「Acceptor」の共起表現一覧(2語左で並び替え)
該当件数 : 204件
| The azo group in DEAD is a Michael | acceptor. |
| It is used as a hydrogen | acceptor and oxidant in organic synthesis. |
| With antimony pentafluoride, SbF5, a fluoride | acceptor, the ReF6+ cation is formed. |
| yst which can split hydrogen between a proton | acceptor and a hydride acceptor or produce hydrogen fr |
| lyzes the transfer of a methyl group to a DNA | acceptor. |
| p from phenolic sulphate esters to a phenolic | acceptor substrate. |
| ride forms halide complexes and is a powerful | acceptor as shown by the reaction with sulfur tetraflu |
| he non-reducing sugar then acts as a glycosyl | acceptor as a protecting group that is easily lost in |
| Lf(D) is the set of words accepted by | acceptor D by having the acceptor enter an accepting s |
| L(D) is the set of words accepted by | acceptor D by having the acceptor simultaneously enter |
| wo substrates of this enzyme are acyl-CoA and | acceptor, whereas its two products are 2,3-dehydroacyl |
| trates of this enzyme are primary alcohol and | acceptor, whereas its two products are aldehyde and re |
| ates of this enzyme are polyvinyl alcohol and | acceptor, whereas its two products are oxidized polyvi |
| enzyme is also called aldehyde dehydrogenase ( | acceptor). |
| In enzymology, an alkan-1-ol dehydrogenase ( | acceptor) (EC 1.1.99.20) is an enzyme that catalyzes t |
| enzyme are all-trans-13,14-dihydroretinol and | acceptor, whereas its two products are all-trans-retin |
| of molecular oxygen that acts as an electron | acceptor. |
| Phylloquinone is an electron | acceptor in the electron transport chain of chloroplas |
| Could this act as an electron | acceptor in much the same way as ubiquinone does in th |
| ron is excited and transferred to an electron | acceptor molecule, phaeophytin, leaving the chlorophyl |
| lvin cycle whilst NAD+ is used as an electron | acceptor in glycolysis. |
| He is the god of fire and the | acceptor of sacrifices. |
| speakers, and an illuminated printer and bill | acceptor. |
| The 3 substrates of this enzyme are 4-cresol, | acceptor, and H2O, whereas its two products are 4-hydr |
| e 3 substrates of this enzyme are quinaldate, | acceptor, and H2O, whereas its two products are kynure |
| The 3 substrates of this enzyme are aldehyde, | acceptor, and H2O, whereas its two products are carbox |
| 3 substrates of this enzyme are benzoyl-CoA, | acceptor, and H2O, whereas its two products are 4-hydr |
| s of this enzyme are N6-dimethylallyladenine, | acceptor, and H2O, whereas its 3 products are adenine, |
| 3 substrates of this enzyme are (S)-nicotine, | acceptor, and H2O, whereas its two products are (S)-6- |
| ates of this enzyme are N-methyl-L-glutamate, | acceptor, and H2O, whereas its 3 products are L-glutam |
| he 3 substrates of this enzyme are sarcosine, | acceptor, and H2O, whereas its 3 products are glycine, |
| 4 substrates of this enzyme are trithionate, | acceptor, H2O, and OH-, whereas its two products are b |
| e 3 substrates of this enzyme are spermidine, | acceptor, and H2O, whereas its 3 products are propane- |
| s of this enzyme are quinoline-4-carboxylate, | acceptor, and H2O, whereas its two products are 2-oxo- |
| he 3 substrates of this enzyme are quinoline, | acceptor, and H2O, whereas its two products are quinol |
| wo substrates of this enzyme are arsenite and | acceptor, whereas its two products are arsenate and re |
| sponds to photosynthetic signals, such as the | acceptor availability at photosystem II and ABA. |
| pectrum of tryptophan, making it useful as an | acceptor in FRET experiments. |
| When tRNA with compete CCA sequence at its | acceptor stem is bound to A site, C74 of tRNA stacking |
| ple, A would be the donor, and B would be the | acceptor. |
| es of this enzyme are beta-cyclopiazonate and | acceptor, whereas its two products are alpha-cyclopiaz |
| ubstrates of this enzyme are butanoyl-CoA and | acceptor, whereas its two products are 2-butenoyl-CoA |
| donors with a quinone or similar compound as | acceptor. |
| r NADPH with a quinone or similar compound as | acceptor. |
| f donor with a quinone or similar compound as | acceptor. |
| bstrates of this enzyme are cyclohexanone and | acceptor, whereas its two products are cyclohex-2-enon |
| de or oxo group of donor with a cytochrome as | acceptor. |
| nous compounds as donors with a cytochrome as | acceptor. |
| the CH-OH group of donor with a cytochrome as | acceptor. |
| ated substances as donor with a cytochrome as | acceptor. |
| a sulfur group of donors with a cytochrome as | acceptor. |
