Enzyme in a sentence

(1) Barnase is a type of enzyme.

(2) Amylogen is a type of enzyme.

(3) Adenosine is a type of enzyme.

(4) The enzyme autolyzes the protein.

(5) The enzyme acetylates the histone.

(6) The enzyme catalyzes the reaction.

(7) The enzyme acetylates the substrate.

(8) The enzyme delocalizes the substrate.

(9) The enzyme deproteinises the protein.

(10) Albumose is a type of protease enzyme.

Enzyme sentence

(11) Maltase is a type of hydrolase enzyme.

(12) The enzyme is secreted by the pancreas.

(13) Amylopsin is a type of digestive enzyme.

(14) ATPase is an enzyme that hydrolyzes ATP.

(15) Invertase is a type of hydrolase enzyme.

(16) The denatured enzyme is no longer active.

(17) The protein was acetylated by the enzyme.

(18) The enzyme catalyzes the synthesis of DNA.

(19) The enzyme chylifies the fats in our food.

(20) The enzyme acetylates the proline residue.

Enzyme make sentence

(21) The enzyme acetylates the glycine residue.

(22) Amylopsins are a type of digestive enzyme.

(23) Ribonuclease is a type of nuclease enzyme.

(24) The enzyme catalyzes the chemical reaction.

(25) The enzyme acetylates the tyrosine residue.

(26) The enzyme acetylates the arginine residue.

(27) This enzyme catalyzes the production of ATP.

(28) Lactase is an example of a digestive enzyme.

(29) The protein was ubiquitinated by the enzyme.

(30) Maltase is classified as a hydrolase enzyme.

Sentence of enzyme

(31) The enzyme rennin is also known as chymosin.

(32) The enzyme saccharifies starch into glucose.

(33) Amidins are often used as enzyme inhibitors.

(34) The amylogen enzyme helps break down starch.

(35) Ficin is a proteolytic enzyme found in figs.

(36) The enzyme breaks down the complex molecule.

(37) The enzyme catalyzes the breakdown of lipids.

(38) The enzyme autolyzes the starch into glucose.

(39) Apoenzymes are essential for enzyme activity.

(40) The cofactor can alter the enzyme's activity.

Enzyme meaningful sentence

(41) ATP synthase is the enzyme that generates ATP.

(42) Lactam compounds can act as enzyme inhibitors.

(43) The enzyme autolyzes the DNA into nucleotides.

(44) The enzyme autolyzes the fat into fatty acids.

(45) The enzyme autolyzes the RNA into nucleotides.

(46) The enzyme deproteinizes the protein solution.

(47) The deaminised enzyme showed reduced activity.

(48) Agaroses can be used in enzyme immobilization.

(49) Allosteries are important for enzyme activity.

(50) The enzyme interconverts glucose and fructose.

Enzyme sentence examples

(51) The enzyme catalyzes the breakdown of glycogen.

(52) The enzyme can only act on specific substrates.

(53) Hexokinase is an enzyme with multiple isoforms.

(54) The enzyme solubilizes the protein in the food.

(55) The amylogen enzyme is essential for digestion.

(56) Amylopsin is an enzyme that breaks down starch.

(57) The enzyme's structure determines its function.

(58) The enzyme can phosphorylate various substrates.

(59) The enzyme catalyzes the hydrolysis of proteins.

(60) Catalase is an enzyme found in living organisms.

Sentence with enzyme

(61) The enzyme can only bind to specific substrates.

(62) The purifying enzyme breaks down organic matter.

(63) The reverse reaction was catalyzed by an enzyme.

(64) The enzyme catalyzes the reaction bimolecularly.

(65) The protein was acetylated by a specific enzyme.

(66) The protein was sumoylated by a specific enzyme.

(67) Carboxylase is a key enzyme in the Calvin cycle.

(68) The enzyme autolyzes the cellulose into glucose.

(69) The protein was cleavable by the enzyme trypsin.

(70) The enzyme's active site binds to the substrate.

Use enzyme in a sentence

(71) The active site of an enzyme can be induced fit.

(72) The cofactor binds to the enzyme to activate it.

(73) Invertase is an enzyme that breaks down sucrose.

(74) Allosteric regulation can affect enzyme kinetics.

(75) Dehydrogenase is a key enzyme in the Krebs cycle.

(76) Gelatinase is an enzyme that breaks down gelatin.

(77) The denatured enzyme lost its catalytic activity.

