A mathematical model of electrical transduction events in crayfish stretch receptors
نویسندگان
چکیده
Crayfish (A. astacus) stretch receptors are an example of invertebrate muscle stretch receptors. They show strong homology to mammalian muscle spindles and bi-polar neurons in D. melanogaster, which are typical, non-ciliated, multi-dendritic, afferent neurons. Such receptors are observed in many species and perform an important sensory role. However, they are poorly characterised. A previous bio-mechanical and behavioural model of A. astacus stretch receptors was produced, using the principles of elasticity and tension in a spring to describe the adaptation of a mechano-sensory ending. This model has proven to be a reliable predictor of the changing mechano-sensory currents in the receptor under a stretch protocol. Through a re-implementation of the original model, from the relationships therein encoded, and via the incorporation of additional descriptions of voltage-gated channels commonly present in neurons, the model was updated to present a more complete picture of the initiation of the receptor potential of mechano-receptor in the presence of a stretching stimulus. It was shown that the addition of simple voltage-dependent sodium and potassium currents to the initial mechano-sensitive sodium current accounted for most of the initial stretch response of the receptor. This model has the potential for expansion to fully describe the behaviour of non-ciliated mechano-sensors and predict the sub-cellular mediators of mechanotransduction.
منابع مشابه
A general mathematical model of transduction events in mechano-sensory stretch receptors.
Crayfish (Astacus astacus) muscle stretch receptors show strong homology to mammalian muscle spindles and bipolar neurons in D. melanogaster. All are typical, non-ciliated, stretch-sensitive, afferent neurons. Such receptors are observed in many species and perform an important sensory role. However, they are poorly characterised. A previous study reported a bio-mechanical and behavioural model...
متن کاملEffects of deuterium oxide on mechano-sensory receptor.
In the crayfish stretch receptor organ, a total substitution of D2O for H2O in the bathing solution produced a decrease in the amplitude of the receptor potential to a level of 34% of the control. The electrical resistance of the receptor neuron was slightly increased by the D2O substitution. The input capacitance of the neuron was unchanged. The viscoelastic properties of the receptor muscle w...
متن کاملMicroanatomy of the Abdominal Stretch Receptors of the Crayfish (astacus Fluviatilis L.)
Microanatomical studies on the abdominal stretch receptor organs of the crayfish Astacus fluviatilis L. have been carried out in order to establish a basis for the physiological work that has been, and is being carried out on stretch receptors of various species of crayfish. Important differences have been found between these organs and those previously described by Alexandrowicz for the lobste...
متن کاملSome effects of receptor muscle contraction on the responses of slowly adapting abdominal stretch receptors of the crayfish.
It has been known for many years that stimulation of the motor nerves to vertebrate muscle spindles leads to an increase in the frequency of discharge of the receptor afferent when the muscle is at a constant length (Matthews, 1933; Leksell, 1945; Kuffler, Hunt & Quilliam, 1951). Recently it has been found in muscle-spindle primary endings of cat and rabbit (Matthews, 1962; Emonet-Denand, Lapor...
متن کاملControl of abdominal extension in the freely moving intact crayfish cherax destructor. I. Activity Of the tonic stretch receptor
Electrical recordings were made from the sensory neurone of the tonic muscle receptor organ in the abdomen of the intact, freely behaving crayfish Cherax destructor. Slow extensions of the abdomen were evoked by lowering a platform from beneath the suspended crayfish, and the movements and tonic sensory neurone activity were video-recorded simultaneously. The recordings showed that the tonic se...
متن کامل