1 Intracellular
recordings were made from 1022 somatic lumbar dorsal roo
2 Whole-cell patch-clamp
recordings were made from 110 displaced starburst cells
3 etized rats, extracellular and intracellular
recordings were made from 119 respiratory neurones in th
4 Recordings were made from 147 neurons in the PAG.
5 Single unit extracellular
recordings were made from 15 Class 1 (low-threshold) and
6 Around 6 months post-lesion, intracellular
recordings were made from 167 motor neurons innervating
7 Extracellular
recordings were made from 171 single units in the ICC, I
8 microm) to paralyse the muscle, simultaneous
recordings were made from 25 pairs of AH (after-hyperpol
9 Recordings were made from 25 regenerated nociceptors; 14
10 Recordings were made from 29 nociceptive neurons in the
11 Recordings were made from 301 NTS neurones receiving an
12 llowing adult eclosion, electrophysiological
recordings were made from 33 central olfactory neurons i
13 Single-unit
recordings were made from 39 putative sympathoexcitatory
14 Whole-cell
recordings were made from 390 neurons of the suprachiasm
15 Recordings were made from 44 DL-, 43 DM-, 39 VM-neurons.
16 Extracellular
recordings were made from 45 neurons designated as spind
17 Extracellular single unit
recordings were made from 61 nociceptive neurons (23 NS,
18 Recordings were made from 67 neurones (52 wide dynamic r
19 Intracellular
recordings were made from 68 cervical (C5-C7) neurons ha
20 Recordings were made from 70 Golgi cells and 76 Purkinje
21 Extracellular single unit
recordings were made from 74 neurons in the superficial
22 Intracellular in vitro
recordings were made from 771 cells from the spiral modi
23 Recordings were made from 85 subjects, including both wi
24 Recordings were made from 95 units of the dentate nucleu
25 Simultaneous extracellular
recordings were made from a single lateral geniculate nu
26 Single-unit
recordings were made from a subgroup of neurons at the f
27 Recordings were made from a total of sixty-four vagal pr
28 Electrogram
recordings were made from a wide right atrium (RA) to le
29 lying these responses, in vivo intracellular
recordings were made from adult HVc neurons.
30 Recordings were made from an identified sensillum (type
31 tand their physiological role, intracellular
recordings were made from anatomically identified Golgi
32 chlear maturation, loose-patch extracellular
recordings were made from ANF dendrites using acutely ex
33 ivation, rats were urethane anesthetized and
recordings were made from anterior piriform cortex (aPCX
34 cond series of experiments, whole-cell patch
recordings were made from antidromically identified SPNs
35 influence of this innervation intracellular
recordings were made from antidromically identified symp
36 Simultaneous
recordings were made from arrays of alpha-GCs to determi
37 At 16 months after IOP elevation, ERG
recordings were made from both eyes of all animals using
38 Whole-cell patch clamp
recordings were made from brainstem slices containing id
39 Patch clamp
recordings were made from bulbospinal RVLM neurons (n =
40 Whole-cell patch clamp
recordings were made from bushy cells of the anteriovent
41 Whole-cell patch-clamp
recordings were made from CA1 pyramidal and dentate gyru
42 Intracellular current clamp
recordings were made from CA1 pyramidal neurones in rat
43 the order of minutes were only observed when
recordings were made from cell clusters.
44 To test this,
recordings were made from cells in the DTN in freely mov
45 Whole cell
recordings were made from cells in visual cortical slice
46 s-6 months, single unit electrophysiological
recordings were made from central to the injury site.
47 Whole-cell patch clamp
recordings were made from Chinese hamster ovary (CHO) ce
48 Recordings were made from circular muscle (CM) cells and
49 Whole-cell
recordings were made from cultured cerebellar granule ne
50 Patch-clamp
recordings were made from cultured rat hippocampal neuro
51 For comparison purposes,
recordings were made from deep pyramidal cells, which ar
52 Extracellular
recordings were made from different classes of respirato
53 CM confirmed that simultaneous intracellular
recordings were made from different muscle layers.