(78) Maltase is an example of an intracellular enzyme.

(79) The enzyme's function is to degrade glycoprotein.

(80) The deaminised enzyme was used in bioremediation.

Sentence using enzyme

(81) The amylogen enzyme is used in the food industry.

(82) Apyrase is an enzyme that hydrolyzes ATP and ADP.

(83) The enzyme caused the sugar to unravel into ions.

(84) The apoenzyme is the inactive form of the enzyme.

(85) The enzyme lipase helps in the digestion of fats.

(86) The enzyme urease helps in the breakdown of urea.

(87) The chemical reaction was catalyzed by an enzyme.

(88) The abasic bond was cleaved by a specific enzyme.

(89) The catalase enzyme is sensitive to changes in pH.

(90) Angiotensin I is a substrate for the enzyme renin.

Enzyme example sentence

(91) The enzyme catalyzed the breakdown of the protein.

(92) The inducer of this reaction is a specific enzyme.

(93) Plasmin is an enzyme that breaks down blood clots.

(94) Synthase is a key enzyme in the production of ATP.

(95) The enzyme saccharifies starch into simple sugars.

(96) Coacervates can be used for enzyme immobilization.

(97) The dephosphorylated enzyme was used in the assay.

(98) Enolase is a key enzyme in the glycolytic pathway.

(99) The enzyme lysozyme can lyse bacterial cell walls.

(100) Deuterium is used in the study of enzyme kinetics.

Sentence with word enzyme

(101) Zinc by function is essential for enzyme activity.

(102) Collagenase is an enzyme that breaks down collagen.

(103) This enzyme catalyzes the breakdown of nucleotides.

(104) The catalase enzyme is highly efficient at its job.

(105) The enzyme has a low affinity for these substrates.

(106) Aminopeptidase is classified as a hydrolase enzyme.

(107) Extracellular pH levels can impact enzyme activity.

(108) Hexokinase is a rate-limiting enzyme in glycolysis.

(109) Kallikrein is an enzyme involved in blood clotting.

(110) The enzyme can phosphorylate with great efficiency.

Sentence of enzyme

(111) Zwitterions are often involved in enzyme catalysis.

(112) The nitrifier enzyme converts ammonia into nitrite.

(113) The enzyme will phosphorylate into its active form.

(114) The apoenzyme is the protein portion of the enzyme.

(115) The potentiator boosted the activity of the enzyme.

(116) Alpha-amylase is an enzyme that breaks down starch.

(117) The enzyme DNA polymerase helps in DNA replication.

(118) The enzyme's activity can be affected by mutations.

(119) The enzyme's activity can be enhanced by cofactors.

(120) The chemist used an enzyme to hydrolyze the protein.

Enzyme used in a sentence

(121) The enzyme can recognize and bind to its substrates.

(122) The gelatinase enzyme is commonly found in bacteria.

(123) Telomerase is an enzyme that can lengthen telomeres.

(124) Microelements play a vital role in enzyme reactions.

(125) Telomeres can be elongated by the enzyme telomerase.

(126) Rennin is an enzyme found in the stomach of mammals.

(127) The monod model is used to describe enzyme kinetics.

(128) A lack of apoenzymes can lead to enzyme dysfunction.

(129) The protein was phosphorylated by the kinase enzyme.

(130) Emulsin is an enzyme that breaks down fats and oils.

Enzyme sentence in English

(131) The enzyme's activity can be enhanced by activators.

(132) The enzyme requires a cofactor to function properly.

(133) The cofactor is specific to the enzyme it activates.

(134) The enzyme catalyzes the hydrolysis of triglycerides.

(135) Telomeres can be lengthened by the enzyme telomerase.

(136) Telomeres can be replicated by the enzyme telomerase.

(137) The enzyme catalyzed the formation of a peptide bond.

(138) The carboxylase enzyme is sensitive to changes in pH.

(139) The maltose enzyme saccharifies maltose into glucose.

(140) The enzyme urease helps break down ammonia into urea.

(141) Nuclease is an enzyme that breaks down nucleic acids.

(142) The Lso enzyme is used in the production of biofuels.

(143) Bromelin is a proteolytic enzyme found in pineapples.

(144) The protein was found to be sumoylated by the enzyme.

(145) The enzyme lactase helps in the digestion of lactose.

(146) The enzyme pepsin helps in the digestion of proteins.

(147) Invertase is a key enzyme in the production of honey.

