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1 oding MAOA, lead to selective alterations in emotional behavior.
2 in regions compose the networks that mediate emotional behavior.
3 cing isoform neuroLSD1, in the modulation of emotional behavior.
4 ceptor has a lesser known role in modulating emotional behavior.
5 oxytocin plays a critical role in social and emotional behavior.
6 ar neurons involved in cholinergic-regulated emotional behavior.
7  of all salient activity relevant to ongoing emotional behavior.
8 ferent visceral signals in the regulation of emotional behavior.
9 e basolateral amygdala (BLA) is critical for emotional behavior.
10 s showed significantly impaired cognitive or emotional behavior.
11 ing circadian glucocorticoid oscillation and emotional behavior.
12 e basolateral amygdala (BLA) is critical for emotional behavior.
13 rate the sensory and visceromotor aspects of emotional behavior.
14 work is a first step toward better models of emotional behavior.
15 e important for the control of cognitive and emotional behavior.
16 a critical feature of adaptive cognitive and emotional behavior.
17 uence over circuits subserving cognitive and emotional behavior.
18 x (PFC) plays a crucial role in human social-emotional behavior.
19 Cx) that are important for the generation of emotional behavior.
20  activity in a number of regions involved in emotional behavior.
21 ow acute stress shapes, and distorts, social-emotional behavior.
22 s for these ATF family members in regulating emotional behavior.
23 ie higher cognitive functions and social and emotional behavior.
24 learning and in cross-species comparisons of emotional behavior.
25 ygdala's specific contribution to social and emotional behavior.
26  well as regions implicated in cognitive and emotional behavior.
27 ot only in cognitive competence, but also in emotional behavior.
28  brain systems underlying the development of emotional behavior.
29 ortant for understanding the neurobiology of emotional behavior.
30 ystem and the amygdala are key regulators of emotional behavior.
31 fferent from those involved in cognition and emotional behavior.
32 cit integrative neural processes involved in emotional behavior.
33 PFC) and basolateral amygdala (BLA) regulate emotional behaviors.
34 (NPY), a 36 aa peptide, regulates stress and emotional behaviors.
35 solateral amygdala (BLA) interact to control emotional behaviors.
36 at exercise improves cognitive functions and emotional behaviors.
37 ntral neurocircuits mediating stress-related emotional behaviors.
38 nd brain stem areas that regulate stress and emotional behaviors.
39 al trajectories of neural circuits governing emotional behaviors.
40  functional brain system regulating fear and emotional behaviors.
41 tant with the ontogeny of different fear and emotional behaviors.
42  region may play a role in the regulation of emotional behaviors.
43 s alone are sufficient to trigger changes in emotional behaviors.
44 ytocin (OT) is a key regulator of social and emotional behaviors.
45  dissect their functional roles in different emotional behaviors.
46 ionally implicated in drug reinforcement and emotional behaviors.
47  role for D1 receptors in mediating specific emotional behaviors.
48 rontoamygdala circuitry in the regulation of emotional behavior and its disruption in anxiety-related
49 oid (eCB) system, which is known to regulate emotional behavior and neuroplasticity, contributes to c
50 tal changes to the gut microbiome can affect emotional behavior and related brain systems.
51 lucocorticoid signaling in the regulation of emotional behavior and reveal novel molecular aspects of
52 stem to analyze the specific contribution to emotional behavior and stress response of the Y1R coexpr
53 adulthood in shaping cognition, sociability, emotional behavior and stress susceptibility.
54 e response of brain regions underlying human emotional behavior and suggest that differential excitab
55 dala (BLA) is critical for the generation of emotional behavior and the formation of emotional memory
56 ive and positive stimuli and is critical for emotional behaviors and associations.
57 ural circuit for the antagonistic control of emotional behaviors and memories.
58 reas that are important in the expression of emotional behaviors and memory processing.
59 urn survivors had higher scores in language, emotional behavior, and family functioning domains compa
60 focus on tasks, the amygdala, which mediates emotional behavior, and the prefrontal cortex, which mod
61 been reported to alter signaling mechanisms, emotional behavior, and visceral nociceptive reflexes in
62 l cortex plays a critical role in regulating emotional behaviors, and dysfunction of prefrontal corte
63 bic brain system has key roles in sexual and emotional behaviors, and is a likely candidate system fo
64                          Here, we argue that emotional behaviors are a class of behaviors that expres
65                   Human cognitive and social-emotional behaviors are heterogeneous, underscoring the
66 HT is involved in the regulation of aberrant emotional behaviors are poorly understood.
67 shment of social bonds and the regulation of emotional behaviors, are affected by early social experi
68 ria terminalis (BNST) has been implicated in emotional behaviors as well as regulation of hypothalami
69 showing a neutral expression, and (ii) which emotional behaviors attract their attention the most.
70 for the regulation of social, cognitive, and emotional behaviors, but both the nature and the source
71 he amygdala (MeA) plays a key role in innate emotional behaviors by relaying olfactory information to
72  integration of normal and possibly abnormal emotional behavior during adolescence and early adulthoo
73 e prevailing neurocircuitry models of social-emotional behavior emphasize the central role of the amy
74 uage, fine motor skills, gross motor skills, emotional behavior, family functioning, pain/itching, ap
75 pe the neural circuits underlying social and emotional behavior from the prenatal period to the end o
76 er known to be linked to learned fearful and emotional behavior, has dual effects on excitatory synap
77 ificant improvements for social interaction, emotional behavior, home management, total SIP score, an
78 ivity-dependent hippocampal neurogenesis and emotional behavior in adult mice.
79 ide oxytocin is a key mediator of social and emotional behavior in mammals, including humans.
80 ns implicated in other aspects of social and emotional behavior in other mammals.
81 e explored both the neural basis of abnormal emotional behavior in PD and the physiological effects o
82 d brainstem structures involved in mediating emotional behavior in the pathogenesis of depressive sym
83 on of discriminative associative memory, and emotional behavior in vivo.
84  organization of male-typical aggressive and emotional behaviors in addition to simple sexual behavio
85 ostnatal day 4 (P4) to P21 produced abnormal emotional behaviors in adult mice.
86 ective reuptake inhibitor, produced abnormal emotional behaviors in adult mice.
87 contribute to the core disturbances of socio-emotional behaviors in autism.
88 INs as critical for modulation of social and emotional behaviors in both females and males and reveal
89 structure known to be involved in social and emotional behavior, in discrimination of species specifi
90                                              Emotional behavior is in part heritable and often disrup
91  the brain can lead to altered cognitive and emotional behaviors, it is unknown whether a viral strai
92 ditional neural systems implicated in social-emotional behavior, language and explicit memory, and pr
93 t are likely to contribute to differences in emotional behaviors linked with genetic variations of th
94 prefrontal inhibitory regulation when social emotional behavior needs to be controlled, suggesting a
95  is integral to neurocircuitry that mediates emotional behaviors, our results add to mounting evidenc
96 with subcortical DAergic systems involved in emotional behavior regulation.
97 iota appears to influence the development of emotional behavior, stress- and pain-modulation systems,
98 atter connections of the brain in social and emotional behavior, studies of white matter connectivity
99 fos, should be seen in areas associated with emotional behavior, such as the cortex and limbic system
100 of forebrain circuits controlling social and emotional behaviors that are atypical in autism-spectrum
101 e could potentially mediate valence-specific emotional behaviors thought to involve the amygdala.
102 RT1 activity in the brain modifies mammalian emotional behavior via monoamine signaling and that chan
103 interactions in the context of regulation of emotional behavior within the hypothalamus.SIGNIFICANCE

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