ライフサイエンスコーパス: coordination complex

1 om that of apo-CadC, consistent with an S(3) coordination complex.

2 e protonation mechanism of the C-terminal Zn-coordination complex.

3 ve water molecules to complete an octahedral coordination complex.

4 issociation of CO or perturbation of the CuB coordination complex.

5 ing replaced by a water molecule in the Mg2+ coordination complex.

6 ts structure was determined as a ligand in a coordination complex.

7 the equatorial plane of an axially symmetric coordination complex.

8 e-crystal X-ray structure of a palladium(II) coordination complex.

9 and octahedral, sandwich, and half-sandwich coordination complexes.

10 doped semiconductors and copper(I) molecular coordination complexes.

11 h(3))(2)PtBr(2) and trans-(PPh(3))(2)PdBr(2) coordination complexes.

12 maintain high affinity for metals in altered coordination complexes.

13 Ti(4+) to form planar p-type [Ti(4+)n(InSe)] coordination complexes.

14 the synthesis of two series of paramagnetic coordination complexes.

15 lography for obtaining elusive structures of coordination complexes.

16 sorption indicated formation of inner-sphere coordination complexes.

17 sistent with those observed for other U(III) coordination complexes.

18 found in spectra of classical 5f(1) actinide coordination complexes.

19 the macrocycles have a weak tendency to form coordination complexes.

20 subsequent chemisorption of transition metal coordination complexes.

21 The resulting coordination complexes, a Pd(II)-nanohoop dimer and a bi

22 ng local structure in many materials such as coordination complexes and frameworks, organometallics a

23 -sphere hydration state of the Mn(II) ion in coordination complexes and metalloproteins.

24 n-M chromophores far exceed those of classic coordination complexes and organic materials possessing

25 rposes, such as for generating d and f metal coordination complexes and supramolecular self-assemblie

26 Coordination complexes are gaining interest due to their

27 This difference in the coordination complexes arises from differences in the me

28 ted materials, utilization of a well-defined coordination complex as the building block (i.e., metall

29 A coordination complex as the building block offers struct

30 e reviewed, and the potency of such vanadium coordination complexes as antidiabetic agents is describ

31 ar qubit candidate and mark the viability of coordination complexes as qubit platforms.

32 he electronic structure in oxides, molecular coordination complexes, as well as the S1 and S2 states

33 ct with Au atoms, forming positively charged coordination complexes at Au/MAPbI3 interface, whereas i

34 Ligands 2 and 3 afford stable coordination complexes [AuCl2(3)]ClO4, [{AuCl2}2(2)](ClO

35 In the last few decades, coordination complexes based on d(6) metal centres and p

36 Inorganic coordination complexes between metal ions and peptides a

37 involved in the formation of intermolecular coordination complexes between proteins, creating a high

38 ide, both eilatin and the eilatin-containing coordination complexes bind to certain single-stranded R

39 lution-phase characterization of a berkelium coordination complex, Bk(III)tris(dipicolinate), as well

40 alpha phosphate; a second octahedral Mg(2+) coordination complex bridges the beta and gamma phosphat

41 ATP alpha phosphate; and (ii) a second metal coordination complex bridges the beta- and gamma-phospha

42 stabilize a series of highly reduced uranium coordination complexes by storing one, two or three elec

43 shows that the properties of supramolecular coordination complexes can be affected by subtle structu

44 ison of [Fe(III)(PY5)(OMe)](OTf)(2) to other coordination complexes capable of hydrogen atom abstract

45 ate structures of the two free hosts and two coordination complexes ([Cd(host 1)(H(2)O)(NO(3))(2)] an

46 A series of ruthenium coordination complexes containing hydroxyquinoline ligan

47 A family of heteroleptic RuII coordination complexes containing substituted 1,10-phena

48 ability of the pyridine end-group to form a coordination complex corresponded with their ability to

49 involved in the formation of intermolecular coordination complexes, creating a cross-linked molecula

