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CATEGORY
L 1 to
65 |
| 1 |
Bilateral
hippocampal damage spares the familiarity component of recognition
memory: A single case study |
|
Aggleton
JP (1), Vann SD (1), Wilding E (1), Yonelinas AP (2), Roberts N
(3) |
| 2 |
Brain
substrates of “eyeblink” classical conditioning in goldfish |
|
Álvarez
E, Gómez A, Durán E, Ocaña FM, Jiménez-Moya F, Broglio C, Rodríguez
F, Salas C |
| 3 |
Effects
of dorsal mammillary body region lesions on spatial working memory |
|
Aranda
L (1), Santín LJ (1), Begega A (3), Aguirre JA (2), Blanco E (3)
and Arias JL (3) |
| 4 |
Differential effects of a bidimentional
local cue upon spatial abilities in male and female rats |
|
Brandner C, Delseth C |
| 5 |
Ionic
mechanism underlying learning-induced enhancement in neuronal
excitability |
|
Brosh I (1), Barkai E
(2) |
| 6 |
Role
of neocortical sites in the consolidation of fear conditioning |
|
Bucherelli
C (1), Sacchetti B (2), Baldi E (1), Ambrogi Lorenzini C (1) |
| 7 |
Negative
results and the Synaptotagmin I heterozygous knockout mice:
behavioral analysis |
|
Carvalho
OMP (1, 2), Silva AJ (1) |
| 8 |
Reversible
inactivation of the hippocampal CA3 network : effect on
contextual fear conditioning in C57BL/6J mice |
|
Daumas
S, Halley H, Lassalle JM |
| 9 |
Distinct
roles of the different ionotropic glutamate receptors within the
Nucleus accumbens in passive-avoidance learning and memory in mice |
|
De
Leonibus E (1,3), Costantini VJA (1), Castellano C (2), Oliverio A
(1), Mele A (1) |
| 10 |
Intraseptal
injections of 8-OH-DPAT and spatial working memory in rats |
|
Jeltsch H, Bertrand F,
Galani R, Lazarus C, Schimchowitsch S, Will B, |
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Cassel J-C |
| 11 |
Spatial learning in a
partitioned water maze: distinctive capacities revealed in
knockout mice lacking alpha-1B noradrenergic receptors |
|
Chalard
R (1), Spreng M (1), Cotecchia S (2), Schenk F (1) |
| 12 |
Molecular
Characterization of the Orphan Nuclear Receptor HZF-3 in Learning
and Memory |
|
Colon
WI (1), Al Banchaabouchi M (1),
Wang J (1), Santos-Soto I (1), Pereira L (1), Martínez Jr JL (2)
& Peña de Ortiz S (1) |
| 13 |
Reward
facilitates cognitive performance of mice in two spatial learning
tasks |
|
Dalm
S, de Kloet ER, Oitzl MS |
| 14 |
Dissociated
roles for the basolateral and lateral nuclei of the amygdala in
contextual and elemental fear conditioning |
|
Desmedt
A, Calandreau L, Decortes L, Jaffard R |
| 15 |
Chronic
exposure to 2,5-hexanedione reversibly impairs learning of a
conditional discrimination task in rats |
|
Erceg
S, Hernandez-Viadel M, Montoliu C, Llansola M, Felipo V |
| 16 |
Glutamate-dopamine
interactions within the nucleus accumbens on spatial memory
consolidation in mice |
|
Ferretti
V, Oliverio A, Mele A |
| 17 |
Comparison between
aspirative versus excitotoxic lesions of the lateral |
|
entorhinal cortex on
conditioned odor aversion in the rat |
|
Ferry B, Traissard N,
Majchrzak M |
| 18 |
cAMP response
element-binding protein in the hippocampal CA3-region is required
for long- but not short-term spatial memory |
|
Florian
C, Roullet P |
| 19 |
New
methods for testing visual recognition memory in the rat |
|
Forwood
SE, Saksida LM, Bussey TJ |
| 20 |
Two-way
active avoidance learning and perinatal disthyroidism on Wistar
rats |
|
Gallardo
D (1), Márquez C (2), Martí-Carbonell A (1,2), Garau A (2),
Balada F (1,2) |
| 21 |
Spaced-trained, but not
massed-trained, mice show spatial learning impairment caused by
zinc chelation in mossy fibres |
|
Harbaran
DV, Riedel G |
| 22 |
GABAA
alpha5 receptors are involved in Pavlovian condititioning |
|
Hauser
J(1), Doglov VV(1), Chang DL(1), Yee BK(1), Fritschy JM(2), Keith
R(2), Möhler H(2)(3), Rudolph U(2), Feldon J(1) |
