Intaek Oh scite author profile

Intaek Oh

5Publications

62Citation Statements Received

168Citation Statements Given

How they've been cited

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118

162

Affiliations

Kyungpook National University, MagnaChip (South Korea), Korea Telecom (South Korea)

Publications

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Blue light-dependent human magnetoreception in geomagnetic food orientation

Chae

Lee

et al. 2019

PLoS ONE

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The Earth’s geomagnetic field (GMF) is known to influence magnetoreceptive creatures, from bacteria to mammals as a sensory cue or a physiological modulator, despite it is largely thought that humans cannot sense the GMF. Here, we show that humans sense the GMF to orient their direction toward food in a self-rotatory chair experiment. Starved men, but not women, significantly oriented toward the ambient/modulated magnetic north or east, directions which had been previously food-associated, without any other helpful cues, including sight and sound. The orientation was reproduced under blue light but was abolished under a blindfold or a longer wavelength light (> 500 nm), indicating that blue light is necessary for magnetic orientation. Importantly, inversion of the vertical component of the GMF resulted in orientation toward the magnetic south and blood glucose levels resulting from food appeared to act as a motivator for sensing a magnetic field direction. The results demonstrate that male humans sense GMF in a blue light-dependent manner and suggest that the geomagnetic orientations are mediated by an inclination compass.

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Behavioral evidence for geomagnetic imprinting and transgenerational inheritance in fruit flies

Kwon

Kim

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Certain long-distance migratory animals, such as salmon and sea turtles, are thought to imprint on the magnetic field of their natal area and to use this information to help them return as adults. Despite a growing body of indirect support for such imprinting, direct experimental evidence thereof remains elusive. Here, using the fruit fly as a magnetoreceptive model organism, we demonstrate that exposure to a specific geographic magnetic field during a critical period of early development affected responses to a matching magnetic field gradient later in life. Specifically, hungry flies that had imprinted on a specific magnetic field from 1 of 3 widely separated geographic locations responded to the imprinted field, but not other magnetic fields, by moving downward, a geotactic behavior associated with foraging. This same behavior occurred spontaneously in the progeny of the next generation: female progeny moved downward in response to the field on which their parents had imprinted, whereas male progeny did so only in the presence of these females. These results represent experimental evidence that organisms can learn and remember a magnetic field to which they were exposed during a critical period of development. Although the function of the behavior is not known, one possibility is that imprinting on the magnetic field of a natal area assists flies and their offspring in recognizing locations likely to be favorable for foraging and reproduction.

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A geomagnetic declination compass for horizontal orientation in fruit flies

Lee

et al. 2017

Entomological Research

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The Earth's geomagnetic field (GMF) is known to act as a sensory cue for magnetoreceptive animals such as birds, sea turtles, and butterflies in long-distance migration, as well as in flies, cockroaches, and cattle in short-distance movement or body alignment. Despite a wealth of information, the way that GMF components are used and the functional modality of the magnetic sense are not clear. A GMF component, declination, has never been proven to be a sensory cue in a defined biological context. Here, we show that declination acts as a compass for horizontal food foraging in fruit flies. In an open-field test, adopting the food conditioning paradigm, food-trained flies significantly orientated toward the food direction under ambient GMF and under eastward-turned magnetic field in the absence of other sensory cues. Moreover, a declination change within the natural range, by alteration only of either the east-west or north-south component of the GMF, produced significant orientation of the trained flies, indicating that they can detect and use the difference in these horizontal GMF components. This study proves that declination difference can be used for horizontal foraging, and suggests that flies have been evolutionarily adapted to incorporate a declination compass into their multimodal sensorimotor system.

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aBCD18 - An advanced 0.18um BCD technology for PMIC application

Park

Cha

Lee

et al. 2009

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Otherness in Iris Murdoch’s Under the Net and A Severed Head

Oh¹

2007

english21

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Intaek Oh

Blue light-dependent human magnetoreception in geomagnetic food orientation

Behavioral evidence for geomagnetic imprinting and transgenerational inheritance in fruit flies

A geomagnetic declination compass for horizontal orientation in fruit flies

aBCD18 - An advanced 0.18um BCD technology for PMIC application

Otherness in Iris Murdoch’s Under the Net and A Severed Head

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