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1 that these functions are likely served by an inwardly rectifying K+ channel.
2 ulphonylurea sensitivity on several types of inwardly-rectifying K-channels.
3 s a blocker of Na+/K+ ATPase and Ba2+ blocks inwardly rectifying K+ channels.
4 urine colonic muscles express genes encoding inwardly rectifying K(+) channels.
5 man resistance arteries is also regulated by inwardly rectifying K(+) channels.
6 nductance KCa1.1, Kv1.2/1.3, Kv7.4, hERG, or inwardly rectifying K(+) channels.
7 neal endothelial cells express IRK1 (Kir2.1) inwardly rectifying K(+) channels.
8 hate (PIP(2)) is critical for opening of the inwardly rectifying K(+) channels.
9 t investigations in this unexplored class of inwardly rectifying K(+) channels.
10 ree A9-elevated molecules [G-protein coupled inwardly rectifying K channel 2 (GIRK2), adenine nucleot
11           A mutation in the G-protein-linked inwardly rectifying K+ channel 2 gene (Girk2) is the cau
12                The immunoreactivities of the inwardly rectifying K(+) channel 6.2 (Kir6.2) and the su
13                        BaCl(2), a blocker of inwardly rectifying K(+) channels, also inhibited AITC-i
14  This study provides direct evidence that an inwardly rectifying K+ channel and an ATP-binding casset
15          ROMK1, also known as Kir 1.1, is an inwardly rectifying K+ channel and is the prototypical m
16  insight into the assembly and regulation of inwardly rectifying K+ channels and the domains which de
17  sensors formed by association of Kir6.2, an inwardly rectifying K+ channel, and the sulfonylurea rec
18              Members of the Kir3.0 family of inwardly rectifying K(+) channels are expressed in neuro
19 most circumstances, outward currents through inwardly rectifying K(+) channels are reduced at more de
20                                              Inwardly rectifying K+ channels are highly selective for
21  in the level of cellular cholesterol affect inwardly rectifying K+ channels belonging to a family of
22                                              Inwardly rectifying K+ channels bind intracellular magne
23 hannels are present in the lumen or when the inwardly rectifying K(+) channel blocker BaCl(2) is pres
24            Ethanol activates G protein-gated inwardly rectifying K(+) channels, but the molecular mec
25   We studied ion permeation and gating of an inwardly rectifying K+ channel by individually changing
26 teromultimers composed of Kir6.2 subunit, an inwardly rectifying K(+) channel core, and SUR2A, a regu
27 perpolarization, increased G-protein-coupled inwardly rectifying K(+) channel current, and attenuated
28 e frequency, increased GIRK (G-protein-gated inwardly rectifying K+ channel) current, and attenuated
29 calcium currents, increasing G-protein-gated inwardly rectifying K+ channel currents, and presynaptic
30  reduction in GABABR-dependent activation of inwardly rectifying K+ channel currents.
31                We investigated whether these inwardly rectifying K(+) channels displayed distinct spe
32 e that this inhibition requires one of three inwardly rectifying K(+) channels encoded by the C. eleg
33  complexes containing four subunits from the inwardly rectifying K+ channel family (Kir6.2) and four
34                            We have cloned an inwardly rectifying K+ channel from the hamster insulino
35 serine in the H5 region of a G protein-gated inwardly rectifying K+ channel gene (GIRK2).
36 alling (RGS) proteins to G protein modulated inwardly rectifying K(+) channel (GIRK) activation/deact
37  on the regulation of G(betagamma)-regulated inwardly rectifying K(+) channel (GIRK) current (I(ACh))
38 ctivation of the heteromeric G protein-gated inwardly rectifying K(+) channel (GIRK) GIRK1 and GIRK4
39          The activity of G protein-activated inwardly rectifying K(+) channels (GIRK or Kir3) is impo
40 ions of four subunits termed G protein-gated inwardly rectifying K(+) channels (GIRK).
41 acaine selectively inhibited G protein-gated inwardly rectifying K(+) channels (GIRK:Kir3) but not ot
42 e expression levels of the G-protein-coupled inwardly rectifying K+ channel (GIRK) subunits using sol
43                             G protein-gated, inwardly rectifying K+ channels (GIRK) are effectors of
44 ls of the N-, P/Q-, and R-type and G protein inwardly rectifying K+ channels (GIRK) are modulated via
45                          G protein-activated inwardly rectifying K+ channels (GIRK) generate slow inh
46 y transfected along with G protein-regulated inwardly rectifying K+ channels (GIRK) into HEK 293 cell
47 (GABAB) receptors, activates G protein-gated inwardly rectifying K+ channels (GIRK) which, in turn, i
48  YFP-beta 1/CFP-gamma 2 with G-protein-gated inwardly rectifying K(+) channels (GIRK1 and GIRK4) resu
49                        The G protein-coupled inwardly rectifying K+ channel, GIRK1/GIRK4, can be acti
50          A mutation in the G-protein-linked, inwardly rectifying K+ channel GIRK2 leads to the loss o
51 stitution at residue 156 in the H5 region of inwardly rectifying K(+) channel, GIRK2.
52 naptic inhibition in the brain by activating inwardly rectifying K(+) channels (GIRKs) and inhibiting
53 e been shown to activate G protein-activated inwardly rectifying K(+) channels (GIRKs) via pertussis
54 amus through activation of G-protein-coupled inwardly rectifying K(+) channels (GIRKs).