| 23 |
Water maze learning failure in preweanling
rats impairs adult acquisition of a jumping avoidance response |
|
Higuera A (1), Manrique T (1), Molero A (1),
Candido A (1), Gallo M (1,2) |
| 24 |
Posttraining
lesions of the pedunculopontine tegmental nucleus impair two-way
active avoidance under a paradigm of conditioned stimulus transfer |
|
Homs-Ormo
S, Morgado-Bernal I, Coll-Andreu M |
| 25 |
Disconnection lesions
of nucleus accumbens and pedunculopontine tegmental nucleus:
effects on conditioned reinforcement |
|
Homs-Ormo S (1), Watson
SL (2), Alderson HL (2), Latimer MP (2), Winn P (2), Zahm DS (3) |
| 26 |
Manipulations
of NMDA/nNOS pathway impairs olfactory memory in different ways |
|
James
BM, Sanchez-Andrade G, Kendrick KM |
| 27 |
Spatial
learning-related changes in the hippocampal cortex of lizards |
|
Jiménez
I, Durán E, Gómez A, Álvarez E, Ocaña FM, Jiménez-Moya F,
Broglio C, Rodríguez F, Salas C |
| 28 |
Olfactory
learning is followed by upregulation of synaptic proteins, and
cell adhesion molecules and increased spine density in the
hippocampus |
|
Knafo
S (1), Barkai E (1), Libersat F (1), Ariav G (1), Sandi C (2),
Venero C (2) |
| 29 |
Neuronal
activity in the rat's medial frontal cortex during odor learning
task |
|
Kublik
E (1), Sara SJ (2) |
| 30 |
Cortical
and medial nuclei of the amygdala are both involved in lamb odour
memory formation by parturient mothers in sheep |
|
Lévy
F, Meurisse M, Perrin G, Ferreira G, Jouanneau N, Vénier G,
Archer E, Keller M |
| 31 |
Involvement
of NCAM polysialylation in the storage of strong fear conditioning |
|
Lopez-Fernandez
MA (1), Venero C (1), Cambon K (1), Torregrossa P (2), Rougon G
(2), Sandi, C (1) |
| 32 |
The
effects of left and right selective amygdalohippocampectomy on
episodic memory, discourse production and spatial representation |
|
Mangaoang
MA (1) McMackin D (2) Quigley J (1) O'Mara SM (1) |
| 33 |
Time
of day-dependent Latent Inhibition of Conditioned Taste Aversions
in rats |
|
Manrique T (1), Molero
A (1), Ballesteros MA (1), Morón I (1), Gallo M (1,2), Fenton A
(3,4) |
| 34 |
What
is the hippocampal-dependent memory component in step-down
inhibitory avoidance tasks? |
|
Martel
G, Jaffard R, Guillou JL |
| 35 |
Analysis
of the oxidative metabolism in different hippocampal subregions
after a spatial training |
|
Miranda
R (1), Begega A (1), Blanco E (1), Cuesta M (2), Arias JL (1) |
| 36 |
Effects
of electrical stimulation of the nucleus basalis on two-way active
avoidance acquisition, retention and retrieval |
|
Montero-Pastor
A, Vale-Martínez A, Guillazo-Blanch G, Martí-Nicolovius M |
| 37 |
Individually-housed
mice show a better acquisition of two-way active avoidance than
group-housed mice |
|
Moragrega
I (1), Vicens P (2), Redolat R (1), Carrasco MC (1) |
| 38 |
Prefrontal
cortex neural activity correlates with parametric stimuli
representation in working memory |
|
Nácher
V (1), Ojeda SF (1), Cadarso-Suárez C (2), Acuña C (1) |
| 39 |
Epinephrine
improves long-term retention, but not acquisition, of two-way
active avoidance task in rats. |
|
Nordby T, Torras-Garcia
M, Portell-Cortés I, Costa-Miserachs D. |
| 40 |
Regional
differentiation of reactivity in the prefrontal cortex of rats
engaged in a classical conditioning task |
|
Nordquist
RE (1,2), Pennartz CMA (1), Joosten RNJMA (1), Jonker AJ (2),
Uylings HBM (1), Voorn P (2) |
| 41 |
Lateralization
of electrophysiological correlates of memory |
|
Nowicka
A, Szatkowska I |
| 42 |
Independent coding of
connected environments by place cells |
|
Paz-Villagrán V, Save
E, Poucet B |
| 43 |
Hippocampal
high-frequency (200 Hz) network synchronization is modulated by
reinforcement learning |
|
Ponomarenko AA (1), Li
JS (2), Korotkova TM (1), Huston JP (2), Haas HL (1). |
| 44 |
Age related changes for
