Oxidative in a sentence

(1) Hb can be damaged by oxidative stress.

(2) Selenium helps prevent oxidative damage.

(3) Free radicals can cause oxidative stress.

(4) Free radicals can lead to oxidative stress.

(5) Apoptosis can be induced by oxidative stress.

(6) Telomeres can be damaged by oxidative stress.

(7) Oxidative stress can lead to cellular damage.

(8) The intima can be damaged by oxidative stress.

(9) Antioxidants can help reduce oxidative stress.

(10) Cytochrome is a biomarker for oxidative stress.

Oxidative sentence

(11) Hemoprotein is susceptible to oxidative damage.

(12) Superoxide is a key player in oxidative stress.

(13) Superoxide can cause oxidative damage to the eye.

(14) Superoxide can induce oxidative damage to lipids.

(15) Beta cell death can occur due to oxidative stress.

(16) The apoprotein is susceptible to oxidative damage.

(17) Telomeres shorten as a result of oxidative stress.

(18) The adventitia can be affected by oxidative stress.

(19) The mitochondrion is sensitive to oxidative stress.

(20) Alloxan is known to cause oxidative stress in cells.

Oxidative make sentence

(21) The chondriosome is susceptible to oxidative stress.

(22) The spermatogonium is vulnerable to oxidative stress.

(23) The sarcosome is a site of oxidative phosphorylation.

(24) Oxidative stress can lead to DNA damage and mutations.

(25) Oxidative stress can lead to inflammation in the body.

(26) Caspase activation can be induced by oxidative stress.

(27) The hepatopancreas is susceptible to oxidative stress.

(28) Lipoic acid can help protect against oxidative stress.

(29) ATP synthesis occurs during oxidative phosphorylation.

(30) Alloxans are known to cause oxidative stress in cells.

Sentence of oxidative

(31) The deficiency of oxidase can lead to oxidative stress.

(32) The process of oxidative phosphorylation generates ATP.

(33) Ascorbate can help reduce oxidative stress in the body.

(34) Spermatogenic cells are vulnerable to oxidative stress.

(35) The presence of superoxide can lead to oxidative stress.

(36) Chronic inflammation can contribute to oxidative stress.

(37) Apoptotic cell death can be induced by oxidative stress.

(38) Dopaminergic neurons are vulnerable to oxidative stress.

(39) Bioflavonoids can help protect against oxidative stress.

(40) Ascorbic acid can help protect against oxidative stress.

Oxidative meaningful sentence

(41) Stress and poor sleep can contribute to oxidative stress.

(42) The sugar deoxyribose is susceptible to oxidative damage.

(43) Spermatocytes are highly susceptible to oxidative stress.

(44) The presence of peroxy groups indicates oxidative stress.

(45) Oxidative phosphorylation is an energy-producing process.

(46) Myocytes are susceptible to damage from oxidative stress.

(47) Oxidative stress can impair cognitive function and memory.

(48) Mito is highly susceptible to oxidative stress and damage.

(49) Oxidative phosphorylation takes place in the mitochondria.

(50) Oxidative phosphorylation is regulated by various enzymes.

Oxidative sentence examples

(51) Spermatoblasts are highly susceptible to oxidative stress.

(52) Spermatozoa are vulnerable to damage from oxidative stress.

(53) Hepatocytes are vulnerable to damage from oxidative stress.

(54) Hemosiderin can cause oxidative stress and damage to cells.

(55) Oxidative phosphorylation is a complex biochemical pathway.

(56) Anti-oxidants can help reduce oxidative stress in the body.

(57) The mitochondrion is the site of oxidative phosphorylation.

(58) Telomeric shortening can be accelerated by oxidative stress.

(59) Hemoglobins are susceptible to damage from oxidative stress.

(60) The activity of arginase can be affected by oxidative stress.

Sentence with oxidative

(61) The cristae are vulnerable to damage during oxidative stress.

(62) Neurofibrils are susceptible to damage from oxidative stress.

(63) Sirtuins have been shown to protect against oxidative stress.

(64) Taurine is believed to help protect against oxidative stress.

(65) Cytochromes play a crucial role in oxidative phosphorylation.

(66) The body produces antioxidants to counteract oxidative damage.

(67) Regular exercise can help reduce oxidative stress in the body.

(68) Certain medications can increase the risk of oxidative stress.

(69) Oxidative stress can impair the function of the immune system.

(70) The activity of arginases can be affected by oxidative stress.

Use oxidative in a sentence

(71) Axolemmas are vulnerable to oxidative stress and inflammation.

(72) The sarcolemma is susceptible to damage from oxidative stress.

(73) Lipofuscin accumulation can be accelerated by oxidative stress.

(74) Rutin can help protect against oxidative stress and DNA damage.

(75) Environmental toxins can increase oxidative stress in the body.

(76) Telomeres can be affected by oxidative stress and inflammation.

(77) Purkinje cells are susceptible to damage from oxidative stress.

(78) Polyamines have been shown to protect against oxidative stress.

(79) Haptoglobin plays a role in the regulation of oxidative stress.

(80) Flavanol can help protect against oxidative stress in the body.

Sentence using oxidative

(81) The proton gradient is essential for oxidative phosphorylation.

(82) Smoking and exposure to pollution can increase oxidative stress.

(83) Oxidative stress can affect the health and function of the skin.

(84) The anthocyanin in plums helps protect against oxidative stress.

(85) Spermatogenous cells are highly susceptible to oxidative stress.

(86) The macular area is susceptible to damage from oxidative stress.

(87) Consuming antioxidants can support immunity to oxidative stress.

