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Behavioral Processes (behavioral + process)

Distribution by Scientific Domains
Psychology36%
Life Sciences36%
Medical Sciences18%

Selected Abstracts

The zebrafish bHLH PAS transcriptional regulator, single-minded 1 (sim1), is required for isotocin cell development

DEVELOPMENTAL DYNAMICS, Issue 8 2006
Jennifer L. Eaton
Abstract A wide range of physiological and behavioral processes, such as social, sexual, and maternal behaviors, learning and memory, and osmotic homeostasis are influenced by the neurohypophysial peptides oxytocin and vasopressin. Disruptions of these hormone systems have been linked to several neurobehavioral disorders, including autism, Prader-Willi syndrome, affective disorders, and obsessive-compulsive disorder. Studies in zebrafish promise to reveal the complex network of regulatory genes and signaling pathways that direct the development of oxytocin- and vasopressin-like neurons, and provide insight into factors involved in brain disorders associated with disruption of these systems. Isotocin, which is homologous to oxytocin, is expressed early, in a simple pattern in the developing zebrafish brain. Single-minded 1 (sim1), a member of the bHLH-PAS family of transcriptional regulatory genes, is required for terminal differentiation of mammalian oxytocin cells and is a master regulator of neurogenesis in Drosophila. Here we show that sim1 is expressed in the zebrafish forebrain and is required for isotocin cell development. The expression pattern of sim1 mRNA in the embryonic forebrain is dynamic and complex, and overlaps with isotocin expression in the preoptic area. We provide evidence that the role of sim1 in zebrafish neuroendocrine cell development is evolutionarily conserved with that of mammals. Developmental Dynamics 235:2071,2082, 2006. © 2006 Wiley-Liss, Inc. [source]

Hedgehog and Fgf signaling pathways regulate the development of tphR -expressing serotonergic raphe neurons in zebrafish embryos

DEVELOPMENTAL NEUROBIOLOGY, Issue 3 2004
H. Teraoka
Abstract Serotonin (5HT) plays major roles in the physiological regulation of many behavioral processes, including sleep, feeding, and mood, but the genetic mechanisms by which serotonergic neurons arise during development are poorly understood. In the present study, we have investigated the development of serotonergic neurons in the zebrafish. Neurons exhibiting 5HT-immunoreactivity (5HT-IR) are detected from 45 h postfertilization (hpf) in the ventral hindbrain raphe, the hypothalamus, pineal organ, and pretectal area. Tryptophan hydroxylases encode rate-limiting enzymes that function in the synthesis of 5HT. As part of this study, we cloned and analyzed a novel zebrafish tph gene named tphR. Unlike two other zebrafish tph genes (tphD1 and tphD2), tphR is expressed in serotonergic raphe neurons, similar to tph genes in mammalian species. tphR is also expressed in the pineal organ where it is likely to be involved in the pathway leading to synthesis of melatonin. To better understand the signaling pathways involved in the induction of the serotonergic phenotype, we analyzed tphR expression and 5HT-IR in embryos in which either Hh or Fgf signals are abrogated. Hindbrain 5HT neurons are severely reduced in mutants lacking activity of either Ace/Fgf8 or the transcription factor Noi/Pax2.1, which regulates expression of ace/fgf8, and probably other genes encoding signaling proteins. Similarly, serotonergic raphe neurons are absent in embryos lacking Hh activity confirming a conserved role for Hh signals in the induction of these cells. Conversely, over-activation of the Hh pathway increases the number of serotonergic neurons. As in mammals, our results are consistent with the transcription factors Nk2.2 and Gata3 acting downstream of Hh activity in the development of serotonergic raphe neurons. Our results show that the pathways involved in induction of hindbrain serotonergic neurons are likely to be conserved in all vertebrates and help establish the zebrafish as a model system to study this important neuronal class. © 2004 Wiley Periodicals, Inc. J Neurobiol 60: 275,288, 2004 [source]

Determination of biogenic amines in HeLa cell lysate by 6-oxy-(N -succinimidyl acetate)-9-(2',methoxycarbonyl) fluorescein and micellar electrokinetic capillary chromatography with laser-induced fluorescence detection

ELECTROPHORESIS, Issue 4 2006
Liwei Cao
Abstract An MEKC-LIF method using 6-oxy-(N -succinimidyl acetate)-9-(2'-methoxy-carbonyl) fluorescein (SAMF) newly synthesized in our lab as a labeling reagent for the separation and determination of eight typical biogenic amines was proposed. After careful study of the derivatization condition such as pH value, reagent concentration, temperature, and reaction time, derivatization reaction was accomplished as quickly as 10,min with stable yield. Optimal separation of SAMF-labeled amines was achieved with a running buffer (pH,9.3) containing 30,mM boric acid, 25,mM SDS, and 20%,v/v ACN. The proposed method allowed biogenic amines to be determined with LODs as low as 0.25,2.5,nmol/L and RSD values from 0.4 to 4.5%. The present method has been successfully used to monitor biogenic amines in HeLa cells and fish samples. This study exploits the potential of MEKC-LIF with SAMF labeling as a tool for monitoring biogenic amines involved in complex physiological and behavioral processes in various matrices. [source]