| n passes its first electron to a cytochrome c | acceptor. |
| nsferred from the QH2 donor to a cytochrome c | acceptor at a time, the reaction mechanism of complex |
| substrates of this enzyme are D-gluconate and | acceptor, whereas its two products are 2-dehydro-D-glu |
| o substrates of this enzyme are D-glucose and | acceptor, whereas its two products are D-glucono-1,5-l |
| substrates of this enzyme are D-sorbitol and | acceptor, whereas its two products are L-sorbose and r |
| In enzymology, a D-sorbitol dehydrogenase ( | acceptor) (EC 1.1.99.21) is an enzyme that catalyzes t |
| reduced flavodoxin as dono with dinitrogen as | acceptor. |
| a sulfur group of donors with a disulfide as | acceptor. |
| he CH-NH2 group of donors with a disulfide as | acceptor. |
| the CH-OH group of donor with a disulfide as | acceptor. |
| yde or oxo group of donor with a disulfide as | acceptor. |
| d Y-H to form an X-Y bond with a disulfide as | acceptor. |
| and the relative orientation of the donor and | acceptor transition dipole moments. |
| pins of the electrons occupying the donor and | acceptor in the direction of the magnetic field. |
| The organyl group on sn-1 of the donor or | acceptor molecule can be alkyl, acyl or alk-1-enyl. |
| ency to form hydrogen bonds both as donor and | acceptor. |
| In the absence of a proper electron donor or | acceptor it is possible for such molecules to undergo |
| were provided as the sole electron donor and | acceptor pair. |
| ermediates (such as native electron donor and | acceptor molecules) in the fungal cell and the locatio |
| As there is no external electron | acceptor in fermentation, cells have to produce their |
| This normally occurs via an external electron | acceptor such as strong oxidizing agent in aqueous sol |
| ns from an electron donor to a final electron | acceptor through an electron transport chain, which co |
| ly those oxidizing metal ion with a flavin as | acceptor. |
| on the CH-NH group of donors with a flavin as | acceptor. |
| afluoride is the strongest known fluoride ion | acceptor, exceeding the acceptor tendency of even anti |
| In enzymology, a gluconate 2-dehydrogenase ( | acceptor) (EC 1.1.99.3) is an enzyme that catalyzes th |
| In enzymology, a glucose dehydrogenase ( | acceptor) (EC 1.1.99.10) is an enzyme that catalyzes t |
| wo substrates of this enzyme are glycerol and | acceptor, whereas its two products are glycerone and r |
| In enzymology, a glycerol dehydrogenase ( | acceptor) (EC 1.1.99.22) is an enzyme that catalyzes t |
| o substrates of this enzyme are glycolate and | acceptor, whereas its two products are glyoxylate and |
| phosphotransferases) with an alcohol group as | acceptor. |
| hosphotransferases) with a phosphate group as | acceptor. |
| (phosphotransferases) with a carboxy group as | acceptor. |
| sphotransferases) with a nitrogenous group as | acceptor. |
| sphotransferases) with a nitrogenous group as | acceptor. |
| on NADH or NADPH with a nitrogenous group as | acceptor. |
| hosphotransferases) with a phosphate group as | acceptor. |
| phosphotransferases) with an alcohol group as | acceptor. |
| nzymes that transfer allylic prenyl groups to | acceptor molecules. |
| 3 substrates of this enzyme are NADH, H+, and | acceptor, whereas its two products are NAD+ and reduce |
| substrates of this enzyme are NADPH, H+, and | acceptor, whereas its two products are NADP+ and reduc |
| 3 substrates of this enzyme are NH3, H2O, and | acceptor, whereas its two products are hydroxylamine a |
| strates of this enzyme are aldehyde, H2O, and | acceptor, whereas its two products are carboxylate and |
| tes of this enzyme are 2-furoyl-CoA, H2O, and | acceptor, whereas its two products are S-(5-hydroxy-2- |
| bstrates of this enzyme are taurine, H2O, and | acceptor, whereas its 3 products are sulfoacetaldehyde |
| tes of this enzyme are ethylbenzene, H2O, and | acceptor, whereas its two products are (S)-1-phenyleth |
| bstrates of this enzyme are RCH2NH2, H2O, and | acceptor, whereas its 3 products are RCHO, NH3, and re |
| As fluoride is such a strong hydrogen bond | acceptor it is near impossible to dry hydrated samples |
| a 1,4-alpha-D-glucan to a new position in an | acceptor carbohydrate, which may be glucose or a 1,4-a |
| er names in common use include hydroxylamine ( | acceptor) reductase, and ammonia:(acceptor) oxidoreduc |
| Other names in common use include glutamate ( | acceptor) dehydrogenase, glutamate oxidase, glutamic a |
| organic metal” TTF-TCNQ where the TCNQ is the | acceptor. |