(88) Myocytes are highly susceptible to damage from oxidative stress.

(89) The activity of eicosanoids can be modulated by oxidative stress.

(90) Cytochromes are important for the regulation of oxidative stress.

Oxidative example sentence

(91) Phaeomelanin is more susceptible to damage from oxidative stress.

(92) Cystine can be used as a marker for oxidative stress in the body.

(93) The locus niger is affected by oxidative stress and inflammation.

(94) Monocrotaline has been shown to induce oxidative stress in cells.

(95) The nigral cells are particularly vulnerable to oxidative stress.

(96) Abasic sites can be induced by oxidative stress and inflammation.

(97) The activity of dehydrogenase can be affected by oxidative stress.

(98) Cytochromes are involved in the oxidative phosphorylation process.

(99) Paraquat poisoning can cause oxidative stress and damage to cells.

(100) Cytochrome is essential for the oxidative phosphorylation process.

Sentence with word oxidative

(101) Pterin is involved in the regulation of oxidative stress in cells.

(102) Pyocyanin has been shown to induce oxidative stress in host cells.

(103) The cristae contain enzymes involved in oxidative phosphorylation.

(104) Brahmi may help protect against oxidative stress and inflammation.

(105) Selenium is a mineral that helps protect against oxidative damage.

(106) Catalase is important for preventing oxidative stress in the body.

(107) Dysfunction of the microsome can lead to cellular oxidative stress.

(108) Oxidative stress can contribute to insulin resistance and diabetes.

(109) Exposure to UV radiation can increase oxidative stress in the skin.

(110) Consuming antioxidants can help build immunity to oxidative stress.

Sentence of oxidative

(111) The deficiency of dismutase can lead to increased oxidative stress.

(112) The glycocalyx can be damaged by oxidative stress and inflammation.

(113) ATPase is a key player in the process of oxidative phosphorylation.

(114) Zinc along with selenium can help protect against oxidative stress.

(115) Zinc can help reduce inflammation and oxidative stress in the body.

(116) Endogenous antioxidant systems protect cells from oxidative damage.

(117) Oxidative stress can lead to damage to the eyes and vision problems.

(118) The levels of peroxidases in a tissue can indicate oxidative stress.

(119) Guanines can undergo oxidative damage, leading to DNA strand breaks.

(120) The final step of cellular respiration is oxidative phosphorylation.

Oxidative used in a sentence

(121) Glutathione can help reduce oxidative stress caused by free radicals.

(122) The accumulation of indoxyl can lead to oxidative stress in the body.

(123) Lipoic acid can help reduce oxidative damage caused by free radicals.

(124) Oligodendrocytes are vulnerable to oxidative stress and inflammation.

(125) Oxidative phosphorylation is a tightly regulated process in the cell.

(126) Oxidative phosphorylation is a highly efficient way of producing ATP.

(127) Polyphenols can help protect against DNA damage and oxidative stress.

(128) Alloxan is known to induce oxidative stress in pancreatic beta cells.

(129) Beta cells are highly sensitive to oxidative stress and inflammation.

(130) The superoxide dismutase enzyme protects cells from oxidative damage.

Oxidative sentence in English

(131) The consumption of antioxidants can protect against oxidative stress.

(132) Drinking alkalized water can help reduce oxidative stress in the body.

(133) ATP is synthesized through a process called oxidative phosphorylation.

(134) A diet rich in fruits and vegetables can help reduce oxidative stress.

(135) Transaminases are part of the body's defense against oxidative stress.

(136) Cyanohydrin can be converted into a ketone through oxidative cleavage.

(137) Apolipoprotein is part of the body's defense against oxidative stress.

(138) The neurofibril is highly susceptible to damage from oxidative stress.

(139) Consuming round of selenium can help protect against oxidative stress.

(140) Investigate the relationship between eicosanoids and oxidative stress.

(141) Autacoids can be released if there is an increase in oxidative stress.

(142) Polyphenols can help improve skin health by reducing oxidative stress.

(143) Axonic transport can be disrupted by inflammation or oxidative stress.

(144) The ellagic acid in walnuts may help protect against oxidative stress.

(145) The liver produces catalase to protect the body from oxidative stress.

(146) Oxidase is an enzyme that plays a crucial role in oxidative metabolism.

(147) Mitochondrial dysfunction can lead to oxidative stress and cell damage.

(148) Chronic alcohol consumption can increase oxidative stress in the liver.

(149) Inosine has been used in some studies as a marker for oxidative stress.

(150) The revertants displayed a restored ability to resist oxidative stress.

(151) Ubiquinone is a key player in the process of oxidative phosphorylation.

(152) Consuming antioxidants can help improve immunity from oxidative stress.

(153) Aerobes are more susceptible to oxidative stress compared to anaerobes.

(154) The electron carriers play a crucial role in oxidative phosphorylation.

(155) The presence of hydroperoxide in the body can lead to oxidative stress.

(156) The intimal layer is highly susceptible to oxidative stress and damage.

(157) Alkynes can be converted to ketones or aldehydes by oxidative cleavage.

(158) Biliverdin is often used as a marker to study oxidative stress in cells.

(159) Certain genetic factors can increase susceptibility to oxidative stress.

(160) The presence of the inhibitor protected the cells from oxidative damage.

(161) The expression of oxidoreductase is upregulated during oxidative stress.

(162) The antioxidant properties of silymarin help to reduce oxidative stress.

(163) Neurons in the nucleus niger are highly susceptible to oxidative stress.

(164) The oxygenase activity is tightly regulated to prevent oxidative damage.

(165) Alkyne can be converted into carboxylic acid through oxidative cleavage.

