Amino in a sentence

(1) Alanine is an amino acid.

(2) Gly is an important amino acid.

(3) Valine is a nonpolar amino acid.

(4) Leucin is a nonpolar amino acid.

(5) Proline is a nonpolar amino acid.

(6) Asparagine is a polar amino acid.

(7) Gly is a non-essential amino acid.

(8) Valine is an essential amino acid.

(9) Leucin is an essential amino acid.

(10) Alanins are important amino acids.

Amino sentence

(11) Protein is made up of amino acids.

(12) Leucin is a hydrophobic amino acid.

(13) Threonine is a non-polar amino acid.

(14) Histidine is an essential amino acid.

(15) Asparagines are a type of amino acid.

(16) Isoleucine is a non-polar amino acid.

(17) Glycine is a non-essential amino acid.

(18) Alanine is a non-essential amino acid.

(19) Alanins are non-essential amino acids.

(20) Antibodies are made up of amino acids.

Amino make sentence

(21) Isoleucine is an essential amino acid.

(22) Caseinates are a source of amino acids.

(23) Autolyzates are a source of amino acids.

(24) The protein delocalizes the amino acids.

(25) Aspartame is made up of two amino acids.

(26) Peptides are short chains of amino acids.

(27) Proteins can metabolize into amino acids.

(28) Aminobutyric acid is a type of amino acid.

(29) Aspartames are made up of two amino acids.

(30) Proteins are metabolised into amino acids.

Sentence of amino

(31) Cysteine is a sulfur-containing amino acid.

(32) Anticodons are specific to each amino acid.

(33) Asparagines are a non-essential amino acid.

(34) There are 20 different types of amino acid.

(35) Each codon codes for a specific amino acid.

(36) Casein is a source of essential amino acids.

(37) Buckwheats are a good source of amino acids.

(38) Apoenzymes are synthesized from amino acids.

(39) There are 20 different types of amino acids.

(40) The microbe was able to produce amino acids.

Amino meaningful sentence

(41) Oligopeptide is a short chain of amino acids.

(42) The codon AGU codes for the amino acid serine.

(43) The codon UCA codes for the amino acid serine.

(44) The codon AAA codes for the amino acid lysine.

(45) The codon AGC codes for the amino acid serine.

(46) Protease hydrolyzes proteins into amino acids.

(47) Oligopeptides are short chains of amino acids.

(48) Theanine is an amino acid found in tea leaves.

(49) The hydrolysis of proteins yields amino acids.

(50) The codon GCA codes for the amino acid alanine.

Amino sentence examples

(51) The codon UUA codes for the amino acid leucine.

(52) The codon CCC codes for the amino acid proline.

(53) The codon GCU codes for the amino acid alanine.

(54) The codon GGA codes for the amino acid glycine.

(55) The codon UUG codes for the amino acid leucine.

(56) The codon CCG codes for the amino acid proline.

(57) Soja is a good source of essential amino acids.

(58) The amino acids were azotized to form proteins.

(59) The codon GGC codes for the amino acid glycine.

(60) The codon CCA codes for the amino acid proline.

Sentence with amino

(61) The codon GGU codes for the amino acid glycine.

(62) The albumin molecule is composed of amino acids.

(63) Valine is one of the branched-chain amino acids.

(64) Leucin is one of the branched-chain amino acids.

(65) Amino acids are the building blocks of proteins.

(66) The codon AGG codes for the amino acid arginine.

(67) The codon CGU codes for the amino acid arginine.

(68) The codon CGA codes for the amino acid arginine.

(69) Citrullines are amino acids found in watermelon.

(70) The chemical compound acetylates the amino acid.

Use amino in a sentence

(71) Amino-acids are the building blocks of proteins.

(72) Our body needs amino-acids to function properly.

(73) The carbon in with nitrogen to form amino acids.

(74) Premium isolate is a good source of amino acids.

(75) The codon UGC codes for the amino acid cysteine.

(76) The codon AGA codes for the amino acid arginine.

(77) The hydrolysis of proteins produces amino acids.

(78) The globulin molecule is composed of amino acids.

(79) Lactoprotein is a valuable source of amino acids.

