Restructuring of the Optokinetic Reflex during Metamorphosis in Pelobates fuscus Laur.

The restructuring of the gaze stabilization system in Pelobates fuscus was investigated by quantitative analysis of the optomotor response using video imaging. Gaze stabilization is an important component in the system of neural mechanisms of visual depth perception. It was shown that the optomotor response in aquatic tadpoles of P. fuscus is similar to that of fish (movement of the animal in the direction of the visual background movement and eye nystagmus consisting of a fast and a slow phase). During metamorphosis (transition from the aquatic to the terrestrial lifestyle), froglets of P. fuscus responded to the movement of the visual background by eyes and head movements. One year after metamorphosis, P. fuscus responded to movement of the visual background as adult Anura: only by head movements (a slow and a fast phase), while eye movements were absent. Possible causes of the loss of active eye movements by Anura amphibians in the process of evolution are discussed.

Biogenesis of multilamellar membrane incorporations (myeloid bodies) in the Eolagurus luteus pigmented epithelium.

The study detected common ultrastructure of pigmented epithelium cells of Eolagurus luteus and other mammals and described its features characteristic of this species. Stages of interactions between the pigmented epithelium cells and external segments of retinal rod cells were studied. Migration of the external segments to the apical zone of a pigmented epithelium cell was observed. A pigmented epithelium cell was characterized by the presence of tubular endoplasmic reticulum and electron dense cytoplasm with processes directed to the retina. Multilamellar formations were detected, regarded as the initial stages of the myeloid body formation. These structures were characterized by periodicity of layers of ~4.2 and ~13.3 nm. The periodicity of layers in the formed myeloid body was ~23 nm. Interactions between the external segments and cells of pigmented epithelium, leading to formation of myeloid bodies, and the significance of this process for normal work of retinal elements are discussed.

[The central pattern generators].

The central pattern generator (CPG) is defined as a set of neurons involved in joint production of patterned motor output. The roundtable discussion on the CPG was a part of the 5th All-Russian Conference on Animal Behavior (Moscow, Nov. 21, 2012). The discussion centred on three core themes: 1) the mechanisms of the organization and reconfiguration of pattern generating neuronal ensembles, 2) extrapolations that extend the CPG concept beyond the motor systems, and 3) evolutionary and developmental aspects of CPG.