Amino Acid in a sentence

(1) Glycin is an amino acid.

(2) Alanine is an amino acid.

(3) Gly is an important amino acid.

(4) Valine is a nonpolar amino acid.

(5) Leucin is a nonpolar amino acid.

(6) Proline is a nonpolar amino acid.

(7) Asparagine is a polar amino acid.

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

(9) Valine is an essential amino acid.

(10) Leucin is an essential amino acid.

Amino Acid sentence

(11) Leucin is an essential amino acid!

(12) Leucin is a hydrophobic amino acid.

(13) Arginine is an essential amino acid.

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

(15) Histidine is an essential amino acid.

(16) Glycin is a non-essential amino acid.

(17) Asparagines are a type of amino acid.

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

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

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

Amino Acid make sentence

(21) Isoleucine is an essential amino acid.

(22) L-tryptophan is an essential amino acid.

(23) Some codons code for the same amino acid.

(24) Angiotensin I is a 10-amino acid peptide.

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

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

(27) Anticodons are specific to each amino acid.

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

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

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

Sentence of amino acid

(31) Gliadins are rich in the amino acid proline.

(32) The anticodon is specific to each amino acid.

(33) Methionine is a sulfur-containing amino acid.

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

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

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

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

(38) Cycloserine is a cyclic amino acid derivative.

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

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

Amino Acid meaningful sentence

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

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

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

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

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

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

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

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

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

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

Amino Acid sentence examples

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

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

(53) Citrulline is an amino acid found in watermelon.

(54) The chemical compound acetylates the amino acid.

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

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

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

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

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

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

Sentence with amino acid

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

(62) Gly is an important amino acid found in proteins.

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

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

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

(66) Different codons can code for the same amino acid.

(67) Hydroxyproline is an amino acid found in collagen.

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

(69) Lysine is an essential amino acid for human health.

(70) Serine is an amino acid commonly found in proteins.

Use amino acid in a sentence

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

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

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

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

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

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

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

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

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

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

Sentence using amino acid

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

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

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

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

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

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

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

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

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

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

Amino Acid example sentence

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

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

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

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

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

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

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

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

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

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

Sentence with word amino acid

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

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

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

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

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

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

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

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

(109) Prolyl is an essential amino acid found in many proteins.

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

Sentence of amino acid

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

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

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

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

(115) Tyrosin is an amino acid found in many protein-rich foods.

(116) Lactalbumin is known for its excellent amino acid profile.

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

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

(119) Archaebacterial proteins have unique amino acid sequences.

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

Amino Acid used in a sentence

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

(122) The amino acid attached to tRNA determines its specificity.

(123) Glycin is a small, simple amino acid with a neutral charge.

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

(125) Amino acid supplementation can improve athletic performance.

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

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

(128) Catecholamines are synthesized from the amino acid tyrosine.

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

(130) Dephosphorylation can occur at specific amino acid residues.

Amino Acid sentence in English

(131) The amino acid is covalently attached to the 3' end of tRNA.

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

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

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

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

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

(137) The amino acid sequence of flagellin determines its function.

(138) Glycines are a type of amino acid commonly found in proteins.

(139) The zwitterion form of an amino acid is electrically neutral.

(140) The codons UGU and UGC both code for the amino acid cysteine.

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

(142) Glycin is a non-polar amino acid, and it is soluble in water.

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

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

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

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

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

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

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

(150) The goal of this experiment is to transaminate the amino acid.

(151) The enantiomer of this amino acid is commonly found in nature.

(152) Canavanine is structurally similar to the amino acid arginine.

(153) The cistron is translated into a specific amino acid sequence.

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

(155) The charging of tRNA involves the attachment of an amino acid.

(156) The enantiomorphs of the amino acid can have different tastes.

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

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

(159) The amino acid sequence of a polypeptide is encoded in the DNA.

(160) Aminotransferase plays a crucial role in amino acid metabolism.

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

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

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

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

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

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

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

(168) The hydrolysates were analyzed for their amino acid composition.

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

(170) Tyrosin is an aromatic amino acid with a hydrophobic side chain.

(171) Aspartate is an amino acid commonly found in protein-rich foods.

(172) Canavanine is a non-protein amino acid found in certain legumes.

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

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

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

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

(177) Some endopeptidases are specific to certain amino acid sequences.