(166) The presence of peroxidase indicates the occurrence of oxidative stress.

(167) Diazoles can undergo oxidative transformations under certain conditions.

(168) Oxidative phosphorylation is a fundamental process in energy metabolism.

(169) The scientist discovered a link between oxidative stress and cataplasia.

(170) Zinc in addition to vitamin E can help protect against oxidative stress.

(171) Liposomal delivery of antioxidants can protect against oxidative stress.

(172) The maculae are particularly susceptible to damage from oxidative stress.

(173) Antioxidant supplements are often recommended to combat oxidative stress.

(174) Oxidative stress can contribute to the development of metabolic syndrome.

(175) The role of fumarate in oxidative phosphorylation is still being studied.

(176) Zinc plays a crucial role in defending the body against oxidative stress.

(177) Oxidative phosphorylation requires oxygen as the final electron acceptor.

(178) The body can metabolize through the process of oxidative phosphorylation.

(179) Abasic DNA can be induced by oxidative stress and reactive oxygen species.

(180) Electron transport is a key step in the oxidative phosphorylation pathway.

(181) The nigral cells are vulnerable to oxidative stress and neuroinflammation.

(182) Pheomelanin is more susceptible to oxidative damage compared to eumelanin.

(183) Catabolism is an oxidative process that involves the release of electrons.

(184) Keratinocytes in the epidermis are constantly exposed to oxidative stress.

(185) Alpha-tocopherol is known to protect cell membranes from oxidative damage.

(186) The doctor explained how free radicals can contribute to oxidative stress.

(187) The derivatized product showed enhanced stability in oxidative conditions.

(188) The formation of lipofuscin is thought to be a result of oxidative stress.

(189) The expression of reductase is upregulated in response to oxidative stress.

(190) Lipofuscin is often observed in cells that have undergone oxidative damage.

(191) The endogenous antioxidant system protects our cells from oxidative damage.

(192) Antioxidants can help neutralize free radicals and reduce oxidative stress.

(193) Zinc in addition to antioxidants can help protect against oxidative stress.

(194) Alkyne can be converted into aldehyde or ketone through oxidative cleavage.

(195) Peroxidation is often associated with oxidative stress and cellular damage.

(196) Acetylides can undergo oxidative addition reactions with transition metals.

(197) Zeaxanthin is thought to protect the eyes from oxidative stress and damage.

(198) The induction of autophagy can help protect cells against oxidative stress.

(199) The cristae are susceptible to damage under conditions of oxidative stress.

(200) Lipofuscin is often observed in cells that have undergone oxidative stress.

(201) Polyamines can act as antioxidants, protecting cells from oxidative stress.

(202) NAC has been found to reduce oxidative stress and inflammation in the body.

(203) HGF has been shown to protect against oxidative stress-induced cell damage.

(204) Lutein is a natural compound that can help protect against oxidative stress.

(205) Bioflavonoids can help protect against oxidative stress and damage to cells.

(206) High levels of oxidative stress have been associated with accelerated aging.

(207) Oxidases are commonly used in laboratory research to study oxidative stress.

(208) Alloxan is used as a tool to study the effects of oxidative stress on cells.

(209) The role of flavoprotein in oxidative stress response has been investigated.

(210) Autoxidises is a term that is often used in the context of oxidative stress.

(211) HDL cholesterol acts as an antioxidant, protecting against oxidative damage.

(212) The production of ATP through oxidative phosphorylation is highly efficient.

(213) The process of oxidative phosphorylation involves the transfer of electrons.

(214) Oxidative phosphorylation is a highly efficient mechanism for ATP synthesis.

(215) Foxo is known to promote cell survival and protect against oxidative stress.

(216) The catalatic activity of red blood cells helps to prevent oxidative damage.

(217) Angiotensin II promotes inflammation and oxidative stress in various tissues.

(218) Oxidative stress can contribute to the development of cardiovascular disease.

(219) Astrocytes can release antioxidants to protect neurons from oxidative stress.

(220) Ascorbates can help protect against oxidative stress caused by free radicals.

(221) Dismutase is involved in the repair of DNA damage caused by oxidative stress.

(222) The mitochondria in our cells generate ATP through oxidative phosphorylation.

(223) The electron transport chain is a key component of oxidative phosphorylation.

(224) The efficiency of oxidative phosphorylation is crucial for cellular function.

(225) The catalatic activity of plants helps to protect them from oxidative stress.

(226) Angiotensin II can promote inflammation and oxidative stress in blood vessels.

(227) The electron transport chain is an integral part of oxidative phosphorylation.

(228) Glucuronic acid is involved in the regulation of oxidative stress in the body.

(229) Arginine has antioxidant properties that can protect against oxidative stress.

(230) The production process of oloroso involves a unique method of oxidative aging.

(231) Daidzein has antioxidant properties that can protect against oxidative stress.

(232) Arginase activity is increased in conditions associated with oxidative stress.

(233) Exposure to monocrotaline has been associated with increased oxidative stress.

(234) Photorespiration is a protective mechanism against oxidative stress in plants.

(235) Vitamin E is a powerful antioxidant that can protect against oxidative damage.

(236) Uric acid is a natural antioxidant that helps protect against oxidative stress.

(237) The catalase enzyme is involved in the body's defense against oxidative stress.

(238) The argyrophilic neurons were found to be more susceptible to oxidative stress.

(239) The antioxidant activity of luteolin helps protect cells from oxidative damage.

(240) Reperfusion can lead to the release of harmful substances and oxidative stress.

(241) The bioassay demonstrated the compound's efficacy in reducing oxidative stress.

