ライフサイエンスコーパス: boric acid

1 cid of common concern in water desalination (boric acid).

2 ples, thirty percent of boron was present as boric acid.

3 transport of the critical cell wall nutrient boric acid.

4 ing oligosaccharides through the addition of boric acid.

5 .2 by treating monomeric RG-II (0.5 mM) with boric acid (1.2 mM); the dimer formed after 24 h at pH 3

6 Since the pKa of boric acid (8.55) lies near the pH of ocean water, chang

7 In boric acid (80mM, pH 8.0) running buffer system, not onl

8 To determine an ideal concentration of boric acid, a preclinical analysis was conducted.

9 r 24 h at pH 3.4 and 5.0, respectively, with boric acid and 0.5 m Sr2+, Pb2+, or Ba2+.

10 s a hydrophobic Boeseken complex formed from boric acid and a chiral polyhydroxy macrocyclic ligand.

11 actamase than 1:1 complexes of catechol with boric acid and are likely to contain penta- or hexacoord

12 Boron is present in the soil solution as boric acid and it is in this form that it enters the roo

13 ed on the premise that the rejection of both boric acid and NDMA is governed by steric hindrance and

14 Using boric acid and TES buffer systems, 500 microm was determ

15 cally evaluating the effects of selectivity (boric acid) and efficiency (linear polyacrylamide) enhan

16 d that NIP4;1 also transports ammonia, urea, boric acid, and H2O2 Thus, we propose that aquaporins NI

17 at acquires a robust, transport activity for boric acid as well as other NIP II test solutes (glycero

18 Pure RG-II is efficiently dimerized by boric acid (B(OH)3 ) in vitro only if nonbiological agen

19 sequestration does not occur at pH 6.5 where boric acid (B(OH)3; pK(a) = 8.55) is the predominant spe

20 nd applied to samples such as boron carbide, boric acid, carborane, and borosilicate glass.

21 d AtNIP6;1 proteins, which form constitutive boric acid channels, AtNIP7;1 forms a channel with an ex

22 s residue, characteristic of established NIP boric acid channels, results in opening of the AtNIP7;1

23 Boric acid coated nanocrystals of camptothecin, an antic

24 Boric acid coating improved drug stability dramatically

25 The results of this study suggest that boric acid could be an alternative to chlorhexidine, and

26 stock mobile-phase composition consisted of boric acid, D-gluconic acid, lithium hydroxide, and glyc

27 However, when Tris-boric acid-EDTA (TBE, pH 9.1) buffer was used, the aggre

28 an extended light path and 101.3mmolL(-1) of boric acid electrolyte (pH 9.15, 30kV).

29 doping and a carbon precursor as well, while boric acid H3BO3 is used as an oxidizing agent in the N2

30 on and exploiting three synergistic roles of boric acid has allowed the development of a general cata

31 e complex formation between ellagic acid and boric acid in ethanol solution.

32 ued by supplementing the soil with exogenous boric acid, indicating that rte is crucial for boron tra

33 5-0.1 pH unit), consistent with diffusion of boric acid into the cell followed by B(OH)(4)(-).

34 chlorhexidine irrigation (CHX); and 3) SRP + boric acid irrigation (B).

35 linical trial was to evaluate the effects of boric acid irrigation as an adjunct to scaling and root

36 The concentration of boric acid is 0.75% in this study.

37 Because boric acid is both an essential nutrient as well as a to

38 enes and alkynes at ambient temperature, and boric acid is the sole byproduct.

39 s on the assumption that only borate, and no boric acid, is present.

40 rresponding borates by treatment either with boric acid or with diborane.

41 Boric acid permeation of the plasma membrane vesicles wa

42 The lower rejection of neutral boric acid provided strong evidence of a less cross-link

43 ial brackish water RO elements with superior boric acid rejection.

44 The reactions of LnCl(3) with molten boric acid result in the formation of Ln[B(4)O(6)(OH)(2)

45 Under acidic pH, boric acid self-assembled on the surface of drug nanocry

46 Coating driven by boric acid self-assembly had negligible effects on drug

47 eved with calmodulin in solutions containing boric acid-sodium borate (concentration > or = 0.2 M), a

48 DEAE-cellulose chromatography performed in a boric acid-sodium borate buffer removes most of the cont

49 8 or below where boron exists as the neutral boric acid species and NDMA is also a neutral solute.

50 ing to (10)B and (11)B of samples to natural boric acid standard.

51 d in 2F-Fuc-treated seedlings by addition of boric acid, suggesting that the growth phenotype caused

52 ms a channel with an extremely low intrinsic boric acid transport activity.

53 ons of AnCl(3) (An = Pu, Am, Cm) with molten boric acid under the same conditions yield Pu[B(4)O(6)(O

54 dine, and it might be more favorable because boric acid was superior in whole-mouth BOP as well as PD

55 ers (lake water, tap water, waste water with boric acid, waste water with H2SO4) and food samples (po

56 y, non-covalent polymers from self-assembled boric acid were used as the capping reagent to replace s

57 ng non-covalent polymers from self-assembled boric acid will have wide biomedical applications especi