| ubstrates of this enzyme are L-pipecolate and | acceptor, whereas its two products are 2,3,4,5-tetrahy |
| o substrates of this enzyme are L-proline and | acceptor, whereas its two products are (S)-1-pyrroline |
| o substrates of this enzyme are L-sorbose and | acceptor, whereas its two products are 5-dehydro-D-fru |
| In enzymology, a malate dehydrogenase ( | acceptor) (EC 1.1.99.16) is an enzyme that catalyzes t |
| ose oxidizing metal ion with NAD+ or NADP+ as | acceptor. |
| e or oxo group of donor with NAD+ or NADP+ as | acceptor. |
| he CH-CH group of donor with NAD+ or NADP+ as | acceptor. |
| he CH-OH group of donor with NAD+ or NADP+ as | acceptor. |
| e CH-NH group of donors with NAD+ or NADP+ as | acceptor. |
| CH-NH2 group of donors with NAD+ or NADP+ as | acceptor. |
| rus or arsenic in donor with NAD+ or NADP+ as | acceptor. |
| ous compounds as donors with NAD+ or NADP+ as | acceptor. |
| sulfur group of donors with NAD+ or NADP+ as | acceptor. |
| ulfur proteins as donor with NAD+ or NADP+ as | acceptor. |
| ted substances as donor with NAD+ or NADP+ as | acceptor. |
| ting on CH or CH2 group with NAD+ or NADP+ as | acceptor. |
| he CH-NH group of donor with NAD+ or NADP+ as | acceptor. |
| he CH-CH group of donor with NAD+ or NADP+ as | acceptor. |
| he CH-OH group of donor with NAD+ or NADP+ as | acceptor. |
| ng on hydrogen as donor with NAD+ or NADP+ as | acceptor. |
| acting on NADH or NADPH with NAD+ or NADP+ as | acceptor. |
| he CH-OH group of donor with NAD+ or NADP+ as | acceptor, more specifically it is part of the group of |
| phate of the donor and the 3' hydroxyl of the | acceptor. |
| The Windows Service offering the | acceptor side of NTLMSSP has been removed from Windows |
| hose acting on CH or CH2 group with oxygen as | acceptor. |
| on the CH-NH2 group of donors with oxygen as | acceptor. |
| ng on the CH-OH group of donor with oxygen as | acceptor. |
| aldehyde or oxo group of donor with oxygen as | acceptor. |
| -H and Y-H to form an X-Y bond with oxygen as | acceptor. |
| ng on the CH-CH group of donor with oxygen as | acceptor. |
| itrogenous compounds as donors with oxygen as | acceptor. |
| nd related substances as donor with oxygen as | acceptor. |
| ng on a sulfur group of donors with oxygen as | acceptor. |
| on the CH-NH2 group of donors with oxygen as | acceptor. |
| g on the CH-NH group of donors with oxygen as | acceptor. |
| s, specifically those acting on a peroxide as | acceptor (peroxidases). |
| nzymology, a polyvinyl-alcohol dehydrogenase ( | acceptor) (EC 1.1.99.23) is an enzyme that catalyzes t |
| It is also a potent Michael | acceptor. |
| subsequently captured by the primary electron | acceptor. |
| subsequently captured by the primary electron | acceptor, a pheophytin molecule located within photosy |
| group of donor with an iron-sulfur protein as | acceptor. |
| group of donor with an iron-sulfur protein as | acceptor. |
| unds as donors with an iron-sulfur protein as | acceptor. |
| rogen as donor with an iron-sulfur protein as | acceptor. |
| cting on NADH or NADPH with a heme protein as | acceptor. |
| substrates of this enzyme are pyridoxine and | acceptor, whereas its two products are isopyridoxal an |
| formation of a complex between sensitizer and | acceptor molecules was excluded by the additivity of t |
| an intermolecular distances of sensitizer and | acceptor, corresponding to a concentration of 10−3 to |
| This example shows an | acceptor for strings over {0,1} that contain an even n |
| s, specifically those acting on superoxide as | acceptor (only sub-subclass identified to date). |
| It uses arsenate as its terminal electron | acceptor. |
| O32-) can also be used as a terminal electron | acceptor. |
| cteria, with DMSO being the terminal electron | acceptor. |
| o still use oxygen as their terminal electron | acceptor. |
| nitrate (NO3-) is used as a terminal electron | acceptor whereby it is converted to nitrite (NO2-). |
| he pyrite using oxygen as a terminal electron | acceptor. |
| itrate acts as an alternate terminal electron | acceptor for certain bacteria delaying the onset of an |
| In this methodology, the glycosyl | acceptor is tethered into the C-2-O-protecting group ( |
| The glycosyl | acceptor is then tethered at the benzylic position of |
| n have phycocyanobilin acting as the terminal | acceptor of energy transfer, they fluoresce around 635 |
| ydrogen bonds exist, saturating both the four | acceptor positions on the alpha carboxylate group and |
| ansfer from the excited P700* to the electron | acceptor. |
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