(242) Obligate anaerobes are sensitive to oxidative stress caused by oxygen exposure.

(243) The efficiency of oxidative phosphorylation can be affected by various factors.

(244) Rutin is a powerful antioxidant that can help protect against oxidative stress.

(245) Superoxide can be a mediator of oxidative damage in neurodegenerative diseases.

(246) Vitamin E is a fat-soluble vitamin that helps protect against oxidative stress.

(247) Lipofuscin accumulation is associated with increased cellular oxidative stress.

(248) Endogenously produced antioxidants help protect the body from oxidative stress.

(249) Neurons in the substantia nigra are particularly vulnerable to oxidative stress.

(250) Some studies suggest that stachydrine may help protect against oxidative stress.

(251) Polyphenols can help protect the body against oxidative stress and inflammation.

(252) The antioxidant activity of myricetin may help protect against oxidative stress.

(253) Consuming antioxidant-rich foods can help shield immunity from oxidative stress.

(254) The proteosome is responsible for removing proteins damaged by oxidative stress.

(255) Consuming antioxidant-rich foods can increase immunity against oxidative stress.

(256) Consuming antioxidant-rich foods can help heighten immunity to oxidative stress.

(257) Oxidative phosphorylation is a key process in the production of cellular energy.

(258) The antioxidant activity of phloretin may help protect against oxidative stress.

(259) The dismutase activity of certain enzymes helps prevent oxidative damage to DNA.

(260) Angiotensin II can promote inflammation and oxidative stress in various tissues.

(261) The F-type ATPase is involved in ATP synthesis during oxidative phosphorylation.

(262) Trisulfide is a potent antioxidant that can protect cells from oxidative damage.

(263) The catalase enzyme is often used in medical research to study oxidative stress.

(264) The antioxidant properties of naringin may help protect against oxidative stress.

(265) Flavone is a powerful antioxidant that can help protect against oxidative stress.

(266) The antioxidant activity of naringenin may help protect against oxidative stress.

(267) Nitric oxide is a potent antioxidant that helps protect against oxidative stress.

(268) The vacuolation seen in the cell cytoplasm was a consequence of oxidative stress.

(269) The additivities of certain antioxidants can protect cells from oxidative damage.

(270) Peroxidase is an important biomarker for assessing oxidative stress in organisms.

(271) Dinitrophenol is a potent uncoupler of oxidative phosphorylation in mitochondria.

(272) Nuclein is susceptible to damage from environmental factors and oxidative stress.

(273) Consuming antioxidant-rich foods can reinforce immunity against oxidative stress.

(274) Adequate intake of antioxidants can help preserve immunity from oxidative stress.

(275) Consuming foods high in antioxidants can strengthen immunity to oxidative stress.

(276) Superoxide dismutase is an enzyme that helps protect cells from oxidative damage.

(277) Stachydrine has been studied for its potential role in reducing oxidative stress.

(278) The antioxidant properties of luteolin may help protect against oxidative stress.

(279) The researcher discovered a correlation between unsaturation and oxidative stress.

(280) The antioxidant activity of catechin may help reduce oxidative stress in the body.

(281) Quercetin has been shown to protect against DNA damage caused by oxidative stress.

(282) Lycopene is a powerful antioxidant that helps protect cells from oxidative damage.

(283) Consuming antioxidant-rich foods can help strengthen immunity to oxidative stress.

(284) Endothelia dysfunction is often associated with inflammation and oxidative stress.

(285) Haem is a prosthetic group in many proteins involved in oxidative phosphorylation.

(286) Cornsilk is rich in antioxidants, so it can help protect against oxidative stress.

(287) The antioxidant properties of myricetin may help protect against oxidative stress.

(288) Ceruloplasmin has antioxidant properties and can protect against oxidative stress.

(289) Curcumin is a powerful antioxidant that can help protect against oxidative damage.

(290) Glutathione is a key player in the body's natural defense against oxidative stress.

(291) Quercetin is a powerful antioxidant that can help protect against oxidative stress.

(292) The bioavailable antioxidants in blueberries help protect against oxidative stress.

(293) Endurance training can enhance the oxidative capacity of slow-twitch muscle fibers.

(294) Glutathione is a key player in the body's natural defense against oxidative damage.

(295) Transketolase plays a role in the regulation of oxidative stress and cell survival.

(296) Ependymal cells have a role in the protection against oxidative stress in the brain.

(297) Phosphines can undergo oxidative addition reactions with transition metal complexes.

(298) Postischemic oxidative stress can contribute to cellular damage in affected tissues.

(299) The antioxidant activity of flavonoids may help protect cells from oxidative damage.

(300) Ubiquinone is a powerful antioxidant that helps protect cells from oxidative damage.

(301) Polyphenol-rich foods can help protect against oxidative stress and cellular damage.

(302) The antioxidant activity of bioflavonoids can help protect against oxidative stress.

(303) Consuming antioxidants can help the body metabolize toward reduced oxidative stress.

(304) Angiotensin II can contribute to the development of oxidative stress in the kidneys.

(305) Monocrotaline has been used to study the role of oxidative stress in liver diseases.

(306) Zinc except for its role in preventing oxidative stress is not frequently mentioned.

(307) Aldolase is a key enzyme in the non-oxidative phase of the pentose phosphate pathway.

(308) Oxidative stress resulting from peroxidation has been implicated in various diseases.

(309) Imines can be converted into nitriles through a process called oxidative decyanation.

(310) Dismutase deficiency has been linked to increased susceptibility to oxidative damage.

(311) Canthaxanthin is a potent antioxidant that helps protect cells from oxidative damage.