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

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

(180) A zwitterion is formed when an amino acid loses or gains a proton.

(181) The codons UUU and UUC both code for the amino acid phenylalanine.

(182) The amino acid attached to tRNA is determined by the genetic code.

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

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

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

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

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

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

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

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

(191) The missense variant alters the amino acid sequence of the protein.

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

(193) Glycin is an amino acid, and it is essential for protein synthesis.

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

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

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

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

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

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

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

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

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

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

(204) Histidine is an important amino acid for the production of collagen.

(205) The body can synthesize ornithine from arginine, another amino acid.

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

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

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

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

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

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

(212) Trna molecules can recognize multiple codons for the same amino acid.

(213) The team identified a specific amino acid sequence within the fibril.

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

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

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

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

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

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

(220) The transaminase enzyme plays a crucial role in amino acid metabolism.

(221) Gly is a non-essential amino acid that can be synthesized by the body.

(222) The amino acid profile of soybean meal is well-suited for swine diets.

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

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

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

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

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

(228) Glycocoll is an important amino acid for overall health and well-being.

(229) Ornithine is an amino acid that plays a crucial role in the urea cycle.

(230) Glycin is an amino acid that plays a crucial role in protein synthesis.

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

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

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

(234) Cystine is an amino acid that plays a crucial role in protein synthesis.

(235) The coding DNA sequence determines the amino acid sequence of a protein.

(236) Polypeptides can be sequenced to determine their amino acid composition.

(237) The rate of deaminization can vary depending on the specific amino acid.

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

(239) Glycine is an amino acid that plays a crucial role in protein synthesis.

(240) Tyrosin is an amino acid that plays a crucial role in protein synthesis.

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

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

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

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

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

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

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

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

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

(250) L-tryptophan is an essential amino acid found in many protein-rich foods.

(251) Amino acid supplements are commonly used by athletes for muscle recovery.

(252) The shape of a protein molecule is determined by its amino acid sequence.

(253) The amino acid will decarboxylate into an amine under certain conditions.

(254) Gramicidin is a cyclic peptide that is composed of two amino acid chains.

(255) The products of transamination are usually an amino acid and a keto acid.

(256) The heteroatom in this amino acid is what gives it its acidic properties.

(257) Histidine is an essential amino acid for the maintenance of healthy bones.

(258) Phenylalanine is an essential amino acid found in many protein-rich foods.

(259) The conversion of a cyanohydrin into an amino acid involves several steps.

(260) Aspartate is an amino acid that plays a crucial role in protein synthesis.

(261) It is important to acylate the amino acid in order to form a peptide bond.

(262) The enzyme was able to transaminate the amino acid to form a new compound.

(263) The stability of a peptide can be influenced by its amino acid composition.

(264) Phosphorylating can occur at specific amino acid residues within a protein.

(265) Monosodium is derived from glutamic acid, a naturally occurring amino acid.

(266) The messenger RNA sequence determines the amino acid sequence of a protein.

(267) The zwitterion form of an amino acid is more stable than its charged forms.

(268) The zwitterion form of an amino acid is often represented as a dipolar ion.

(269) Amino acid catabolism produces waste products that are excreted by the body.

(270) Amino acid supplementation may be beneficial for certain medical conditions.

(271) Proline is an important amino acid for the growth and development of plants.

(272) Point mutations can lead to changes in the amino acid sequence of a protein.

(273) The function of pentapeptides varies depending on their amino acid sequence.

(274) Serine is an important amino acid for the growth and development of embryos.

(275) The zwitterion form of an amino acid is the most stable at physiological pH.

(276) Methionine is converted into another amino acid called cysteine in the body.

(277) Transaminases are important for the conversion of one amino acid to another.

(278) Glutamic acid can be converted into glutamine, another important amino acid.

(279) The protonation of the amino acid is essential for its function in the body.

(280) L-tryptophan is an essential amino acid that cannot be produced by the body.

(281) Valine is an essential amino acid for the growth and development of children.

(282) Amino acid synthesis occurs in the body through various biochemical pathways.

(283) Nicotinic acid can be synthesized in the body from the amino acid tryptophan.

(284) The aspartate amino acid is involved in the production of energy in the body.

(285) The zwitterion form of an amino acid is essential for peptide bond formation.

(286) The zwitterion form of an amino acid is less reactive than its charged forms.