(80) The codon CAA codes for the amino acid glutamine.

Sentence using amino

(81) The codon ACG codes for the amino acid threonine.

(82) The codon CAG codes for the amino acid glutamine.

(83) Amino acid is an essential component of proteins.

(84) Racemized amino acids can be found in meteorites.

(85) Asparagine is one of the 20 standard amino acids.

(86) Cysteine is an amino acid found in many proteins.

(87) The breakdown of proteins ammonifies amino acids.

(88) The sulfo group can be found in many amino acids.

(89) The albumose molecule is composed of amino acids.

(90) The chondrin molecule is composed of amino acids.

Amino example sentence

(91) Premium isolate is a great source of amino acids.

(92) The body can metabolize protein into amino acids.

(93) The codon ACU codes for the amino acid threonine.

(94) The codon UGG codes for the amino acid tryptophan.

(95) Gaba is synthesized from the amino acid glutamate.

(96) Lyase is crucial for the synthesis of amino acids.

(97) Your body can metabolize protein into amino acids.

(98) The body can metabolize proteins into amino acids.

(99) The body can metabolize amino acids into proteins.

(100) The codon AUA codes for the amino acid isoleucine.

Sentence with word amino

(101) The body metabolizes amino acids to build proteins.

(102) Autolysates can be used as a source of amino acids.

(103) The aminic acid glycine is the simplest amino acid.

(104) Fibroins are made up of long chains of amino acids.

(105) The muscles metabolise amino acids during exercise.

(106) Our body needs amino acid to grow and stay healthy.

(107) Foods that are high in protein contain amino acids.

(108) The distillation of soy sauce produces amino acids.

(109) The cytoplasm is where amino acids are synthesized.

(110) ACG is an abbreviation for the amino acid threonine.

Sentence of amino

(111) Glycine is an amino acid commonly found in proteins.

(112) Folate is involved in the metabolism of amino acids.

(113) Aspartic acid is one of the 20 standard amino acids.

(114) Proline is an amino acid commonly found in proteins.

(115) The autolyzate was rich in amino acids and minerals.

(116) Amin is a type of amino acid found in many proteins.

(117) Amino-acids can be obtained through a balanced diet.

(118) Our body needs amino acids to grow and stay healthy.

(119) Isoleucine is one of the branched-chain amino acids.

(120) The structure of melittin consists of 26 amino acids.

Amino used in a sentence

(121) GCT is a codon that codes for the amino acid alanine.

(122) Dopamine is synthesized from the amino acid tyrosine.

(123) The codon UUU codes for the amino acid phenylalanine.

(124) The codon UUC codes for the amino acid phenylalanine.

(125) The codon GAA codes for the amino acid glutamic acid.

(126) Citrullines are not considered essential amino acids.

(127) The amino acid was deaminised to form a new compound.

(128) Amino-acids play a crucial role in the immune system.

(129) Canavanine is an amino acid found in certain legumes.

(130) Wheys contain high levels of protein and amino acids.

Amino sentence in English

(131) The amino acid glycine is a zwitterion at neutral pH.

(132) The amino group is a key component of the urea cycle.

(133) Thiamine is involved in the metabolism of amino acids.

(134) Threonine is an essential amino acid for human health.

(135) The catabolism of amino acids produces waste products.

(136) Amino acid metabolism is influenced by dietary intake.

(137) Aspartic acid is an amino acid found in many proteins.

(138) Bile salts are composed of bile acids and amino acids.

(139) The enzyme helps break down proteins into amino acids.

(140) Autolysate is rich in amino acids and other nutrients.

(141) The body can produce glycocoll from other amino acids.

(142) Polylysine is a positively charged amino acid polymer.

(143) The liver is a major site for deaminating amino acids.

(144) The researcher used iodine to iodinate the amino acid.

(145) Our body needs amino acids to grow and repair tissues.

(146) Proteins are made up of many amino acids put together.

(147) Our body uses amino acid to make hormones and enzymes.

(148) Essential amino acids are important for muscle growth.

(149) The body can metabolize amino acids to build proteins.

(150) Non-essential amino acids can be produced by the body.

(151) The human body needs amino acids to function properly.

(152) Codons determine the amino acid sequence in a protein.