50 A series of transition metal coordination complexes designed to assemble on gold surf

51 on-poor polymeric purines, while the eilatin-coordination complexes exhibit preference for the polypy

52 Coordination complexes formed between zinc porphyrins eq

53 robe the structure and reactivities of metal coordination complexes formed by different metalloderiva

54 described for the systematic preparation of coordination complex green primaries based on appropriat

55 location of a charged polar transition metal coordination complex in a reverse micellar system is det

56 yalk =2-(2-pyridyl)-2-propanoate}, the first coordination complex in an N,O-donor environment to show

57 The colloid is made of a soft coordination complex in the form of a lead polyhalide fr

58 (-I) oxidation states, representing the only coordination complexes in which dihydrogen is bound to a

59 ve stabilities of the individual zinc finger coordination complexes in Zn(6) MTF-zf.

60 hesis of several new water-soluble ruthenium coordination complexes including an eta2-H2 complex that

61 of d(8) transition-metal (Pt(II) and Pd(II)) coordination complexes incorporating phosphine-functiona

62 , as well as the structural evolution of the coordination complexes involved.

63 e constant for formation of the intermediate coordination complex is 3 x 10(5) M(-1) s(-1).

64 alogy between Gd13Fe10C13 and an 18-electron coordination complex is expected to apply to carbometala

65 everal square-planar PtCl2(olefin)(pyridine) coordination complexes is described.

66 chloro) platinum(IV) (DAP), a platinum-based coordination complex, is a DNA-damaging agent that is ef

67 rapidly dissociates or forms an intermediate coordination complex (k > 300 s(-1)) with rapid isomeriz

68 and bind a Zn(2+) cation in a tetrathiolate coordination complex known as the zinc-hook.

69 In this work, we show that mononuclear iron coordination complexes Lambda-[Fe(CF(3)SO(3))(2)((S,S,R)

70 chanism whereas formation of an intermediate coordination complex limits the overall rate.

71 eby: a ligase-bound "catalytic" Mg(2+)(H2O)5 coordination complex lowers the pKa of the lysine nucleo

72 hereby (i) an enzyme-bound "catalytic" metal coordination complex lowers the pKa of the lysine nucleo

73 Helical coordination complexes may offer a three-dimensional sca

74 thetic systems that contain light-harvesting coordination complexes may one day replace conventional

75 l ligands in metal-sensing metalloregulatory coordination complexes may well dictate their biological

76 Cu-phen, a metal coordination complex (MC) selected because of binding an

77 chanism-based design of a new class of metal-coordination complexes (MCCs) as anolytes for NRFBs.

78 ompared to that of the oxides and two of the coordination complexes (Mn(III)(acac)3 and Mn(IV)(sal)2(

79 knowledge, this is the first report about a coordination complex modulating GPCR activity at the lev

80 contrast with typical values for Mn(II)-17O coordination complexes, namely, approximately 0.25 mT an

81 One intermediate (3), a coordination complex of 1 with (PCy(3))(2)RhCl, was iden

82 Nitroprusside, a coordination complex of Fe2+ with a nitrosonium (NO+) io

83 A binuclear metal coordination complex of the first thiazyl-based biradica

84 Toward the preparation of a coordination complex of the heterodiatomic molecule PN,

85 esent studies we explored the potential of a coordination complex of Zn(II) and anthracenyl-terpyridi

86 Efforts to make photolabile coordination complexes of 14 and 21 with paramagnetic tr

87 Characterization of the metal coordination complexes of CzrA and NmtR by UVvisible and

88 Strikingly, the Zn(II) coordination complexes of CzrA and NmtR cannot be distin

89 ur knowledge represent the first mononuclear coordination complexes of Ir(V) in an N,O-donor environm

90 Coordination complexes of vanadium(5+) played a key role

91 the relative thermodynamic stability of the coordination complexes of zinc within each of the six zi

92 categories, such as small organic molecules, coordination complexes, peptides, nucleobases, and sacch

93 ) or Cd(II) to form two pairs of sulfur-rich coordination complexes per dimer.