(287) The derivatized amino acid was used as a chiral reagent in organic synthesis.

(288) Laevo-tryptophan is an essential amino acid that is a precursor to serotonin.

(289) Alanine is classified as a non-polar amino acid due to its hydrophobic nature.

(290) The auxotroph mutant failed to grow in the absence of a particular amino acid.

(291) The zwitterion form of an amino acid is often more stable at physiological pH.

(292) The zwitterion form of an amino acid is important for its biological activity.

(293) Tyrosin is an essential amino acid for the growth and development of children.

(294) Ornithine is a versatile amino acid that serves various functions in the body.

(295) Although glycin is an essential amino acid, it can be synthesized by the body.

(296) The amino acid sequence of barnase is well-conserved across different species.

(297) The amidin reagent was used to identify the presence of a specific amino acid.

(298) The enantiomorphs of the amino acid can be separated by chiral chromatography.

(299) The team was able to acetylate the amino acid residue using a specific enzyme.

(300) The chimeric protein was created by fusing two different amino acid sequences.

(301) The decarboxylation of alpha-keto acids is a key step in amino acid metabolism.

(302) The active site is typically formed by a combination of amino acid side chains.

(303) Serine is a hydrophilic amino acid due to the presence of its polar side chain.

(304) Leucin is a nonpolar amino acid, meaning it does not have a charged side chain.

(305) Leucin is an important amino acid for maintaining nitrogen balance in the body.

(306) The tetramerization of the protein is mediated by specific amino acid residues.

(307) The chemical reaction depolymerised the protein into its amino acid components.

(308) The function of a polypeptide is determined by its specific amino acid sequence.

(309) The rate of deaminations can vary depending on the specific amino acid involved.

(310) Lysin is an essential amino acid that plays a crucial role in protein synthesis.

(311) The amino acid attached to tRNA is transferred to the growing polypeptide chain.

(312) Glycin is a non-polar amino acid, and it can easily pass through cell membranes.

(313) Tyrosin is an aromatic amino acid that contains a phenol group in its structure.

(314) The apolar amino acid residue is located in the hydrophobic core of the protein.

(315) Laevo-phenylalanine is an amino acid that is used to make artificial sweeteners.

(316) Pentapeptide is a type of amino acid chain that is composed of five amino acids.

(317) The amphipathic peptide has both hydrophobic and hydrophilic amino acid residues.

(318) The amino acid composition of lactoproteins differs from other types of proteins.

(319) Amino acid side chains contribute to the three-dimensional structure of proteins.

(320) The degeneracy of the genetic code allows for redundancy in amino acid sequences.

(321) The zwitterion form of an amino acid is often more stable than its charged forms.

(322) Arginine is a versatile amino acid with numerous important functions in the body.

(323) Peptise is responsible for breaking down proteins into smaller amino acid chains.

(324) The amino acid composition of lactoglobulin contributes to its nutritional value.

(325) Valine is an essential amino acid that plays a crucial role in protein synthesis.

(326) Glutamine is an essential amino acid found in high concentrations in the muscles.

(327) Hydroxyproline is a non-essential amino acid that can be synthesized by the body.

(328) L-tryptophan is a non-essential amino acid for adults, but essential for infants.

(329) Taurine is a non-essential amino acid, meaning it can be synthesized by the body.

(330) Glycin is a non-essential amino acid, meaning the body can produce it on its own.

(331) Tyrosin is a non-essential amino acid, meaning it can be synthesized by the body.

(332) Leucin is an essential amino acid that plays a crucial role in protein synthesis.

(333) Leucin is a hydrophobic amino acid, meaning it does not dissolve easily in water.

(334) The amino acid composition of lactalbumin is highly beneficial for muscle growth.

(335) Aminotransferase is an enzyme that plays a crucial role in amino acid metabolism.

(336) The degeneracies in the amino acid sequence can affect the function of a protein.

(337) The triplet code is responsible for encoding the amino acid sequence of proteins.

(338) Cysteine is a versatile amino acid with numerous roles in the body's biochemistry.

(339) Amino acid analysis is a technique used to determine the composition of a protein.

(340) The polynucleotide sequence can be translated into a specific amino acid sequence.

(341) The presence of glycines in the array indicates the importance of this amino acid.

(342) Ornithine is a precursor to proline, an amino acid involved in collagen synthesis.