(148) The enzyme amylase can hydrolyse starch into glucose.

(149) Oxidase is an important enzyme in the immune response.

(150) Lyase is an important enzyme in the citric acid cycle.

(151) Octamer-based inhibitors can modulate enzyme activity.

(152) The enzyme has a high affinity for certain substrates.

(153) The enzyme can distinguish between similar substrates.

(154) Neuraminidase is an enzyme found in influenza viruses.

(155) The enzyme will catalyse the breakdown of the protein.

(156) The protein was ubiquitinated by the E3 ligase enzyme.

(157) Thrombokinase is an enzyme involved in blood clotting.

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

(159) The bivalency of zinc is important in enzyme function.

(160) The calb enzyme is responsible for breaking down fats.

(161) The enzyme can dephosphorylate into its inactive form.

(162) The enzyme trypsin helps in the digestion of proteins.

(163) The catalase enzyme is found in many living organisms.

(164) The cofactor can affect the specificity of the enzyme.

(165) Catalase is a key enzyme in the metabolism of alcohol.

(166) Pyruvate is a substrate for the enzyme pyruvate kinase.

(167) This enzyme catalyzes the transfer of phosphate groups.

(168) The catalase enzyme helps break down hydrogen peroxide.

(169) Hexokinase is an enzyme involved in glucose metabolism.

(170) The amylogen enzyme is used in the production of bread.

(171) The amylogen enzyme is used in the production of paper.

(172) The enzyme was isolated inside of the digestive system.

(173) The enzyme responsible for autolyze is called lysozyme.

(174) Penicillinase is an enzyme that breaks down penicillin.

(175) Fibrinolysin is an enzyme that breaks down blood clots.

(176) Chymosin is an enzyme used in the production of cheese.

(177) Invert upon adding the enzyme to initiate the reaction.

(178) Zinc beside manganese is important for enzyme function.

(179) The enzyme invertase helps in the breakdown of sucrose.

(180) The enzyme protease helps in the digestion of proteins.

(181) Glycolysis involves several enzyme-catalyzed reactions.

(182) The enzyme inhibitor slowed down the chemical reaction.

(183) The cofactor can be a part of the enzyme's active site.

(184) Allosteric regulation is a mechanism of enzyme control.

(185) The allosteric site is a specific region on the enzyme.

(186) The conjugative enzyme facilitates the transfer of DNA.

(187) The absence of cofactors can lead to enzyme dysfunction.

(188) Transcriptase is an example of an RNA polymerase enzyme.

(189) The active site is crucial for the enzyme's specificity.

(190) The inhibitor effectively blocked the enzyme's activity.

(191) The enzyme in pineapple juice naturally tenderizes meat.

(192) Barnase is a useful enzyme for RNA degradation in vitro.

(193) The enzyme reactivates the dormant bacteria in the soil.

(194) The kinase will phosphorylate into a more potent enzyme.

(195) The enzymic reaction was catalyzed by a specific enzyme.

(196) The enzyme hydrolyses the starch into glucose molecules.

(197) Belching can be a sign of a digestive enzyme deficiency.

(198) The enzyme amylase is used in the production of ethanol.

(199) The enzyme's function is affected by pH and temperature.

(200) The cofactor can be a part of the enzyme's binding site.

(201) The denatured enzyme could no longer catalyze reactions.

(202) Invertase is a key enzyme in the production of molasses.

(203) The enzyme pepsin can hydrolyse proteins in the stomach.

(204) Oxidase is an enzyme that helps in the oxidation process.

(205) The enzyme inhibitor inhibits the activity of the enzyme.

(206) The enzyme catalyzes the conversion of starch to maltose.

(207) The catalase enzyme is found in peroxisomes within cells.

(208) Glycogen synthesis requires the enzyme glycogen synthase.

(209) The enzyme catalyzed the hydrolysis of the complex sugar.

(210) The enzyme catalyzed the synthesis of a complex molecule.

(211) The enzyme catalyzed the breakdown of the lipid molecule.

(212) The inactivating substance inhibited the enzyme activity.

(213) The enzyme will catalyse the hydrolysis of the substrate.

(214) Nonproteinaceous substances can modulate enzyme activity.

(215) Nonproteinaceous substances can act as enzyme inhibitors.

(216) The enzyme trehalase saccharifies trehalose into glucose.

(217) The bacteriolysin enzyme is produced by certain bacteria.

