Carboxyl in a sentence

(1) The compound acetylates the carboxyl group.

(2) The carboxyl group is polar and hydrophilic.

(3) The carboxyl group is often abbreviated as COOH.

(4) The carboxyl group is a key feature of organic acids.

(5) The carboxyl group is a common target for drug design.

(6) Amino acids contain a carboxyl group and an amino group.

(7) The carboxyl group is a common feature of organic acids.

(8) The carboxyl group is a key feature of organic chemistry.

(9) The carboxyl group is involved in the synthesis of lipids.

(10) The carboxyl group can be found in fatty acids and lipids.

Carboxyl sentence

(11) The carboxyl group can be ionized to form a carboxylate ion.

(12) The carboxyl group is found in the structure of acetic acid.

(13) The carboxyl group is an important component of amino acids.

(14) Oxalic acid is a dicarboxylic acid with two carboxyl groups.

(15) The chemical structure of malates includes a carboxyl group.

(16) The carboxyl group is essential for the function of enzymes.

(17) Amino acids contain both an amino group and a carboxyl group.

(18) The carboxyl group is negatively charged at physiological pH.

(19) The carboxyl group can be protected during organic synthesis.

(20) The carboxyl group is a key functional group in biochemistry.

Carboxyl make sentence

(21) The carboxyl group is involved in the regulation of blood pH.

(22) The carboxyl group can be modified through chemical reactions.

(23) The carboxyl group is found in the structure of many vitamins.

(24) The carboxyl group is important in the regulation of blood pH.

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

(26) The carbon chain in carboxylic acids contains a carboxyl group.

(27) The carboxyl chemical group is commonly found in organic acids.

(28) The carboxyl group is a key component of the citric acid cycle.

(29) The carboxyl group is involved in the synthesis of DNA and RNA.

(30) The carboxyl group can form hydrogen bonds with other molecules.

Sentence of carboxyl

(31) Aspartic acid is an acidic amino acid due to its carboxyl group.

(32) The carboxyl group is a key component of the amino acid glycine.

(33) Carboxylates are organic compounds that contain a carboxyl group.

(34) The structure of aconitic acid consists of three carboxyl groups.

(35) The carboxyl group can be deprotonated to form a carboxylate ion.

(36) The carboxyl group is a key component of many synthetic polymers.

(37) The carboxyl group is found in the structure of many amino acids.

(38) The carboxyl group is important in the formation of peptide bonds.

(39) Propanedioic acid is a dicarboxylic acid with two carboxyl groups.

(40) The carboxyl group in benzoic acid is used as a food preservative.

Carboxyl meaningful sentence

(41) The carboxyl group is involved in the metabolism of carbohydrates.

(42) The carboxyl group is important in the metabolism of carbohydrates.

(43) The carboxyl group is often involved in enzyme-catalyzed reactions.

(44) The carboxyl group is a characteristic feature of carboxylic acids.

(45) The word carboxyl refers to a functional group in organic chemistry.

(46) The carboxyl group is a functional group found in organic molecules.

(47) The carboxyl group is involved in the regulation of gene expression.

(48) The carboxyl group can be used to modify the properties of polymers.

(49) The carboxyl group is responsible for the sour taste of many fruits.

(50) Carboxylic acids are organic compounds that contain a carboxyl group.

Carboxyl sentence examples

(51) The carboxyl group is a common target for enzyme-catalyzed reactions.

(52) The carboxyl group is involved in the synthesis of neurotransmitters.

(53) The carboxyl group is important in the regulation of gene expression.

(54) The carboxyl group is responsible for the acidity of carboxylic acids.

(55) The carboxyl group is a common target for drug design and development.

(56) The carboxyl group is responsible for the sour taste of citrus fruits.

(57) The carboxyl group in formic acid is responsible for its pungent odor.

(58) The carboxyl group is often found in organic acids such as acetic acid.

(59) Carboxyl groups can be used as catalysts in certain chemical reactions.

(60) Carboxyl groups can be used as targets for drug design and development.

Sentence with carboxyl

(61) The carboxyl group is responsible for the sour taste of certain fruits.

(62) The carboxyl group is involved in the regulation of metabolic pathways.

(63) The aspartic acid molecule contains a carboxyl group and an amino group.

(64) Dicarboxylic acids have two carboxyl groups in their chemical structure.

(65) The carboxyl group in carbonic acid plays a role in regulating blood pH.

(66) The carboxyl group is a site of chemical reactivity in organic chemistry.

(67) The reactivity of propanedioic acid is influenced by its carboxyl groups.

