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1 ronic neurodegenerative conditions, and even higher brain function.
2 les of this important subcortical network in higher brain function.
3 that mediate autonomic responses, pain, and higher brain function.
4 secting cellular and molecular mechanisms of higher brain function.
5 , or whether it plays a more general role in higher brain function.
6 e fidelity of neural computations underlying higher brain function.
7 t complex and significant problems involving higher brain function.
8 systems to test computational hypotheses of higher brain function.
9 structural network, are thought to be key to higher brain function.
10 o the multiple ways that the STN can support higher brain function.
11 echanisms for understanding basic as well as higher brain functions.
12 itatory synapses that play a crucial role in higher brain functions.
13 rtical projection neurons is fundamental for higher brain functions.
14 in anxiety and suggest a role for TI-VAMP in higher brain functions.
15 hysiological glutamate signaling involved in higher brain functions.
16 in play important roles in the regulation of higher brain functions.
17 GABA interneurons play a critical role in higher brain functions.
18 will facilitate investigation of its role in higher brain functions.
19 s, and might thus play a significant role in higher brain functions.
20 tions that together generate perceptions and higher brain functions.
21 uggesting a critical role of amphiphysin for higher brain functions.
22 onous manner, are thought to be important in higher brain functions.
23 in modulating hippocampal activity and many higher brain functions.
24 enterazine administration, without affecting higher brain functions.
25 ontogenetic and phylogenetic development of higher brain functions.
26 or energy flux in the execution of demanding higher brain functions.
27 s a major regulator of neural plasticity and higher brain functioning.
28 The prefrontal cortex (PFC) orchestrates higher brain function and becomes disrupted in many ment
29 tex is pivotal in information processing and higher brain function and its laminar structure of six d
31 of ghrelin that links metabolic control with higher brain functions and suggest novel therapeutic str
32 ory and inhibitory synapses is essential for higher brain function, and impairment in this developmen
33 ed understanding of how such homeostatic and higher brain functions are integrated may pave the way f
35 al role in regulating neuronal signaling and higher brain functions, being involved in various brain
36 em, implicated in supporting wakefulness and higher brain function, but has been difficult to selecti
37 These results indicate that KIBRA regulates higher brain function by regulating AMPAR trafficking an
38 a demonstrate that reward-timing activity-a "higher" brain function-can occur very early in sensory-p
42 The forebrain cholinergic system promotes higher brain function in part by signaling through the M
43 arying levels of awareness, memory and other higher brain functions in patients with no behavioral ev
44 ent suppression is assumed to be involved in higher brain functions including learning and memory.
45 icance statement: The cerebral cortex exerts higher brain functions including perceptual and emotiona
46 onomic regulation and another in controlling higher brain functions including reward, patience, mood
47 en shown to underlie synaptic plasticity and higher brain functions, including learning and memory, a
52 ine receptors (mAChR) has been implicated in higher brain functions such as learning and memory, and
55 Such gamma oscillations are fundamental to higher brain functions, such as perception, attention, a
56 '40 Hz' rhythm, has been implicated both in higher brain functions, such as the 'binding' of feature
57 ayer by which histone variants can fine tune higher brain functions through effects on gene expressio
58 nd the role of cortical myelin integrity for higher brain functions, we generated mice lacking Plp1,