(343) The amino acid attached to tRNA is transferred to the ribosome during translation.

(344) Leucin is a hydrophobic amino acid, meaning it does not readily dissolve in water.

(345) The zwitterion form of an amino acid is less likely to undergo chemical reactions.

(346) The enantiomorphs of the amino acid can have different effects on enzyme activity.

(347) Although isoleucine is an essential amino acid, it can be synthesized in the body.

(348) Leucine is an essential amino acid that plays a crucial role in protein synthesis.

(349) Laevo-carnitine is a natural amino acid derivative that helps with fat metabolism.

(350) The amino acid sequence of flagellin can vary between different bacterial species.

(351) The tritiated amino acid was incorporated into the protein to study its structure.

(352) The nucleotide sequence of a gene determines the amino acid sequence of a protein.

(353) The codon is a sequence of three nucleotides that codes for a specific amino acid.

(354) Isoleucine is an essential amino acid that our bodies cannot produce on their own.

(355) Threonine is an important amino acid for maintaining overall health and well-being.

(356) The anticodon ensures the correct amino acid is added to the growing protein chain.

(357) Proline is an essential amino acid for certain organisms that cannot synthesize it.

(358) Keratins are classified into different types based on their amino acid composition.

(359) Aspartate is a non-essential amino acid, meaning it can be synthesized by the body.

(360) The amino acid serina is essential for the synthesis of proteins in the human body.

(361) The sequence of nucleotides in mRNA determines the amino acid sequence of a protein.

(362) The synthesis of isatin involves the condensation of an amino acid with an aldehyde.

(363) The function of an oligopeptide can be altered by modifying its amino acid sequence.

(364) The zwitterion form of an amino acid is often represented using a dipolar structure.

(365) Glutamine is a non-essential amino acid, meaning the body can produce it on its own.

(366) Ornithine is a non-essential amino acid, meaning the body can produce it on its own.

(367) Leucin is an essential amino acid, and it plays a crucial role in protein synthesis.

(368) The process involves the ability to phosphorylate with specific amino acid residues.

(369) The enantiomorphs of the amino acid can have different effects on protein structure.

(370) The two protein structures are superimposable and have the same amino acid sequence.

(371) Glycocoll is a non-essential amino acid, meaning the body can produce it on its own.

(372) The auxotroph strain of bacteria was unable to synthesize the amino acid methionine.

(373) The dextrorotatory amino acid was essential for the proper functioning of a protein.

(374) The process of amino acid metabolism involves both anabolic and catabolic reactions.

(375) When the amino group is removed from an amino acid, it forms ammonia as a byproduct.

(376) Taurine is an amino acid that is found in high concentrations in the brain and heart.

(377) Amino acid transporters facilitate the movement of amino acids across cell membranes.

(378) Aspartic acid is an important amino acid for the growth and development of organisms.

(379) The auxotrophic mutant strain failed to grow in the absence of a specific amino acid.

(380) The function of a polypeptide can be altered by mutations in its amino acid sequence.

(381) Methionine is an essential amino acid that plays a crucial role in protein synthesis.

(382) L-tryptophan is an essential amino acid, and it helps in the production of serotonin.

(383) Leucine, which is an essential amino acid, plays a crucial role in protein synthesis.

(384) The process of transamination allows for the conversion of one amino acid to another.

(385) The zwitterion form of an amino acid is more soluble in water than its charged forms.

(386) Glycyl is a non-polar amino acid, meaning it is hydrophobic and tends to avoid water.

(387) The ionizable side chain of the amino acid was responsible for its unique properties.

(388) The amino acid sequence of fibroin varies between different silk-producing organisms.

(389) The side chain of an amino acid determines its unique properties and characteristics.

(390) Turkey is often associated with tryptophan due to its high content in this amino acid.

(391) Trna acts as an adapter molecule between the genetic code and the amino acid sequence.

(392) The sequence of thymines in a gene can determine the amino acid sequence of a protein.

(393) Ornithine is a non-proteinogenic amino acid, meaning it is not used to build proteins.

(394) The percentage composition of a protein can be determined through amino acid analysis.

(395) The amino acid balance in soybean meal supports optimal muscle development in animals.

(396) Carbamoylating agents can selectively modify specific amino acid residues in proteins.