(68) Dicarboxylic acids have two carboxyl groups in their molecular structure.

(69) Carboxylic acid is a type of organic acid that contains a carboxyl group.

(70) The carboxyl group is often used as a starting point for organic synthesis.

Use carboxyl in a sentence

(71) The acidity of pentanoic acid is due to the presence of the carboxyl group.

(72) The carboxyl group is a common target for enzyme inhibitors and activators.

(73) The carboxyl group is often used in the synthesis of peptides and proteins.

(74) The carboxyl group in acetic acid is responsible for its acidic properties.

(75) The carboxyl group is a common functional group in pharmaceutical compounds.

(76) The carboxyl group in amino acids is responsible for their acidic properties.

(77) Carboxyl groups can be used as building blocks for the synthesis of polymers.

(78) Carboxylation is a chemical process that adds a carboxyl group to a molecule.

(79) Carboxylating is a chemical process that adds a carboxyl group to a molecule.

(80) The acidity of carboxylic acids is due to the presence of the carboxyl group.

Sentence using carboxyl

(81) The carboxyl group is polar and can form hydrogen bonds with other molecules.

(82) The carboxyl group is responsible for the acidic properties of organic acids.

(83) Polycarboxylic acids have multiple carboxyl groups attached to a carbon chain.

(84) The adipate molecule consists of a long carbon chain with two carboxyl groups.

(85) The carboxyl group in malic acid is involved in the process of photosynthesis.

(86) The carboxyl group in malic acid is what gives green apples their tart flavor.

(87) The carboxyl group is important in the metabolism of carbohydrates and lipids.

(88) The chemical structure of alanine includes a carboxyl group and an amino group.

(89) The function of carboxylase is to add a carboxyl group to a substrate molecule.

(90) The decarboxylation process involves removing a carboxyl group from a molecule.

Carboxyl example sentence

(91) The carboxyl group is essential for the formation of peptide bonds in proteins.

(92) The carboxyl group is involved in the synthesis of many important biomolecules.

(93) Carboxylate ions are negatively charged due to the presence of a carboxyl group.

(94) Carboxyl groups can be used as probes for studying protein-protein interactions.

(95) The carboxyl group is essential for the function of carboxylic acid derivatives.

(96) Monocarboxylic acids are organic compounds that contain only one carboxyl group.

(97) Tricarboxylic acids are organic compounds with three carboxyl functional groups.

(98) The carboxyl group is found in many important biomolecules, such as DNA and RNA.

(99) The carboxyl group in fatty acids is important for their role in energy storage.

(100) The carboxyl group in tartaric acid is responsible for the sour taste of grapes.

Sentence with word carboxyl

(101) Carboxyl groups are often represented by the symbol -COOH in chemical structures.

(102) The process of decarboxylating involves removing a carboxyl group from a molecule.

(103) Carboxyl groups are important for the acidity and reactivity of organic compounds.

(104) The chemical structure of propionate includes a carboxyl group and a methyl group.

(105) The carboxyl group is also involved in the metabolism of carbohydrates and lipids.

(106) The amino group, along with the carboxyl group, forms the backbone of amino acids.

(107) The carboxyl group in aspirin is responsible for its anti-inflammatory properties.

(108) Carboxyl groups can be selectively activated for specific chemical transformations.

(109) Carboxyl groups can be used as precursors for the synthesis of bioactive compounds.

(110) The carboxyl group is often found at the end of a carbon chain in carboxylic acids.

Sentence of carboxyl

(111) Tricarboxylic acids can be classified based on the position of the carboxyl groups.

(112) Ketoacids are organic compounds that contain a carbonyl group and a carboxyl group.

(113) The carboxyl group is also important in the metabolism of carbohydrates and lipids.

(114) The carboxyl group is important in the study of biochemistry and molecular biology.

(115) The carboxyl group is an important concept for students studying organic chemistry.

(116) The carboxyl group can undergo reactions such as esterification and decarboxylation.

(117) The carboxylate anion is negatively charged due to the presence of a carboxyl group.

(118) The carboxyl group is important in the regulation of blood pH and acid-base balance.

(119) The chemical structure of aspartic acid includes a carboxyl group and an amino group.

(120) Carboxyl groups can act as both acids and bases, depending on the pH of the solution.

Carboxyl used in a sentence

(121) Carboxyl groups are composed of a carbon atom, two oxygen atoms, and a hydrogen atom.

(122) The carboxyl group is a key functional group in the synthesis of pharmaceutical drugs.