54 Extracellular
recordings were made from different types of respiratory
55 Whole-cell patch-clamp
recordings were made from dissociated guinea-pig nodose
56 Perforated-patch, voltage-clamp
recordings were made from dissociated neurons of the bra
57 Recordings were made from DMV neurones whose projections
58 Whole-cell patch-clamp
recordings were made from DMV neurons in transverse slic
59 In the present study, single unit
recordings were made from dopamine-sensitive neurons in
60 Extracellular microelectrode
recordings were made from DRG and DH neurons, and neuron
61 To address these questions, intracellular
recordings were made from dually innervated neonatal mou
62 P2X receptor levels, whole-cell patch-clamp
recordings were made from DVN cells in brainstem slices
63 hese A1Rs, visualized whole-cell patch-clamp
recordings were made from electrophysiologically and mor
64 Voltage-clamp
recordings were made from enzymatically isolated choroid
65 Recordings were made from fish electrosensory and monkey
66 Intracellular
recordings were made from four types of respiratory neur
67 Whole-cell patch clamp
recordings were made from FS and PYR neurons in layer V
68 Recordings were made from full-thickness preparations of
69 Simultaneous
recordings were made from gamma (gamma) motor axons and
70 Whole cell patch clamp
recordings were made from gastric-projecting DMV neurone
71 Whole-cell
recordings were made from GFP (Renilla)-tagged neuropept
72 Whole-cell
recordings were made from HEK 293 (human embryonic kidne
73 Whole cell
recordings were made from human embryonic kidney cells t
74 Whole cell
recordings were made from hypoglossal motoneurones in vi
75 Whole-cell
recordings were made from identified gastric-projecting
76 anism of this action, whole cell patch clamp
recordings were made from identified gastric-projecting
77 Whole-cell
recordings were made from identified gastrointestinal-pr
78 Intracellular
recordings were made from identified hindlimb motoneuron
79 Whole-cell patch-clamp
recordings were made from identified neurons of the rat
80 In anaesthetised rats, extracellular
recordings were made from individual convergent dorsal h
81 Amperometric
recordings were made from individual phaeochromocytoma (
82 Recordings were made from interneurons in the shell of n
83 Intracellular
recordings were made from isolated bundles of the circul
84 trical heterogeneity, whole-cell patch-clamp
recordings were made from isolated canine epicardial and
85 Intracellular
recordings were made from isolated frog sciatic-sartoriu
86 Whole-cell current- and voltage-clamp
recordings were made from isolated guinea pig myocytes a
87 Single-unit
recordings were made from L4-L5 deep dorsal horn neurons
88 on on gastric activity, electrophysiological
recordings were made from labeled DMV antrum neurons in
89 Whole-cell
recordings were made from labeled VTA dopamine neurons.
90 To investigate, whole-cell patch-clamp
recordings were made from lamina I and III NK1R+ neurons
91 To investigate, whole-cell patch-clamp
recordings were made from lamina I NK1R(+) neurons in th
92 Whole-cell patch-clamp
recordings were made from layer V pyramidal cells in the
93 erentation, acute auditory nerve fiber (ANF)
recordings were made from lesioned animals, lesion shams
94 Intracellular and whole-cell
recordings were made from locus ceruleus neurons in rat
95 Simultaneous intracellular
recordings were made from longitudinal muscle (LM) and c
96 In vitro whole-cell patch
recordings were made from medial nucleus of the trapezoi
97 Multi-unit
recordings were made from mesenteric afferents from mous
98 Electrophysiological
recordings were made from mesenteric afferents innervati
99 Motoneuron
recordings were made from metathoracic and mesothoracic
100 Whole-cell patch-clamp
recordings were made from morphologically identified gan
101 Intracellular
recordings were made from motoneurones in segments T5-T9
102 Intracellular
recordings were made from motoneurones with axons in the
103 Whole-cell current-clamp
recordings were made from mouse basal spiral ganglion ne
104 Recordings were made from multicontact electrodes implan
105 Recordings were made from muscle spindle primary afferen
106 To isolate Kir2.1 currents,
recordings were made from mutants lacking both classes o
107 Simultaneous intracellular
recordings were made from myenteric neurons and circular
108 In contrast, when
recordings were made from myenteric S-neurons, two disti
109 Intracellular
recordings were made from narrow-field, bistratified AII
110 Intracellular
recordings were made from neurones in rat hypothalamic t
111 Whole-cell patch-clamp
recordings were made from neurones of the dorsal motor n
112 tions of preganglionic vagal motor neurones,
recordings were made from neurones whose projections to
113 Whole-cell and perforated-patch
recordings were made from neurons in rat mPFC.
114 Whole-cell current-clamp
recordings were made from neurons in the rat parabrachia
115 Extracellular
recordings were made from neurons in the trigeminocervic
116 Whole-cell patch clamp
recordings were made from nucleus accumbens neurones in
117 Whole-cell voltage clamp
recordings were made from outer hair cells (OHCs) isolat
118 Single-channel
recordings were made from outside-out membrane patches o
119 pig distal colon, simultaneous intracellular
recordings were made from pairs of circular muscle (CM)
120 tions, simultaneous intracellular electrical
recordings were made from pairs of circular muscle (CM)
121 Simultaneous intracellular
recordings were made from pairs of circular muscle (CM)
122 Simultaneous intracellular
recordings were made from pairs of CM cells at either en
123 rent types of connection, dual intracellular
recordings were made from pairs of neurones in slices of
124 neurons, simultaneous tight-seal, whole-cell
recordings were made from pairs of neurons in rat spinal
125 In this study, intracellular
recordings were made from parasympathetic ganglia locate
126 Most
recordings were made from preparations in which spontane
127 ct of 5-HT, electrophysiological and optical
recordings were made from presynaptic axons.