(397) Keratins can be classified into different types based on their amino acid composition.

(398) The bibasic amino acid is essential for the formation of proteins in living organisms.

(399) The hydroxylated amino acid was found to play a role in protein folding and stability.

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

(401) The zwitterion form of an amino acid is typically less reactive than its charged forms.

(402) The function of carboxypeptidase is to remove the last amino acid from a peptide chain.

(403) Chymotrypsin is a highly specific enzyme that recognizes specific amino acid sequences.

(404) Imidazoles can be found in natural products such as histidine, an essential amino acid.

(405) Soybean meal is a valuable source of lysine, an essential amino acid for animal growth.

(406) Glycin is a non-essential amino acid, but it can still provide several health benefits.

(407) The formation of a zwitterion occurs when an amino acid is in a neutral pH environment.

(408) The dextrorotary amino acid was found to be more abundant in certain types of proteins.

(409) The amino acid sequence of fibrinopeptide is highly conserved across different species.

(410) The amino acid profile of soybean meal is well-suited for animal growth and development.

(411) Glutamic acid is a non-essential amino acid, meaning the body can produce it on its own.

(412) Although l-tryptophan is an essential amino acid, it can also be found in certain foods.

(413) The amino acid profile of soybean meal closely matches the requirements of growing pigs.

(414) Isoleucine is an essential amino acid, and it plays a crucial role in protein synthesis.

(415) The amino acid composition of a protein determines its physical and chemical properties.

(416) Cysteine is a sulfur-containing amino acid that contributes to the structure of proteins.

(417) The zwitterion form of an amino acid is crucial for the functioning of neurotransmitters.

(418) The deaminate reaction can be used in laboratory settings to study amino acid metabolism.

(419) Tryptophane is an essential amino acid that is necessary for the production of serotonin.

(420) Phenylalanines are involved in the biosynthesis of tyrosine, another important amino acid.

(421) The amino acid composition of glutelin is unique and differs from other types of proteins.

(422) The hydrolyzable amino acid residue in the protein was crucial for its enzymatic activity.

(423) Citrulline is a non-essential amino acid, meaning that the body can produce it on its own.

(424) Oxaloacetic acid is a precursor to aspartate, an amino acid involved in protein synthesis.

(425) The aliphatic side chain in this amino acid is responsible for its hydrophobic properties.

(426) The synthesis of pentapeptides requires careful manipulation of amino acid building blocks.

(427) Lysine is an essential amino acid that plays a vital role in overall health and well-being.

(428) Canavanine has been used as a tool in studying protein synthesis and amino acid metabolism.

(429) The anticodon is specific to each tRNA molecule and determines which amino acid it carries.

(430) The exocyclic amino group on the side chain of the amino acid was crucial for its function.

(431) Alanyl is a versatile amino acid that plays a critical role in various biological processes.

(432) Deaminization is an important mechanism for the regulation of amino acid levels in the body.

(433) The amino acid sequence of ovalbumin is well-known and has been used in genetic engineering.

(434) The bibasic nature of the amino acid allows it to form peptide bonds with other amino acids.

(435) The stability of trimers is often dependent on the presence of specific amino acid residues.

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

(437) The zwitterion form of an amino acid is less likely to interact with other charged molecules.

(438) The triplet code is redundant, meaning that multiple codons can code for the same amino acid.

(439) The genetic code is redundant, meaning that multiple codons can code for the same amino acid.

(440) The genetic code is composed of three-letter codons that each represent a specific amino acid.

(441) The gliadins in wheat can vary in their amino acid composition depending on the wheat variety.

(442) Hydroxyproline is an important amino acid for the formation of stable collagen triple helices.

(443) The zwitterion form of an amino acid is typically more soluble in water than its charged forms.

(444) Isoleucine is a non-polar amino acid, meaning it is hydrophobic and does not dissolve in water.

(445) The tertiary structure of a peptide is determined by interactions between amino acid side chains.

(446) The bibasic nature of the amino acid allows it to participate in both acidic and basic reactions.

(447) Glycin is a glycogenic amino acid, meaning it can be converted into glucose for energy production.

(448) The amino acid isoleucine is important for the proper functioning of the nervous system and brain.

(449) Aminoaciduria can be managed with medications that help to normalize amino acid levels in the body.

(450) The amino acid tryptophan can decarboxylate into serotonin, a neurotransmitter that regulates mood.

