Here we revisit the Hering-versus-Helmholtz controversy on binocular coordination from the psychophysician’s description of combined saccade-vergence eye movements to the neurophysiological recording
of motor and premotor neurons of the oculomotor neural circuitry. Whilst neo-Heringian psychophysicians and physiologists have accumulated arguments for separate saccade and vergence systems, at both the behavioral and the learn more neural premotor levels, neo-Helmholtzians have also provided evidence for monocular programmed eye movements and commands at the premotor level. Bridging the two, we conclude that Hering and Helmholtz were both right. Importantly, the latter’s viewpoint brings to the fore the importance of adaptive processes throughout life, in view of the neurobiological constraints emphasized by the former. “
“AMPA-type glutamate receptors (AMPARs), as well as most other transmembrane proteins, are not stable in the postsynaptic density as was previously thought, but undergo constant trafficking in and out of synapses by a combination of endo/exocytosis and lateral diffusion. The respective
contributions of membrane recycling events and surface trafficking to setting AMPAR numbers at synapses have been the subject of intense debate. Although this discussion is not yet settled, it is safe to state that both categories of processes participate in receptor exchange at synapses at rest and during various forms of plasticity. More unexpectedly, AMPARs can diffuse at such high Gefitinib rates within the postsynaptic density itself that their surface trafficking could participate not only in setting receptor numbers at individual synapses but also in tuning synaptic transmission during short-term plasticity. I here review recent results that characterize the activity-dependent properties of AMPAR surface trafficking and their possible links to fast synaptic transmission. “
“Olfactory and visual sensory mechanisms seem to play a
critical role in migratory orientation and navigation. How these two mechanisms ALOX15 are functionally linked with other migratory processes is unknown. We investigated this, in relation to the profound behavioural shift that occurs during migration in the night-migratory blackheaded bunting (Emberiza melanocephala). Photosensitive unstimulated birds singly housed in activity cages were subjected to long days (LD 16/8). The activity of each bird was continuously monitored. Daily activity pattern defined the nonmigratory phase (no nocturnal activity) and migratory phase (intense nocturnal activity, Zugunruhe). Body mass and testis size were measured at the beginning and end of the experiment. Long days induced the migratory phenotype (body fattening and Zugunruhe) and testis maturation.