「Oxidative」の共起表現一覧(1語右で並び替え)
該当件数 : 201件
Vaska's complex undergoes | oxidative addition with conventional oxidants such as |
eacts with the aryl halide or triflate in an | oxidative addition to Pd(II) complex B |
nism is based on nucleophilic attack, namely | oxidative addition of the alkyl halide to Cu(I) elevat |
limited to the activation of halides by the | oxidative addition of palladium. |
xidation state allowing the metal to undergo | oxidative addition reactions. |
Upon | oxidative addition, the oxidation state of the iridium |
dition of two one-electron ligands is called | oxidative addition. |
In contrast to bacteria, where the | oxidative and isomerization pathways are carried out b |
to increase the sensitivity of parasites to | oxidative antiparasitic drugs. |
The | oxidative branch of the pathway is a major source for |
It is used on cut fruits to prevent | oxidative browning, in seafood to preserve pink and re |
However, with its | oxidative capability in reaction with catalase, scarri |
chloramines are longer-lived and retain some | oxidative capacity. |
Also, it is now prepared from catalytic | oxidative carbonylation of methanol with carbon monoxi |
This particular pathway is known as | oxidative cationic cyclization. |
drin B decreases the death rate following an | oxidative challenge to brain tissues. |
entified as a catalyst for the high pressure | oxidative chlorination of methane to chloromethane wit |
Again for | oxidative chlorinations on the laboratory scale, SO2Cl |
Oxidative chlorinations entail the transfer of Cl2 fro | |
Pimelic acid is produced by the | oxidative cleavage of cycloheptanone. |
eparation of terminal alcohols by subsequent | oxidative cleavage with H2O2 in aq. |
They are derived from carotenoids by | oxidative cleavage, catalyzed by carotenoid oxygenases |
in the formation of lignin by promoting the | oxidative coupling of lignols, a family of naturally o |
Rhodiolin, the product of the | oxidative coupling of coniferyl alcohol with the 7,8-d |
The | oxidative coupling of methane (OCM) is a type of chemi |
rn dimerized using copper(II) chloride in an | oxidative coupling reaction to give the butadiene dime |
can be prepared directly from an asymmetric | oxidative coupling of 2-naphthol with copper(II) chlor |
olin, a flavonolignan, is the product of the | oxidative coupling of coniferyl alcohol with the 7,8-d |
It is synthesised by | oxidative coupling of 4-amino-3-(azidocarbonyl)furoxan |
NOBIN is prepared by | oxidative cross coupling of 2-naphthol and 2-naphthyla |
cal reaction whereby a chalcone undergoes an | oxidative cyclization to form a flavonol. |
The brain is highly vulnerable to | oxidative damage caused by free radicals because of it |
venging effects which may protect cells from | oxidative damage and reduce risk of cardiovascular dis |
The accumulation of | oxidative damage and its implications for aging depend |
In particular, one major contributor to | oxidative damage is hydrogen peroxide (H2O2), which is |
tes, suggesting that the metabolites reduced | oxidative damage and improved mitochondrial function. |
ial defence system that protects DNA against | oxidative damage and are distributed widely in the bac |
o DNA as a genetic material, defense against | oxidative damage due to oxygen metabolism, and redox s |
es and proximal renal tubal cells and causes | oxidative damage and DNA damage leading to cell death |
moglobin and thus protects the body from the | oxidative damage that free heme can cause. |
roduce generalized tissue protection against | oxidative damage caused by free radicals. |
Oxidative damage to cells reduces immune response. | |
It is a product of | oxidative damage to DNA and has been shown to cause mu |
with increasing age may also be explained by | oxidative damage, known to be a causative factor in Al |
ntration: recombinant protein production and | oxidative damage,” Biotechnology & Bioengineering, 81: |
, which is accompanied by an accumulation of | oxidative damage. |
ganisms (protection of cell membrane against | oxidative damages) and can be easily bioconcentrated i |
The encoded enzyme catalyzes the reversible | oxidative deamination of glutamate to alpha-ketoglutar |
Oxidative deamination is a form of deamination that ge | |