(218) Ribonuclease is an enzyme that breaks down RNA molecules.

(219) Ritonavir works by inhibiting the protease enzyme in HIV.

(220) The enzyme was dephosphorylated to increase its activity.

(221) The amylogen enzyme is used in the production of ethanol.

(222) The amylogen enzyme is used in the production of maltose.

(223) The amylogen enzyme is used in the production of glucose.

(224) Lysin is an enzyme that breaks down bacterial cell walls.

(225) Pepsinogen is a precursor to the digestive enzyme pepsin.

(226) The enzyme catalyses the conversion of starch into sugar.

(227) The enzyme reactivates the inactive proteins in the body.

(228) Urase is an enzyme that catalyzes the hydrolysis of urea.

(229) Indinavir works by inhibiting the protease enzyme in HIV.

(230) The enzyme will dissolve through the protein in the food.

(231) The chemical reaction was catalyzed by a specific enzyme.

(232) The enzyme renin helps in the digestion of milk proteins.

(233) The enzyme cellulase helps in the breakdown of cellulose.

(234) The cofactor can be a regulatory molecule for the enzyme.

(235) The ATP synthase enzyme is responsible for producing ATP.

(236) Catalase is an enzyme that breaks down hydrogen peroxide.

(237) The cofactor is a small molecule that assists the enzyme.

(238) Fibrinogen is converted to fibrin by the enzyme thrombin.

(239) Oxidase is an important enzyme in the metabolism of drugs.

(240) Reductase is a key enzyme in the electron transport chain.

(241) The concentration of cofactors can affect enzyme kinetics.

(242) Enantiomers can have different effects on enzyme activity.

(243) Transcriptase is an enzyme with high catalytic efficiency.

(244) Messenger RNA is synthesized by the enzyme RNA polymerase.

(245) The enzyme glucoamylase saccharifies maltose into glucose.

(246) Urease is an enzyme that catalyzes the hydrolysis of urea.

(247) The enzyme's function is to inactivate toxins in the body.

(248) The enzyme can bind to multiple substrates simultaneously.

(249) The enzyme functioned enzymatically to repair damaged DNA.

(250) The enzyme can catalyse multiple reactions simultaneously.

(251) Reductase is an enzyme that catalyzes reduction reactions.

(252) Lyase is an important enzyme in the process of DNA repair.

(253) Modulate calcium levels to support proper enzyme function.

(254) Trypsin is an important enzyme in the coagulation cascade.

(255) The deaminised substrate was unable to bind to the enzyme.

(256) The amylogen enzyme is used in the production of dextrins.

(257) The amylogen enzyme is used in the production of textiles.

(258) The amylogen enzyme is used in the production of biofuels.

(259) The enzyme cellobiase breaks down cellobiose into glucose.

(260) The holoenzyme is a complex of an enzyme and its cofactor.

(261) The isoforms of the enzyme had varying levels of activity.

(262) Plasmin is a protease enzyme that breaks down blood clots.

(263) The enzyme catalyses the breakdown of glucose into energy.

(264) Cathepsin is a type of protease enzyme found in lysosomes.

(265) The enzyme inactivates the protein, altering its function.

(266) The enzyme's activity can be regulated by other molecules.

(267) The active site of an enzyme can be blocked by inhibitors.

(268) The active site of an enzyme can be used as a drug target.

(269) Catalase is a key enzyme in the metabolism of fatty acids.

(270) The cofactor can be a part of the enzyme's catalytic site.

(271) Allosteric modulators can alter the activity of an enzyme.

(272) The enzyme requires the cofactor to catalyze the reaction.

(273) Fibrinogen is converted into fibrin by the enzyme thrombin.

(274) The enzyme's role is to hydrolyze the DNA into nucleotides.

(275) Lactase is an enzyme that helps break down lactose in milk.

(276) Hexokinase is an important enzyme in the production of ATP.

(277) Phosphorylase is an enzyme involved in glycogen metabolism.

(278) The enzyme acted enzymatically to regulate gene expression.

(279) The enzyme in our body helps to catabolize food for energy.

(280) The enzyme acetylated the substrate to form a new compound.

(281) Vasopressin is degraded by an enzyme called vasopressinase.

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

(283) Elastase is an enzyme that breaks down elastin in the body.

(284) The repressor molecule inhibits the activity of the enzyme.

(285) The enzyme glucoamylase saccharifies dextrins into glucose.

