1 improved neurological outcome measured using
quantal analysis.
2 Here, we report the application of
quantal analysis and compartmental modeling to compare a
3 Using
quantal analysis and mEPSP analysis, we demonstrate that
4 at might prevent the success of conventional
quantal analysis approaches.
5 This verification supports the use of
quantal analysis at central synapses.
6 amidal neurons in rat brain slices, enabling
quantal analysis at single synapses.
7 Bayesian
Quantal Analysis (
BQA) of evoked EPSCs showed that the n
8 Quantal analysis can determine N, p, and A, but the larg
9 A
quantal analysis demonstrates that increased presynaptic
10 Quantal analysis estimates showed a large number of conv
11 g in presynaptic axonal boutons with optical
quantal analysis in postsynaptic dendritic spines to fin
12 Quantal analysis indicated that the P(50) (represents th
13 Quantal analysis indicated that the P50 of the control g
14 Quantal analysis indicated that the synaptic perturbatio
15 Here we combine
quantal analysis of evoked inhibitory postsynaptic curre
16 Quantal analysis of excitatory postsynaptic currents, re
17 We have performed a detailed
quantal analysis of excitatory postsynaptic potentials (
18 Quantal analysis of NMJs in two different mouse models o
19 onstrate that functional studies and optical
quantal analysis of single, identified synapses is feasi
20 Quantal analysis of synaptic responses during cL-LTP(mGl
21 Intracellular recordings and
quantal analysis of synaptic transmission were made at n
22 Quantal analysis of the expression of LTP in this pathwa
23 Quantal analysis of unitary synaptic transmission betwee
24 Although
quantal analysis revealed both presynaptic and postsynap
25 A
quantal analysis revealed that neither the charge of sin
26 Quantal analysis reveals a presynaptic mechanism by an i
27 onstruction, combined with a novel method of
quantal analysis,
showed that the strong inhibitory inpu
28 However, unlike the traditional
quantal analysis that attributes the quantal size change
29 tion, which verifies the basic assumption of
quantal analysis--
the same mechanism controls the quanta
30 ing protein (CREB) during induction, and (2)
quantal analysis to identify synaptic changes during mai
31 ken together, these results expand classical
quantal analysis to incorporate endocytic and exocytic p
32 redicted to obscure quantal peaks and render
quantal analysis unusable.
33 Using
quantal analysis,
we determined the quantity of blood cl
34 ack of resolution compromises the utility of
quantal analysis,
we develop a general description that
35 Using two-photon optical
quantal analysis,
we first demonstrate robust presynapti