(312) Consuming foods rich in antioxidants can help safeguard immunity to oxidative stress.

(313) High-density lipoprotein acts as an antioxidant, protecting against oxidative damage.

(314) The cristae contain numerous protein complexes involved in oxidative phosphorylation.

(315) Oxidative phosphorylation is a crucial process for the survival of aerobic organisms.

(316) The substantia nigra is vulnerable to oxidative stress and mitochondrial dysfunction.

(317) The addition of gallates to skincare products helps protect against oxidative damage.

(318) Mercaptoethanol is a potent antioxidant that can protect cells from oxidative damage.

(319) Elecampane, which is rich in antioxidants, may help protect against oxidative stress.

(320) Trihydroxy compounds can act as antioxidants, protecting cells from oxidative damage.

(321) Cinnamaldehyde is a potent antioxidant that can help protect against oxidative stress.

(322) The proline content in a protein can influence its susceptibility to oxidative damage.

(323) The cytosolic fluid contains antioxidants that protect the cell from oxidative damage.

(324) The hydroxylated compound demonstrated excellent stability under oxidative conditions.

(325) The levels of nicotinamide adenine dinucleotide can be influenced by oxidative stress.

(326) Benzoapyrene has been found to induce oxidative stress and disrupt cellular functions.

(327) Coenzyme Q10 is a powerful antioxidant that helps protect cells from oxidative damage.

(328) Obligate anaerobes are unable to perform oxidative phosphorylation for ATP production.

(329) If bacteroids are exposed to high levels of oxygen, they may undergo oxidative stress.

(330) The macula lutea is more prone to oxidative stress due to its high metabolic activity.

(331) Free radicals can lead to oxidative stress, which can contribute to aging and disease.

(332) Drinking green tea can help boost immunity against free radicals and oxidative stress.

(333) Melanosomes play a role in protecting skin cells from oxidative stress and DNA damage.

(334) The macula lutea is more susceptible to damage from oxidative stress and free radicals.

(335) Oxidative stress can disrupt the balance of free radicals and antioxidants in the body.

(336) Antiradical enzymes play a crucial role in the body's defense against oxidative stress.

(337) The presence of tocopherols in certain foods can help protect against oxidative damage.

(338) Ceruloplasmin has antioxidant properties and helps protect cells from oxidative damage.

(339) Horseradish peroxidase is frequently used in the detection of oxidative stress markers.

(340) Consuming green leafy vegetables can help strengthen immunity against oxidative stress.

(341) The heterologously expressed protein exhibited improved resistance to oxidative stress.

(342) Oxidative phosphorylation is an essential process for maintaining cellular homeostasis.

(343) The process of oxidative phosphorylation breaks down high-energy molecules into energy.

(344) Consuming anti-oxidant-rich foods can help protect against oxidative stress in the body.

(345) The cristae have a high concentration of proteins involved in oxidative phosphorylation.

(346) The study shows that reducing oxidative stress can help in melanin metabolism reduction.

(347) O2 is used in the production of energy through the process of oxidative phosphorylation.

(348) Oxidative phosphorylation is a key mechanism for energy production in aerobic organisms.

(349) The researchers examined the effects of isocaloric diets on markers of oxidative stress.

(350) Sulforaphane is a powerful phytochemical that can help protect against oxidative stress.

(351) Some biochemicals have antioxidant properties that can protect against oxidative stress.

(352) The consumption of foods rich in caffeic acid may help protect against oxidative stress.

(353) The catalase enzyme is also found in plants and helps protect them from oxidative damage.

(354) The tetrazolium reduction assay is a valuable tool in studying oxidative stress in cells.

(355) Neurocytes are vulnerable to oxidative stress, which can contribute to neurodegeneration.

(356) The efficiency of oxidative phosphorylation can be affected by mitochondrial dysfunction.

(357) Consuming foods high in antioxidants can help increase immunity against oxidative stress.

(358) The glycation process can be accelerated by high blood sugar levels and oxidative stress.

(359) Some glycosides have antioxidant properties and can help protect against oxidative stress.

(360) The antioxidant activity of protocatechuic acid helps protect cells from oxidative damage.

(361) The antioxidant properties of hydroxyanisole can help protect cells from oxidative damage.

(362) Neurotrophic factors can protect neurons from oxidative stress and other damaging factors.

(363) Regularly consuming antioxidant-rich foods can help maintain immunity to oxidative stress.

(364) The cell-line is being used to study the effects of oxidative stress on cellular function.

(365) It is advisable to consume on foods with antioxidants to protect against oxidative stress.

(366) Neurocytes are vulnerable to oxidative stress, which can contribute to their degeneration.

(367) Axseed is a great source of antioxidants, which can help protect against oxidative stress.

(368) Drinking green tea can help reinforce immunity against free radicals and oxidative stress.

(369) Caspases are activated by a variety of stimuli, including DNA damage and oxidative stress.

(370) Transketolase is a key enzyme in the non-oxidative phase of the pentose phosphate pathway.

(371) Biliverdin is a key player in the body's defense against oxidative stress and inflammation.

(372) Consuming a variety of fruits and vegetables can help protect immunity to oxidative stress.

(373) Zinc, along with vitamin E, acts as an antioxidant, protecting cells from oxidative damage.

(374) Vitamin E is a fat-soluble vitamin that helps protect cell membranes from oxidative damage.

(375) The plant's resistance to oxidative stress can be improved if endophytic fungi are present.

(376) Cellular senescence is associated with the accumulation of DNA damage and oxidative stress.

