Electrophysiological investigation of tecto-thalamo-telencephalic relations in frogs

Projections of the tectum mesencephali to the thalamus and telencephalon were investigated inRana temporaria. Individual cells in the optic neuropil of the lateral zone of the thalamus (corpus geniculatum thalami, n. Bellonci) and n. geniculatus lateralis respond to stimulation of the tectum mesencephali and to flashes but not to somatic stimuli. Many of the tectally reactive neurons in the medio-central zone of the thalamus, including n.postero-centralis, n.postero-lateralis, and n.rotundus, and in the telencephalon (the primordium of the hippocampus and septum) are convergent for somatic and visual impulses. The character of the macroresponses and spike responses to stimulation of the tectum mesencephali is the same for both zones of the thalamus. Tetanization within the lateral zone of the thalamus inhibits the conduction of visual and tectal impulses to the telencephalon, whereas during tetanization of the medio-central zone only the later components of visual and tectal evoked potentials of the telencephalon are suppressed. Responses with shorter latency than to stimulation of the medio-central zone arise in the telencephalon (primordium of the hippocampus) in response to electrical stimulation of the lateral zone by single pulses. In frogs the two divisions of the visual system — thalamo-telencephalic and tecto-thalamo-telencephalic — thus overlap considerably at the level of the thalamus and completely at the telencephalic level. In vertebrate phylogeny there is a progressive demarcation and specialization of these two visual channels.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 5, No. 2, pp. 147–155, March–April, 1973.     

Postsynaptic inhibition in the primordial hippocampus of the frog

Postsynaptic responses of neurons of the primordial hippocampus to electrical stimulation of brain structures belonging to the visual and olfactory afferent systems were investigated in frogs (Rana temporaria) immobilized with diplacin. * Short-latency (early) and long-latency (late) IPSPs evoked by both olfactory and visual afferent inputs, most probably activated by different conducting systems, are described. Impulses of different modalities can induce both similar and different IPSPs in a neuron. The conducting systems may have a common interneuron for the visual input and specific interneurons for the olfactory input. IPSPs evoked by visual impulses were similar in location to the early IPSP of the olfactory afferent input. Convergence of the systems of early and late inhibition on one neuron was frequently observed for the olfactory afferent input.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 5, No. 6, pp. 583–592, November–December, 1973.     

Excitation and inhibition in the visual center of Rana temporaria

Analysis of postsynaptic unit responses in the visual center ofRana temporaria showed that optic nerve fibers with high and low conduction velocities usually converge on a single neuron of the tectum opticum (TO). In response to stimulation of the optic nerve a complex depolarization potential consisting of 3 (or possibly 4) EPSPs was recorded in one group of neurons; these EPSPs were probably generated through excitation of several groups of afferent fibers. Either an increase or a decrease in the EPSPs can be observed in the TO neurons in response to repetitive and paired stimulation of the optic nerve. Postsynaptic inhibitory responses of some TO neurons, probably of direct and recurrent origin, are discussed.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 3, No. 6, pp. 637–643, November–December, 1971.     

Electrophysiological investigation of effect of pulvinar stimulation of caudate nucleus neurons that react to visual stimulation

Responses of caudate neurons to electrical stimulation of the afferent input from thepulvinar thalamic nucleus and to visual stimuli of various orientations were studied extracellularly in awake chronic cats. Activation responses dominated among reactions of these neurons. The response latencies have ranged from 4 to 85 msec for units with primary activation and from 20 to 150 msec for inhibited ones. The values are indicative of both rapidly and slowly conducting afferent pathways. A possibility of monosynaptic transmission in thepulvinarcaudate projections is also revealed.Pulvinar stimulation is found to be efficient for a significant (more than 50 percent) number of caudate neurons responding to visual stimuli, including orientation-selective cells. The mode of influences from other structures of the visual system (optic tract, area 17, the Clare-Bishop area) on caudate neurons responding topulvinar stimulation is described. The data are discussed with respect to the possible role of cortical and subcortical projections of the visual system in the creation of sensory specific responses of the caudate nucleus.A. A. Bogomolets Physiology Institute, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 23, No. 5, pp. 520–529, September–October, 1991.     