(123) The peptide bond is formed between the alpha-amino group and the alpha-carboxyl group.

(124) The carboxyl group in carboxylic acid can be protected with various protecting groups.

(125) The carboxyl group in lactic acid is produced during anaerobic respiration in muscles.

(126) The carboxyl group is found in many amino acid derivatives, such as neurotransmitters.

(127) The structure of carboxypeptidase allows it to bind to the carboxyl group of a peptide.

(128) Carboxylase is an enzyme that catalyzes the addition of a carboxyl group to a molecule.

(129) The carboxyl group is often used in the production of food additives and preservatives.

(130) The carboxyl group is important in the formation of many biologically active compounds.

Carboxyl sentence in English

(131) The carboxyl group is composed of a carbon atom, two oxygen atoms, and a hydrogen atom.

(132) Amino acids are organic compounds that contain both an amino group and a carboxyl group.

(133) The carboxyl group is important in the synthesis of pharmaceuticals and other chemicals.

(134) The carboxyl group in acetic acid is what gives vinegar its sour taste and pungent odor.

(135) The carboxyl group is found in many pharmaceuticals and is important for their activity.

(136) Carboxyl groups can be selectively reduced to aldehydes or alcohols in organic synthesis.

(137) The acidity of polycarboxylic acids increases with the number of carboxyl groups present.

(138) Carboxypeptidase is highly specific and only acts on peptides with a free carboxyl group.

(139) The carboxyl group is acidic in nature and can donate a proton to form a carboxylate ion.

(140) The carboxyl group is involved in the regulation of gene expression and protein function.

(141) The presence of carboxyl groups in amino acids allows for the formation of peptide bonds.

(142) The ester linkage is formed by the reaction between a hydroxyl group and a carboxyl group.

(143) Carboxyl groups are involved in the regulation of gene expression through DNA methylation.

(144) Decarboxylase is an enzyme that catalyzes the removal of a carboxyl group from a molecule.

(145) The carboxyl group in citric acid is involved in the Krebs cycle, a key metabolic pathway.

(146) The carboxyl group consists of a carbon atom bonded to an oxygen atom and a hydroxyl group.

(147) The carboxyl group is found in many common household products, such as vinegar and aspirin.

(148) Carboxyl groups are composed of a carbon atom bonded to an oxygen atom and a hydroxyl group.

(149) The carboxyl group is often used in the production of polymers, such as nylon and polyester.

(150) The carboxyl group is found in fatty acids and is responsible for their solubility in water.

(151) The peptide bond connects the carboxyl group of one amino acid to the amino group of another.

(152) The stability of tetracarboxylic compounds can be enhanced by protecting the carboxyl groups.

(153) The carboxyl group is also important in the synthesis of pharmaceuticals and other chemicals.

(154) Carboxyl groups can be protected during chemical reactions to prevent unwanted side reactions.

(155) Carboxyl groups can be protected with different protecting groups to control their reactivity.

(156) The carboxyl group is polar due to the electronegativity difference between carbon and oxygen.

(157) Carboxyl groups are found in many important biomolecules, such as amino acids and fatty acids.

(158) The carboxyl group is involved in the synthesis of many natural products, such as antibiotics.

(159) Carboxyl groups can be used as anchoring points for the attachment of biomolecules to surfaces.

(160) Carboxyl groups play a crucial role in the structure and function of many biological molecules.

(161) Tetracarboxylic acids exhibit unique chemical properties due to their multiple carboxyl groups.

(162) The carboxyl group is important in the synthesis of vitamins, such as vitamin C and folic acid.

(163) The acidity of carboxylic acid is due to the release of a hydrogen ion from the carboxyl group.

(164) Trypsin cleaves peptide bonds specifically at the carboxyl side of lysine and arginine residues.

(165) The carboxyl group in carboxylic acid can be activated through the use of strong acids or bases.

(166) The carboxyl group is a key component of amino acids, which are the building blocks of proteins.

(167) The carboxyl group is a polar functional group that can form hydrogen bonds with other molecules.

(168) The carboxyl group is involved in the synthesis of neurotransmitters, such as GABA and glutamate.

(169) The carboxyl group in uric acid is what makes it a weak acid and contributes to its role in gout.

(170) When a carboxyl group is deprotonated, it becomes a carboxylate ion, which is negatively charged.

(171) The carboxyl group is often used in the synthesis of pharmaceuticals and other organic compounds.

(172) The carboxyl group is often used in the synthesis of organic compounds, such as esters and amides.

(173) The carboxyl group is also found in fatty acids, which are important components of cell membranes.