(153) The body can synthesize alanine from other amino acids.

(154) Amino acid metabolism is regulated by hormonal signals.

(155) Transaminases help convert one amino acid into another.

(156) Asparagine is classified as a non-essential amino acid.

(157) Nonprotein amino acids have unique chemical properties.

(158) Carboxylating is used in the production of amino acids.

(159) Alanyls are important amino acids in protein synthesis.

(160) Amino-acids are essential for muscle growth and repair.

(161) Some foods are rich in amino acids, like meat and eggs.

(162) The mitochondrion is involved in amino acid metabolism.

(163) Azotizing is necessary for the synthesis of amino acids.

(164) Pheomelanin is synthesized from the amino acid tyrosine.

(165) The word omani can be rearranged to form the word amino.

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

(167) Serotonin is synthesized from the amino acid tryptophan.

(168) Amino acid residues determine the function of a protein.

(169) Amino acid composition can vary among different species.

(170) Melatonin is synthesized from the amino acid tryptophan.

(171) The body can synthesize alanines from other amino acids.

(172) The structure of amanitin consists of eight amino acids.

(173) The oligopeptide bond is formed between two amino acids.

(174) The protein autolyzes into amino acids during digestion.

(175) The decomposition of silk decomposites into amino acids.

(176) The deaminised amino acid was used in protein synthesis.

(177) The breakdown of amino acids can also produce ketoacids.

(178) Citrulline is an amino acid that is found in watermelon.

(179) Some foods, like meat and eggs, are high in amino acids.

(180) Deuterium is used in the study of amino acid metabolism.

(181) Glucagon is a peptide hormone composed of 29 amino acids.

(182) Pyruvate is a precursor for the synthesis of amino acids.

(183) The protein molecule is made up of chains of amino acids.

(184) Soya products are a good source of essential amino acids.

(185) The body cannot produce essential amino acids on its own.

(186) Amino acid biosynthesis is regulated by specific enzymes.

(187) Amino acid mutations can alter the function of a protein.

(188) Amino acid residues are linked together by peptide bonds.

(189) Secretin is a peptide hormone composed of 27 amino acids.

(190) The biolysis of collagen yields amino acids and peptides.

(191) Cadaverines are produced by the breakdown of amino acids.

(192) Coenzyme A is essential for the breakdown of amino acids.

(193) Aldolases are important in the production of amino acids.

(194) Aleurons are a source of amino acids and other nutrients.

(195) Proteins are broken down and metabolize into amino acids.

(196) The ionizable amino acid was crucial for protein folding.

(197) Our bodies need 20 different amino acids to make protein.

(198) The body needs to metabolize amino acids to build muscle.

(199) Azote is a key component in the formation of amino acids.

(200) The transmembrane domain contains hydrophobic amino acids.

(201) The protease cleaves the peptide bond between amino acids.

(202) Amino acids are required for the synthesis of DNA and RNA.

(203) Amino acid deficiency can lead to various health problems.

(204) Aspartic acid is an amino acid commonly found in proteins.

(205) Laevo- amino acids are commonly found in natural proteins.

(206) Alanyl is a type of amino acid commonly found in proteins.

(207) The biolysis of keratin produces amino acids and peptides.

(208) The biolysis of elastin releases amino acids and peptides.

(209) Aminoacidurias can be treated with amino acid supplements.

(210) Anticodons determine the amino acid sequence of a protein.

(211) Archaebacterial proteins have unique amino acid sequences.

(212) Arginases are important for the metabolism of amino acids.

(213) Proteins are broken down and catabolized into amino acids.

(214) Catecholamine is synthesized from the amino acid tyrosine.

(215) Laevo-amino acids are mirror images of dextro-amino acids.

(216) Twenty is the number of amino acids that make up proteins.

(217) The codon that codes for the amino acid methionine is AUG.

(218) Glycine is one of the 20 amino acids that make up proteins.

(219) Proteins are metabolized into amino acids during digestion.

(220) The body requires amino acid for proper muscle development.

(221) Calcitonin is a peptide hormone composed of 32 amino acids.

(222) Protonated amino acids can participate in enzyme catalysis.