The development of connections in the tecto-thalamo-telencephalic visual system of the brain in 13-day-old chick embryos

Light and electron microscopic studies have been made on degenerative changes in the nervous tissue induced by experimental destruction of the median brain bulb at the 5th day of incubation, in parts of the tecto-thalamo-telencephalic visual system in 13-day chick embryos (in the visual tectum, round nucleus of the thalamus and ectostriatum of the telencephalon). It was shown that to this period tecto-thalamic connections are already formed in the visual system, whereas thalamo-telencephalic connections are, presumably, indirect ones.     

Comparative electrophysiological characteristics of afferent representation in the cortical and striatal divisions of the turtle forebrain

In experiments on immobilized, lightly anesthetized turtles the presence of visual and somatic representation was established in the subcortical striatal division of the forebrain — the pallial thickening, the dorsal ventricular ridge, and the putamen. In their physiological characteristics they are similar to the corresponding representation in the general cortex. The absence of significant differences between the latent periods of cortical and striatal evoked potentials to flashes and to stimulation of the dorsal thalamus indicates that visual projection fibers (from the lateral geniculate body) terminate at both cortical and striatal levels. Differences in the distribution of latent periods of unit responses in the cortex to visual and thalamic stimulation are due to the presence of a rotundo-telencephalic visual channel, with direct connections with the striatal and polysynaptic connections with the general cortex, as well as the geniculo-telencephalic tract. Considerable differences between the latent periods of the evoked potentials and also between unit responses to electrodermal stimulation in the cortical and striatal structures indicate that somatic projection fibers relay in the striatum on their path to the general cortex. Consequently, the somatosensory system of turtles is less corticalized than the visual system. Comparison of the results described with those obtained by workers studying other vertebrates suggests that the afferent supply of the striatum may be reorganized in the transition from premammals to mammals.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 7, No. 2, pp. 184–193, March–April, 1973.     

Somatic embryogenesis and organogenesis in callus cultures of a tree legume — Albizia richardiana King

Hypocotyl explants of 1 and 10 mm lengths were excised from 12-day-old in vitro-grown seedlings of Albizia richardiana. The larger pieces, after 40 days of culture, developed shoots along with green calli on B₅ + BAP (10^–7–10^–5M), while the smaller segments produced only green calli on B₅+BAP (10^–7–10^–4M) medium. Some of the green calli turned morphogenic and started producing somatic embryos with the 2nd sub-culture and shoots from 7th sub-culture onwards. Calli retained the morphogenic potential even after repeated sub-culturing for over two years. The number of embryos in an embryogenic culture varied from 2 to 20 per callus mass of 5–6.5 cm³. Sucrose at the 2% level in MS medium was optimal for embryogenesis while 4% was optimal for shoot bud differentiation. Higher levels of sucrose (6–10%) caused browning of green calli and also inhibited differentiation into embryos and shoot buds. By selective sub-culturing of 0.1 cm³ pieces of embryogenic calli on MS+10^–5M BAP, 46% of the cultures produced somatic embryos. The latter germinated into plantlets on Knop's medium.Abbreviations BAP 6-benzylaminopurine - B₅ Gamborg et al., 1968 medium - IAA Indole-3-acetic acid - MS Murashige and Skoog's (1962) medium     