128 Here, whole-cell
recordings were made from proopiomelanocortin (POMC) neu
129 electrically 0.5-1 mm below the surface and
recordings were made from Purkinje cells in lobules VIII
130 Intracellular
recordings were made from putative interneurones (n = 24
131 ed, whole-cell and cell-attached patch-clamp
recordings were made from rat brain slices to determine
132 Whole-cell
recordings were made from rat CA1 neurones in brain slic
133 Patch-clamp
recordings were made from rat cerebellar granule cells i
134 Whole-cell patch-clamp
recordings were made from rat dorsal motor nucleus of th
135 Patch-clamp
recordings were made from rat hippocampal neurons in pri
136 Whole-cell patch-clamp
recordings were made from rat striatal cholinergic inter
137 Intracellular
recordings were made from rat sympathetic neurones in is
138 Patch-clamp
recordings were made from rat ventromedial hypothalamic
139 Whole-cell patch clamp
recordings were made from rat ventromedial hypothalamic
140 tive response, intracellular and patch-clamp
recordings were made from RB neurons in situ.
141 Single unit
recordings were made from receptive fields on the head o
142 Extracellular
recordings were made from region CA1 of head-fixed mice
143 Recordings were made from respiratory neurones in or nea
144 EMG
recordings were made from right ankle dorsiflexor and ri
145 Whole-cell patch-clamp
recordings were made from rostral ventrolateral medulla
146 Extra- or intracellular
recordings were made from seventy-six gamma-motoneurones
147 CR, Western blots and whole-cell patch-clamp
recordings were made from SGNs in P0-P5 mouse cochlear o
148 To this end, in experiment 1 extracellular
recordings were made from single dLGN neurons in the awa
149 Extracellular
recordings were made from single jugular or nodose vagal
150 Perforated patch
recordings were made from single mouse beta-cells or ham
151 Recordings were made from single-units in the ventral co
152 Monophasic action potential
recordings were made from six atrial epicardial sites in
153 Extracellular microelectrode
recordings were made from sixty vasomotor neurones in th
154 erve was re-exposed and electrophysiological
recordings were made from spontaneously active units in
155 Electrophysiological
recordings were made from stratum pyramidale interneuron
156 o address this issue, dual whole patch-clamp
recordings were made from striatal MSNs in brain slices
157 Whole-cell patch-clamp
recordings were made from substantia gelatinosa (SG) neu
158 ntaining cells, current-clamp microelectrode
recordings were made from substantia nigra pars compacta
159 Whole-cell patch clamp
recordings were made from substantia nigra pars reticula
160 Cell-attached and whole-cell
recordings were made from subthalamic neurons in brain s
161 Whole-cell patch-clamp
recordings were made from subthalamic nucleus (STN) neur
162 Dual intracellular
recordings were made from synaptically coupled pyramidal
163 Single unit
recordings were made from teased DR fibers.
164 discontinuous single electrode voltage clamp
recordings were made from thalamocortical neurones (n =
165 ehavioral performance criterion, single-unit
recordings were made from the aPCX and pPCX in these rat
166 In vivo electrophysiological
recordings were made from the cell bodies of thalamocort
167 Recordings were made from the circular muscle (CM) and l
168 EEG and single-unit
recordings were made from the dorsal hippocampus of awak
169 Transcranial Doppler
recordings were made from the ipsilateral middle cerebra
170 Single nerve fiber
recordings were made from the L4 spinal nerve after liga
171 Electromyographic
recordings were made from the orbicularis oculi muscles
172 A new study in which
recordings were made from the retrosplenial cortex while
173 Electromyographic
recordings were made from the SA and Tr muscles (upper t
174 Intracellular voltage
recordings were made from the somata of ipsilateral L6 a
175 Intracellular voltage
recordings were made from the somata of L6 and S1 dorsal
176 Single cell extracellular
recordings were made from the suprachiasmatic nucleus (S
177 Extracellular
recordings were made from the vagal sensory neurons loca
178 pression in GABAergic neurons and whole-cell
recordings were made from these fluorescent neurons.
179 Here, intracranial
recordings were made from three humans as they performed
180 of auditory information, in vivo single-unit
recordings were made from VCN neurons (bushy cells), axo
181 e potential and on spike rate, intracellular
recordings were made from visual cortical neurons.
182 Whole-cell patch-clamp
recordings were made from visually identified hippocampa
183 Using video microscopy, whole-cell
recordings were made from visually preselected neurons t
184 Recordings were made from visually responsive neurones i
185 Extracellular electrophysiological
recordings were made from wide dynamic range (WDR) and h
186 spontaneous respiratory rhythm, patch-clamp
recordings were made from XII motoneurones, which were d