(377) Glutathione deficiency can lead to oxidative stress and increased risk of chronic diseases.

(378) Periodic acid is a useful reagent for the oxidative cleavage of carbon-carbon double bonds.

(379) Juglone can induce oxidative stress in plants, leading to cell damage and reduced vitality.

(380) Drinking green tea can help strengthen immunity against free radicals and oxidative stress.

(381) The detection of hydroperoxide in a sample can be used as an indicator of oxidative stress.

(382) Alpha lipoic acid is a powerful antioxidant that can help protect against oxidative stress.

(383) The mitochondrion is sensitive to oxidative stress, and it can be damaged by free radicals.

(384) The citric acid cycle is a crucial part of the overall process of oxidative phosphorylation.

(385) The mesencephalic neurons are vulnerable to oxidative stress and neurodegenerative diseases.

(386) The transport of melatonin is necessary for its role in protecting against oxidative stress.

(387) The efficiency of oxidative phosphorylation can be influenced by the availability of oxygen.

(388) If the endosarc is not protected from oxidative stress, the organism's cells may be damaged.

(389) Neutrophile oxidative burst is a rapid release of reactive oxygen species to kill pathogens.

(390) NAC has been shown to reduce oxidative damage to the skin and support a youthful appearance.

(391) The ferri ion is involved in the Fenton reaction, which can cause oxidative damage to cells.

(392) Foxo is a key player in the response to oxidative stress and other forms of cellular stress.

(393) Consuming foods high in vitamin E can enhance immunity and protect against oxidative stress.

(394) Zinc is a powerful antioxidant that helps protect against oxidative stress and inflammation.

(395) The mitochondrion is able to generate ATP through a process called oxidative phosphorylation.

(396) Aldoses can be converted into their corresponding acids through oxidative cleavage reactions.

(397) The nucleus niger is more susceptible to oxidative stress due to its high metabolic activity.

(398) Hippuric acid has been studied for its potential role in protecting against oxidative stress.

(399) Consuming anti-oxidant-rich foods can help repair cellular damage caused by oxidative stress.

(400) The yield glycoprotein was found to have a protective role against oxidative stress in cells.

(401) Consuming foods high in antioxidants can help maintain immunity by reducing oxidative stress.

(402) Drinking green tea can promote melanin synthesis and protect your skin from oxidative stress.

(403) The tricarboxylic acid cycle produces ATP, NADH, and FADH2 through oxidative phosphorylation.

(404) The nutritionist suggested certain foods as an antidote to inflammation and oxidative stress.

(405) Ribonucleotide excision repair is particularly important in cells exposed to oxidative stress.

(406) Iatrochemical research investigates the role of oxidative stress in various health conditions.

(407) The conversion of nutrients into antioxidants helps protect the body against oxidative stress.

(408) The conversion of nutrients into antioxidants helps combat free radicals and oxidative damage.

(409) The alternative pathway for the synthesis of ATP in mitochondria is oxidative phosphorylation.

(410) Hypericum is believed to have antioxidant properties that can protect against oxidative stress.

(411) Zinc acts as a defense against oxidative damage to DNA, reducing the risk of genetic mutations.

(412) Tannic acid is a natural antioxidant, which can help protect the body against oxidative stress.

(413) Borage is an excellent source of antioxidants, which can help protect against oxidative stress.

(414) Glucose-6-phosphate is an intermediate in the oxidative phase of the pentose phosphate pathway.

(415) Phytochemicals have antioxidant properties that help protect the body against oxidative stress.

(416) Research suggests that phloretin may help protect against DNA damage caused by oxidative stress.

(417) Neurochemistry research has revealed the role of oxidative stress in neurodegenerative diseases.

(418) Organocopper compounds can undergo oxidative addition reactions with a variety of electrophiles.

(419) Adenylate is involved in the regulation of mitochondrial function and oxidative phosphorylation.

(420) Antiradical supplements are often recommended for individuals with high oxidative stress levels.

(421) The thermolability of antioxidants can impact their ability to protect against oxidative damage.

(422) Brazil nut is a natural source of antioxidants, which can help protect against oxidative stress.

(423) Chaga has a high concentration of antioxidants, which can help protect against oxidative stress.

(424) The nadp molecule participates in the electron transport chain during oxidative phosphorylation.

(425) The multienzyme cascade involved in the production of ATP is known as oxidative phosphorylation.

(426) The histochemical analysis showed an increase in oxidative stress markers in the diseased tissue.

(427) Peroxidation is a self-propagating process that can lead to a chain reaction of oxidative damage.

(428) Bioflavonoids may help improve athletic performance and reduce exercise-induced oxidative stress.

(429) Oxidative phosphorylation is a tightly regulated process to ensure energy production when needed.

(430) Phytochemicals can help reduce oxidative stress in the body, which is linked to various diseases.

(431) The ex vivo culture system enabled researchers to study the effects of oxidative stress on cells.

(432) Anti-oxidants can help protect the body against oxidative stress caused by environmental factors.

(433) The process of oxidative phosphorylation produces ATP, but it also produces water as a byproduct.

(434) Tartaric acid is a natural antioxidant that can help to protect the body against oxidative stress.

(435) Certain dietary supplements can support the body's ability to metabolize against oxidative stress.

(436) Antioxidants play a crucial role in protecting from free radicals and preventing oxidative damage.

(437) Pigeon pea is a rich source of antioxidants, which help protect the body against oxidative stress.

(438) Antioxidants are metabolized by the body to neutralize free radicals and prevent oxidative damage.

(439) Isocyclic compounds, which are commonly used as antioxidants, can protect against oxidative damage.