A new approach to direct somatic embryogenesis in Medicago

A highly efficient system for direct somatic embryogenesis is described. Leaf sections originating from young trifoliate leaves of Medicago falcata line 47/1–5 and Medicago sativa line No2/9R, directly produced embryos after cultivation in liquid B5IV induction medium. In comparison with indirect somatic embryogenesis the system omits the callus stage and thus allows shortening of the process of somatic embryogenesis in alfalfa by 35–40 days. It permits the avoidance of secondary changes occurring during the process of dedifferentiation. A modified B5/3H medium containing Polyethylene Glycol 6000 promoted embryo development from globular up to torpedo stage. It was clearly shown that 2.5% Polyethylene Glycol stimulated this process for both H. falcata 47/1–5 and M. sativa No 2/9R. Maturation of torpedo stage embryos was carried out on solidified or liquid abscisic acidcontaining medium. A 30M abscisic acid concentration was optimal in allowing one embryo to yield one plant. Somatic embryo conversion to plants and plant regeneration was performed on Murashige and Skoog medium. Regenerated plants showed a normal morphology.Abbreviations ABA Abscisic acid - B5 Medium of Gamborg et al.(1968) - COT Cotyledone stage embryos - 2,4-D 2,4-dichlorphenoxyacetic acid - FW Fresh weight - GA3 Gibberellin A3 - MS Medium of Murashige and Skoog (1962) - PEG Polyethylene Glycol - POLY Polyembryos     

Electrophysiological investigation of pathways in the middle cervical sympathetic ganglion of the turtle

Single unit responses in the middle cervical sympathetic ganglion ofEmys orbicularis to stimulation of other nerves and changes in these responses during the action of sympathetic blocking agents on the ganglion were investigated. The results showed that some fibers of the cervical sympathetic trunk of the turtle are interrupted in this ganglion. Postganglionic fibers pass out of the ganglion and enter the lateral branch and the sympathetic trunk. Other fibers pass through the ganglion without interruption and, together with postganglionic fibers, leave the ganglion in the cervical sympathetic trunk in a cranial direction. The velocity of conduction of excitation along the preganglionic fibers is between 4–3 and 2–1.5 m/sec and along the postganglionic fibers between 4–2.6 and 0.7–0.5 m/sec (fibers of types B₂ and C). Synaptic delay in the fast-conducting fibers averages 6.6 msec. Preganglionic fast-conducting fibers form synaptic contacts on neurons with type B₂ axons, while preganglionic slow-conducting fibers form contacts on neurons with type C axons. Terminals of two preganglionic fibers differing very slightly in their threshold of excitability, and probably constituting the same group, converge on some neurons.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukranian SSR, Kiev. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 83–89, January–February, 1972.     

Plant regeneration from immature embryos of peanut

Plant regeneration from immature embryos of peanut (Arachis hypogaea L.) can be accomplished through somatic embryogenesis. The highest frequency of somatic embryo formation occurred on B5 medium plus 0.5–1.0 mg/l picloram. Shoots and plants developed from the somatic embryos only after extended culture on basal medium. Shoots were excised from thick embryonic roots and rerooted on Murashige and Skoog medium containing half the normal concentration of inorganic salts. This technique should be useful for the production of interspecific hybrid plants from immatureArachis embryos.     

Regeneration of somatic embryos from protoplasts isolated from an embryogenic suspension culture of white spruce (Picea glauca)

Regeneration of white spruce (Picea glauca) somatic embryos from protoplasts derived from an embryogenic suspension culture was accomplished using a culture medium containing 2 mgl^–1 2,4-D and 1 mgl^–1 6-BAP. Divisions within 2 days led to plating efficiencies in the order of 24% after 9 days. A reduction in the osmoticum, necessary for sustained growth, was carried out gradually over 30 days. Embedding in agarose and culture in 5 cm petri dishes prior to transfer of agarose blocks to a bead type culture, led to the formation of somatic embryos as early as 23 days after isolation and yielded plating efficiencies in the order of 5–10% after 35 days culture.     

Plantlet regeneration from encapsulated somatic embryos of hybrid Solanum melongena L

High frequency somatic embryogenesis was induced from leaf expiants of F1 hybrid Solanum melongena L. on Murashige and Skoog's medium supplemented with 8.0 mg/1 NAA and 0.1 mg/1 Kn. The somatic embryos were encapsulated in various concentrations (2–6%) of sodium alginate and complexed with calcium chloride (25–100mM): 3% sodium alginate and 75 mM calcium chloride were found to be optimal for encapsulation. The encapsulated somatic embryos were transferred to various conversion media in vitro and in vivo. The frequency of plantlet regeneration varied from 27.0–49.7% in vitro and 2.0–4.5% in vivo.Abbreviations IAA indole-3-acetic acid - IBA indole-3-butyric acid - Kn Kinetin - MS Murashige and Skoog (1962) - NAA naphthalene acetic acid     

The ultrastructure of somatic neuromuscular junctions in the tick Amblyomma variegatum (Fabr.)

