И. С. Захаров scite author profile

A group of serotonergic cells, located in the pedal ganglia of Helix lucorum, modulates synaptic responses of neurons involved in withdrawal behavior. Extracellular or intracellular stimulation of these serotonergic cells leads to facilitation of spike responses to noxious stimuli in the putative command neurons for withdrawal behavior. Noxious tactile stimuli elicit an increase in background spiking frequency in the modulatory neurons and a corresponding increase in stimulus-evoked spike responses in withdrawal interneurons. The serotonergic neurons have processes in the neuropil of the parieto-visceral ganglia complex, consistent with their putative role in modulating the activity of giant parietal interneurons, which send processes to the same neuropil and to the pedal ganglia. The serotonergic cells respond to noxious tactile and chemical stimuli. Although the group as a whole respond to noxious stimuli applied to any part of the body, most cells respond more to ipsilateral than contralateral stimulation, and exhibit differences in receptive areas. Intracellular investigation revealed electrical coupling between serotonergic neurons which could underlie the recruitment of members of the group not responding to a given noxious stimulus.

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A Single Serotonergic Modulatory Cell Can Mediate Reinforcement in the Withdrawal Network of the Terrestrial Snail

Balaban

Bravarenko

Максимова

et al. 2001

Neurobiology of Learning and Memory

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Postembryonic neuronogenesis in the procerebrum of the terrestrial snail,Helix lucorum L.

et al. 1998

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Öz: Karasal salyangoz (Helix lucorum L.), Helicidae ailesine ait, ormanlarda ve nemli bölgelerde yaşar; yaprak, ağaç kabuğu ve bol miktarda selüloz içeren bitkilerden beslenir. Karasal salyangozun sindirim sistemi, sellülözik materyali sindirebilen özel enzim bileşenlerine sahiptir. Aseto karmin, Aceto orsein, Feulgen ve farklı boyar maddeler kullanılarak yapılan kromozom ve karyotip analizi çalışmalarında, türe ait karakterlere bağlı olarak kromozom boyu, tanen miktarı ve kromozom karşılaştırmalarında sorunlar yaşanmıştır. Kara salyangozu midesinin enzimatik bileşenleri, sitoplazma ve hücre duvarı yumuşaması üzerinde etkili olmuştur. Çalışmada, çavdar (Secale spp.) bitkisine ait iki türde, en iyi ve kolay şekilde kromozomların ayrılması ve dağılması amacıyla bu bileşenler kullanılmıştır. Sitaz ve diğer enzimlerin aktif bir karışımını içeren enzimatik bileşenleri kullanmak amacıyla, karasal salyangozlar İran'ın kuzey batısındaki nemli Arasbaran Ormanları'ndan toplanmış, bileşenler elde edilmiş ve soğuk koşullarda muhafazası sağlanmıştır. İki çavdar türünün (Secale cereale L. ve S. montanum) çimlenmiş tohumlarının kök uçları α-bromonaftalin solüsyonunda ön işleme tabi tutulmuş ve aseto-iron hematoxylin boyar madde ile boyanmıştır. Daha sonra, sitoplazmayı belirginleştirmek, hücre duvarını yumuşatmak ve tatminkar bir kromozom yayılması ve ayrılması elde etmek amacıyla kara salyangozu midesinden elde edilen enzimler kullanılmıştır. Araştırma sonucunda kara salyangozu midesinin enzimatik bileşenleri kullanılarak, her iki türde kromozomlar açık bir şekilde ayırt edilmiş ve, iyi bir metafaz safhası ve dağılımı gözlemlenmiştir. Kromozomlar bozulmadan kalırken, tüm hücrelerin tamamen ayrılması kolay bir şekilde sağlanmıştır. Çavdar türleri (Secale spp.) 2n=2x=14 kromozoma sahiptir ve diploiddir. Her iki türde de satellit (uydu) kromozom vardır ve satellitler, kromozomların kısa kolları üzerinde bulunmaktadır. Karyotype Analysis of Rye (Secalespp.) Species by Using the Extracted Enzyme from the Terrestrial Snail Stomach (Helix lucorum L.

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The Activity of Isolated Neurons and the Modulatory State of an Isolated Nervous System Represent a Recent Behavioural State

Dyakonova

Hernádi

Ito

et al. 2015

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Behavioural/motivational state is known to influence nearly all aspects of physiology and behaviour. The cellular basis of behavioural state control is only partially understood. Our investigation, performed on the pond snail Lymnaea stagnalis whose nervous system is useful for work on completely isolated neurons, provided several results related to this problem. First, we demonstrated that the behavioural state can produce long-term changes in individual neurons that persist even after neuron isolation from the nervous system. Specifically, we found that pedal serotonergic neurons that control locomotion show higher activity and lower membrane potential after being isolated from the nervous systems of hungry animals. Second, we showed that the modulatory state (the chemical neuroactive microenvironment of the central ganglia) changes in accordance with the nutritional state of an animal and produces predicted changes in single isolated locomotor neurons. Third, we report that observed hunger-induced effects can be explained by the increased synthesis of serotonin in pedal serotonergic neurons, which has an impact on the electrical activity of isolated serotonergic neurons and the intensity of extrasynaptic serotonin release from the pedal ganglia.

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