Ultrastructure of the joint receptors of the tortoise (Testudo graeca. Emys orbicularis).

The ultrastructure of the spray-like ramified encapsulated corpuscles with the primitive inner core from the joint capsules of the large limb joints of the tortoise (Testudo graeca and Emys orbicularis) was examined. Each of the branches of the receptor consists of three components. Through the middle of the receptor branche runs the nerve terminal, containing in the receptor matrix numerous mitochondria, tiny light vesicles and neurofilaments and neurotubules running in the axial way. The nerve terminal gives off on some places among the inner core cells tiny finger-like processes. The axon is surrounded by the inner core cells and their irregular plasmatic processes. Among the inner core cells and their irregular plasmatic processes there is a labyrinth of spaces, connected centrally with the periaxonal space and with the boundary space on the periphery. The inner core cells are covered on the surface, turning to the boundary space by the basal membrane. The inner core has a very primitive structure, it still lacks the typical lamellar structure. The capsule of the receptor is formed by flat cells, which surround the inner core in 1--3 layers. Between the capsule of the receptor and the inner core is the boundary space, containihg sporadical collagenous fibrils. The structure of the spray-like ramified encapsulated corpuscles with the primitive inner core from the joint capsules of the tortoise is analogous to the simple lamellar receptors from the skin of some reptiles (Von Düring 1973, 1974). The primitive structure of the inner core of the joint receptors in the tortoise reminds of the structure of the inner core of the developing simple (paciniform) corpuscles (Polá?ek and Halata 1970) and Pacinian corpuscles (Malinovsky 1974). The observed nerve endings represent a primitive, early stage in phylogeny development of the lamellar mechanoreceptors.     

Electrophysiological study of the functional connections of the hypothalamus with the forebrain in the tortoise Emys orbicularis

During stimulation of the posterior hypothalamus, the evoked potentials with short latent periods, high amplitude and poor exhaustion by rhythmic stimulation were recorded in the hippocampal cortex. In the piriform cortex, the evoked potentials exhibited longer latent periods and complex configuration. Less readily the evoked potentials appeared in the neocortex, their latency being very large. During stimulation of the anterior hypothalamus, maximum activity was also localized in the hippocampal cortex. The data obtained indicate close connection between hypothalamic structures and the hippocampal cortex. The latter is presumably the main projectional area for the ascending afferentation from the hypothalamus.     

Responses of dorsal and ventral thalamic neurons to visual stimulation in Emys orbicularis tortoises]

Extracellular studies have been made on the background activity and reactions to visual stimuli in neurons of nucleus rotundus and nucleus suprapeduncularis of the thalamus in the tortoise E. orbicularis. Reactions of on-off type to diffuse light flashes were recorded predominantly in both of the nuclei, whereas specific reactions to movement stimuli were found in the neurons of n. rotundus. The receptive area of the neurons in both of the nuclei involves all the visual field of one or both of the eyes. The structure of the receptive area of the neurons of n. suprapeduncularis is relatively homogeneous, whereas the receptive area of the neurons in n. rotundus exhibits a zone with an increased excitability under the horizontal meridian. After a damage of tectum opticum, the heterogeneity of the receptive areas and the specific responses to movement in cells of n. rotundus disappeared, while thresholds of the reactions increased. In the neurons of n. suprapeduncularis homogeneous structure of the receptive area remained unaffected, the thresholds of the reactions being increased as well.     

Characterization of microsatellite loci in the European pond turtle Emys orbicularis

A set of eight highly polymorphic microsatellite markers was isolated and characterized from a genomic library enriched for dinucleotide repeats in the European pond turtle, Emys orbicularis. The markers were tested for polymorphism in a total of 33 turtles sampled in two natural ponds in the nature reserve of Kerkini, northern Greece. Number of alleles varied from 10 to 18, and expected heterozygosity ranged between 0.738 and 0.921. This novel set of loci will be particularly useful to assess fine-scale population structure and for parentage analysis in E. orbicularis.     

Absence of purinoceptors in the heart of the turtle (Emys orbicularis)

The effects of adenosine, adenosine 5'-triphosphate (ATP), a slowly degradable ATP analogue beta,gamma-methylene ATP (APPCP) and a degradation resistant ATP analogue alpha,beta-methylene ATP (APCPP) were examined on the turtle heart. Adenosine, ATP, APPCP and APCPP had no effect on the rate or force of contraction of either the atrium or ventricle. The effects of acetylcholine and noradrenaline were also examined on the turtle heart. Acetylcholine decreased the force and rate of contraction of turtle atria in a concentration-dependent manner. Noradrenaline increased the rate of contraction but caused a slight decrease in the force of contraction of the atrium. Neither acetylcholine nor noradrenaline produced an inotropic effect on the ventricle.     

Recognition of visual stimuli from multiple neuronal activity in monkey visual cortex

Response patterns recorded with 30 microelectrodes from area 17 of anaesthetized monkeys are analysed. A proportion of the patterns are used to define prototype response patterns. These in turn are used to recognize the stimulus from further non-averaged response patterns. In comparison, recognition by a feedforward neural network is much slower, and slightly inferior. The excitation time structure, with a resolution of about 20 ms, is found to contribute strongly to the recognition. There is some inter-ocular recognition for oriented moving bars, and for on and off phases of switched lights, but none for colours. Generalizations over some stimulus parameters (i.e. cases of confusion) are examined: If small jerking shapes are incorrectly recognized, in general the jerk direction often is the correct one. The onset of a response can most easily be found by determining the dissimilarity relative to spontaneous activity in a sliding window.     

Changes in the neuronal reactions of the substantia nigra to nociceptive stimuli during electroacupuncture

The nature of responses of neurones in substance nigra reticular (SNR) part of cats to nociceptive electrical stimulations and change of these responses under the action of electroacupuncture (EA) in the area corresponding to the Tsui-Sang-Li point in man have been studied. The most of the neurons studied (72.1%) responded to nociceptive stimulation either with excitation of inhibition of the impulsive activity. The EA eliminated or changed the effect of nociceptive stimulation in 73.2% of the SNR nociceptive responsive neurones. Intravenous naloxone administration blocked the effect of EA depending on a dose. A conclusion has been made that the SNR neurones are involved in the modulation of nociceptive transmission and that the EA action is directed to some restoration of the nociceptive disturbed balance between the excitatory and inhibitory processes in the SNR neuronal population.