Rachel Frazer scite author profile

Internal state profoundly alters perception and behavior. For example, a starved fly may approach and consume foods that it would otherwise find undesirable. A socially engaged newt may remain engaged in the presence of a predator, whereas a solitary newt would otherwise attempt escape. Yet, the definition of internal state is fluid and ill-defined. As an interdisciplinary group of scholars spanning five career stages (from undergraduate to full professor) and six academic institutions, we have come together in an attempt to provide an operational definition of internal state that could be useful in understanding behavior and the function of nervous systems, at timescales relevant to the individual. In this Perspective, we propose to define internal state through an integrative framework centered on dynamic and interconnected communication loops in and between the body and the brain. This framework is informed by a synthesis of historical and contemporary paradigms used by neurobiologists, ethologists, physiologists, and endocrinologists. We view internal state as composed of both spatially distributed networks (body-brain communication loops), and temporally distributed mechanisms that weave together neural circuits, physiology, and behavior. Given the wide spatial and temporal scales at which internal state operates—and therefore the broad range of scales at which it could be defined—we choose to anchor our definition in the body. Here we focus on studies that highlight body-to-brain signaling; body represented in endocrine signaling, and brain represented in sensory signaling. This integrative framework of internal state potentially unites the disparate paradigms often used by scientists grappling with body-brain interactions. We invite others to join us as we examine approaches and question assumptions to study the underlying mechanisms and temporal dynamics of internal state.

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Acuity and summation strategies differ in vinegar and desert fruit flies

Currea

Frazer

Wasserman

et al. 2022

iScience

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Summary An animal's vision depends on terrain features that limit the amount and distribution of available light. Approximately 10,000 years ago, vinegar flies ( Drosophila melanogaster ) transitioned from a single plant specialist into a cosmopolitan generalist. Much earlier, desert flies ( D. mojavensis ) colonized the New World, specializing on rotting cactuses in southwest North America. Their desert habitats are characteristically flat, bright, and barren, implying environmental differences in light availability. Here, we demonstrate differences in eye morphology and visual motion perception under three ambient light levels. Reducing ambient light from 35 to 18 cd/m 2 causes sensitivity loss in desert but not vinegar flies. However, at 3 cd/m 2 , desert flies sacrifice spatial and temporal acuity more severely than vinegar flies to maintain contrast sensitivity. These visual differences help vinegar flies navigate under variably lit habitats around the world and desert flies brave the harsh desert while accommodating their crepuscular lifestyle.

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Rachel Frazer

Touch neurons underlying dopaminergic pleasurable touch and sexual receptivity

Internal State: Dynamic, Interconnected Communication Loops Distributed Across Body, Brain, and Time

Acuity and summation strategies differ in vinegar and desert fruit flies

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