(286) The bivalency of the enzyme affects its catalytic activity.

(287) The enzyme oligomerizes to increase its catalytic activity.

(288) The deaminised reaction was catalyzed by a specific enzyme.

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

(290) Angiotensins are degraded by angiotensin-converting enzyme.

(291) Dextranase is an enzyme that breaks down dextran molecules.

(292) Diaphorase is a key enzyme in the electron transport chain.

(293) Diastase is an enzyme that breaks down starch into maltose.

(294) Hematin is a potent inhibitor of the enzyme heme oxygenase.

(295) The enzyme levansucrase is responsible for producing levan.

(296) The enzyme responsible for carboxylation is called RuBisCO.

(297) The enzyme catalyses the synthesis of DNA from nucleotides.

(298) The enzyme hydrolyses the cellulose into glucose molecules.

(299) Maltase is an enzyme that breaks down maltose into glucose.

(300) The enzyme depolymerised the starch into glucose molecules.

(301) The enzyme depolymerized the starch into glucose molecules.

(302) The subunit of the ATP synthase enzyme is the F0F1 complex.

(303) We used a Taq polymerase enzyme to PCR amplify our samples.

(304) The peptide was acetylated by the acetyltransferase enzyme.

(305) The enzyme amylase helps in the digestion of carbohydrates.

(306) The enzyme chymotrypsin helps in the digestion of proteins.

(307) The cofactor is essential for the activation of the enzyme.

(308) The cofactor binds to the enzyme to form an active complex.

(309) The cofactor can be a part of the enzyme's allosteric site.

(310) The cofactor can be a part of the enzyme's regulatory site.

(311) The cofactor can be a part of the enzyme's structural site.

(312) The cofactor can be a determinant of the enzyme's activity.

(313) The active site of the enzyme is specific to its substrate.

(314) Acetylcholinesterase is an enzyme with a high turnover rate.

(315) The enzyme hydrolyzes the substrate into smaller components.

(316) The enzyme can efficiently convert substrates into products.

(317) The endothermic reaction was catalyzed by a specific enzyme.

(318) The enzyme inhibitor prevented the breakdown of the protein.

(319) Hyaluronidase is an enzyme that breaks down hyaluronic acid.

(320) The denatured enzyme cannot perform its biological function.

(321) The enzyme in our saliva helps to hydrolyse the food we eat.

(322) The carboxylase enzyme is highly specific for its substrate.

(323) Carboxylase is an important enzyme in the citric acid cycle.

(324) The synthetase enzyme has a high affinity for its substrate.

(325) The synthetase enzyme is part of a larger metabolic pathway.

(326) The solubilized enzyme was used in the production of cheese.

(327) The chemist designed a new drug to target a specific enzyme.

(328) The presence of apoenzymes is necessary for enzyme function.

(329) The amylogen enzyme is used in the production of corn syrup.

(330) The amylogen enzyme is used in the production of sweeteners.

(331) The enzyme ATPase helps to break down phosphate in the body.

(332) Heparanase is an enzyme that cleaves heparan sulfate chains.

(333) The enzyme phosphorylates the nucleotide to generate energy.

(334) The enzyme translocates to the active site of the substrate.

(335) The inactivator was used to halt the activity of the enzyme.

(336) The enzyme's activity can be inhibited by certain molecules.

(337) Mutations in reductase can lead to a loss of enzyme function.

(338) Synthetase is an example of an enzyme with multiple isoforms.

(339) Synthetase is an important enzyme in the synthesis of lipids.

(340) Trypsin is an enzyme that helps in the digestion of proteins.

(341) Galactose is broken down by the enzyme galactase in the body.

(342) Invertase is a key enzyme in the metabolism of carbohydrates.

(343) The enzyme pectinase saccharifies pectin in fruit processing.

(344) Oligosaccharide can be used as a substrate for enzyme assays.

(345) The inactivating process halted the production of the enzyme.

(346) Catalyse the reaction by adding a small amount of the enzyme.

(347) The homeowner used a natural enzyme cleaner to cleanse pipes.

(348) The carboxylase enzyme is regulated by allosteric mechanisms.

(349) Reductase is an important enzyme in the production of energy.

(350) Reductase is a key enzyme in the biosynthesis of cholesterol.

(351) It is important to phosphorylate with the appropriate enzyme.

(352) The enzyme used to saccharify the biomass is highly specific.

(353) The deproteinized tissue was digested with a specific enzyme.