Different selves, different values: Effects of self-construals on value activation and use

EUROPEAN JOURNAL OF SOCIAL PSYCHOLOGY, Issue 6 2009
Bas Verplanken
Three experiments demonstrated structural properties and dynamic effects of self-construal on the processing and use of values. In Study 1, it was found that self-focus during encoding caused spontaneous cognitive clustering of individualistic versus relational values. Study 2 demonstrated that self-construal affected the implicit weight of a value-related attribute in a multi-attribute choice task. In Study 3, behavioral intentions were better predicted by personal values than social norms when the personal self was primed, whereas social norms predicted better when the collective self was primed. The effects of manipulated self-construal were mimicked when comparing participants with an individualistic versus collectivistic cultural background. No interaction was found between priming and cultural background. Taken together, the studies demonstrated that different domains of the self are associated with different values, which may instigate different cognitive and behavioral processes when activated. Copyright © 2008 John Wiley & Sons, Ltd. [source]

A Socio-Political and -Cultural Model of the War in Afghanistan1

INTERNATIONAL STUDIES REVIEW, Issue 1 2010
Armando Geller
We present a simulation model of current conflict-torn Afghanistan in which a system-dynamics model is coupled with an agent-based model. Agent-based modeling techniques are applied to model individual cognition and behavior as well as group formation processes. System-dynamics modeling is used for representing macro conflict processes, such as duration of violence and combat success ratio. The cognitive and behavioral processes are couched in a socio-cultural context and feed into the system dynamics processes. This affords us exploring the relationship between local socio-culturally-driven cognition and behavior and (dynamic) macro properties of armed conflict. We demonstrate the importance of analyzing conflict-torn Afghanistan from an interplay of adapting "traditional" socio-cultural mechanisms, political culture and power structures, and politico-economic macro-processes. We find that variations in the conflict's superstructure can be explained through variations in socio-culturally dependent structures. The model indicates limitations with regard to classical prediction, but is promising with regard to explanatory-driven pattern forecasting. [source]

Immunocytochemical analysis of the circadian clock protein in mouse hepatocytes

MICROSCOPY RESEARCH AND TECHNIQUE, Issue 5 2003
Manuela Malatesta
Abstract Many biochemical, physiological, and behavioral processes in organisms ranging from prokaryotes to humans exhibit circadian rhythms, defined as cyclic oscillations of about 24 hours. The mechanism of the cellular circadian clock relies on interlocking positive and negative transcriptional/translational feedback loops based on the regulated expression of several genes. Clock is one of these genes and its transcript, CLOCK protein, is a transcription factor belonging to the bHLH-PAS family. In mammals the clock gene is expressed in several tissues, including the liver. In the present study, we analyzed by means of quali-quantitative immunoelectron microscopy the fine intracellular distribution of the CLOCK protein in mouse hepatocytes during the daily cycle. We demonstrated that CLOCK protein is mostly located in the cell nucleus, where it accumulates on perichromatin fibrils, representing the in situ form of nascent pre-mRNA, while condensed chromatin and nucleoli contain lower amounts of protein. Moreover, we found that CLOCK protein shows circadian oscillations in these nuclear compartments, peaking in late afternoon. At this time the hepatic transcriptional rate reaches the maximal level, thus suggesting an important role of CLOCK protein in the regulation of liver gene expression. Microsc. Res. Tech. 61:414,418, 2003. © 2003 Wiley-Liss, Inc. [source]

Habits of the heart: Life history and the developmental neuroendocrinology of emotion