(223) I used the seq command to create a sequence of amino acids.

(224) Proteins are catabolized into amino acids during digestion.

(225) Royal jelly is rich in vitamins, minerals, and amino acids.

(226) Monoacidic amino acids have only one carboxylic acid group.

(227) Open-chain amino acids are the building blocks of proteins.

(228) The octapeptide is a peptide composed of eight amino acids.

(229) The protein was azotized to break it down into amino acids.

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

(231) Glycyl is an amino acid that is commonly found in proteins.

(232) Tripeptide is a chain of three amino acids linked together.

(233) Nitrogen is metabolized by the body to produce amino acids.

(234) Our body needs to metabolize amino acids to build proteins.

(235) Mitochondria are involved in the metabolism of amino acids.

(236) The body can metabolize amino acids into neurotransmitters.

(237) Peptides are chains of amino acids linked by peptide bonds.

(238) Bean curd is a good source of amino acids and antioxidants.

(239) The liver is responsible for deaminating excess amino acids.

(240) Amino acids are the building blocks of the protein molecule.

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

(242) The abomasum is essential for the absorption of amino acids.

(243) There are 20 different types of amino acids found in nature.

(244) Amino acid supplementation can improve athletic performance.

(245) Amino acid imbalances can disrupt normal cellular processes.

(246) Transaminases are enzymes involved in amino acid metabolism.

(247) Dipeptides are formed by the combination of two amino acids.

(248) Decarboxylate the amino acid histidine to produce histamine.

(249) The process of cataphoresis is used to separate amino acids.

(250) The racemate of this amino acid is commonly found in nature.

(251) Aminoacidurias can affect different amino acids in the body.

(252) Anthranilate is a precursor to the amino acid phenylalanine.

(253) There are 20 different types of amino-acids found in nature.

(254) The genetic code interconverts nucleotides into amino acids.

(255) Serines are a type of amino acid commonly found in proteins.

(256) The nutritionist will inject the amino acids into your back.

(257) The body can metabolize amino acids to produce new proteins.

(258) The imide functional group is commonly found in amino acids.

(259) Valine is a precursor for the synthesis of other amino acids.

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

(261) The amino group can form hydrogen bonds with other molecules.

(262) Leucin is a precursor for the synthesis of other amino acids.

(263) Amino acid deficiencies can be diagnosed through blood tests.

(264) Amino acid synthesis requires specific enzymes and cofactors.

(265) Laevo- amino acids are essential building blocks of proteins.

(266) Triiodothyronine is synthesized from the amino acid tyrosine.

(267) Asparagine is an amino acid found in many protein-rich foods.

(268) Transamination allows for the interconversion of amino acids.

(269) Threonine is one of the 20 amino acids that make up proteins.

(270) The deaminations of amino acids are important for metabolism.

(271) The deaminizations of amino acids are crucial for metabolism.

(272) The chemist azotizes the amino acid to create a new compound.

(273) Aminoacidurias affect the way the body processes amino acids.

(274) The active ingredient in amitroles is 3-amino-1,2,4-triazole.

(275) Dopa is synthesized from the amino acid tyrosine in the body.

(276) Amino-acids are used in the production of energy in the body.

(277) Ossein can be hydrolyzed to produce peptides and amino acids.

(278) Motilin is a peptide hormone that consists of 22 amino acids.

(279) Diamines are organic compounds that contain two amino groups.

(280) Proteins are metabolized by the liver to produce amino acids.

(281) Ribosomes are like chefs that make proteins from amino acids.

(282) The body uses amino acids to synthesize hormones and enzymes.

(283) Peptide bond formation requires specific amino acid sequence.

(284) Vasopressin is a peptide hormone composed of nine amino acids.

(285) Alanine is an amino acid commonly found in protein-rich foods.

(286) Trypsin cleaves peptide bonds at specific amino acid residues.

(287) The catabolism of amino acids produces ammonia as a byproduct.

(288) Protonated amino acids play a crucial role in protein folding.

(289) Valine is a nonpolar amino acid with a hydrophobic side chain.

(290) Alanines are non-essential amino acids found in various foods.

(291) Glycocoll is an amino acid that is commonly found in collagen.