55                           In one example, an inwardly rectifying K+ channel, gpIRK1, provides a potas
56 t DNA sequencing of KCNJ10, which encodes an inwardly rectifying K(+) channel, identifies previously
57     Cardiac muscarinic receptors activate an inwardly rectifying K+ channel, IK+Ach, via pertussis to
58 n currents through the Gbeta gamma-regulated inwardly rectifying K+ channels, IK(ACh), in the absence
59 lial cell Ca(2+)-activated K(+) channels and inwardly rectifying K(+) channels in arterial myocytes.
60 ABA(B)) receptors from their G-protein-gated inwardly rectifying K(+) channels in hypothalamic neuron
61    The aim of this study was to characterize inwardly rectifying K+ channels in cultured and freshly
62 nist baclofen to activate G-protein-coupled, inwardly rectifying K+ channels in hypothalamic neurons.
63    Therefore, GABAB receptors are coupled to inwardly rectifying K+ channels in SON and PVN magnocell
64                                              Inwardly rectifying K+ channels (IRKs) maintain resting
65 uR6, Galpha(o1), and a GIRK (G-protein-gated inwardly rectifying K+) channel, it accelerated the deac
66                        Activation of several inwardly rectifying K(+) channels (Kir) requires the pre
67 excised apical membrane patches, we found an inwardly rectifying K+ channel (Kir).
68                     Here, we report that two inwardly rectifying K+ channels, Kir 2.1 and 2.3, bind t
69  to map the extracellular topology of a weak inwardly rectifying K+ channel, Kir1.1 or ROMK1, and fou
70 rant localization, and enhanced block of the inwardly rectifying K(+) channel Kir2.1, compared with t
71 18, which encodes a skeletal muscle-specific inwardly rectifying K(+) channel Kir2.6, were reported i
72  double mutations in the M1-M2 segment of an inwardly rectifying K(+) channel, Kir2.1, using the cell
73 t excitatory effects of AA on a cloned human inwardly rectifying K(+) channel, Kir2.3, which is highl
74  and Phe(147) in the H5 sequence of a strong inwardly rectifying K+ channel, Kir2.1.
75 (100-200 nM) irreversibly blocked the strong inwardly rectifying K+ channel, Kir2.1.
76 expressing rat CB1 with the G-protein-gated, inwardly rectifying K+ channels Kir3.1 and Kir3.4.
77 etic neuralgia through downregulation of the inwardly rectifying K(+) channel Kir4.1 in satellite gli
78 ia development through downregulation of the inwardly rectifying K(+) channel Kir4.1 in satellite gli
79       Knockdown of the KCNJ15 gene (encoding inwardly rectifying K(+) channel Kir4.2) specifically ab
80 at the CaR interacts with and inactivates an inwardly rectifying K(+) channel, Kir4.1, which is expre
81 EK293 cells transfected transiently with the inwardly rectifying K+ channel Kir6.1 (uKATP1) or cotran
82  (ABC) protein (SUR1, SUR2A or SUR2B) and an inwardly rectifying K(+) channel (Kir6.1 or Kir6.2).
83  K+ (K(ATP)) channels are hetero-octamers of inwardly rectifying K+ channel (Kir6.2) and sulphonylure
84 y can be reconstituted by coexpression of an inwardly rectifying K+ channel, Kir6.2, with an ATP-bind
85 periments on two-dimensional crystals of the inwardly rectifying K+ channel KirBac3.1 from Magentospi
86                                              Inwardly rectifying K+ channels or Kirs are a large gene
87 d putative transmembrane segment of the IRK1 inwardly rectifying K+ channel, previously implicated in
88   This gene codes for a G-protein-activated, inwardly rectifying K+ channel protein (8).
89 coupling of GABA(B)R1/GABA(B)R2 receptors to inwardly rectifying K(+) channels rapidly desensitizes.
90 age-gated potassium channel (Kv), as well as inwardly rectifying K(+) channel remodeling, were invest
91 pus oocytes injected with GIRK1 mRNA express inwardly rectifying K+ channels resembling IKACh.
92 annels (GIRK:Kir3) but not other families of inwardly rectifying K(+) channels (ROMK:Kir1 and IRK:Kir
93 xternal potassium (K) and cesium (Cs) on the inwardly rectifying K channel ROMK2 (K(ir)1.1b) was stud
94                                      Several inwardly rectifying K+ channels show an ATP-dependent ru
95 died mice with a null mutation in the weakly inwardly rectifying K(+) channel subunit Kir4.1.
96  sulphonylurea receptor subunit (SUR) and an inwardly rectifying K+ channel subunit (Kir).
97           We detected GIRK1 (G-protein-gated inwardly rectifying K+ channel subunit 1) and GIRK2 subu
98 R, the sulfonylurea-binding protein, and the inwardly rectifying K+ channel subunit, KIR6.2.
99  in oocytes coexpressing the G protein-gated inwardly rectifying K+ channel subunits GIRK1 and GIRK4,
100                                              Inwardly rectifying K+ channel subunits may form homomer
101                             In many tissues, inwardly rectifying K channels such as the renal outer m
102  Comparison of high-resolution structures of inwardly rectifying K(+) channels suggests a model for a
103 uple to the activation of the GIRK family of inwardly rectifying K+ channels; thus, these decreases r
104                   In contrast, inhibition of inwardly rectifying K+ channels using Ba2+ (3-10 microM)
105                                          The inwardly rectifying K+ channels were constitutively acti
106                          Activities of these inwardly rectifying K+ channels were inhibited by Ba2+ (
107 operties (e.g., density of Ca2+ channels and inwardly rectifying K+ channels), will generate sharp tu
108 ppocampal CA1 pyramidal neurons, we recorded inwardly rectifying K+ channels with a single-channel co

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