ライフサイエンスコーパス: silver nitrate

1 , 0.5 mM PZA/pyrazinamide or 0.25 mM AgNO(3)/silver nitrate).

2 mino-5-mercapto-1,3,4-thiadiazole (AMT) with silver nitrate.

3 s fabricated using clay, water, sawdust, and silver nitrate.

4 lex and mediated resistance to up to 600 muM silver nitrate.

5 e by treatment with the ethylene antagonist, silver nitrate.

6 nd numbers using silica gel impregnated with silver nitrate.

7 nol-20% water droplets containing 100 microM silver nitrate.

8 ated with a chemical burn to the cornea with silver nitrate.

9 lexes were found to be improved over that of silver nitrate.

10 n situ, on-chip, by borohydride reduction of silver nitrate.

11 f hemolymph proteins, dextran particles, and silver nitrate.

12 er acetate, sodium azide, sodium iodide, and silver nitrate.

13 eaf extract of Neem plant with 10 ml of 1 mM silver nitrate.

14 s or removal of the anion by the addition of silver nitrate.

15 gNP, 0.5-10 muM, average diameter 29 nm) and silver nitrate (20-500 nM) was examined in the wild type

16 %), the addition of higher concentrations of silver nitrate (25-50 mM) results in elution ranges grea

17 hylene and auxin, we compared the effects of silver nitrate (AgNO(3)) and AVG on auxin responsiveness

18 The effects of reaction time and silver nitrate (AgNO(3)) concentration on the green synt

19 was measured upon exposure to both AgNP and silver nitrate (AgNO(3)).

20 miluminescence (ECL) technology coupled with silver nitrate (AgNO3) enhancement in acetonitrile at a

21 Application of silver nanoparticles (nAg) or silver nitrate (AgNO3) has been shown to improve the mic

22 to dissolution via exposure to UV radiation, silver nitrate (AgNO3), and AgNO3/citrate deposited from

23 ssed with the 5-HT3R subunit, both MTSET and silver nitrate (AgNO3), another cysteine-modifying reage

24 ofiling, their composition in nontreated and silver nitrate (AgNO3)-treated leaf tissue was comprehen

25 Silver nitrate and aminoethoxyvinylglycine (AVG) are oft

26 o-hex-5-ynofuranosyl)adenine derivative with silver nitrate and N-iodosuccinimide (NIS) and deprotect

27 may play a dual role in detoxification from silver nitrate and protection from pathogens for the bac

28 , we observed that treatment of oocysts with silver nitrate and proteinate-capped silver nanoparticle

29 lines was inhibited by aquaporin inhibitors, silver nitrate and sodium azide.

30 each group were bilaterally cauterized with silver nitrate, and another four time-matched mice were

31 from a Minisci reaction using pyruvic acid, silver nitrate, and persulfate.

32 ying the concentration of trisodium citrate, silver nitrate, and silver seeds.

33 In female Sprague-Dawley rats, a silver nitrate applicator was placed on the central corn

34 Requiring only silver nitrate, ascorbic acid, and Au seeds, the synthes

35 tio (in terms of repeating unit) relative to silver nitrate both played important roles in determinin

36 pen carbon nanotubes were filled with molten silver nitrate by capillary forces.

37 ion conditions were determined to be a 15 mM silver nitrate concentration, a temperature of 85 degree

38 Synthesis parameters (silver nitrate concentration, time, and temperature) wer

39 ere detected after sterile inflammation with silver nitrate despite levels of Saa1 and Saa2 being com

40 that could be rescued by the application of silver nitrate (ethylene perception inhibitor) or aminoe

41 otein cage when incubated in the presence of silver nitrate exhibits the growth of a silver nanocryst

42 ted in significant amounts of DNA-bound DOX (silver nitrate-extractable fraction; P < 0.02).

43 or, correlated with acetylcholinesterase and silver nitrate histochemistry at endplates, for changes

44 olid-phase extraction (SPE) method employing silver nitrate impregnated silica has been developed and

45 ha-amino acids and subsequent treatment with silver nitrate in acetone provided the trans-oxazolidino

46 sident central and peripheral corneal DCs to silver nitrate injury, lipopolysaccharide, microspheres,

47 Cyclization of the derived allenone with silver nitrate led to a cyclobutylfuran comprising the n

48 zymatic conversion of 3-indoxylphosphate and silver nitrate, metallic silver is determined by anodic

49 tra-violate (UV) irradiation to the CQDs and silver nitrate mixture solution.

50 camalexin in the roots upon elicitation with silver nitrate or flagellin.

51 s not due to either inhibition of healing by silver nitrate or stimulation of healing by PDT.

52 he potential of alternative staining agents (silver nitrate, phosphomolybdenic acid (PMA), lead nitra

53 f 3-arylindan-1-ones was consummated through silver nitrate-promoted C-C coupling of simple indane-1,

54 Metal ions or ion pairs (silver nitrate shown) are transported to the interior of

55 ds pivots on the 100-year-old application of silver nitrate, silver foil, and silver sutures for the

56 silver-on-gold nanocubes in dilute, aqueous silver nitrate solution in the presence of a reducing ag

57 From aqueous persulfate and silver nitrate solution the nonsensitized particles evol

58 ent mass of metallic silver nanoparticles or silver nitrate solution.

59 sion behavior of 50 nm silver NPs (AgNP) and silver nitrate solution.

60 silver formation from e-beam irradiation of silver nitrate solutions in water and water-ammonia.

61 l melanomas were stained using the colloidal silver nitrate stain for nucleolar organizing regions (A

62 y correlating STXM neuromelanin imaging with silver nitrate-stained neuromelanin.

63 aps were found in the leaky venules, both by silver nitrate staining and by scanning electron microsc

64 th endothelial morphology were identified by silver nitrate staining.

65 eatment with the ethylene-response inhibitor silver nitrate, suggesting that the short ecr1-1 root an

66 Further, silver nitrate supplementation in combination with vario

67 mild conditions to pre-activate alkynes with silver nitrate, this synthetic method is useful for both

68 heal vasculature was stained by perfusion of silver nitrate to mark EC borders or biotinylated Lycope

69 nt leukocytes, using biotinylated lectins or silver nitrate to stain the cells in situ and Monastral

70 namides is achieved by the addition of 50 mM silver nitrate to the run buffer.

71 wounds healed significantly faster than did silver nitrate-treated wounds, and this was not due to e

72 Silver nitrate was first doped into the sol-gel film fol

73 Silver nitrate was found to be an appropriate inorganic

74 synthesized in large quantities by reducing silver nitrate with ethylene glycol in the presence of p

75 mpounds were synthesized by the reactions of silver nitrate with K-FOX or guanidine-FOX in water, aqu

76 The reaction of silver nitrate with MMK-9 yields the crystalline polymer

77 lustrated by monitoring the decomposition of silver nitrate within nanotubes in situ in an electron m