(451) The specificity of endopeptidase allows it to cleave peptide bonds at specific amino acid residues.

(452) Isoleucine is a non-polar amino acid, which means it is hydrophobic and does not dissolve in water.

(453) Cystine is a sulfur-containing amino acid that is formed by the oxidation of two cysteine molecules.

(454) The catalytic activity of exopeptidase is dependent on the presence of specific amino acid residues.

(455) Cystine is a non-essential amino acid that is found in high concentrations in hair, skin, and nails.

(456) The trp operon is another example of an operon involved in the regulation of amino acid biosynthesis.

(457) Frameshift mutations can cause a shift in the reading frame, leading to altered amino acid sequences.

(458) The corepressor binding site on the DNA is recognized by specific amino acid residues of the protein.

(459) L-tryptophan is an essential amino acid that is crucial for the synthesis of serotonin and melatonin.

(460) Peptidases are classified into different families based on their amino acid sequences and structures.

(461) The molecules in a protein structure accrete with respect to amino acid sequence and folding pathways.

(462) The chemical structure of skatole is similar to that of tryptophan, an amino acid found in many foods.

(463) The undissociated amino acid was able to cross the cell membrane more easily than the dissociated one.

(464) The structure of proteinase allows it to specifically target certain amino acid sequences in proteins.

(465) Glycin is a glycogenic amino acid, meaning it can be converted into glucose when the body needs energy.

(466) The anthranilic acid derivative, tryptophan, is an essential amino acid required for protein synthesis.

(467) Cystine is a relatively stable amino acid that can withstand high temperatures and acidic environments.

(468) Formyl methionine is an amino acid that is used as the starting point for protein synthesis in bacteria.

(469) The amino acid isoleucine is one of the three branched-chain amino acids, along with leucine and valine.

(470) Leucine is a versatile amino acid that plays a vital role in various physiological processes in the body.

(471) The researchers were able to identify the specific amino acid residues that were acylated in the protein.

(472) Hydrogenases are classified into different types based on their metal cofactors and amino acid sequences.

(473) Epitope mapping is a technique used to identify the specific amino acid residues that make up an epitope.

(474) Tyrosine is an essential amino acid for certain individuals who cannot synthesize it in sufficient amounts.

(475) Cystine is a sulfur-containing amino acid that plays a vital role in the body's antioxidant defense system.

(476) The amino acid composition of collagens is unique, with high levels of glycine, proline, and hydroxyproline.

(477) Tyrosinemia is a rare genetic disorder that affects the body's ability to break down the amino acid tyrosine.

(478) Glycin is a non-essential amino acid, but it can still contribute to the overall protein content in the body.

(479) PKU is a rare genetic disorder that affects the body's ability to process an amino acid called phenylalanine.

(480) The pharmacophore of the drug was found to interact with a specific amino acid residue in the target protein.

(481) Peroxidases are classified into different groups based on their amino acid sequence and catalytic properties.

(482) L-tryptophan is an essential amino acid that is important for the synthesis of proteins and neurotransmitters.

(483) Aspartic acid is an essential amino acid that cannot be produced by the body and must be obtained through diet.

(484) The repressible nature of the arginine biosynthesis pathway allows for tight regulation of amino acid production.

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

(486) The anticodon plays a crucial role in ensuring that the correct amino acid is added to the growing protein chain.

(487) Glycin is a precursor for the synthesis of serine, an amino acid that is important for various metabolic processes.

(488) Although glycin is not considered an essential amino acid, it is still important for overall health and well-being.

(489) Each amino acid has a unique structure and function that contributes to the overall function of the protein it forms.

(490) The codon recognition site on the ribosome ensures that the correct amino acid is added to the growing protein chain.

(491) The codon that codes for the amino acid methionine is AUG, and it is found at the start of most protein-coding genes.

(492) Exopeptidase is an enzyme that catalyzes the hydrolysis of peptide bonds at the terminal amino acid residues of a protein.

(493) Glycin, which is a non-essential amino acid, can still provide numerous health benefits when consumed in adequate amounts.

(494) Although isoleucine is an essential amino acid, it can be synthesized in the body and is found in many protein-rich foods.

(495) The amino acid composition of conjugated protein can vary depending on the source, which can affect its nutritional value.

