Whisking
نویسندگان
چکیده
Eyes may be 'the window to the soul' in humans, but whiskers provide a better path to the inner lives of rodents. The brain has remarkable abilities to focus its limited resources on information that matters, while ignoring a cacophony of distractions. While inspecting a visual scene, primates foveate to multiple salient locations, for example mouths and eyes in images of people, and ignore the rest. Similar processes have now been observed and studied in rodents in the context of whisker-based tactile sensation. Rodents use their mechanosensitive whiskers for a diverse range of tactile behaviors such as navigation, object recognition and social interactions. These animals move their whiskers in a purposive manner to locations of interest. The shapes of whiskers, as well as their movements, are exquisitely adapted for tactile exploration in the dark tight burrows where many rodents live. By studying whisker movements during tactile behaviors, we can learn about the tactile information available to rodents through their whiskers and how rodents direct their attention. In this primer, we focus on how the whisker movements of rats and mice are providing clues about the logic of active sensation and the underlying neural mechanisms.
منابع مشابه
CALL FOR PAPERS Neurophysiology of Tactile Perception: a Tribute to Steven Hsiao Modulation of artificial whisking related signals in barrel cortex
Castro-Alamancos MA, Bezdudnaya T. Modulation of artificial whisking related signals in barrel cortex. J Neurophysiol 113: 1287–1301, 2015. First published December 10, 2014; doi:10.1152/jn.00809.2014.—Rats use rhythmic whisker movements, called active whisking, to sense the environment, which include whisker protractions followed by retractions at various frequencies. Using a proxy of active w...
متن کاملModulation of artificial whisking related signals in barrel cortex.
Rats use rhythmic whisker movements, called active whisking, to sense the environment, which include whisker protractions followed by retractions at various frequencies. Using a proxy of active whisking in anesthetized rats, called artificial whisking, which is induced by electrically stimulating the facial motor nerve, we characterized the neural responses evoked in the barrel cortex by whiski...
متن کاملCannabinoids reveal separate controls for whisking amplitude and timing in rats.
Whisking is controlled by multiple, possibly functionally segregated, motor sensory-motor loops. While testing for effects of endocannabinoids on whisking, we uncovered the first known functional segregation of channels controlling whisking amplitude and timing. Channels controlling amplitude, but not timing, were modulated by cannabinoid receptor type 1 (CB1R). Systemic administration of CB1R ...
متن کاملWhat makes whiskers shake? Focus on "Current flow in vibrissa motor cortex can phase-lock with exploratory rhythmic whisking in rat".
As one researcher once put it—“to beat the night with sticks” (D. Kleinfeld, personal communication)—might be only option for a small mammal to find its way through the dark holes it is living in. Rats employ such a strategy and explore their environment by fast rhythmic whisker movements. Whisking is generated by a highly specialized (Dörfl 1982) fast-muscle-fiber-dominated (Jin et al. 2004) m...
متن کاملDynamic correlation between whisking and breathing rhythms in mice.
Sniffing, a high-frequency, highly rhythmic inhalation and exhalation of air through the nose, plays an important role in rodent olfaction. Similarly, whisking, the active rhythmic movement of whiskers, plays an important role in rodent tactile sensation. Rodents whisk and sniff during exploratory behavior to sample odorants and surfaces. Whisking is thought to be coordinated with sniffing and ...
متن کاملCortical barrel field ablation and unconditioned whisking kinematics.
The effects of "barrel cortex" ablation upon the biometrics of "exploratory" whisking were examined in three head-fixed rats which had previously sustained unilateral ablation of the left cortical "barrel field" under electrophysiological control. Unconditioned movements of a pair of bilaterally homologous whiskers (C-1, Right, Left) were monitored, optoelectronically, with other whiskers prese...
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ورودعنوان ژورنال:
- Current Biology
دوره 25 شماره
صفحات -
تاریخ انتشار 2015