Your search keyword '"Peripheral photoreceptors"' showing total 2 results

1. A Go-type opsin mediates the shadow reflex in the annelid <italic>Platynereis dumerilii</italic>.

Author

Ayers, Thomas, Tsukamoto, Hisao, Gühmann, Martin, Veedin Rajan, Vinoth Babu, and Tessmar-Raible, Kristin

Subjects

PLATYNEREIS dumerilii, OPSINS, PHOTORECEPTORS, REFLEXES, GENE knockout

Abstract

Background: The presence of photoreceptive molecules outside the eye is widespread among animals, yet their functions in the periphery are less well understood. Marine organisms, such as annelid worms, exhibit a 'shadow reflex', a defensive withdrawal behaviour triggered by a decrease in illumination. Herein, we examine the cellular and molecular underpinnings of this response, identifying a role for a photoreceptor molecule of the Go-opsin class in the shadow response of the marine bristle worm Platynereis dumerilii. Results: We found Pdu-Go-opsin1 expression in single specialised cells located in adult Platynereis head and trunk appendages, known as cirri. Using gene knock-out technology and ablation approaches, we show that the presence of Go-opsin1 and the cirri is necessary for the shadow reflex. Consistently, quantification of the shadow reflex reveals a chromatic dependence upon light of approximately 500 nm in wavelength, matching the photoexcitation characteristics of the Platynereis Go-opsin1. However, the loss of Go-opsin1 does not abolish the shadow reflex completely, suggesting the existence of a compensatory mechanism, possibly acting through a ciliary-type opsin, Pdu-c-opsin2, with a Lambdamax of approximately 490 nm. Conclusions: We show that a Go-opsin is necessary for the shadow reflex in a marine annelid, describing a functional example for a peripherally expressed photoreceptor, and suggesting that, in different species, distinct opsins contribute to varying degrees to the shadow reflex. [ABSTRACT FROM AUTHOR]

Published

2018

2. It’s time to swim! Zebrafish and the circadian clock

Author

Vatine, Gad, Vallone, Daniela, Gothilf, Yoav, and Foulkes, Nicholas S.

Subjects

ZEBRA danio, CIRCADIAN rhythms, CELL cycle, PHOTORECEPTORS, TRANSGENIC fish, ONTOGENY, FISH embryology, GENES

Abstract

Abstract: The zebrafish represents a fascinating model for studying key aspects of the vertebrate circadian timing system. Easy access to early embryonic development has made this species ideal for investigating how the clock is first established during embryogenesis. In particular, the molecular basis for the functional development of the zebrafish pineal gland has received much attention. In addition to this dedicated clock and photoreceptor organ, and unlike the situation in mammals, the clocks in zebrafish peripheral tissues and even cell lines are entrainable by direct exposure to light thus providing unique insight into the function and evolution of the light input pathway. Finally, the small size, low maintenance costs and high fecundity of this fish together with the availability of genetic tools make this an attractive model for forward genetic analysis of the circadian clock. Here, we review the work that has established the zebrafish as a valuable clock model organism and highlight the key questions that will shape the future direction of research. [Copyright &y& Elsevier]

Published

2011