(440) Angiotensin II can increase the production of reactive oxygen species, leading to oxidative damage.

(441) Glucose-6-phosphate is an intermediate in the non-oxidative phase of the pentose phosphate pathway.

(442) Flavonol is a powerful antioxidant that can help protect against oxidative stress and inflammation.

(443) The antioxidant activity of gallates may help protect against oxidative stress and cellular damage.

(444) Adenosine diphosphate can be converted back to ATP through the process of oxidative phosphorylation.

(445) Oxidative stress has been implicated in neurodegenerative diseases like Alzheimer's and Parkinson's.

(446) The bioavailable antioxidants in blueberries help protect against oxidative stress and inflammation.

(447) The antioxidant activity of caffeic acid helps protect cells from damage caused by oxidative stress.

(448) The three types of muscle fibers are slow-twitch, fast-twitch oxidative, and fast-twitch glycolytic.

(449) The synaptosomal fraction was used to study the effects of oxidative stress on synaptic transmission.

(450) The efficiency of oxidative phosphorylation can be influenced by the availability of electron donors.

(451) Consuming foods rich in antioxidants can promote anti-oxidation and protect against oxidative stress.

(452) The process of aging involves the accumulation of oxidative damage from oxidation-reduction reactions.

(453) The development of necrobiosis can be influenced by factors such as inflammation and oxidative stress.

(454) The haemolymph of insects can contain high levels of antioxidants to protect against oxidative stress.

(455) Copper-zinc superoxide dismutase is an enzyme that helps protect against oxidative damage to proteins.

(456) The cristae are crucial for the generation of reactive oxygen species during oxidative phosphorylation.

(457) The electron transport chain is responsible for the transfer of electrons in oxidative phosphorylation.

(458) Safranal has been found to have antioxidant properties that can protect the body from oxidative stress.

(459) The antioxidant activity of phenolics helps protect cells from oxidative damage caused by free radicals.

(460) Xanthones are known for their ability to scavenge free radicals and protect cells from oxidative damage.

(461) Consuming foods rich in antioxidants promotes anti-oxidation and helps protect against oxidative stress.

(462) The photodegradation of certain chemicals can produce reactive oxygen species, causing oxidative stress.

(463) Adenosine triphosphate is produced through the process of oxidative phosphorylation in the mitochondria.

(464) Cinnamaldehyde is known for its antioxidant properties, which can help protect against oxidative stress.

(465) Some studies suggest that creatine may have antioxidant properties and protect against oxidative stress.

(466) Antioxidant-rich foods like spinach and kale can help protect against oxidative stress and inflammation.

(467) Catalase is essential for the survival of aerobic organisms, and it protects them from oxidative damage.

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

(469) The metabolism of aerobioses is characterized by the production of ATP through oxidative phosphorylation.

(470) The study of laccase can provide insights into the role of oxidative enzymes in plant defense mechanisms.

(471) The endophyte enhances the plant's ability to produce antioxidants, and it also reduces oxidative damage.

(472) When a columnar epithelial cell is exposed to excessive oxidative stress, it can undergo cellular damage.

(473) Superoxide dismutase is considered one of the body's primary defense mechanisms against oxidative stress.

(474) Physiopathology research has revealed the role of oxidative stress in the development of chronic diseases.

(475) The tricarboxylic acid cycle is an important source of reducing equivalents for oxidative phosphorylation.

(476) Despite their small size, anti-oxidants have a powerful impact on our health by reducing oxidative stress.

(477) The oxidational stress caused by oxidative damage can be mitigated through the consumption of antioxidants.

(478) Epididymal spermatozoa are protected from oxidative stress by antioxidants present in the epididymal fluid.

(479) Cysteine is an essential component of the enzyme catalase, which helps protect cells from oxidative damage.

(480) The antioxidant properties of phloretin help neutralize free radicals and protect against oxidative stress.

(481) Zinc supplements are often recommended to athletes for protection against exercise-induced oxidative stress.

(482) The electron transport chain is responsible for generating the proton gradient in oxidative phosphorylation.

(483) The electron transport chain is composed of several protein complexes involved in oxidative phosphorylation.

(484) Diterpenoids have been found to exhibit potent antioxidant activity, protecting cells from oxidative damage.

(485) Mitochondrial dysfunction can result in a decrease in energy production and an increase in oxidative stress.

(486) Abasic sites can be induced by oxidative stress, which is a common factor in aging and age-related diseases.

(487) When exposed to oxidative stress, cells can upregulate the expression of catalase to protect against damage.

(488) The study showed that increasing daily consumption of antioxidants can help protect against oxidative stress.

(489) Glycin is a building block for glutathione, a powerful antioxidant that protects cells from oxidative damage.

(490) The enzyme glucose-6-phosphate dehydrogenase is involved in the protection of cells against oxidative stress.

(491) If free radicals are not neutralized by antioxidants, they can lead to oxidative stress and chronic diseases.

(492) Coenzyme NADH is involved in the production of ATP, but it also helps to protect cells from oxidative damage.

(493) Zinc acts as a defense against oxidative stress in the brain, reducing the risk of neurodegenerative diseases.

(494) Anar is a rich source of antioxidants, which help protect the body against free radicals and oxidative stress.

(495) Anti-oxidants play a crucial role in preventing oxidative stress, which is linked to various chronic diseases.

(496) Alkynes, which are used in the production of dyes, are often synthesized through oxidative coupling reactions.

(497) When hydrogen peroxide is present in high concentrations, catalase can help prevent oxidative damage to cells.

(498) Antiradical enzymes are essential for maintaining the balance between oxidative stress and antioxidant defense.