(292) Ossein is a valuable source of amino acids for the human body.

(293) Dibasic amino acids are important building blocks of proteins.

(294) The amino acid was acetylated by the acetyltransferase enzyme.

(295) Just like letters make up words, amino acids make up proteins.

(296) Protein is made up of tiny building blocks called amino acids.

(297) The amino group is involved in the formation of peptide bonds.

(298) The amino group is essential for the function of many enzymes.

(299) The tRNA carries the corresponding amino acid to the ribosome.

(300) The ribosome links the amino acids together to form a protein.

(301) Azote is an essential element for the synthesis of amino acids.

(302) Dipeptides are short chains of two amino acids linked together.

(303) Amino acids can be obtained from both plant and animal sources.

(304) Aspartic acid is an essential amino acid for certain organisms.

(305) The body can break down dipeptides into individual amino acids.

(306) The body can catabolize amino acids to synthesize new proteins.

(307) Excitatory amino acids are essential for normal brain function.

(308) Decarboxylate the amino acid phenylalanine to produce tyrosine.

(309) The biolyses of proteins results in the release of amino acids.

(310) The biolysis of proteins results in the release of amino acids.

(311) Cocarboxylases are important for the metabolism of amino acids.

(312) Corynebacteria are often used in the production of amino acids.

(313) Pyruvic acid can be used to synthesize amino acids in the body.

(314) Soy-bean is a rich source of protein and essential amino acids.

(315) The deaminised amino acid was found to be essential for growth.

(316) Alanyl residues can form hydrogen bonds with other amino acids.

(317) The anilin molecule contains a benzene ring and an amino group.

(318) Transaminases are enzymes that help with amino acid metabolism.

(319) The monomeric form of insulin is a single chain of amino acids.

(320) Our body uses amino acids to repair tissues and make new cells.

(321) The order of amino acids in a protein is determined by our DNA.

(322) The mitochondrion is involved in the metabolism of amino acids.

(323) The body can use amino acids to produce energy during exercise.

(324) The rumen is capable of breaking down proteins into amino acids.

(325) Carboxylase is involved in the breakdown of certain amino acids.

(326) Hydroxylase is involved in the breakdown of certain amino acids.

(327) Amino acid metabolism plays a crucial role in energy production.

(328) Amino acid composition varies among different types of proteins.

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

(330) Thyrocalcitonin is a peptide hormone composed of 32 amino acids.

(331) Decompositions of proteins result in the release of amino acids.

(332) The liver is responsible for transaminating various amino acids.

(333) The biosyntheses of proteins involve the linking of amino acids.

(334) Deaminising can be used to produce certain types of amino acids.

(335) Sarcosine is a naturally occurring amino acid found in the body.

(336) The acetylic group is important in the synthesis of amino acids.

(337) The cistron determines the sequence of amino acids in a protein.

(338) The amakasu is rich in amino acids and has many health benefits.

(339) The racemized amino acids were difficult to separate in the lab.

(340) The length of an oligopeptide can vary from 2 to 20 amino acids.

(341) Transaminase is an enzyme that helps with amino acid metabolism.

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

(343) Isoleucine is a precursor to the synthesis of other amino acids.

(344) The nutritional profile of casein includes essential amino acids.

(345) The amino group is often found in the side chains of amino acids.

(346) The breakdown of proteins during catabolism releases amino acids.

(347) Amino acids play a crucial role in muscle development and repair.

(348) Amino acids are used in the production of biodegradable plastics.

(349) Amino acids are involved in the regulation of blood sugar levels.

(350) The amino acid residue was acetylated by a chemical modification.

(351) The acetylated amino acid was identified using mass spectrometry.

(352) Asparagine is a precursor for the synthesis of other amino acids.

(353) The albumen in an egg provides a source of essential amino acids.

(354) The liver plays a crucial role in deaminating excess amino acids.

(355) The amino acids in the protein sample were found to be racemized.

(356) The amino acids were synthesized enzymatically in the laboratory.

(357) The thiolate group is commonly found in amino acids and proteins.

(358) Cyanate can react with amino acids to form carbamylated proteins.

(359) Levorotary amino acids are essential building blocks of proteins.