s of an ATP synthase as well as pathways for | oxidative deamination. |
Other names in common use include lactate | oxidative decarboxylase, lactate oxidase, lactic oxyge |
s enzyme is also called malonic semialdehyde | oxidative decarboxylase. |
occurs through a NIH shift and involves the | oxidative decarboxylation of an α-oxo acid as well as |
tep of porphyrin metabolism it catalyses the | oxidative decarboxylation of coproporphyrinogen III to |
e Naypyidaw Reaction, Swanson Conversion, or | oxidative decarboxylation reaction) is the far from eq |
hydroxybenzoate molecule is subjected to two | oxidative decarboxylations by NovR and molecular oxyge |
cetinidin, in tea, would be a product of the | oxidative degallation of epigallocatechin gallate (EGC |
Oxidative degradation of uracil produces urea and male | |
ined that that 2-nonenal is generated by the | oxidative degradation of omega-7 unsaturated fatty aci |
Hydroxylation is the first step in the | oxidative degradation of organic compounds in air. |
to produce butadiene from normal butenes by | oxidative dehydrogenation using a proprietary catalyst |
Formally this species is derived by | oxidative dehydrogenation of 2,2'-diaminobiphenyl. |
Casuarictin can be formed from it via | oxidative dehydrogenation of 2 other galloyl groups in |
zed in the liver, mostly by the processes of | oxidative demethylation (producing fluvoxamine acid an |
the genotoxicity of steviol and some of its | oxidative derivatives in vitro is not expressed in viv |
It is derived from the | oxidative dimerization of homogentisic acid. |
pressions and activities are associated with | oxidative DNA damage and subsequently the individual's |
more it had become increasingly evident that | oxidative DNA damage, in particular, is a major cause |
e weakly mutagenic, possibly by induction of | oxidative DNA damage. |
required for transcription-coupled repair of | oxidative DNA damage. |
Other studies have shown a strong | oxidative effect in the gut that can damage intestinal |
gen species and may prevent such deleterious | oxidative effects. |
for molecular degradation, the metabolon for | oxidative energy generation, and the ribosome for prot |
he induction of CYP3A4, an important phase I | oxidative enzyme that is responsible for the metabolis |
It is used as a reagent to detect | oxidative enzymes, and is associated with dopamine lev |
Lignan synthesis is catalysed by | oxidative enzymes. |
elium and endothelium and may be involved in | oxidative eye injury. |
Process of | oxidative folding in eukaryotes |
Its distinct framework is produced during | oxidative formation conditions. |
The brain is uniquely vulnerable to | oxidative injury, due to its high metabolic rate and e |
ved endothelial health via downregulation of | oxidative LDL. |
The | oxidative leaching stage is carried out in agitated ta |
He worked to identify specific | oxidative mechanisms in atherosclerosis. |
While it is involved in the | oxidative metabolism of a small range of substrates (m |
er solubility or decreases susceptibility to | oxidative metabolism in the liver. |
ion occurs through alternating reductive and | oxidative methylation reactions, that is, reduction of |
This sudden release of | oxidative molecules into the cell puts it under oxidat |
In the | oxidative part of the pentose phosphate pathway, RpiA |
The Weimberg pathway is an | oxidative pathway where the D-xylose is oxidized to D- |
bles a cell's ability to generate ATP via an | oxidative pathway, ultimately forcing a cell into apop |
s lipophilic, is metabolised hepatically via | oxidative pathways. |
Oxidative phase of pentose phosphate pathway. | |
This reduces the need of | oxidative phosphorylation done by the TCA cycle via th |
t and heterotrophic growth by glycolysis and | oxidative phosphorylation during dark periods. |
onstrated its role in increasing the rate of | oxidative phosphorylation in skeletal muscle. |
. Kennedy, that mitochondria are the site of | oxidative phosphorylation in eukaryotes, which ushered |
d by regeneration of ATP by the usual means, | oxidative phosphorylation or other energy-producing pa |
e) as it is an extremely potent uncoupler of | oxidative phosphorylation with an IC50 of about 1 micr |
