Your search keyword '"Sepia anatomy & histology"' showing total 3 results

1. Alternative sites of synaptic plasticity in two homologous "fan-out fan-in" learning and memory networks.

Author

Shomrat T, Graindorge N, Bellanger C, Fiorito G, Loewenstein Y, and Hochner B

Subjects

Animals, Brain anatomy & histology, Brain physiology, Female, Ganglionic Blockers pharmacology, Hexamethonium pharmacology, Learning, Long-Term Potentiation, Male, Memory, Neurons drug effects, Neurons physiology, Octopodiformes anatomy & histology, Sepia anatomy & histology, Species Specificity, Synaptic Transmission, Octopodiformes physiology, Sepia physiology

Abstract

Background: To what extent are the properties of neuronal networks constrained by computational considerations? Comparative analysis of the vertical lobe (VL) system, a brain structure involved in learning and memory, in two phylogenetically close cephalopod mollusks, Octopus vulgaris and the cuttlefish Sepia officinalis, provides a surprising answer to this question., Results: We show that in both the octopus and the cuttlefish the VL is characterized by the same simple fan-out fan-in connectivity architecture, composed of the same three neuron types. Yet, the sites of short- and long-term synaptic plasticity and neuromodulation are different. In the octopus, synaptic plasticity occurs at the fan-out glutamatergic synaptic layer, whereas in the cuttlefish plasticity is found at the fan-in cholinergic synaptic layer., Conclusions: Does this dramatic difference in physiology imply a difference in function? Not necessarily. We show that the physiological properties of the VL neurons, particularly the linear input-output relations of the intermediate layer neurons, allow the two different networks to perform the same computation. The convergence of different networks to the same computational capacity indicates that it is the computation, not the specific properties of the network, that is self-organized or selected for by evolutionary pressure., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

2. Cephalopod dynamic camouflage.

Author

Hanlon R

Subjects

Animals, Biological Evolution, Cephalopoda anatomy & histology, Octopodiformes anatomy & histology, Octopodiformes physiology, Sepia anatomy & histology, Sepia physiology, Time Factors, Visual Perception physiology, Adaptation, Physiological physiology, Cephalopoda physiology, Color

Published

2007

3. Visual ecology: hiding in the dark.

Author

Warrant EJ

Subjects

Animals, Predatory Behavior, Sepia anatomy & histology, Behavior, Animal physiology, Color, Darkness, Sepia physiology

Abstract

The ability of many animals to camouflage themselves against a background is a well-known daytime phenomenon. Now it has even been found to occur at night, highlighting the reality of nocturnal visual predation.

Published

2007