(360) Taurines are amino acids that are naturally produced in the body.

(361) The isoelectric point of an amino acid depends on its side chain.

(362) Protein is made up of smaller building blocks called amino acids.

(363) The sequence of amino acids determines the function of a protein.

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

(365) Coenzyme L is necessary for the breakdown of certain amino acids.

(366) The jejunum is where most of the body's amino acids are absorbed.

(367) Alkylation reactions can be used to prepare alkylated amino acids.

(368) The amino group can be used as a ligand in coordination chemistry.

(369) The azotising of proteins results in the formation of amino acids.

(370) Amino acids are important for maintaining a healthy immune system.

(371) Monosodium glutamate is derived from the amino acid glutamic acid.

(372) The peptide bond is formed by the condensation of two amino acids.

(373) Nonprotein amino acids have diverse functions in living organisms.

(374) Reishi is a natural source of vitamins, minerals, and amino acids.

(375) The process of deamination removes an amino group from a molecule.

(376) Nonprotein amino acids are important components of some organisms.

(377) The apolar amino acids in the protein contribute to its stability.

(378) The enantiomers of this amino acid have different taste and smell.

(379) The imidazole ring is found in histidine, an essential amino acid.

(380) The human body can yield energy from the breakdown of amino acids.

(381) Twenty is the number of amino acids that make up the genetic code.

(382) Some amino acids are essential and cannot be produced by the body.

(383) The amino group is often used in the synthesis of pharmaceuticals.

(384) The jejunum is where the majority of amino acid absorption occurs.

(385) Phosphorylated amino acids are involved in protein phosphorylation.

(386) The amino group can be modified through various chemical reactions.

(387) The codon sequence determines the specific amino acid in a protein.

(388) Amino acid metabolism is tightly regulated to maintain homeostasis.

(389) Amino acid transporters are important targets for drug development.

(390) Histidine is an important amino acid for athletes and bodybuilders.

(391) The hydrolysis of proteins results in the formation of amino acids.

(392) Ubiquinone is synthesized in the body from the amino acid tyrosine.

(393) Asparagine is an important amino acid for maintaining healthy skin.

(394) The transamination of amino acids is regulated by specific enzymes.

(395) Taurine is an amino acid that is naturally found in the human body.

(396) Cysteine can be converted into cystine, a non-essential amino acid.

(397) The basicities of amino acids determine their behavior in proteins.

(398) Putrescine is produced by the breakdown of amino acids in the body.

(399) Amidins can be used as precursors for the synthesis of amino acids.

(400) Arginines are amino acids that are essential for protein synthesis.

(401) The enantiomeric pairs of amino acids have opposite configurations.

(402) Levorotatory amino acids are essential building blocks of proteins.

(403) The missense change altered the amino acid sequence of the protein.

(404) Tranexamic acid is a synthetic derivative of the amino acid lysine.

(405) Ribosomes are responsible for assembling amino acids into proteins.

(406) The human body requires 20 different amino acids to build proteins.

(407) Without coenzyme H, the body cannot break down certain amino acids.

(408) Glutamic acid is an amino acid commonly found in protein-rich foods.

(409) The body can convert glutamic acid into other amino acids as needed.

(410) The amino group is an essential component of many organic compounds.

(411) The amino group is often involved in the formation of peptide bonds.

(412) The octamer code is used to represent amino acids in bioinformatics.

(413) Tyramine is a byproduct of the breakdown of the amino acid tyrosine.

(414) Leucine is an essential amino acid found in many protein-rich foods.

(415) The breakdown of proteins and amino acids results in ammonification.

(416) The active site contains amino acid residues critical for catalysis.

(417) Essential amino acids are required for the synthesis of DNA and RNA.

(418) The array 'dipeptides' contains various combinations of amino acids.

(419) Amino acids are involved in various metabolic processes in the body.

(420) Aspartic acid is an amino acid commonly found in protein-rich foods.

(421) Aspartic acid can be synthesized in the body from other amino acids.

(422) Aspartic acid is an essential amino acid for certain microorganisms.

(423) Somatostatin is a cyclic peptide hormone composed of 14 amino acids.

(424) Polyamines are organic compounds that contain multiple amino groups.