(174) The carboxyl group can be used to form esters, which are commonly used in perfumes and flavorings.

(175) The carboxyl group in oxalic acid can form insoluble salts with calcium, leading to kidney stones.

(176) The carboxyl group in succinic acid is involved in the production of ATP in the citric acid cycle.

(177) The carboxyl group is a key component of citric acid, a molecule involved in cellular respiration.

(178) Carboxyl groups can be modified through chemical reactions to introduce different functional groups.

(179) Carboxyl groups can be used as starting materials for the synthesis of pharmaceutical intermediates.

(180) Decarboxylation is a chemical process that involves the removal of a carboxyl group from a molecule.

(181) The structure of palmitic acid consists of a long hydrocarbon chain with a carboxyl group at one end.

(182) The carboxyl group in carboxylic acid can undergo decarboxylation reactions under certain conditions.

(183) The carboxyl group in aspirin is responsible for its anti-inflammatory and pain-relieving properties.

(184) The carboxyl group in carboxylic acid can be reduced to an alcohol through the use of reducing agents.

(185) The carboxyl group in carboxylic acid can be converted into an amide through the reaction with amines.

(186) Amino acids contain both an amino group and a carboxyl group, which allows them to form peptide bonds.

(187) The carboxyl group is a versatile functional group that can be used in a variety of chemical reactions.

(188) The acidity of carboxylic acid is due to the presence of the carboxyl group, which can donate a proton.

(189) Carboxylic acid is a type of organic acid, and it is characterized by the presence of a carboxyl group.

(190) The chemical structure of stearine consists of a long hydrocarbon chain with a carboxyl group at one end.

(191) The carboxyl group in oxalic acid can form insoluble salts with calcium, which can lead to kidney stones.

(192) The carboxyl group is important for the buffering capacity of biological fluids, such as blood and urine.

(193) Amino acids contain a carboxyl group and an amino group, which makes them the building blocks of proteins.

(194) Carboxyl groups can be used as markers for the identification of specific compounds in analytical chemistry.

(195) The carboxyl group in citric acid is involved in the Krebs cycle, which is a key metabolic pathway in cells.

(196) Carboxyl groups can be derivatized to introduce specific functional groups for further chemical modifications.

(197) Carboxyl groups can be used as indicators for the presence of certain functional groups in chemical reactions.

(198) The carboxyl group is a functional group that consists of a carbon atom, an oxygen atom, and a hydroxyl group.

(199) The carboxyl group can be found in a variety of compounds, including fatty acids, amino acids, and acetic acid.

(200) The structure of amino acids includes a central carbon atom, an amino group, a carboxyl group, and a side chain.

(201) The carboxyl group is responsible for the sour taste of many fruits and vegetables, such as lemons and tomatoes.

(202) The carboxyl group can be modified through chemical reactions to create new compounds with different properties.

(203) The reactivity of tetracarboxylic compounds can be influenced by the steric hindrance around the carboxyl groups.

(204) The amido bond in peptides is formed between the carboxyl group of one amino acid and the amino group of another.

(205) The carboxyl group is a key component of the citric acid cycle, which is an important metabolic pathway in cells.

(206) The carboxyl group is involved in the regulation of gene expression through the modification of histone proteins.

(207) The carboxyl group is an important component of many biomolecules, including proteins, lipids, and carbohydrates.

(208) Although carboxyl groups are commonly found in organic compounds, they can also be present in inorganic substances.

(209) The carboxyl group is polar and hydrophilic, which makes it important for the solubility of many organic compounds.

(210) The carboxyl group is often used as a site for chemical modification in the development of new drugs and therapies.

(211) The carboxyl group is a versatile functional group that plays a key role in many chemical and biological processes.

(212) The carboxyl group is a key component of the citric acid cycle, which is responsible for generating energy in cells.

(213) The carboxyl group in succinic acid is involved in the production of ATP, which is the primary energy source for cells.

(214) The carboxyl group is often used as a functional group in the synthesis of pharmaceuticals and other organic compounds.

(215) The carboxyl group is a versatile functional group that plays a critical role in many biological and chemical processes.

(216) When a carboxyl group is deprotonated, it becomes a carboxylate ion, which can act as a nucleophile in chemical reactions.

(217) The structure of a monocarboxylic acid consists of a carbon atom bonded to a carboxyl group and one other functional group.

(218) Carboxylate compounds can exhibit different chemical properties depending on the substituents attached to the carboxyl group.

(219) The carboxyl group is a key component of fatty acids, which are important for energy storage and membrane structure in cells.