nd water via glycolysis, the Krebs cycle and | oxidative phosphorylation whereas in the absence of ox |
Oxidative phosphorylation | |
metabolic H217O water produced by | oxidative phosphorylation in mitochondria). |
he biochemical mechanism of ATP synthesis by | oxidative phosphorylation was unknown. |
an article in Nature, niclosamide uncouples | oxidative phosphorylation in the tapeworm. |
UCPs separate | oxidative phosphorylation from ATP synthesis with ener |
It is toxic and acts by interfering with | oxidative phosphorylation in mitochondria, causing dep |
atractyloside on the energy-transfer system ( | oxidative phosphorylation) and ADP binding sites of ra |
l nervous system by uncoupling mitochondrial | oxidative phosphorylation, which causes a decrease in |
, where it is either used as a substrate for | oxidative phosphorylation, or is converted to citrate |
"Dinitrophenol uncouples | oxidative phosphorylation, causes release of calcium f |
g hyperthermia caused by agents that inhibit | oxidative phosphorylation, early administration may im |
It also uncouples | oxidative phosphorylation, the process cells use to sy |
of protons across the inner membrane during | oxidative phosphorylation. |
ansport chain, allowing generation of ATP in | oxidative phosphorylation. |
e they can be used to provide the energy for | oxidative phosphorylation. |
not be immediately supplied by glycolysis or | oxidative phosphorylation. |
Tetraphenylborate uncouples | oxidative phosphorylation. |
This enzyme participates in | oxidative phosphorylation. |
This process is part of | oxidative phosphorylation. |
asis for understanding the actual process of | oxidative phosphorylation. |
hydrazone (CCCP), is a chemical inhibitor of | oxidative phosphorylation. |
rial cytochrome c oxidase and hence blocking | oxidative phosphorylation. |
disrupts synthesis of proteins essential for | oxidative phosphorylation. |
lso apply to compounds of oxygen with a high | oxidative potential, such as peroxides, chlorates, nit |
Since disulfide bond formation is an | oxidative process, the major pathway of its catalysis |
are capable of degrading the polymer via an | oxidative process. |
s not known to degrade in the environment by | oxidative processes because of the strength of the car |
esses during the latter portion is marked by | oxidative processes including the formation of Fe3+ ox |
At 5, the 3 goes through various | oxidative processes to make 4 (deoxyhemigossypol), whi |
Dirigent proteins possess no | oxidative radical forming activity of their own; but c |
The last step of the | oxidative reactions in the pentose phosphate pathway i |
This | oxidative route to acetic acid is declining in importa |
The | oxidative source is metal ions in solution such as Fe2 |
Hydrastinine was produced by | oxidative splitting of hydrastine hydrochloride with n |
s that would need to be increased to achieve | oxidative stability (without creating trans or polyuns |
It has an | Oxidative Stability Index of approximately 60, which m |
s due to antioxidant activity in the oil.The | oxidative stability of rice bran oil was equivalent to |
ils produced by the human skin, and its high | oxidative stability. |
n-coding RNA which is induced in response to | oxidative stress in Escherichia coli. |
phate pathway protects the trypanosomes from | oxidative stress via the generation of NADPH and provi |
nge of pathologic stimuli induce endothelial | oxidative stress such as oxidized LDL-cholesterol, inf |
r growth and protect against alcohol-induced | oxidative stress as well as ethanol-induced chronic li |
Under | oxidative stress (attack by virus at the cellular leve |
ydrogenase deficiency, in which uncontrolled | oxidative stress causes hemoglobin to denature and for |
both liver and blood vessel tissues against | oxidative stress via inhibition of TNF-α. |
er hyperuricemia is a protective response to | oxidative stress in such diseases or whether it is a p |
Thus, some researchers think urate-induced | oxidative stress is causative in stroke, while others |
one deacetylase) activity that is induced by | oxidative stress (i.e., in smokers), returning steroid |
It has recently been shown that the | oxidative stress associated with cigarette smoke can i |