(425) Threonine is an essential amino acid for infants and young children.

(426) The zwitterion form of an amino acid is crucial for protein folding.

(427) Branched-chain amino acids play a crucial role in protein synthesis.

(428) The carboxylate group is responsible for the acidity of amino acids.

(429) The side-chain of the amino acid determines its chemical properties.

(430) Aspartates are amino acids that are essential for protein synthesis.

(431) The deaminate process is important in the metabolism of amino acids.

(432) Proteins are broken down into amino acids when they are catabolised.

(433) The structure of trypsins includes a catalytic triad of amino acids.

(434) The premium isolate protein powder is a great source of amino acids.

(435) The deproteinized sample was analyzed for its amino acid composition.

(436) Nitrogenous compounds are important for the synthesis of amino acids.

(437) The amino group can be found in both natural and synthetic compounds.

(438) The amino group can form stable complexes with transition metal ions.

(439) The structure of a peptide is formed by linking amino acids together.

(440) The human body requires essential amino acids for proper functioning.

(441) Amino acids are necessary for the production of enzymes and hormones.

(442) Amino acids are essential for the growth and development of children.

(443) Amino acid analysis can be performed using chromatography techniques.

(444) The open-chain form of this amino acid is commonly found in proteins.

(445) The formation of a peptide bond requires the presence of amino acids.

(446) Carboxylating certain amino acids is essential for protein synthesis.

(447) The amination of alkenes can lead to the formation of amino alcohols.

(448) Transamination plays a crucial role in the metabolism of amino acids.

(449) Malate is an intermediate in the biosynthesis of certain amino acids.

(450) Branched-chain amino acids are often used as supplements by athletes.

(451) Peroxisomes are involved in the breakdown of purines and amino acids.

(452) Deaminising is a process that removes an amino group from a molecule.

(453) The chemist was racemizing the amino acids to study their properties.

(454) Active transport is necessary for the uptake of amino acids in cells.

(455) Active transport is necessary for the uptake of amino acids by cells.

(456) Amidogens can be used as precursors for the synthesis of amino acids.

(457) Proteins are metabolized after they are broken down into amino acids.

(458) Diamine is a type of organic compound that contains two amino groups.

(459) Amino-acids are important for the production of hormones and enzymes.

(460) Glycocoll is also known as glycine, which is the simplest amino acid.

(461) Picrate is commonly used in the analysis of amino acids and proteins.

(462) The carboxylated amino acid was essential for the protein's function.

(463) The ald enzyme plays a role in the metabolism of certain amino acids.

(464) The function of the enzyme is derivable from its amino acid sequence.

(465) Methylating the amino acid residue can affect the protein's function.

(466) Deaminating is a process that removes an amino group from a molecule.

(467) The amino group is often used in the production of dyes and pigments.

(468) The compound protein is broken down into amino acids during digestion.

(469) The hydroxylation of amino acids can affect their biological activity.

(470) Branched-chain amino acids are essential for muscle growth and repair.

(471) Carnitine is involved in the metabolism of branched-chain amino acids.

(472) Essential amino acids are necessary for proper growth and development.

(473) Essential amino acids are the building blocks of proteins in the body.

(474) Amino acid metabolism is interconnected with other metabolic pathways.

(475) Biotin is necessary for the metabolism of amino acids and fatty acids.

(476) Histidine is an essential amino acid for infants and growing children.

(477) The racemization of amino acids can occur during protein denaturation.

(478) Alanyl is one of the 20 standard amino acids used by living organisms.

(479) The enzyme in our body helps break down sulfur-containing amino acids.

(480) Deaminating amino acids is an essential process in protein metabolism.

(481) Acidemias affect the body's ability to break down certain amino acids.

(482) The activity of amidase is important in the metabolism of amino acids.

(483) Cadaverine is produced by the breakdown of amino acids in dead tissue.

(484) The long-chain amino acids in protein are necessary for muscle growth.

(485) Tetrose is a key component in the biosynthesis of certain amino acids.

(486) The unhydrolyzed amino acids were not absorbed by the small intestine.

(487) Zinc along with amino acids can help improve muscle growth and repair.

(488) Peptide sequencing involves determination of the order of amino acids.

