Your search keyword '"Ullrich-Lüter EM"' showing total 2 results

1. C-opsin expressing photoreceptors in echinoderms.

Author

Ullrich-Lüter EM, D'Aniello S, and Arnone MI

Subjects

Animals, Base Sequence, Bayes Theorem, California, DNA Primers genetics, France, Immunohistochemistry, In Situ Hybridization, Microscopy, Electron, Transmission, Models, Genetic, Molecular Sequence Data, Opsins genetics, Photoreceptor Cells, Invertebrate ultrastructure, Phylogeny, Sequence Alignment, Species Specificity, Sweden, Biological Evolution, Echinodermata metabolism, Opsins metabolism, Photoreceptor Cells, Invertebrate metabolism

Abstract

Today's progress in molecular analysis and, in particular, the increased availability of genome sequences have enabled us to investigate photoreceptor cells (PRCs) in organisms that were formerly inaccessible to experimental manipulation. Our studies of marine non-chordate deuterostomes thus aim to bridge a gap of knowledge regarding the evolution of deuterostome PRCs prior to the emergence of vertebrates' eyes. In this contribution, we will show evidence for expression of a c-opsin photopigment, which, according to our phylogenetic analysis, is closely related to an assemblage of chordate visual c-opsins. An antibody raised against sea urchins' c-opsin protein (Sp-Opsin1) recognizes epitopes in a variety of tissues of different echinoderms. While in sea urchins this c-opsin is expressed in locomotory and buccal tube feet, spines, pedicellaria, and epidermis, in brittlestars and starfish we found the immuno-reaction to be located exclusively in cells within the animals' spines. Structural characteristics of these c-opsin+ PRC types include the close vicinity/connection to nerve strands and a, so far unexplored, conspicuous association with the animals' calcite skeleton, which previously has been hypothesized to play a role in echinoderm photobiology. These features are discussed within the context of the evolution of photoreceptors in echinoderms and in deuterostomes generally.

Published

2013

2. Unique system of photoreceptors in sea urchin tube feet.

Author

Ullrich-Lüter EM, Dupont S, Arboleda E, Hausen H, and Arnone MI

Subjects

Animals, Axons, Opsins analysis, Sea Urchins anatomy & histology, Sea Urchins cytology, Species Specificity, Nervous System cytology, Photoreceptor Cells physiology, Sea Urchins physiology, Vision, Ocular physiology

Abstract

Different sea urchin species show a vast variety of responses to variations in light intensity; however, despite this behavioral evidence for photosensitivity, light sensing in these animals has remained an enigma. Genome information of the recently sequenced purple sea urchin (Strongylocentrotus purpuratus) allowed us to address this question from a previously unexplored molecular perspective by localizing expression of the rhabdomeric opsin Sp-opsin4 and Sp-pax6, two genes essential for photoreceptor function and development, respectively. Using a specifically designed antibody against Sp-Opsin4 and in situ hybridization for both genes, we detected expression in two distinct groups of photoreceptor cells (PRCs) located in the animal's numerous tube feet. Specific reactivity of the Sp-Opsin4 antibody with sea star optic cushions, which regulate phototaxis, suggests a similar visual function in sea urchins. Ultrastructural characterization of the sea urchin PRCs revealed them to be of a microvillar receptor type. Our data suggest that echinoderms, in contrast to chordates, deploy a microvillar, r-opsin-expressing PRC type for vision, a feature that has been so far documented only in protostome animals. Surprisingly, sea urchin PRCs lack any associated screening pigment. Indeed, one of the tube foot PRC clusters may account for directional vision by being shaded through the opaque calcite skeleton. The PRC axons connect to the animal internal nervous system, suggesting an integrative function beyond local short circuits. Because juveniles display no phototaxis until skeleton completion, we suggest a model in which the entire sea urchin, deploying its skeleton as PRC screening device, functions as a huge compound eye.

Published

2011