1 cells and subjected them to a computational
noise analysis.
2 k that extends classical extrinsic-intrinsic
noise analysis and enables mapping of noise within upstr
3 We combined nonstationary
noise analysis and modeling techniques to estimate the c
4 R2A channels using single-channel recording,
noise analysis and spectral analysis.
5 rge single-channel conductance, derived from
noise analysis,
and previous immunolocalization studies
6 are and equation-generated data; 2) a system
noise analysis combined with Monte Carlo simulations; an
7 Non-stationary
noise analysis demonstrated that GLT-1c and EAAT5 also d
8 Kinetic modeling and nonstationary
noise analysis for gamma(2)R43Q reveal that these effect
9 We report here a detailed
noise analysis for oligonuleotide-based microarray exper
10 mal analysis of these data in the equivalent
noise analysis framework showed that the most parsimonio
11 ransporters show single-channel behavior and
noise analysis in native cells strongly suggests channel
12 on cross-correlational techniques and white-
noise analysis in spherical auditory space.
13 properties of the chemotaxis network from a
noise analysis of behavioural variations in individual b
14 Results from macroscopic current
noise analysis of both wild-type CFTR and K1250A-CFTR ch
15 Furthermore, a peak-scaled nonstationary
noise analysis of mEPSCs revealed a larger estimated sin
16 e Wiener kernels derived from standard white-
noise analysis of noise-driven discharge in neurones act
17 Non-stationary
noise analysis of Rb+ currents in cell-attached apical m
18 Non-stationary
noise analysis of Rb+ currents in cell-attached patches
19 clamp technique in conjunction with current
noise analysis of recordings containing multiple channel
20 Quasi-stationary
noise analysis of the AMPH-induced hDAT currents reveale
21 Using non-stationary
noise analysis of the mIPSCs, I estimate that GABA(A) re
22 The b1 bipolar cell is known from
noise analysis of the On-alpha ganglion cell to have a n
23 Noise analysis of the SiNW array with and without the Ag
24 From
noise analysis of the tonic current, GABA(C) receptor ga
25 Using
noise analysis of the whole-cell MC current, the single
26 Noise analysis of whole-cell currents indicates that app
27 otoreceptors from the tiger salamander using
noise analysis on whole-cell patch-clamp recordings.
28 The detailed
noise analysis presented here uses an experimental desig
29 Noise analysis revealed that I domain mutations introduc
30 In addition, our seismic
noise analysis reveals an asymmetry and a high coherence
31 Noise analysis showed that protons regulate TMEM16A by t
32 However,
noise analysis showed that the apparent unitary conducta
33 In this study, using
noise analysis,
statistics of time-resolved single-chann
34 Noise analysis suggested that blocking Na+ channels with
35 From
noise analysis the estimated single channel conductance
36 From
noise analysis the single channel conductance (gamma) wa
37 Here we use white-
noise analysis to measure tuning functions of V2 neurons
38 mammalian cells, patch-clamp recordings and
noise analysis to study and compare glutamate transport
39 System
noise analysis was also carried out and the different no
40 Stationary and nonstationary
noise analysis was consistent with a sub-femtosiemen Cl-
41 Using
noise analysis,
we demonstrate that alkaline block is me
42 Noise analysis (
with the assumption of independent gatin