Summary Injections of large doses of horseradish peroxidase (HRP) into the telencephalon of the squirrel fish (Holocentrus rufus) revealed the first anatomical evidence for a visual thalamo-telencephalic projection in a teleost. The central optic nucleus of the thalamus appears to be the only visual thalamic nucleus projecting to the telencephalon in this species. Since the central optic nucleus has a large tectal input but not a direct one from the retina, it is suggested that a retino-geniculo-telencephalic pathway does not exist in this species. Acknowledgements. The author is grateful to Drs. J. Maldonado, Dietrich Meyer and Henning Scheich for encouragement and support in this endeavor. The study was supported by: National Institutes of Health grant EY-02014 and EY-03264, a NIH grant to Dr. José del Castillo and the German Science Foundation (SFB 45)     

Fertile somatic hybrid between sexually incompatible Hyoscyamus muticus and Hyoscyamus albus

Summary Somatic hybrid plants have been regenerated from fused protoplasts of a chlorophyll deficient mutant of H. muticus (2n=28) with wild type protoplasts of H. albus (2n=68). The inability of protoplasts of H. albus to regenerate was utilized in complementation with achlorophyllous, but regenerating, protoplasts of H. muticus for the selection of green somatic hybrid colonies and plants. The somatic hybrid plants showed intermediate morphological characters, and possessed 82–120 chromosomes, with a modal number of 96 which is also the amphidiploid complement of the two species. The isozyme patterns indicated the presence and expression of genes from both parents. The hybrid plants produced 33–78% viable pollen and set viable seeds upon selfing and backcrossing in a directional manner.     

Restoration of retino-tectal connections in frogs during regeneration of the optic nerve

At various times after unilateral division of the optic nerve in the frogRana temporaria L. evoked potentials in response to electrical stimulation of the optic nerve were investigated in a segment distal to the site of operation, spike activity was recorded from endings of regenerating and intertectal axons when stimuli of different shapes were placed in the field of vision, and the distribution of axonal bulbs of growth by depth in the tectum mesencephal was studied electron-microscopically. During regeneration of the axons the responses of the retinal ganglionic cells to visual stimuli retained most of their individual features. Myelinated axons of the retinal ganglionic cells regenerate first (starting on the 21st day after operation). Myelination of these fibers lags significantly behind their growth and is complete more than 100 days after the operation. Unmyelinated axons of the retinal ganglionic cells grow up toward the tectum mesencephali after myelinated axons (80 or more days after the operation). Axonal bulbs of growth in the initial periods after the operation are located close to the pial surface and the level of spread of the myelinated axons of the retinal ganglionic cells differs significantly from their normal level of localization. Intertectal connections persist after division of the nerve and are activated by visual stimuli during regeneration of the axons of the retinal ganglionic cells. Connections were found mainly between intertectal fibers terminating superficially and retinal ganglionic cells belonging to class 1 and 2 detectors. Axons of the retinal ganglionic cells grow up toward the caudal region of the tectum mesencephali later than toward the rostral region.A. N. Severtsov Institute of Evolutionary Morphology and Ecology of Animals, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 5, No. 6, pp. 611–620, November–December, 1973.     

Convergence of autonomic,somatic, and vestibular afferent impulses on single units of the medullary vasomotor center of the cat

Responses of vasomotor neurons of the cat medulla to electrical stimulation of the depressor nerve and of mixed nerves of the limbs and to adequate stimulation of the vestibular apparatus were investigated. Evoked unit activity was demonstrated as groups of action potentials followed by inhibition of spontaneous activity. Three types of unit responses to stimulation of the depressor nerve and somatic afferent fibers and changes in unit activity in response to vestibular stimulation are described. The features distinguishing the convergence of afferent impulses on vasomotor neurons are discussed.Institute of Medico-Biological Problems, Ministry of Health of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 5, No. 5, pp. 460–467, September–October, 1973.     

