ライフサイエンスコーパス: saccharopine

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1 n the embryo along with an elevated level of saccharopine.

2 ) adds to the enzyme followed by addition of saccharopine.

3 es using analogues of AASA, L-glutamate, and saccharopine.

4 an imine, which is reduced by NADPH to give saccharopine.

5 an mdh3/gpd1Delta double mutant accumulates saccharopine and displays lysine bradytrophy.

6 -Kg, suggesting the existence of both E:NADH:saccharopine and E:NAD:saccharopine complexes.

7 ornithine were used as dead-end analogues of saccharopine and showed competitive inhibition vs saccha

8 aropine and showed competitive inhibition vs saccharopine and uncompetitive inhibition vs NADP.

9 charopine, while L-AASA is noncompetitive vs saccharopine and uncompetitive vs NADP.

10 ccepted a proton from the secondary amine of saccharopine, and products are released.

11 accepts a proton from the secondary amine of saccharopine as it is oxidized.

12 direction of lysine formation, once NAD+ and saccharopine bind, a group with a pKa of 6.2 accepts a p

13 stence of both E:NADH:saccharopine and E:NAD:saccharopine complexes.

14 Saccharopine reductase (SR) [saccharopine dehydrogenase (l-glutamate forming), EC 1.5

15 Three structures of saccharopine dehydrogenase (l-lysine-forming) (SDH) have

16 ional enzyme, lysine ketoglutarate reductase/saccharopine dehydrogenase (LKR/SDH).

17 etoglutarate reductase (LKR, EC 1.5.1.8) and saccharopine dehydrogenase (SDH, ED 1.5.1.9) from an Ara

18 Saccharopine dehydrogenase [N6-(glutaryl-2)-L-lysine:NAD

19 lity of intraperoxisomal NAD(+) required for saccharopine dehydrogenase activity can be sustained by

20 tempt to define the substrate specificity of saccharopine dehydrogenase and to identify functional gr

21 In yeast, lysine-ketoglutarate reductase and saccharopine dehydrogenase are encoded by the LYS1 and L

22 Saccharopine dehydrogenase catalyzes the NAD-dependent o

23 have been measured for the histidine-tagged saccharopine dehydrogenase from Saccharomyces cerevisiae

24 Lysine biosynthesis is restored when saccharopine dehydrogenase is mislocalised to the cytoso

25 alyzed by lysine-ketoglutarate reductase and saccharopine dehydrogenase, respectively, resulting in t

26 In the direction of saccharopine formation, data also suggest that, at high

27 amide adenine dinucleotide (NAD) followed by saccharopine in the physiologic reaction direction.

28 Saccharopine is noncompetitive versus lysine or alpha-Kg

29 Saccharopine is noncompetitive vs NADPH, alpha-AASA, and

30 Product inhibition by saccharopine is uncompetitive versus NADH, suggesting a

31 is competitive vs NADP and noncompetitive vs saccharopine, L-glutamate is noncompetitive vs both NADP

32 ryo LKR/SDH suppression through crosses, the saccharopine level in embryo was reduced and resulted in

33 in which substrate (alpha-ketoglutarate and saccharopine) may bind.

34 In the direction of saccharopine oxidation, N-oxalylglycine, L-pipecolic aci

35 In the direction of saccharopine oxidation, NADPH is competitive vs NADP and

36 Saccharopine reductase (SR) [saccharopine dehydrogenase

37 tudies were carried out for histidine-tagged saccharopine reductase from Saccharomyces cerevisiae at

38 Lysine is converted to saccharopine, through condensation with alpha-ketoglutar

39 H2O as it attacks the Schiff base carbon of saccharopine to form the carbinolamine intermediate.

40 ucleotide-dependent oxidative deamination of saccharopine to generate alpha-Kg and lysine using NAD+

41 s the NAD-dependent oxidative deamination of saccharopine to give l-lysine and alpha-ketoglutarate.

42 sis, the NAD(+)-dependent dehydrogenation of saccharopine to lysine, is another NAD(+)-dependent reac

43 glutamate is noncompetitive vs both NADP and saccharopine, while L-AASA is noncompetitive vs saccharo

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