AMERICAN JOURNAL OF HUMAN BIOLOGY, Issue 6 2009
Carol M. Worthman
The centrality of emotion in cognition and social intelligence as well as its impact on health has intensified investigation into the causes and consequences of individual variation in emotion regulation. Central processing of experience directly informs regulation of endocrine axes, essentially forming a neuro-endocrine continuum integrating information intake, processing, and physiological and behavioral response. Two major elements of life history,resource allocation and niche partitioning,are served by linking cognitive-affective with physiologic and behavioral processes. Scarce cognitive resources (attention, memory, and time) are allocated under guidance from affective co-processing. Affective-cognitive processing, in turn, regulates physiologic activity through neuro-endocrine outflow and thereby orchestrates energetic resource allocation and trade-offs, both acutely and through time. Reciprocally, peripheral activity (e.g., immunologic, metabolic, or energetic markers) influences affective-cognitive processing. By guiding attention, memory, and behavior, affective-cognitive processing also informs individual stances toward, patterns of activity in, and relationships with the world. As such, it mediates processes of niche partitioning that adaptively exploit social and material resources. Developmental behavioral neurobiology has identified multiple factors that influence the ontogeny of emotion regulation to form affective and behavioral styles. Evidence is reviewed documenting roles for genetic, epigenetic, and experiential factors in the development of emotion regulation, social cognition, and behavior with important implications for understanding mechanisms that underlie life history construction and the sources of differential health. Overall, this dynamic arena for research promises to link the biological bases of life history theory with the psychobehavioral phenomena that figure so centrally in quotidian experience and adaptation, particularly, for humans. Am. J. Hum. Biol. 2009. © 2009 Wiley-Liss, Inc. [source]

Panic comorbidity with bipolar disorder: what is the manic,panic connection?

BIPOLAR DISORDERS, Issue 6 2006
Dean F MacKinnon
Context:, Bipolar/panic comorbidity has been observed in clinical, community and familial samples. As both are episodic disorders of affect regulation, the common pathophysiological mechanism is likely to involve deficits in amygdala-mediated, plasticity-dependent emotional conditioning. Evidence:, Neuronal genesis and synaptic remodeling occur in the amygdala; bipolar and panic disorders have both been associated with abnormality in the amygdala and related structures, as well as in molecules that modulate plasticity, such as serotonin, norepinephrine, brain-derived neurotrophic factor (BDNF) and corticotrophin releasing factor (CRF). These biological elements are involved in behavioral conditioning to threat and reward. Model:, Panic attacks resemble the normal acute fear response, but are abnormally dissociated from any relevant threat. Abnormal reward-seeking behavior is central to both manic and depressive syndromes. Appetites can be elevated or depressed; satisfaction of a drive may fail to condition future behavior. These dissociations may be the result of deficits in plasticity-dependent processes of conditioning within different amygdala subregions. Conclusions:, This speculative model may be a useful framework with which to connect molecular, cellular, anatomic and behavioral processes in panic and bipolar disorders. The primary clinical implication is that behavioral treatment may be critical to restore function in some bipolar patients who respond only partially to medications. [source]

Emotion,Cognition Interplay in Motivating and Guiding Plans and Actions: Commentary on McClure-Tone's Socioemotional Functioning in Bipolar Disorder

CLINICAL PSYCHOLOGY: SCIENCE AND PRACTICE, Issue 2 2009
Carroll E. Izard
McClure-Tone (2009) focused on the role of two aspects of emotion knowledge (emotion expression recognition and labeling) and on emotion regulation in bipolar disorder (BD). We encourage further research on these and on other components of emotion knowledge that probably play equally significant roles in normal and abnormal development, and perhaps particularly in BD. Despite the author finding serious gaps in the literature, it was shown that we have learned a lot about differences in neural, cognitive, and behavioral processes in children and adolescents with BD and same-age normal individuals, and that much remains unknown. We join the author in encouraging more clinical, developmental, and longitudinal research on emotion processes in BD, particularly theoretically driven studies on some neglected emotion schemas that may prove relatively distinct to the disorder. [source]

Mindfulness: Method and Process

CLINICAL PSYCHOLOGY: SCIENCE AND PRACTICE, Issue 2 2003
Steven C. Hayes
Understanding the processes and principles that underlie mindfulness is a needed step, because this method enters into the armamentarium of empirical clinical psychology. Mindfulness is closely related to several procedures, including acceptance, cognitive defusion, and exposure. Although each of these procedures seems to target different behavioral processes, they are all interrelated, because ultimately all of them target the domination of the literal and evaluative functions of human language and cognition. Because these methods are constructional, not eliminative, their rise may ultimately have a more profound impact on the field than is currently supposed. [source]

Emotion Dysregulation as a Risk Factor for Child Psychopathology

CLINICAL PSYCHOLOGY: SCIENCE AND PRACTICE, Issue 4 2000
Kate Keenan
This article reviews research on the construct of emotion regulation in young children. The lack of consensus with regard to a definition of emotion regulation notwithstanding, it appears that biological and behavioral processes involved in emotion regulation can be reliably measured early in life. Such indices of reactivity may be useful in identifying children at risk for developmental psychopathology, but the predictive utility of these indices has yet to be established. Measurement issues and factors hypothesized to affect an infant's risk for dysregulation, such as care-giving factors, are presented. The implications of continued programmatic research on emotion dysregulation early in life are discussed. [source]