A gravity-based three-dimensional compass in the mouse brain

Dora E. Angelaki; Julia Ng; Amada M. Abrego; Henry X. Cham; Eftihia K. Asprodini; J. David Dickman; Jean Laurens

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A gravity-based three-dimensional compass in the mouse brain

机译：小鼠脑中的基于重力的三维指南针

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Gravity sensing provides a robust verticality signal for three-dimensional navigation. Head direction cells in the mammalian limbic system implement an allocentric neuronal compass. Here we show that head-direction cells in the rodent thalamus, retrosplenial cortex and cingulum fiber bundle are tuned to conjunctive combinations of azimuth and tilt, i.e. pitch or roll. Pitch and roll orientation tuning is anchored to gravity and independent of visual landmarks. When the head tilts, azimuth tuning is affixed to the head-horizontal plane, but also uses gravity to remain anchored to the allocentric bearings in the earth-horizontal plane. Collectively, these results demonstrate that a three-dimensional, gravity-based, neural compass is likely a ubiquitous property of mammalian species, including ground-dwelling animals.

机译：重力传感为三维导航提供了一种坚固的垂直性信号。哺乳动物肢体系统中的头部方向细胞实施了一个因子神经元指南针。在这里，我们表明啮齿动物丘脑中的头部方向细胞，逆血上皮质和吊云纤维束被调谐到方位角和倾斜的联合组合，即俯仰或卷。俯仰和滚动方向调谐锚固到重力并独立于视觉地标。当头部倾斜时，方位角调谐被固定到头部水平面，但也使用重力保持锚定到地面水平面中的因内轴承。总的来说，这些结果表明，三维，重力的神经指南针可能是哺乳动物物种的无处不在的特征，包括地面居住的动物。

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《Nature Communications 》 |2020年第1期| 共13页
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Dora E. Angelaki; Julia Ng; Amada M. Abrego; Henry X. Cham; Eftihia K. Asprodini; J. David Dickman; Jean Laurens;
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机译：小鼠脑中的基于重力的三维指南针

A gravity-based three-dimensional compass in the mouse brain

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