(354) The digestive enzyme supplement acts as a powerful digestant.

(355) The biostatically modified bacteria produced a useful enzyme.

(356) The molar concentration of the enzyme was found to be 0.01 M.

(357) Amidins can be used as probes for studying enzyme mechanisms.

(358) The amylogen enzyme is used in the production of animal feed.

(359) The enzyme will phosphorylate into a more efficient catalyst.

(360) The dinucleotide binding site is crucial for enzyme activity.

(361) Endonuclease is an enzyme that cleaves DNA at specific sites.

(362) The enzyme pectose breaks down pectin into smaller molecules.

(363) The enzyme is catalysing the reaction to produce more energy.

(364) The enzyme hydrolyses the lactose into glucose and galactose.

(365) The permeabilized cells were used for enzyme activity assays.

(366) The subunit of the enzyme was isolated and studied in detail.

(367) The histones were acetylated by the acetyltransferase enzyme.

(368) The active site of an enzyme can be saturated with substrate.

(369) Alkynes can be used as probes for studying enzyme mechanisms.

(370) The enzyme and cofactor work together to produce the product.

(371) The ligation reaction requires the use of a DNA ligase enzyme.

(372) Allosteric regulation plays a crucial role in enzyme activity.

(373) Polymerase is an essential enzyme involved in DNA replication.

(374) This enzyme catalyzes the conversion of citrate to isocitrate.

(375) Aglycone molecules can act as enzyme inhibitors or activators.

(376) Tyramine is broken down by an enzyme called monoamine oxidase.

(377) Mutations in the active site can affect the enzyme's function.

(378) The protease enzyme is responsible for breaking down proteins.

(379) Maltase is an enzyme that works optimally at body temperature.

(380) Synthase is a highly specific enzyme with a defined substrate.

(381) The enzyme bromelain can help alleviate symptoms of sinusitis.

(382) The carboxylase enzyme is found in various tissues and organs.

(383) The aspartic residue plays a crucial role in enzyme catalysis.

(384) Nonproteinaceous substances can also act as enzyme inhibitors.

(385) Calb is a fascinating enzyme with many potential applications.

(386) The agglutinability of the enzyme was tested for its activity.

(387) The enzyme beta-glucanase saccharifies beta-glucans in grains.

(388) Apyrase is a highly conserved enzyme across different species.

(389) Aldolase is an enzyme that plays a crucial role in glycolysis.

(390) The heterologously expressed enzyme showed increased activity.

(391) The heterologously expressed enzyme was used for biocatalysis.

(392) Methylase is an enzyme that adds a methyl group to a molecule.

(393) The enzyme is catalysing the reaction to produce more product.

(394) The enzyme was purified over a series of ion exchange columns.

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

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

(397) Deuterium is used in the study of protein-enzyme interactions.

(398) The enzyme's activity can be measured using spectrophotometry.

(399) The enzyme's activity can be inhibited by feedback inhibition.

(400) The denatured enzyme was no longer able to catalyze reactions.

(401) The catalase enzyme is found in many different types of cells.

(402) The cofactor is essential for the enzyme to function properly.

(403) Diazines have been used as probes for studying enzyme activity.

(404) Cofactors can be required for the assembly of enzyme complexes.

(405) Acetylcholinesterase is a key enzyme in the cholinergic system.

(406) The sticky ends were generated by restriction enzyme digestion.

(407) Dehydrogenase is an important enzyme in the production of NADH.

(408) The enzyme cellulase saccharifies cellulose into glucose units.

(409) The enzyme maltase saccharifies maltose into glucose molecules.

(410) The enzyme beta-glucanase saccharifies beta-glucans in brewing.

(411) Researchers are studying the chemical mechanism of this enzyme.

(412) The chitinase enzyme breaks down chitin into smaller molecules.

(413) The inducer concentration modulates the activity of the enzyme.

(414) Hexokinase is an example of an enzyme with induced fit binding.

(415) Aromatase is a key enzyme in the estrogen biosynthesis pathway.

(416) Elastase is a key enzyme in the breakdown of connective tissue.

(417) The enzyme has the ability to phosphorylate with high affinity.

(418) The enzyme has the ability to phosphorylate with high fidelity.

(419) The enzyme used to saccharify the starches is highly efficient.

(420) The enzyme maltase is needed to hydrolyze maltose into glucose.

(421) The enzyme responsible for carboxylating is called carboxylase.

