ライフサイエンスコーパス: phosphate-binding protein

1 ethyl)-7-diethylamino-coumarin-3-carboxamide phosphate binding protein.

2 in might be called IPBP12 for 12-kD inositol phosphate binding protein.

3 luorescence method using a coumarin-labelled phosphate binding protein.

4 using a fluorescent probe for Pi, based on a phosphate binding protein.

5 TP, mantADP, or fluorescently tagged E. coli phosphate-binding protein.

6 tivated phosphate release, using fluorescent phosphate-binding protein.

7 and the other includes E. coli sulfate- and phosphate-binding proteins.

8 ndent of nicotinic acid adenine dinucleotide phosphate-binding proteins.

9 say) and ATP hydrolysis (green fluorescence; phosphate binding protein assay) were simultaneously mea

10 that is typical of previously characterized phosphate-binding proteins, but rather a canonical hydro

11 ATG18 is a phosphatidylinositol-3-phosphate binding protein essential for autophagy and re

12 ), which is then bound by a coumarin-labeled phosphate binding protein from Escherichia coli, resulti

13 fied in the liganded form of the receptor, a phosphate binding protein from Escherichia coli.

14 y based on a chemically modified form of the phosphate-binding protein from Escherichia coli.

15 PBP, a coumarin-labelled A197C mutant of the phosphate-binding protein from Escherichia coli.

16 anscription of a phage-encoded high-affinity phosphate-binding protein gene (pstS) and alkaline phosp

17 er P limitation, including the high-affinity phosphate-binding protein gene pstS.

18 uctural similarity to a broad group of metal/phosphate-binding proteins, including conservation of ac

19 s and unravel its details, we identified all phosphate-binding protein lineages in the Evolutionary C

20 s identified the DDPCR fragment as pstS, the phosphate-binding protein of a high-affinity phosphate u

21 tro growth, and encodes a putative pyridoxal phosphate-binding protein of unknown function.

22 ted for the A197C mutant of Escherichia coli phosphate binding protein (PBP) and the same mutant labe

23 d mutant of the Escherichia coli periplasmic phosphate binding protein (PBP) was investigated through

24 Here, we focused on the high affinity phosphate-binding protein (PBP-1) of an ABC-type transpo

25 ases, Gtr1/2, and the phosphatidylinositol 3-phosphate binding protein, Pib2.

26 The phosphate binding protein PstS was found to be glycosyla

27 ge PO(4) using the high-affinity periplasmic phosphate binding protein PstS.

28 hate molecules and contain the high-affinity phosphate-binding protein PstS, but not PstA, a protein

29 lso identify FYVE1, a phosphatidylinositol-3-phosphate-binding protein recruited to late endosomes, a

30 nnels, and in analogy to the SBP/PBP sulfate/phosphate-binding proteins, the contribution of helix ma

31 A was determined using fluorescently labeled phosphate-binding protein to measure the rate of phospha

32 logical P(i)-receptor based on the bacterial phosphate binding protein with the principle of thermoph