Electrical activity of thalamocortical association systems in postnatal ontogeny of the cat

Electrical responses to somatic, photic, and acoustic stimulation in the sensomotor, parietal, temporal, and occipital regions of the cortex were studied in the nucleus lateralis posterior and nucleus ventralis lateralis of the thalamus by recording averaged evoked potentials in kittens (aged 3 to 41 days) anesthetized with pentobarbital. A definite order of maturation of afferent inputs into cortical association areas was demonstrated. The parietal cortex was shown to become polysensory before the sensorimotor cortex. It is suggested that the nucleus lateralis posterior is the main thalamic nucleus responsible for conduction of visual information to the cortex in kittens during the first month of life. Incorporation of this nucleus into the system conducting somatic impulsation to the sensorimotor cortex takes place by the age of 3 weeks.A. A. Zhdanov Leningrad State University. Translated from Neirofiziologiya, Vol. 14, No. 5, pp. 476–482, September–October, 1982.     

Crossed and uncrossed afferent inputs of mesocerebral neurons of the mollusk Planorbis corneus

Experiments on the isolated ganglionic ring of the freshwater molluskPlanorbis corneus showed that more neurons (30%) in the ipsilateral mesocerebrum respond to stimulation of the left cerebral nerves than to stimulation of the opposite nerves (13%). A similar picture is observed for neurons of the right mesocerebrum, except that 11% of neurons respond to activation of the left cerebral nerves compared with 39% to stimulation of the ipsilateral right cerebral nerves. Ipsilateral connections of nerve of the visceral complex of ganglia are more clearly defined, as is exemplified by the left pallial nerve, during stimulation of which 68% of neurons in the ipsilateral mesocerebrum were activated, compared with 8% in the contralateral right mesocerebrum. Afferent fibers running in the visceral nerves cross at the level of the abdominal ganglion and not of the cerebral commissure, as might be expected from the structure of the ganglionic ring. The mesocerebral neurons themselves do not form synaptic connections between the mesocerebra, and excitation reaching one of them does not therefore induce any effects in the other.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 5, No. 6, pp. 571–575, November–December, 1973.     

The slow negative wave of the evoked potential of the frog midbrain tectum

A surface-negative slow wave (SW) with a latent period of 50–60 ms, an amplitude of up to 3 mV, and a duration of 0.5–1.5 sec follows the postsynaptic components in the potential of the midbrain tectum (MBT) of a curarized frog (Rana temporaria L.) evoked by electrical stimulation of the optic nerve. The SW develops as a result of the arrival of a synchronous afferent volley along amyelinic fibers; it is generated as a result of depolarization of radially oriented cellular elements; the periventricularly located parts of these structures serve as the source of the current. In the case of rhythmical stimulation, the SW is summed to a value exceeding 10 mV, while at the beginning of stimulation with a frequency of 10–40/sec, the SW is facilitated. After the injection of picrotoxin, selective sensitivity of the SW to this substance was not found. An SW also develops from direct stimulation of the MBT. Comparison of the results of recording neuronal activity shows that the SW is connected with direct afferent inhibition. It is assumed that the SW is generated by elements of the ependymoglia.A. N. Severtsov Institute of Evolutionary Animal Morphology and Ecology, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 3, No. 2, pp. 145–153, March–April, 1971.     

Tegmento-telencephalic relations in turtles

Electrophysiological characteristics of tegmental projections in the forebrain were studied in immobilized turtles (Emys orbicularis), anesthetized with chloralose. The main zone of representation of the tegmentum is located in the striatum, where evoked responses with shorter latencies were recorded and a larger number of units responding distinctly to tegmental stimulation was concentrated than in the dorsal ventricular ridge and general cortex. At the striatal level predominance of lateral tegmental projections was found in the lateral zone and of medial tegmental projections in the medial zone of the striatum. An inhibitory action of conditioning stimulation of the tegmentum on somatic evoked potentials and single unit responses was established. An attempt was made to compare the tegmento-telencephalic system in reptiles and mammals.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 12, No. 3, pp. 255–263, May–June, 1980.