(422) The carboxylating enzyme in the Calvin cycle is called Rubisco.

(423) Restriction endonuclease is also known as a restriction enzyme.

(424) The scientist discovered a new enzyme that desulphurizes waste.

(425) Virtanen's theories on enzyme kinetics are still studied today.

(426) Phosphorylase is a key enzyme in the process of glycogenolysis.

(427) The biochemistry lecture discussed the spore inside the enzyme.

(428) The carrier molecule is involved in enzyme-catalyzed reactions.

(429) The enzyme's activity can be affected by allosteric regulation.

(430) The enzyme inhibitor helps in the prevention of clot formation.

(431) Collagenase is an enzyme that breaks down collagen in the body.

(432) Allosteric sites are distinct from the active site of an enzyme.

(433) The chemist used an enzyme to hydrolyze the starch into maltose.

(434) Catalase is an important enzyme in the process of wound healing.

(435) The catalase enzyme is involved in the breakdown of fatty acids.

(436) The enzyme catalyzes the conversion of substrates into products.

(437) Isolating a specific enzyme can facilitate biochemical research.

(438) The inducer molecule binds to the allosteric site of the enzyme.

(439) Maltase is an enzyme that helps break down maltose into glucose.

(440) RNA polymerase is an essential enzyme involved in transcription.

(441) The ubiquitin ligase enzyme ubiquitinated the substrate protein.

(442) The carboxylase enzyme is inhibited by certain drugs and toxins.

(443) The synthetase enzyme is found in various cellular compartments.

(444) The enzyme pullulanase saccharifies pullulan into maltose units.

(445) The enzyme will denaturise the substrate into smaller molecules.

(446) Urokinase is a thrombolytic enzyme used to dissolve blood clots.

(447) Histaminase is an enzyme that breaks down histamine in the body.

(448) The denaturised enzyme was no longer able to catalyze reactions.

(449) The enzyme activity was measured in micromolar units per minute.

(450) The krebs cycle involves a series of enzyme-catalyzed reactions.

(451) Zymograms are used to visualize enzyme activity in a gel matrix.

(452) The ligations were performed using a high-quality ligase enzyme.

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

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

(455) The alpha amylase enzyme is involved in the breakdown of starch.

(456) The enzyme catalase helps in the breakdown of hydrogen peroxide.

(457) The abasic residue was located in the active site of the enzyme.

(458) Catalase is an important enzyme in the breakdown of fatty acids.

(459) The enzyme and cofactor form a complex to catalyze the reaction.

(460) I always feel better after taking a digestive enzyme supplement.

(461) Lactose intolerance is caused by a deficiency of lactase enzyme.

(462) The enzyme reductase plays a crucial role in metabolic processes.

(463) The researcher discovered a new enzyme to neutralise toxic waste.

(464) Enzyme inhibition is a common mechanism used in drug development.

(465) Arginase is an enzyme that is conserved across different species.

(466) Dehydrogenase is an important enzyme in the breakdown of glucose.

(467) Bromelain is an enzyme found in pineapple that aids in digestion.

(468) The enzyme saccharifies complex carbohydrates into simple sugars.

(469) The enzyme amylase saccharifies starches in the digestive system.

(470) ATPase is an enzyme that helps in the breakdown of ATP molecules.

(471) The active site plays a key role in enzyme-substrate recognition.

(472) The active site is essential for the enzyme's catalytic activity.

(473) The active site is where the enzyme interacts with its substrate.

(474) Hexokinase is an essential enzyme for energy production in cells.

(475) The phosphorylase enzyme is found in various tissues of the body.

(476) The enzyme acted enzymatically to catalyze the chemical reaction.

(477) The enzyme can catalyse the reaction by binding to the substrate.

(478) The enzyme used in the depolymerize reaction is highly efficient.

(479) Lysosomal acidification is essential for optimal enzyme activity.

(480) Lyase is an enzyme that catalyzes the breaking of chemical bonds.

(481) ATP synthetase is a key enzyme involved in the production of ATP.

(482) Hemoglobinuria can be a result of a hereditary enzyme deficiency.

(483) Calb is a versatile enzyme that can be used in many applications.

(484) The production of protoporphyrin is regulated by the enzyme ALAS.

(485) The enzyme responsible for racemizing glucose is highly specific.

(486) Allostery can be induced by changes in the activity of an enzyme.

(487) The digestion of cellobiose requires the enzyme beta-glucosidase.

