ライフサイエンスコーパス: cation exchanger

1 ogen A and cytochrome C/lysozyme on a strong cation exchanger.

2 oaded membranes without excess of lipophilic cation exchanger.

3 st Li+ to be the most strongly retained on a cation exchanger.

4 e used to evaluate the functionality of each cation exchanger.

5 group was synthesized as a chemically stable cation exchanger.

6 f applications as catalysts, adsorbents, and cation exchangers.

7 ed calcium/proton antiporter [known as short cation exchanger 1 (sCAX1)] to increase Ca transport int

8 Likewise, the tomato CATION EXCHANGER 1 and TWO-PORE CHANNEL 1 (SlTPC1), key

9 the Arabidopsis Ca(2+)/H(+) antiporter CAX1 (cation exchanger 1) has been shown previously to regulat

10 Ca(2+)/H+ antiporters such as CAX1 (cation exchanger 1), play a key role in determining cyto

11 e Arabidopsis Ca(2+)/H(+) transporter, CAX1 (cation exchanger 1), was identified by its ability to su

12 pen reading frames for CAX1, CAX2, and CAX3 (cation exchangers 1, 2, and 3) were previously identifie

13 s included AUTOINHIBITED Ca(2+) ATPASE 1 and CATION EXCHANGER 2.

14 chondrial calcium uniporter and extrusion by cation exchangers across the inner mitochondrial membran

15 one membrane segment containing a lipophilic cation exchanger and the other containing an anion excha

16 phase adsorbent, and PSDVB-based strong acid cation exchangers and strong base and weak base anion ex

17 Dinonylnaphthalene sulfonic acid (a cation exchanger) and chromoionophore I (a lipophilic op

18 containing a pH-sensitive chromoionophore, a cation exchanger, and an ionophore.

19 ionophore II, a lipophilic tetraphenylborate cation exchanger, and TOPO-capped CdSe/CdS quantum dot a

20 nes doped with an ionophore and a lipophilic cation-exchanger are used here in a new tandem measureme

21 was loaded into the Fractogel EMD SO(3) (M) cation exchanger at 2 mS/cm or 10 mS/cm.

22 dy was loaded onto the Fractogel EMD SO3 (M) cation exchanger at either pH 5 or pH 4.

23 Post-processing by means of a cation-exchanger-based protocol is an efficient strategy

24 cally the least strongly held cation on most cation exchangers, because of its very high hydration en

25 However, lipophilic cation exchanger can often be added to the membrane to r

26 (3+) of the generator eluate is trapped on a cation exchanger cartridge (100 mg, approximately 8 mm l

27 CrCAX1 was more closely related to fungal cation exchanger (CAX) genes than those from higher plan

28 antiport is mediated in part by a family of cation exchanger (CAX) transporters.

29 sing Arabidopsis (Arabidopsis thaliana) H(+)/cation exchangers (CAX) have more calcium (Ca2+) and pro

30 CATION EXCHANGERs CAX1 and CAX3 are vacuolar ion transpo

31 ture/function analysis of the Arabidopsis H+/cation exchanger, CAX1, revealed that a nine amino acid

32 The Arabidopsis thaliana cation exchangers, CAX1 and CAX2, can both transport Ca(

33 The Arabidopsis H(+)/cation exchangers, CAX1 and CAX2, were identified by the

34 plant growth and cellular homeostasis, with cation exchangers (CAXs) regulating Ca(2+) transport int

35 bidopsis thaliana), a family of endomembrane cation exchangers (CAXs) transports Ca(2+) and other cat

36 ent of alkaline mine drainage water requires cation exchangers combining excellent sorption propertie

37 nium cyclosilicate (ZS-9), a novel selective cation exchanger, could lower serum potassium levels in

38 Varying concentration of added cation-exchanger demonstrates that it limits the ion tra

39 e pH, it is demonstrated that the lipophilic cation exchanger (DNNS) within the membrane phase can li

40 The CAX (for CAtion eXchanger) family is one of the five families tha

41 us positive protein charges are close to the cation exchanger functional groups produce the most favo

42 urally identical hydrophilic and hydrophobic cation-exchanger gold nanopores modified with 10-mercapt

43 anic contaminants were removed with a strong cation exchanger in the Na+ form.

44 hat carba-closo-dodecaborates can be used as cation exchangers in neutral carrier-based ion-selective

45 d dodecacarboranes were found to be improved cation exchangers in terms of lipophilicity and chemical

46 an increased concentration of the lipophilic cation exchanger is required to achieve proper ion sensi

47 much higher if a more hydrophilic carborane cation-exchanger is incorporated in the membrane.

48 A brief current pulse is applied to a cation exchanger membrane, releasing a well-controlled a

49 Two types of cation-exchanger membranes and one anion-exchange membra

50 ard cesium ions and the use of a sacrificial cation exchanger (NaBPh(4)) to control loss of imidazoli

51 selective sensor based on a nanocomposite of cation exchanger Nafion polymer, polyethylene glycol mod

52 dopamine response can be restored using the cation exchanger Nafion without significantly increasing

53 n solution could be completely retained on a cation-exchanger Nafion membrane, constituting a colorim

54 Zero-current potentiometry revealed that cation-exchanger nanopores do not discriminate among sin

55 mpart lipophilicity-driven discrimination to cation-exchanger nanopores.

56 a(2+), respectively, in combination with the cation-exchanger NaTFPB (sodium tetrakis-[3,5-bis(triflu

57 ve fluorescent chromoionophore (ETH 5294), a cation-exchanger (NaTFPB), and either a highly sodium-se

58 o two ionophores in addition to a lipophilic cation-exchanger, overlaid on an electropolymerized poly

59 eater than or equal to silica-based C-18 and cation exchanger packed capillaries.

60 the pKa of the employed HA; the most acidic cation exchangers provide the greatest synergism.

61 ctrolyte (R(+)R(-)) but no excess lipophilic cation exchanger (R(-)).

62 rified from E. coli in a single step using a cation-exchanger resin, SP-Sepharose, and a selected buf

63 The concentration of cation-exchanger sites of carboxylated PVC-NPOE was foun

64 l changes and that golden encodes a putative cation exchanger slc24a5 (nckx5) that localizes to an in

65 ium zirconium cyclosilicate is a nonabsorbed cation exchanger that selectively binds potassium in the

66 or the convenient covalent attachment of the cation exchanger to the polymeric backbone of the sensin

67 sults suggest a network linking the vacuolar cation exchangers to apoplastic pH maintenance that play

68 port is mediated in part by a family of CAX (cation exchanger) transporters.

69 e their successful application as industrial cation exchangers under near neutral conditions, their p

70 The traditional cation exchangers used in ion-selective electrodes and o

71 r other lipids, a minicolumn of a silica gel cation exchanger was used to adsorb the cationic lipids

72 rostatic interactions of FGF-1 vs FGF-2 with cation exchangers were obtained, and aid in rationalizin

73 Zeolites represent a family of inorganic cation exchangers, which naturally occur in hyper alkali

74 be anion exchangers, can also be considered cation exchangers, which opens new avenues for future sc