ライフサイエンスコーパス: galactose oxidase

1 s alcohol oxidation mediated by Cu/TEMPO and galactose oxidase.

2 he reductive and oxidative half-reactions of galactose oxidase.

3 ole parameters are similar to those found in galactose oxidase.

4 that found in another fungal metalloenzyme, galactose oxidase.

5 complexed cysteinyltyrosyl radical of fungal galactose oxidase.

6 ation of the tyrosine cofactor in the enzyme galactose oxidase.

7 an aldehyde at C-6 of residue 6 or 6' using galactose oxidase, a dansyl ethylenediamine acceptor flu

8 Galactose oxidase, a mononuclear copper enzyme, oxidizes

9 This modified assay enables galactose oxidase activity screening across a broader su

10 sulfonic acid) (ABTS) colorimetric assay for galactose oxidase activity.

11 common theme in both areas as exemplified by galactose oxidase and by aminoxyl radicals in alcohol ox

12 -[14C]GalA in the presence of high levels of galactose oxidase and catalase, at prolonged incubation

13 mes supports structural correlations between galactose oxidase and glyoxal oxidase, clearly identifyi

14 ides (see below) were used as substrates for galactose oxidase and periodate oxidation.

15 ndent reaction, which forms oxidized, mature galactose oxidase and requires two molecules of O2.

16 onal models of the mononuclear copper enzyme galactose oxidase are presented that catalytically oxidi

17 from glycerol for the aldol reaction, using galactose oxidase catalyzed oxidation of glycerol in the

18 pa quinone, tryptophan trytophylquinone, the galactose oxidase cofactor, and the enzymes harboring th

19 reaction profile for substrate oxidation by galactose oxidase, consisting of three components (hydro

20 Galactose oxidase converts galactose and galactocerebros

21 e oxidation catalyzed by glucose oxidase and galactose oxidase deactivate nitrate reductase and must

22 Gbeta subunits and the kelch repeat protein galactose oxidase fold into strikingly similar seven-bla

23 Mature galactose oxidase forms rapidly following exposure of a

24 igated the biogenesis of cofactor-containing galactose oxidase from pregalactose oxidase lacking the

25 ate (CA) membrane and a layer of immobilized galactose oxidase (GALOX).

26 Galactose oxidase (GAO) contains a Cu(II)-ligand radical

27 A galactose oxidase (GAOx) biosensor, based on the immobil

28 Galactose oxidase (GO) belongs to a class of proteins th

29 Galactose oxidase (GO) is a copper-dependent enzyme that

30 Galactose oxidase (GO) is a member of the family of radi

31 In combination with galactose oxidase (GO), NA has been found to stimulate T

32 ine-modified tyrosine cofactor in the enzyme galactose oxidase (GO).

33 we explore the use of an alternative agent, galactose oxidase (GOase) isolated from Fusarium sp. in

34 been used for the generation of variants of galactose oxidase (GOase) that can selectively oxidize g

35 reaction and enzyme engineering to provide a galactose oxidase (GOase) variant with remarkably high a

36 o the metal center of a redox metalloenzyme, galactose oxidase (GOase), by coordination of a linker a

37 The mononuclear copper enzyme, galactose oxidase, has been investigated under steady-st

38 290, a second-coordination sphere residue in galactose oxidase, has been investigated via steady-stat

39 asure galactose and galactocerebroside using galactose oxidase immobilized on a solid resin.

40 Galactose oxidase is a copper metalloenzyme containing a

41 The fungal enzyme galactose oxidase is a radical copper oxidase that catal

42 Galactose oxidase is a remarkable enzyme containing a me

43 enzymes, including prostaglandin H synthase, galactose oxidase, ribonucleotide reductase, and photosy

44 a greater spectroscopic fidelity to oxidized galactose oxidase than non-sulfur-bearing analogs.

45 hitecture to the galactose-binding domain of galactose oxidase, the coagulation factor C2 domain and

46 region of the molecule, whose counterpart in galactose oxidase, the coagulation factor C2 domains and

47 ubstrate deuterium kinetic isotope effect on galactose oxidase turnover whose magnitude varies system

48 [Formula: See Text] Galactose oxidase was used to oxidize the terminal Gal6'

49 Then, the enzymatic reaction with galactose oxidase was utilized to specifically oxidize O

50 were analyzed: glucose oxidase with glucose, galactose oxidase with galactose, and pyranose 2-oxidase

51 pper motif has previously been found only in galactose oxidase, with which glyoxal oxidase shares man