(488) Cyclopropane is a potent inhibitor of the enzyme cytochrome P450.

(489) Exoenzyme is a type of enzyme that is secreted by microorganisms.

(490) The catalast enzyme is highly conserved across different species.

(491) The enzyme lactase can catalyse the breakdown of lactose in milk.

(492) The enzyme responsible for hydroxylating is called a hydroxylase.

(493) The bacteria has mutated and is now able to produce a new enzyme.

(494) The inhibitor restricts the activity of enzyme causing arthritis.

(495) The active site of the enzyme is where the reaction is initiated.

(496) The active site of the enzyme is where the reaction is regulated.

(497) The active site of the enzyme is where the reaction is inhibited.

(498) Carboxylase is an enzyme that is highly specific to its substrate.

(499) Lyase is an enzyme that catalyzes the breakdown of chemical bonds.

(500) Reverse transcriptase is an enzyme commonly found in retroviruses.

(501) The enzyme in saliva helps break down food particles in the mouth.

(502) Hydroxylase is a key enzyme in the synthesis of neurotransmitters.

(503) Arginase is an enzyme that plays a crucial role in the urea cycle.

(504) The chemical action of the enzyme broke down the complex molecule.

(505) Topoisomerase is an enzyme involved in DNA replication and repair.

(506) Trypsinogen is an inactive enzyme precursor found in the pancreas.

(507) An underactive pancreas can lead to digestive enzyme deficiencies.

(508) The protease enzyme is sensitive to changes in pH and temperature.

(509) The enzyme requires a specific substrate to catalyze the reaction.

(510) The enzyme helps break down food into fibres for better digestion.

(511) Infarctions in the pancreas can cause digestive enzyme imbalances.

(512) The rho kinase is an enzyme involved in smooth muscle contraction.

(513) The dismutase enzyme is highly conserved across different species.

(514) The enzyme amyloglucosidase saccharifies amylopectin into glucose.

(515) The enzyme sucrase saccharifies sucrose into glucose and fructose.

(516) The tetramerization of the enzyme enhances its catalytic activity.

(517) The enzyme alkaline phosphatase helps break down phosphate esters.

(518) The prote- in this enzyme is what allows it to catalyze reactions.

(519) The enzyme will denaturise the lactose into glucose and galactose.

(520) Deproteinize the cell lysate before measuring the enzyme activity.

(521) Acetylcholines are broken down by the enzyme acetylcholinesterase.

(522) The amylogen enzyme is involved in the breakdown of carbohydrates.

(523) The ion channel was phosphorylated by the protein kinase A enzyme.

(524) The enzymologist discovered a new enzyme that breaks down plastic.

(525) Amidase is an enzyme that catalyzes the hydrolysis of amide bonds.

(526) The laticiferous tissue in the papaya tree produces papain enzyme.

(527) The enzyme phosphorylates the carbohydrate to modify its function.

(528) The zymoid enzyme is responsible for breaking down complex sugars.

(529) The synthesis of ureides is catalyzed by the enzyme urate oxidase.

(530) Cytidine deaminase is an enzyme that converts cytidine to uridine.

(531) The enzyme amylase helps to break down starch into simpler sugars.

(532) The enzyme required a specific substrate to catalyze the reaction.

(533) The catalase enzyme is sensitive to changes in temperature and pH.

(534) The active site of the enzyme is where the reaction is controlled.

(535) Cyclooxygenase is a key enzyme in the biosynthesis of eicosanoids.

(536) The researcher had to inactivate the enzyme to study its function.

(537) The production of angiotensin II is stimulated by the enzyme renin.

(538) Invertase is an important enzyme in the sucrose metabolism pathway.

(539) Invertase is an important enzyme in the sucrose hydrolysis process.

(540) Lyase is an essential enzyme for the production of energy in cells.

(541) Dehydrogenase is an enzyme involved in various metabolic processes.

(542) The enzyme lactase saccharifies lactose into glucose and galactose.

(543) The protease enzyme is commonly used in biotechnology applications.

(544) The researchers used an assay to measure the activity of an enzyme.

(545) The enzyme's enzymatic function is crucial for the cell's survival.

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

(547) Carbohydrate digestion begins in the mouth with the enzyme amylase.

(548) The bacillus was genetically modified to produce a specific enzyme.

(549) The inducer concentration determines the rate of enzyme production.

(550) Phosphorylase is an enzyme that is highly conserved across species.

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