(499) Halophiles, which are adapted to high-salt environments, have unique adaptations to cope with oxidative stress.

(500) Dienes can be synthesized through a variety of methods, including elimination reactions and oxidative cleavage.

(501) Endothelial dysfunction can be detected by measuring markers of inflammation and oxidative stress in the blood.

(502) Since beetroot is high in antioxidants, it can help protect the body against oxidative stress and inflammation.

(503) Depside is a promising compound for the development of novel drugs targeting oxidative stress-related disorders.

(504) If the gonidial cells are not able to repair oxidative damage, the organism's cellular functions may be impaired.

(505) Researchers are exploring the potential of this chelator in the treatment of heavy metal-induced oxidative stress.

(506) The endophyte enhances the plant's ability to withstand oxidative stress, and it also protects against DNA damage.

(507) If aldoximes are subjected to oxidative conditions, they can be converted into the corresponding carboxylic acids.

(508) Iodid, when combined with selenium, can help protect against oxidative stress and support a healthy immune system.

(509) Researchers have discovered the role of nicotinamide adenine dinucleotide phosphate in regulating oxidative stress.

(510) Diterpenoids have been shown to possess antioxidant properties, which can help protect cells from oxidative damage.

(511) Diterpenoids have been found to possess antioxidant properties, which can help protect cells from oxidative damage.

(512) The multistep pathway for cellular respiration involves glycolysis, the Krebs cycle, and oxidative phosphorylation.

(513) Mucilages are rich in antioxidants, which help protect the body against oxidative stress and promote overall health.

(514) Glycin, which is a precursor to glutathione, helps protect cells from oxidative stress and supports immune function.

(515) Regularly consuming anticarcinogens, like apples and grapes, can help protect against oxidative stress and DNA damage.

(516) The mitochondrion is involved in the production of reactive oxygen species, and it can contribute to oxidative stress.

(517) Thiol-based antioxidants are known for their ability to scavenge free radicals and protect cells from oxidative damage.

(518) Peroxidation is a topic of ongoing research in the field of oxidative stress and its implications in disease development.

(519) Gur is a natural source of antioxidants, which help fight against free radicals and protect the body from oxidative stress.

(520) Regular use of antioxidant-rich skincare products can help regulate melanin synthesis and protect against oxidative stress.

(521) The biogeochemical cycle of manganese is important for the production of energy and the protection against oxidative stress.

(522) Laccase has been shown to have antioxidant properties, which can be beneficial for human health by reducing oxidative stress.

(523) Glycin, when combined with serine, forms glutathione, which is a potent antioxidant that protects cells from oxidative damage.

(524) The exact cause of necrobiosis is not fully understood, but it is believed to be related to inflammation and oxidative stress.

(525) Consuming antioxidant-rich foods like berries and leafy greens can help support immunity and protect against oxidative stress.

(526) The body's ability to metabolize amid the different types of antioxidants is essential for protecting against oxidative stress.

(527) ATP is synthesized in the mitochondria through a process called oxidative phosphorylation, which requires oxygen as a substrate.

(528) Glucose-6-phosphate is an essential substrate for the production of NADPH in the oxidative phase of the pentose phosphate pathway.

(529) The photodecomposition of certain pollutants can generate reactive oxygen species, leading to oxidative stress in living organisms.

(530) Glucose-6-phosphate is an essential substrate for the production of NADH in the non-oxidative phase of the pentose phosphate pathway.

(531) The capillary artery is a fragile structure, and it can be damaged by a variety of factors, including inflammation and oxidative stress.

(532) Anti-oxidants are believed to have a positive impact on heart health, as they help to reduce oxidative stress in the cardiovascular system.

(533) While some free radicals are produced during exercise, excessive exercise can lead to an overproduction of free radicals and oxidative stress.

(534) When microsomes are exposed to certain drugs, they can produce reactive oxygen species, which can lead to oxidative stress and cellular damage.

(535) Autofluorescence can be used to monitor cellular metabolism and oxidative stress, as changes in these processes can alter the fluorescence signal.

(536) The expression of catalase can be regulated by various signaling pathways, such as the Nrf2-Keap1 pathway, which is activated by oxidative stress.

(537) Chromoplasts are involved in the detoxification of harmful compounds, such as reactive oxygen species, protecting plant cells from oxidative damage.

(538) The intracellular concentration of reactive oxygen species is tightly regulated, and any imbalance can lead to oxidative stress and cellular damage.

(539) When catalase is deficient or absent in the body, it can lead to a buildup of hydrogen peroxide, which can cause oxidative damage to cells and tissues.

(540) The end products of glycolysis, pyruvate and ATP, are used in a variety of metabolic pathways, including the Krebs cycle and oxidative phosphorylation.

(541) Glycin is an important component of glutathione, a powerful antioxidant that helps protect cells from oxidative damage and supports overall immune function.

(542) Curcumin, which is a natural antioxidant, may help protect against oxidative damage in the body, but more research is needed to fully understand its effects.

(543) Although catalase is a highly efficient enzyme, it can be overwhelmed by excessive amounts of hydrogen peroxide, which can lead to oxidative stress and cell damage.

(544) While carotene is not directly involved in photosynthesis, it does play a role in protecting plants from oxidative damage caused by excess light and other environmental stressors.

(545) Antioxidants work by donating electrons to free radicals, which can help prevent oxidative stress and inflammation, but too much of a good thing can be harmful, so moderation is key.

(546) Abasic sites can be caused by oxidative damage, which is a natural process in the body, but they can also be caused by exposure to certain chemicals, and this exposure can increase the risk of cancer.

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