acid and vitamin E, ferulic acid may reduce | oxidative stress and formation of thymine dimers in sk |
ecies, or serve a protective function during | oxidative stress (Trent and Hargrove, 2002).[supplied |
ogical or biochemical applications to reduce | oxidative stress or damage. |
antioxidants, as protective effects against | oxidative stress have been demonstrated in cell cultur |
Deeply involved in research into | oxidative stress and free radicals, Davies is the foun |
ays and is not clearly understood, increased | oxidative stress within the cell damages the sarcolemm |
His research focuses on the mechanisms of | oxidative stress in human vasculature and on the searc |
used when the mechanisms that defend against | oxidative stress within the red blood cell are overwhe |
While many studies cite excitotoxicity, or | oxidative stress as likely mechanisms, which may be an |
Cells under | oxidative stress secrete HX3, which in turn upregulate |
The | oxidative stress hypothesis (proposed by Munzel et al. |
Elesclomol induces | oxidative stress by provoking a buildup of reactive ox |
y focusing his research on the regulation of | oxidative stress repair genes during aging. |
His research interest is on | oxidative stress and the cell cycle. |
He described selected mechanisms of | oxidative stress in human diabetes mellitus |
zone triggered protective mechanisms against | oxidative stress in citrus." |
Dps is also Induced by oxyR in response to | oxidative stress during exponential phase. |
xidants are tried as a means to decrease the | oxidative stress and to slow this damaging down. |
enerates reactive oxygen species that induce | oxidative stress in bacterial and mammalian cells. |
scavenges free radicals, protecting against | oxidative stress and neuronal apoptosis. |
the consequences of sidestream smoke-induced | oxidative stress in rats. |
oxygen species that contributes to cellular | oxidative stress and is linked to neuromuscular diseas |
are active smokers (a condition resulting in | oxidative stress) via a distinctly separate mechanism. |
nd the bimolecular reaction damages the DNA ( | oxidative stress). |
s and are formed under similar conditions of | oxidative stress, containing a substituted tetrahydrof |
d lysosome and acts as a defense response to | oxidative stress, preventing apoptosis of the cell. |
esearched the effects of lipid peroxidation, | oxidative stress, and modified lipoproteins in the pro |
igment epithelial cells when confronted with | oxidative stress, in the brain during experimental str |
ucible isoform in response to stress such as | oxidative stress, hypoxia, heavy metals, cytokines, et |
of CB2 and TRPV1 receptors, and induction of | oxidative stress, all contributing to induce apoptosis |
The activity of DDAH is impaired by | oxidative stress, permitting ADMA to accumulate. |
pesticides-such as DDE-are neurotoxic, cause | oxidative stress, and damage the brain's dopaminergic |
oxidation in both animal and human models of | oxidative stress. |
n selenium metabolism and protection against | oxidative stress. |
e resulting mutant is much more resistant to | oxidative stress. |
ral cell survival under conditions of severe | oxidative stress. |
ylation of phenylalanine under conditions of | oxidative stress. |
cid, amino acids (particularly leucine), and | oxidative stress. |
human genome and free radical production and | oxidative stress. |
Free M1G is also biomarker for | oxidative stress. |
TBARS tests, measure a condition known as | oxidative stress. |
species occurs naturally and is a marker for | oxidative stress. |
2 die several days after birth, amid massive | oxidative stress. |
arge fold-magnitude in microarray studies of | oxidative stress. |
utathione reductase is used as indicator for | oxidative stress. |
n of trypanothione is in the defence against | oxidative stress. |
o actively suppress the cell death caused by | oxidative stress. |
causative links in endometriosis-associated | oxidative stress. |
ective effect in cellular models by reducing | oxidative stress. |
ammatory markers like C-reactive protein and | oxidative stress. |
ncio must have been subjected to the typical | oxidative treatment of that wine style. |
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