single event or spatial memory in Long Evans rats |
|
Preissmann
D, Rossier J, Spreng M, Schenk F |
| 45 |
Reversible
inactivation of hippocampus and dorsolateral striatum in
C57BL/6 and DBA/2 mice reveals no interaction among memory systems
in these genotypes |
|
Restivo
L, Middei S, Passino E, Ammassari-Teule M |
| 46 |
Heterogenous
hippocampal activation during a radial maze task: a detailed
2-deoxyglucose study |
|
Ros J,
Schenk F, Magistretti P, Pellerin L |
| 47 |
Interacting control
mechanisms during cued task switching as revealed by |
|
fMRI |
|
Ruge H (1), Brass M
(1), Meiran N (2), Koch I (3), von Cramon DY (1) |
| 48 |
Memory
deficits in cerebellar lesions |
|
Ryser
C (1)*, de Ribaupierre S (2)*, Villemure JG (2), Clarke S (1) |
| 49 |
Oestrus-cycle
dependent effects on mouse olfactory memory and NMDA-evoked
plasticity |
|
Sanchez-Andrade G,
Kendrick KM |
| 50 |
Different involvement
of AMPA receptors into the nucleus accumbens in short-term
processing of information in the place or the cue versions of the
water maze task: possible dissociation of learning and performance
impairment |
|
Sargolini
F (1), Mele A (2), Oliverio A (2), Roullet P (1) |
| 51 |
Lesions
of the entorhinal cortex enhance fear conditioning in the rat:
implication for latent inhibition disruption |
|
Seillier
A, Herbeaux K, Will B, Majchrzak M |
| 52 |
Olfactory fear
conditioning induces synaptic changes in the amygdala and piriform
cortex in the rat |
|
Sevelinges Y, Gervais
R, Mouly AM |
| 53 |
Reactivation
and reconsolidation of memory for an odour-reward association:
essential role of NMDA receptors |
|
Torras-Garcia
M, Lelong J, Tronel S, Sara SJ |
| 54 |
Noradrenergic
action in prefrontal cortex in the late stage of memory
consolidation |
|
Tronel
S, Moricard Y, Sara SJ |
| 55 |
Oscillatory
activity, behaviour and memory, new approaches for LFP signal
analysis |
|
Vialatte
F (1), Martin C (2), Ravel N (2), Quenet B (1), Dreyfus G (1),
Gervais R (2) |
| 56 |
Involvement
of perirhinal cortex in several stages of object recognition
memory revealed by reversible inactivation in rats |
|
Winters
BD, Bussey TJ |
| 57 |
The
lateral part of the caudomedial neostriatum (NCM) receives
projections from the medial nucleus of the dorsolateral thalamus (DLM)
in the zebra finch brain |
|
Zandbergen
MA (1), Bolhuis JJ (1), Hetebrij E (1), Fink K (2) |
| 58 |
Behavioral
characterization of Terminal deoxynucleotidyl Transferase (TdT)
and Recombination activating gene 1 (Rag-1) Knockout Mice. |
|
Colón
M, Martínez E, García H, Wang
J, & Peña de
Ortiz S |
| 59 |
A
multiple experience paradigm induces distinct psychoemotional and
behavioral phenotypes in mice. |
|
Al
Banchaabouchi M, Pereira L, Pérez R, & Peña de Ortiz S. |
| 60 |
Mechanisms of
lead-mediated long-term memory impairment in the adult rat brain. |
|
Vázquez
A (1), Huguet G (2) & Peña de Ortiz S |
| 61 |
Calcium/calmodulin-dependent
protein kinase II (CaMKII) and memory |
|
Solomonia
RO (1), Kotorashvili A (1), Kiguradze, T (1), McCabe BJ (2), Horn
G (2) |
| 62 |
Prolonged
exposure to the context impairs acquisition of fear conditioning
to tone in rats |
|
Pérez-Villalba
A, Olucha-Bordonau F, Ruiz-Torner A, Teruel V |
| 63 |
Olfactory
information for arm selection in rats and mice: effects of age,
strain, sex and cognitive impairment |
|
Grandchamp
N, Rossier J, Schenk F |
| 64 |
Enhancement of taste
aversion memory induced by glutamate infusion in the basolateral
amygdala depends on NMDA receptors activation in the insular
cortex |
|
Ferreira
G (1), Miranda MI (2), De la Cruz V (2), Rodriguez Ortiz CJ (2),
Bermudez-Rattoni F (2) |
| 65 |
ERK
activation is correlated with maintenance of learning-induced
enhancement of synaptic transmission |
|
Cohen SI (1), Rosenblum K (2), Barkai E (2) |