(496) Serotonin is synthesized from the amino acid tryptophan, which is found in many foods such as turkey, chicken, and bananas.

(497) Catalase is a highly conserved enzyme, and its amino acid sequence is similar in different species, from bacteria to humans.

(498) Permeases are often classified based on the type of molecule they transport, such as sugar permeases or amino acid permeases.

(499) The bibasic amino acid is essential for protein synthesis and plays a crucial role in maintaining the pH balance of the body.

(500) The tertiary structure of a protein is determined by the interactions between amino acid side chains in the polypeptide chain.

(501) Glycin is an amino acid that is essential for the synthesis of proteins, and it also plays a crucial role in the nervous system.

(502) When isoleucine levels are low, the body may break down muscle tissue to obtain the amino acid, which can lead to muscle wasting.

(503) Leucine is a versatile amino acid that plays a role in various physiological processes, including wound healing and tissue repair.

(504) The amino acid isoleucine is essential for the production of hemoglobin, which is responsible for transporting oxygen in the blood.

(505) Leucine is an essential amino acid that helps in muscle protein synthesis, and it is found in high amounts in meat and dairy products.

(506) Isoleucine is a nonpolar amino acid, and it has a hydrophobic side chain that can interact with other hydrophobic molecules in the body.

(507) Leucine is an essential amino acid that should be included in the diet of college students to support their overall health and well-being.

(508) Isoleucine is a versatile amino acid that has many different functions in the body, and it is essential for overall health and well-being.

(509) Glycin is a small amino acid that can easily cross the blood-brain barrier, allowing it to exert its effects on the central nervous system.

(510) Although glycin is not considered an essential amino acid for adults, it is crucial for the growth and development of infants and children.

(511) The ability of enzymes to catalyze reactions is due to the precise arrangement of hydrogen-bonded amino acid residues in their active sites.

(512) Vegetarians and vegans may need to pay extra attention to their isoleucine intake as plant-based sources are often lower in this amino acid.

(513) Vegetarians and vegans may need to pay special attention to their amino acid intake to ensure they are getting all the essential amino acids.

(514) 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.

(515) Glycine is a non-essential amino acid, meaning our bodies can produce it naturally. However, supplementing with glycine may have additional benefits.

(516) Leucine is particularly important for college students who are vegetarian or vegan, as plant-based sources of protein may be lower in this amino acid.

(517) Glycin is a versatile amino acid that can be used by the body for various purposes, including the synthesis of DNA, RNA, and other important molecules.

(518) The start codon AUG is recognized by a specific initiator tRNA molecule, which carries the amino acid methionine and helps to initiate protein synthesis.

(519) Glycin is a non-polar amino acid, meaning it is hydrophobic and tends to be found in the interior of proteins, contributing to their stability and structure.

(520) College students should be mindful of their diet and include foods rich in lysine, an amino acid that may help reduce the frequency of herpes labialis outbreaks.

(521) While glycin is not considered an essential amino acid, meaning the body can synthesize it, certain conditions or dietary restrictions may require supplementation.

(522) Leucine deficiency can lead to muscle wasting, fatigue, and impaired immune function, highlighting the importance of consuming adequate amounts of this amino acid.

(523) While leucine is commonly found in animal-based products, plant-based sources like lentils and quinoa also provide significant amounts of this essential amino acid.

(524) While chloroplasts are primarily responsible for photosynthesis, they also play a role in other cellular processes, such as amino acid synthesis and lipid metabolism.

(525) Glycin deficiency can lead to neurological disorders, including seizures and cognitive impairments, so it is important to ensure an adequate intake of this amino acid.

(526) Glycin is a non-essential amino acid, meaning it can be produced by the body, but it is still important to consume foods rich in this compound to maintain optimal health.

(527) When abasic sites occur in the coding region of a gene, they can lead to frameshift mutations, which can alter the amino acid sequence of the protein and affect its function.

(528) When the amino group is removed from an amino acid, it forms ammonia, which can be toxic to cells, so the body has to convert it into urea and excrete it through the kidneys.

(529) When a mutation occurs in a codon, it can result in a change in the amino acid that is incorporated into the protein, which can have significant effects on the protein's structure and function.

(530) Although glycin is generally well-tolerated, individuals with certain medical conditions, such as kidney disease, should consult with a healthcare professional before supplementing with this amino acid.

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