

(179) Acetyl-CoA is involved in the regulation of insulin secretion in pancreatic beta cells.

(180) The acetyl-CoA molecule was efficiently acetylated by the acetyl-CoA synthetase enzyme.

(181) The production of acetoacetic involves the condensation of two molecules of acetyl-CoA.

(182) Acetyl-CoA is an important molecule for the production of ATP in the citric acid cycle.

(183) The conversion of pyruvate to acetyl-CoA is an irreversible step in glucose metabolism.

(184) Acetyl-CoA is involved in the regulation of gene expression through histone acetylation.

(185) The acetyl group can be easily modified to introduce different chemical functionalities.

(186) The condensation of acetyl-CoA with oxaloacetate forms citrate in the citric acid cycle.

(187) Acetyl-CoA is a crucial molecule for the synthesis of acetylcholine, a neurotransmitter.

(188) The conversion of acetyl-CoA to malonyl-CoA is a regulatory step in fatty acid synthesis.

(189) Acetyl-CoA is an important molecule for the synthesis of heme, a component of hemoglobin.

(190) The conversion of acetyl-CoA to citrate is a rate-limiting step in the citric acid cycle.

(191) The hydrolyzable acetyl group in the molecule was easily removed by enzymatic hydrolysis.

(192) Acetyl-chloride can be used to convert alcohols into their corresponding acyl derivatives.

(193) The regulation of Acetyl CoA production is critical for maintaining metabolic homeostasis.

(194) The reactivity of acetyl-chloride with alcohols is due to the formation of acyl chlorides.

(195) The conversion of pyruvate to acetyl-CoA is catalyzed by the enzyme pyruvate dehydrogenase.

(196) Many pharmaceutical compounds are synthesized using acetyl-chloride as a starting material.

(197) Acetyl-CoA is a carrier of acetyl groups that can be used in various biosynthetic pathways.

(198) Acetyl-chloride is a corrosive substance and should be stored in a tightly sealed container.

(199) The production of acetyl-chloride involves the reaction of acetic acid with thionyl chloride.

(200) Acetyl-chloride is a versatile reagent that finds applications in various chemical processes.

(201) Acetyl-CoA is a central molecule in the metabolism of carbohydrates, lipids, and amino acids.

(202) The production of acetyl-CoA from glucose is an essential step in cellular energy production.

(203) The conversion of acetyl-CoA to acetoacetate is a key step in the production of ketone bodies.

(204) Acetyl-chloride is an important reagent in the synthesis of acetyl derivatives of amino acids.

(205) The enzyme acetyl-CoA carboxylase is involved in the synthesis of fatty acids from acetyl-CoA.

(206) Acetyl-CoA is a key molecule in the regulation of gene expression through histone acetylation.

(207) The conversion of pyruvic acid to acetyl-CoA is catalyzed by the enzyme pyruvate dehydrogenase.

(208) The function of coenzyme A is to carry and transfer acetyl groups during biochemical reactions.

(209) Acetyl-chloride can be used to convert carboxylic acids into their corresponding acid chlorides.

(210) Acetyl-chloride is an important building block in the synthesis of pharmaceutical intermediates.

(211) Acetyl-CoA is a high-energy molecule that carries acetyl groups for various metabolic reactions.

(212) The production of acetyl-CoA from fatty acids occurs in the mitochondria through beta-oxidation.

(213) Acetifications are chemical reactions that involve the addition of an acetyl group to a compound.

(214) Deacetylation is a chemical process that involves the removal of an acetyl group from a molecule.

(215) Valine is converted into a compound called acetyl-CoA, which is used in the production of energy.

(216) The process of oxidatively decarboxylating pyruvate produces acetyl-CoA for the citric acid cycle.

(217) The acetyl group in acetyl-CoA can be transferred to other molecules in various metabolic pathways.

(218) The acetyl group in acetyl-CoA can be transferred to other molecules in a process called acetylation.

(219) The mechanism of acetifications involves the transfer of an acetyl group from one molecule to another.

(220) Glyceraldehyde-3-phosphate is an essential molecule in the production of acetyl-CoA during glycolysis.

(221) Acetoacetic can be converted into acetyl-CoA through the action of the enzyme acetoacetyl-CoA thiolase.

(222) Acetyl-CoA is an important molecule for the synthesis of neurotransmitters like serotonin and dopamine.

(223) The use of acetyl-chloride in industrial processes requires proper ventilation and protective equipment.

(224) The breakdown of ketone bodies generates acetyl-CoA, which can be used as an energy source by the brain.

(225) The nadp molecule is a cofactor for the enzyme responsible for the conversion of pyruvate to acetyl-CoA.

(226) The breakdown of acetyl-CoA releases high-energy electrons that can be used in oxidative phosphorylation.

(227) The use of acetyl-chloride in the production of polymers requires careful control of reaction parameters.

(228) The use of acetyl-chloride in the pharmaceutical industry requires compliance with regulatory guidelines.

(229) The reaction between oxaloacetic acid and acetyl-CoA forms citrate, the first product of the Krebs cycle.

(230) The breakdown of acetyl-CoA generates reducing equivalents that can be used in the electron transport chain.

(231) Triose is a vital component in the production of acetyl-CoA, a molecule involved in many metabolic pathways.

(232) The use of acetyl-chloride in the synthesis of pharmaceuticals requires careful control of reaction conditions.

(233) Acetyl-CoA is an important molecule in the production of ketone bodies during fasting or low-carbohydrate diets.

(234) Acetyl-CoA is a precursor for the synthesis of acetylcholine, a neurotransmitter involved in muscle contraction.

(235) The use of acetyl-chloride in the production of fine chemicals requires expertise in handling hazardous materials.

(236) Isoleucine is converted into acetyl-CoA, which is a key molecule in the citric acid cycle, and it helps generate ATP.

(237) The toxicity of acetanilide is due to its metabolite, N-acetyl-p-benzoquinone imine, which can cause methemoglobinemia.

(238) Isoleucine is converted into acetyl-CoA, which is used in the citric acid cycle to produce ATP, the body's main source of energy.

(239) The citrate synthase enzyme is essential for the citrate cycle, and it catalyzes the formation of citrate from acetyl-CoA and oxaloacetate.

(240) Isoleucine is a precursor to other important molecules in the body, such as acetyl-CoA and succinyl-CoA, which are involved in energy production.

(241) The amino group can be protected by various chemical groups, such as acetyl, benzyl, or Boc, to prevent unwanted reactions or to facilitate specific transformations in organic synthesis.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Acetyl. They do not represent the opinions of TranslateEN.com.