94 s (O-H...O, N-H...O, O-H...N and N-H...N) to coordination complexes/polymers.

95 ted arenes across the Mg-Mg bond of a simple coordination complex proceeds rapidly in solution.

96 us on the structural aspects of the numerous coordination complexes provides a rationale for some of

97 ds, (fluoro)quinolones, furocoumarins, metal coordination complexes, quinine-like compounds, naphthal

98 f two-component self-assembly supramolecular coordination complexes (SCCs) bearing triazine and porph

99 Supramolecular coordination complexes (SCCs) have been proposed for app

100 Supramolecular metal-based coordination complexes (SCCs) have well-defined shapes a

101 tion regimes for two discrete supramolecular coordination complexes (SCCs).

102 CH4 and NH3 from a well-defined iron cyanide coordination complex, [SiP(iPr) 3 ]Fe(CN) (where [SiP(iP

103 t binds the radiometal ion in a tight stable coordination complex so that it can be properly directed

104 Radical-generating coordination complexes, such as 1,10-phenanthroline-Cu(I

105 different moieties has been demonstrated in coordination complexes, supramolecular structures, and c

106 design, synthesis, and characterization of a coordination complex that demonstrates reversible interc

107 indicating that the cesium is involved in a coordination complex that stabilizes the sugar.

108 etween these two extremes exist metal-ligand coordination complexes that are easier to interrogate th

109 The discovery of new coordination complexes that can support spin crossover (

110 ethylsiloxane) polymer chains crosslinked by coordination complexes that combines high stretchability

111 Pseudotetrahedral iron(II) coordination complexes that contain bridged nitride and

112 (LmrR) as a generic binding site for planar coordination complexes that do not provide specific prot

113 Coordination complexes that pair a zero-valent transitio

114 d features octahedral [Bi(P(2)Se(6))(2)](5-) coordination complexes that stack via weak intermolecula

115 lex 1 is the first well-characterized Ni(II) coordination complex to exhibit reactivity relevant to N

116 isomerization promoted by a synthetic Ni(II) coordination complex versus a simple Ni(II) ion.

117 functionalized with lanthanide metal-ligand coordination complexes via a terpyridyl-end-capped four-

118 ospray ionization mass spectra of lanthanide coordination complexes were measured by launching nanoli

119 wo-step metalation strategy, five bimetallic coordination complexes were synthesized with the general

120 Cys57 and Cys61 anchor the coordination complex, while Cys102 plays only an accesso

121 te contains a single Mn(2+) in an octahedral coordination complex with Asp187, His189, Asp233, two ci

122 nd has been demonstrated to form an emissive coordination complex with dimesitylboron that exhibits b

123 has suggested that cisplatin can also form a coordination complex with the phosphodiester internucleo

124 Here we report a simple Mn coordination complex with utility as a redox-sensitive M

125 Mn(hfac)(2) and Cu(hfac)(2) form coordination complexes with 5-(4-[N-tert-butyl-N-aminoxy

126 In addition to providing stable coordination complexes with Cl(-), the [U(NMe)(2)](2+) c

127 vironment by reacting a mixture of Ca and Mg coordination complexes with CO(2).

128 , and DOTA-Rev) conjugates were used to form coordination complexes with Fe(2+), Co(2+), Ni(2+), and

129 GGH-lisinopril) conjugates were used to form coordination complexes with iron, cobalt, nickel, and co

130 ntaining cyclic tetramers of isoindole, form coordination complexes with most elements of the periodi

131 -containing ruthenium (tris)bipyridine-based coordination complexes with multifunctional characterist

132 n peroxide, catalyzed by six different metal coordination complexes with N-based neutral ligands, was

133 d in SO2ClF solvent and shown to form stable coordination complexes with NgF2 at -78 degrees C.

134 Two-component self-assembly supramolecular coordination complexes with particular photo-physical pr

135 is and characterization of air stable Fe(II) coordination complexes with tetrazine and triazolo-tetra

136 ns bind to the NmtR dimer to form octahedral coordination complexes with the following stepwise bindi