(489) The amino group is a functional group found in many organic molecules.

(490) The amino group contains a nitrogen atom bonded to two hydrogen atoms.

(491) Decarboxylating certain amino acids is essential for protein synthesis.

(492) The amino group is responsible for the basic properties of amino acids.

(493) The amino group is an important target for drug design and development.

(494) Glutamate is an amino acid that plays a crucial role in brain function.

(495) Tryptophan is an essential amino acid found in many protein-rich foods.

(496) Amino acid sequencing is important for understanding protein structure.

(497) Amino acid residues are encoded by specific codons in the genetic code.

(498) Proline is an important amino acid for the maintenance of healthy skin.

(499) In biochemistry, superscripts are used to denote different amino acids.

(500) Enzymes in the liver transaminate amino acids to produce new compounds.

(501) Branched-chain amino acids are often used in medical nutrition therapy.

(502) The racemized amino acid residues in the protein affected its function.

(503) The reaction between amino acids and ninhydrin produces a purple color.

(504) Amino acids are like puzzle pieces that fit together to make a protein.

(505) Amino acids are used to make antibodies that help fight off infections.

(506) Amino acids are like puzzle pieces that fit together to form a protein.

(507) Amino acids are absorbed into the bloodstream and transported to cells.

(508) The bivalency of nitrogen is important in the formation of amino acids.

(509) Coenzyme A is involved in the metabolism of branched-chain amino acids.

(510) The dextrorotary amino acid played a crucial role in protein synthesis.

(511) Glycines are amino acids that play a crucial role in protein synthesis.

(512) The midgut of a honeybee is able to break down pollen into amino acids.

(513) Amino acids are the building blocks of proteins, a type of biomolecule.

(514) Bromelin can break down proteins into smaller peptides and amino acids.

(515) Polybasic amino acids are essential for protein structure and function.

(516) The enzyme responsible for deaminating amino acids is called deaminase.

(517) The liver is responsible for transaminating many different amino acids.

(518) The amino group can be used as a catalyst in certain chemical reactions.

(519) Essential amino acids play a crucial role in muscle repair and recovery.

(520) Essential amino acids are involved in the regulation of gene expression.

(521) Amino acid derivatives have various physiological functions in the body.

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

(523) Hydrolytic cleavage of proteins results in the formation of amino acids.

(524) Carbamoyls play a crucial role in the metabolism of certain amino acids.

(525) The formation of polypeptides occurs through the linking of amino acids.

(526) The length of polypeptides can vary from a few amino acids to thousands.

(527) The transaminate reaction is a key step in the breakdown of amino acids.

(528) Valine is an important amino acid for maintaining healthy skin and hair.

(529) The nitrated amino acid was found to have potential as a drug candidate.

(530) The deaminised amino acid was used as a precursor for neurotransmitters.

(531) The deaminised amino acid was found to be involved in disease processes.

(532) Amino acids are important for the health of our heart and blood vessels.

(533) Amino acids are like the building blocks that make up a tower of blocks.

(534) Our body can make some amino acids, but we need to get others from food.

(535) Amino acids are also important for the health of our muscles and organs.

(536) Amino acids are used in the production of food additives and flavorings.

(537) Amino acids are important for maintaining healthy skin, hair, and nails.

(538) Amino acids are involved in the immune system and help fight infections.

(539) Peptide hormones are chemical-messenger that are made up of amino acids.

(540) Anticodons are responsible for the transfer of amino acids to ribosomes.

(541) The structure of apoproteins is determined by their amino acid sequence.

(542) The derivatisation of amino acids is a common technique in biochemistry.

(543) The abomasus is responsible for breaking down proteins into amino acids.

(544) The amino acid residue will phosphorylate into a phosphorylated residue.

(545) The researcher used iodine to iodinate the amino acid in the experiment.

(546) Glutamates are a type of amino acid that can enhance the flavor of food.

(547) Deaminization is the process of removing an amino group from a molecule.

(548) Amino groups can be used to introduce new functionality into a molecule.

(549) Cysteine is an amino acid that plays a crucial role in protein synthesis.

(550) Tyrosine is an amino acid that plays a crucial role in protein synthesis.

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