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1.
Nat Commun ; 12(1): 771, 2021 02 03.
Artigo em Inglês | MEDLINE | ID: mdl-33536422

RESUMO

Many animals use the Earth's geomagnetic field for orientation and navigation. Yet, the molecular and cellular underpinnings of the magnetic sense remain largely unknown. A biophysical model proposed that magnetoreception can be achieved through quantum effects of magnetically-sensitive radical pairs formed by the photoexcitation of cryptochrome (CRY) proteins. Studies in Drosophila are the only ones to date to have provided compelling evidence for the ultraviolet (UV)-A/blue light-sensitive type 1 CRY (CRY1) involvement in animal magnetoreception, and surprisingly extended this discovery to the light-insensitive mammalian-like type 2 CRYs (CRY2s) of both monarchs and humans. Here, we show that monarchs respond to a reversal of the inclination of the Earth's magnetic field in an UV-A/blue light and CRY1, but not CRY2, dependent manner. We further demonstrate that both antennae and eyes, which express CRY1, are magnetosensory organs. Our work argues that only light-sensitive CRYs function in animal light-dependent inclination-based magnetic sensing.


Assuntos
Borboletas/fisiologia , Criptocromos/metabolismo , Proteínas de Insetos/metabolismo , Campos Magnéticos , Orientação/fisiologia , Sensação/fisiologia , Sequência de Aminoácidos , Animais , Antenas de Artrópodes/fisiologia , Antenas de Artrópodes/efeitos da radiação , Borboletas/genética , Borboletas/efeitos da radiação , Criptocromos/genética , Olho/efeitos da radiação , Humanos , Proteínas de Insetos/genética , Luz , Mutação , Orientação/efeitos da radiação , Sensação/genética , Sensação/efeitos da radiação , Homologia de Sequência de Aminoácidos
2.
Nature ; 574(7776): 108-111, 2019 10.
Artigo em Inglês | MEDLINE | ID: mdl-31534223

RESUMO

Light discrimination according to colour can confer survival advantages by guiding animals towards food and shelter and away from potentially harmful situations1,2. Such colour-dependent behaviour can be learned or innate. Data on innate colour preference in mammals remain controversial3 and there are limited data for simpler organisms4-7. Here we show that, when given a choice among blue, green and dim light, fruit flies exhibit an unexpectedly complex pattern of colour preference that changes according to the time of day. Flies show a strong preference for green in the early morning and late afternoon, a reduced green preference at midday and a robust avoidance of blue throughout the day. Genetic manipulations reveal that the peaks in green preference require rhodopsin-based visual photoreceptors and are controlled by the circadian clock. The midday reduction in green preference in favour of dim light depends on the transient receptor potential (TRP) channels dTRPA1 and Pyrexia, and is also timed by the clock. By contrast, avoidance of blue light is primarily mediated by multidendritic neurons, requires rhodopsin 7 and the TRP channel Painless, and is independent of the clock. Our findings show that several TRP channels are involved in colour-driven behaviour in Drosophila, and reveal distinct pathways of innate colour preference that coordinate the behavioural dynamics of flies in ambient light.


Assuntos
Relógios Circadianos/fisiologia , Relógios Circadianos/efeitos da radiação , Cor , Drosophila melanogaster/fisiologia , Drosophila melanogaster/efeitos da radiação , Luz , Canais de Potencial de Receptor Transitório/metabolismo , Animais , Antenas de Artrópodes/fisiologia , Antenas de Artrópodes/efeitos da radiação , Dendritos/fisiologia , Dendritos/efeitos da radiação , Drosophila melanogaster/crescimento & desenvolvimento , Feminino , Larva/fisiologia , Larva/efeitos da radiação , Luz/efeitos adversos , Masculino , Neurônios/fisiologia , Neurônios/efeitos da radiação , Rodopsinas Sensoriais/metabolismo , Fatores de Tempo , Visão Ocular/efeitos da radiação
3.
J Neurophysiol ; 113(7): 2250-61, 2015 Apr 01.
Artigo em Inglês | MEDLINE | ID: mdl-25609113

RESUMO

Previous work revealed that bloodsucking bugs can discriminate between oscillating changes in infrared (IR) radiation and air temperature (T) using two types of warm cells located in peg-in-pit sensilla and tapered hairs (Zopf LM, Lazzari CR, Tichy H. J Neurophysiol 111: 1341-1349, 2014). These two stimuli are encoded and discriminated by the response quotient of the two warm cell types. IR radiation stimulates the warm cell in the peg-in-pit sensillum more strongly than that in the tapered hair. T stimuli evoke the reverse responses; they stimulate the latter more strongly than the former. In nature, IR and T cues are always present with certain radiation intensities and air temperatures, here referred to as background IR radiation and background T. In this article, we found that the response quotient permits the discrimination of IR and T oscillations even in the presence of different backgrounds. We show that the two warm cells respond well to IR oscillations if the background T operates by natural convection but poorly at forced convection, even if the background T is higher than at natural convection. Background IR radiation strongly affects the responses to T oscillations: the discharge rates of both warm cells are higher the higher the power of the IR background. We compared the warm cell responses with the T measured inside small model objects shaped like a cylinder, a cone, or a disc. The experiments indicate that passive thermal effects of the sense organs rather than intrinsic properties of the sensory cells are responsible for the observed results.


Assuntos
Antenas de Artrópodes/fisiologia , Raios Infravermelhos , Rhodnius/fisiologia , Termorreceptores/fisiologia , Sensação Térmica/fisiologia , Animais , Antenas de Artrópodes/efeitos da radiação , Convecção , Reprodutibilidade dos Testes , Rhodnius/efeitos da radiação , Sensibilidade e Especificidade , Condutividade Térmica
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