(220) The carboxyl group in fatty acids is responsible for their acidic properties and plays a role in their metabolism in the body.

(221) The carboxyl group is a common target for drug design, as many enzymes and receptors in the body contain this functional group.

(222) The carboxyl group is a functional group found in organic molecules, and it is responsible for the acidity of carboxylic acids.

(223) The carboxyl group is a versatile functional group that plays a critical role in many aspects of organic chemistry and biochemistry.

(224) The carboxyl group in lactic acid is involved in the fermentation process, which is used to produce foods like yogurt and sauerkraut.

(225) The carboxyl group is involved in the regulation of pH in many biological systems, including the digestive tract and the bloodstream.

(226) The presence of a carboxyl group in a molecule can affect its solubility in water, as it can form hydrogen bonds with water molecules.

(227) The carboxyl group is an important functional group in the structure of proteins, as it is involved in the formation of peptide bonds.

(228) The carboxyl group is often involved in the regulation of gene expression, as it can affect the binding of transcription factors to DNA.

(229) The carboxyl group is a functional group that contains a carbon atom double-bonded to an oxygen atom and single-bonded to a hydroxyl group.

(230) When a carboxyl group is attached to a hydrocarbon chain, it forms a carboxylic acid, which can be used in a variety of chemical reactions.

(231) Although the carboxyl group is commonly found in organic molecules, it is also present in some inorganic compounds, such as carbon dioxide.

(232) The acidity of a carboxyl group can be influenced by the electron-withdrawing or electron-donating properties of adjacent functional groups.

(233) The carboxyl group is a functional group that contains both a carbonyl group and a hydroxyl group, and it is found in many organic compounds.

(234) The carboxyl group is a versatile functional group that can be used in many different chemical reactions, such as esterification or amidation.

(235) The amide bond in proteins is formed through a condensation reaction between the carboxyl group of one amino acid and the amino group of another.

(236) In some cases, carboxyl groups can be used to create new types of materials with unique properties, such as polymers and other advanced materials.

(237) Although the carboxyl group is relatively stable, it can be modified through chemical reactions to create new compounds with different properties.

(238) When a carboxyl group is deprotonated, it becomes a carboxylate ion, which is negatively charged and more reactive than the neutral carboxyl group.

(239) The carboxyl group in tannic acid is responsible for its astringent properties, which can be used to treat diarrhea and other gastrointestinal issues.

(240) The carboxyl group is a functional group that contains a carbon atom, an oxygen atom, and a hydroxyl group, and it is found in many organic molecules.

(241) Although the carboxyl group is a common functional group in organic chemistry, its reactivity can vary depending on the surrounding chemical environment.

(242) The carboxyl group is a polar functional group, and it can form hydrogen bonds with other molecules, which makes it important for many biological processes.

(243) When a carboxyl group is attached to a nitrogen atom, it forms an amide bond, which is important in the structure and function of many biological molecules.

(244) The carboxyl group is important in the metabolism of many living organisms, as it is involved in the breakdown of fatty acids and the synthesis of amino acids.

(245) Although carboxyl groups are typically found in organic molecules, they can also be found in some inorganic compounds, such as carbon dioxide and carbonic acid.

(246) The carboxyl group is a key component of many organic acids, such as acetic acid or citric acid, which are important for metabolism and energy production in cells.

(247) Although carboxyl groups are commonly found in organic molecules, they can also be synthesized in the laboratory using a variety of different methods and techniques.

(248) Despite their importance in organic chemistry, carboxyl groups are not always easy to work with, and they can be quite reactive and unstable under certain conditions.

(249) When carboxyl groups are present in a molecule, they can act as both an acid and a base, which makes them very versatile and useful in many different chemical reactions.

(250) When carboxyl groups are present in a molecule, they can interact with other functional groups in complex ways, leading to a wide range of chemical and biological effects.

(251) One of the most important properties of carboxyl groups is their ability to form strong hydrogen bonds with other molecules, which can help to stabilize complex molecular structures.

(252) When carboxyl groups are attached to a carbon atom that is part of a larger molecule, they can have a significant impact on the overall chemical and physical properties of that molecule.

(253) Carboxylic acid is a type of organic compound that contains a carboxyl group, which is a functional group consisting of a carbon atom double-bonded to an oxygen atom and single-bonded to a hydroxyl group.

(254) Despite their complexity and versatility, carboxyl groups are still being studied and researched by scientists around the world, as they continue to play a critical role in many different areas of chemistry and biology.

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